EIC Accelerator Requirements
Electron Ion Collider
Requirements
Performance requirements for the EIC accelerator complex and sub-systems.
- NameWBSDescriptionUpdatedStatusTBD
- CRYO : Cryogenics System (WBS 6.09)
- CRYO-2K_SAT : Cryogenics System 2K Satellite Plant (WBS 6.09.02.02)
- 6.09.02.02Cold compressor motors, valve operators, and instrumentation & controls shall be located to allow for convenient operation, inspection, maintenance, and troubleshooting.11/13/2023APPROVEDFALSE
- 6.09.02.02When working on the inside of the cold box shall be provided with easy access to all internal components via an internal ladder.11/13/2023APPROVEDFALSE
- 6.09.02.02Access to the inside of the cold box shall be via a manway located near the floor having a diameter of at least 28 inches11/13/2023APPROVEDFALSE
- 6.09.02.02For air ventilation when working on the inside of the cold box, a flanged plate at the top of the cold box shall be provided having a diameter of at least 8 inches11/13/2023APPROVEDFALSE
- 6.09.02.02Access platforms shall be placed at the top of the cold box.11/13/2023APPROVEDFALSE
- 6.09.02.02The access platforms on top of the cold box shall be designed to carry a load of at least 150 lbs. per square foot.11/13/2023APPROVEDFALSE
- 6.09.02.02Diffusion pumps shall be mounted at an accessable location on the cold box and shall have an isolation valve.11/13/2023APPROVEDFALSE
- 6.09.02.02The diffusion pumps shall be adequately sized to evacuate cold box vacuums within 48 hours to a pressure level of better than <1 x 10e5 Torr11/13/2023APPROVEDFALSE
- 6.09.02.02The vacuum pump shall be large enough for the diffusion pump to cross over from rough vacuum pressure.11/13/2023APPROVEDFALSE
- 6.09.02.02The vacuum pump port shall be a minimum size of ISO 25011/13/2023APPROVEDFALSE
- 6.09.02.02A vacuum gate valve of at least the size of the diffusion pump port shall be installed between the cold box and its vacuum system.11/13/2023APPROVEDFALSE
- 6.09.02.02The vacuum gate valve installed between the cold box and its vacuum system shall close upon any power outage.11/13/2023APPROVEDFALSE
- 6.09.02.02The vacuum gate valve installed between the cold box and its vacuum system shall allow the replacement of vacuum system components without breaking the cold box vacuum.11/13/2023APPROVEDFALSE
- 6.09.02.02All vacuum valve ports of vessels with multi-layer insulation shall be properly screened to prevent inlet blockages.11/13/2023APPROVEDFALSE
- 6.09.02.02An additional connection and vacuum valve on the cold box shall be provided as a back-up connection.11/13/2023APPROVEDFALSE
- 6.09.02.02The cold box back-up vacuum valve connection port shall be at least 150 ISO11/13/2023APPROVEDFALSE
- 6.09.02.02Should there be a failure of any component in the cold box, the cold box vacuum vessel shall be equipped with a relief device sized to handle 125% of the flow from the cold box high pressure supply at the maximum design capacity. units11/13/2023APPROVEDFALSE
- 6.09.02.02The cold box vacuum shall be able to be pumped down from atmospheric pressure to its operational pressure within 24 hrs11/13/2023APPROVEDFALSE
- 6.09.02.02The cold box shall be permanently equipped with all components required to introduce warm gas into the heat exchangers and to remove any contaminants.11/13/2023APPROVEDFALSE
- 6.09.02.02The cold box shall have Dual carbon beds at 80 K.11/13/2023APPROVEDFALSE
- 6.09.02.02The 80K Dual carbon beds shall have a regeneration period of less than 2 days11/13/2023APPROVEDFALSE
- 6.09.02.02The 80K Dual carbon beds shall reduce flow impurities in the system to less than xxx, given an inlet impurity level of 100 ppmv <1 ppmV11/13/2023APPROVEDFALSE
- 6.09.02.02The 80K Dual carbon beds shall a minimum bed life of >1 mnth11/13/2023APPROVEDFALSE
- 6.09.02.02The 80K Dual carbon beds pressure drop through the adsorber beds shall not exceed <0.5 atm11/13/2023APPROVEDFALSE
- 6.09.02.02The final filtration stage shall have a residual contamination of oil of less than <1 ppb by volume11/13/2023APPROVEDFALSE
- 6.09.02.02A local rack and panel shall be provided to display the trace contamination within the helium gas process stream for the cold box mounted instrumentation and internal 80K absorber bed instrumentation.11/13/2023APPROVEDFALSE
- 6.09.02.02The High pressure helium stream of the system shall have dual mole-sieve beds to remove moisture. It shall contain all the circuits for regeneration and shall minimize helium usage during regeneration. The exit dewpoint shall be xx or better. 80 °C11/13/2023APPROVEDFALSE
- 6.09.02.02The satellite refrigerator shall be designed to have the following operating modes; 1. A 2 K steady state operation mode, 2. A transient operation mode, 3. A 4.5 K standby operation mode, 4. A cool down mode from 300K to 3.5K within 12 hours, 5. A warm up mode, and 6. A minimum possible turndown mode11/13/2023APPROVEDFALSE
- 6.09.02.02The cold box shall be designed for a cool down from 300K to 3.5K and warm up from 3.5K to 300K within 12 hrs 12 hrs11/13/2023APPROVEDFALSE
- 6.09.02.02The refrigeration system shall be able to operate in standby mode with the atmospheric compressor at 4.5K or with the sub-atmospheric compressor, at 3.5K, based on the operating conditions specified.11/13/2023APPROVEDFALSE
- 6.09.02.02The refrigeration system shall provide the minimum possible turndown based on the operating conditions specified.11/13/2023APPROVEDFALSE
- 6.09.02.02All cold box reliefs shall be placed only on vertical piping which drains toward the compressors.11/13/2023APPROVEDFALSE
- 6.09.02.02The main process relief valves shall be located indoors to maintain integrity and reliability of the valves.11/13/2023APPROVEDFALSE
- 6.09.02.02A pressure systems plan and verification with validation methods and testing procedures shall be provided.11/13/2023APPROVEDFALSE
- 6.09.02.02Equipment and piping shall be designedto ASME BPVC VIII and B31.3 Process Piping11/13/2023APPROVEDFALSE
- 6.09.02.02ODH: All major reliefs shall be piped to discharge outside of building11/13/2023APPROVEDFALSE
- 6.09.02.02All cold box reliefs shall be situated on vertical piping which drains toward compressors11/13/2023APPROVEDFALSE
- 6.09.02.02Expander inlet filters shall be located outside of the cold box.11/13/2023APPROVEDFALSE
- 6.09.02.02Expander inlet filters shall have a properly sized filter to prevent particles from entering which are >10 microns11/13/2023APPROVEDFALSE
- 6.09.02.02The expander bearing gas supply, gas break circuit shall have a properly sized filter to prevent particles from entering which are >10 microns11/13/2023APPROVEDFALSE
- 6.09.02.02The LP inlet of warm compressors shall have a 304SS temporary strainer with 300 mesh 300% O, 1/16" PERF and the screen must be easily removable for cleaning.11/13/2023APPROVEDFALSE
- 6.09.02.02The cryogenic system is expected to operate 8 months out of every year.11/13/2023APPROVEDFALSE
- 6.09.02.02Spare parts as offered by each subsystem vendor shall allow the plant to meet its availability requirements of 99%.11/13/2023APPROVEDFALSE
- 6.09.02.02Electrica heater elements inside the coldbox insulating vacuum volume shall have a redudant element11/13/2023APPROVEDFALSE
- 6.09.02.02Temperature sensors inside the coldbox insulating vacuum volume shall have redudant sensors11/13/2023APPROVEDFALSE
- 6.09.02.02All the cryogenic equipment shall be designed to handle no less than 100 thermal cycles.11/13/2023APPROVEDFALSE
- 6.09.02.02UPS & Emergency Power shall be provided to controls, instrument air, vacuum systems11/13/2023APPROVEDFALSE
- 6.09.02.02All process equipment joints and interfaces such as flanges, mechanical joints, and valve stem seals shall be low leakage design to minimize loss of helium to environment. For example for valves ISO-15848-Class AH11/13/2023APPROVEDFALSE
- 6.09.02.02All process piping shall be helium mass spectrometer leak checked to have a leakage rate no greater than 1x109 atm cc/s.11/13/2023APPROVEDFALSE
- 6.09.02.02All process equipment shall be helium mass spectrometer leak checked to have a leakage rate no greater than 1x106 atm cc/s.11/13/2023APPROVEDFALSE
- 6.09.02.02A Helium Gas Management System shall be provided based on process system pressures and flow rates into and out of the helium gas storage system (tied through Warm Return to the Central Plant) and warm helium compressor.11/13/2023APPROVEDFALSE
- 6.09.02.02The piping shall be designed so that pooling oil will flow downward toward compressors and away from the cold box at all times11/13/2023APPROVEDFALSE
- 6.09.02.02The design shall avoid "U bends" in the piping where possible and if the design has "U bends" those bends must contain drains. All "U bends" must be agreed upon with the EIC CRYO team.11/13/2023APPROVEDFALSE
- 6.09.02.02All internal process piping shall be designed with operating and design temperatures in the range of 3.5 to 310 K11/13/2023APPROVEDFALSE
- 6.09.02.02All plate-fin heat exchangers shall be of the counterflow type and be mounted in the vertical oriented position with warm end up.11/13/2023APPROVEDFALSE
- 6.09.02.02Heat exchangers shall have a uniformly applied UA safety margin of 15 %11/13/2023APPROVEDFALSE
- 6.09.02.02The turbo-expander shall be of the gas bearing type.11/13/2023APPROVEDFALSE
- 6.09.02.02The turbo-expander shall have a proven performance history in helium service of at least 20000 hrs11/13/2023APPROVEDFALSE
- 6.09.02.02Expanders shall be provided with appropriate purge connections for warmup and clean-up.11/13/2023APPROVEDFALSE
- 6.09.02.02The purge circuits shall contain flow-limiting orifices and check valves to prevent unexpected rotations of expanders.11/13/2023APPROVEDFALSE
- 6.09.02.02Each cold compressor shall be designed to have individual speed control from a minimum speed close to zero to its maximum speed.11/13/2023APPROVEDFALSE
- 6.09.02.02All helium valves shall be bellows-sealed.11/13/2023APPROVEDFALSE
- 6.09.02.02All helium valves operating sub-atmospherically shall have a test port with a VCR connection.11/13/2023APPROVEDFALSE
- 6.09.02.02Cold compressor motors shall be of the active magnetic bearings type, with variable frequency drive.11/13/2023APPROVEDFALSE
- 6.09.02.02Compressor skid shall consist of an oil flooded screw compressor, a compressor drive motor, an oil injection pump/motor, an oil cooler, a helium gas after-cooler, a bulk oil separator, maintenance seals/gaskets and local operator PLC controls.11/13/2023APPROVEDFALSE
- 6.09.02.02The satellite refrigerator shall include a LN2 precooling system.11/13/2023APPROVEDFALSE
- 6.09.02.02Equipment shall be engineered for minimal noise. If the this is not possible the area will be rated for hearing protection11/13/2023APPROVEDFALSE
- 6.09.02.023 phase high voltage for motors and heaters - 4160V shall be provided for application above 500HP, 480V for applications up to 500HP, 208V for specific lower power draw application.11/13/2023APPROVEDFALSE
- 6.09.02.02Single phase 120V shall be provided for ancillary equipment.11/13/2023APPROVEDFALSE
- 6.09.02.02Vibration levels generated by cryogenic plant elements shall not exceed - TBD (frequency and G-level).11/13/2023APPROVEDTRUE
- 6.09.02.02A UPS shall be provided for the Cryo control racks and cold compressors drive system.11/13/2023APPROVEDFALSE
- 6.09.02.02An emergency generator shall be provided to power air compressor, Cryo control racks and network equipment, water pumps.11/13/2023APPROVEDFALSE
- 6.09.02.02A conditioned space shall be provided for the control racks and a local control room in the satellite building.11/13/2023APPROVEDFALSE
- 6.09.02.02The satellite cryogenic plant at IR10 shall handle the following mode requirements for SRF Cryomodules: Cooldown rate controllable from 10 K/hr maximum over the temperature range 300K-100K, maximum cooldown rate >20 K/hr over the temperature range 100K-4.5K.11/13/2023APPROVEDFALSE
- 6.09.02.02The satellite cryogenic plant shall handle the following mode requirements for SRF Cryomodules: Warmup shall happen using the load heater to boil-off the liquid. Insulating vacuum can be broken to facilitate warmup once the temperature rises above 90K.11/13/2023APPROVEDFALSE
- EIC : Electron-Ion Collider (EIC) System (WBS 6)
- EIC-CONT : EIC Global Controls System (WBS 6.07)
- 6.07The Sampling Rate, high, default shall be 100 KHz11/13/2023PENDINGFALSE
- 6.07The Sampling Rate, low, default shall be 1 KHz11/13/2023PENDINGFALSE
- 6.07The Snapshot A, Time period, total shall be 10 sec11/13/2023PENDINGFALSE
- 6.07The Snapshot A, Time period, before event shall be 9 sec11/13/2023PENDINGFALSE
- 6.07The Snapshot A, Time period, after event shall be 1 sec11/13/2023PENDINGFALSE
- 6.07The Snapshot B, Time period, total shall be 39 sec11/13/2023PENDINGFALSE
- 6.07The Snapshot B, Time period, before event shall be 9 sec11/13/2023PENDINGFALSE
- 6.07The Snapshot B, Time period, after event shall be 30 sec11/13/2023PENDINGFALSE
- 6.07The Value publishing, rate shall be 10 Hz11/13/2023PENDINGFALSE
- 6.07The Correlation, Timestamp resolution, 1Hz data shall be 1 sec11/13/2023PENDINGFALSE
- 6.07The Correlation, Timestamp resolution, 1kHz data shall be 1 ms11/13/2023PENDINGFALSE
- 6.07The Correlation, Timestamp resolution, 1MHz data shall be 1 μs11/13/2023PENDINGFALSE
- 6.07The Correlation, Timestamp resolution, beam synch data shall be 1 turn11/13/2023PENDINGFALSE
- 6.07The AI/ML computations, output rate, max shall be 1 kHz11/13/2023PENDINGFALSE
- 6.07The Statistical computations, array size shall be 100 kS11/13/2023PENDINGFALSE
- 6.07The Statistical computations, publishing rate, min shall be 1 Hz11/13/2023PENDINGFALSE
- 6.07The Synchronization accuracy, bucket to trigger shall be 2 ns11/13/2023PENDINGFALSE
- 6.07The Jitter, for f>1 Hz, maximum RMS value shall be 8 ps11/13/2023PENDINGFALSE
- 6.07The Controls Reliability shall be 97 %11/13/2023PENDINGFALSE
- 6.07The Name lookup period per 1k parameters, max shall be 200 ms11/13/2023PENDINGFALSE
- 6.07The Synoptic display, update rate, max shall be 10 Hz11/13/2023PENDINGFALSE
- 6.07The Synoptic display, parameter count, max shall be 30000 cnt11/13/2023PENDINGFALSE
- 6.07The Tabular display, update rate, max shall be 10 Hz11/13/2023PENDINGFALSE
- 6.07The Tabular display, parameter count, max shall be 10000 cnt11/13/2023PENDINGFALSE
- 6.07The Time series data log, parameter count, max shall be 1000000 cnt11/13/2023PENDINGFALSE
- 6.07The Time series data log, retrieval time, max shall be 1 sec11/13/2023PENDINGFALSE
- 6.07The Time series data log, data retention, min shall be 20 yrs11/13/2023PENDINGFALSE
- 6.07The Snapshot data log, parameter count, max shall be 10000 cnt11/13/2023PENDINGFALSE
- 6.07The Snapshot data log, collection time, max shall be 30 sec11/13/2023PENDINGFALSE
- 6.07The Snapshot data log, data retention, min shall be 20 yrs11/13/2023PENDINGFALSE
- 6.07The Sequencing, supported number of parameters per unit shall be 10000 cnt11/13/2023PENDINGFALSE
- 6.07The Sequencing, command response time, max shall be 100 ms11/13/2023PENDINGFALSE
- 6.07The Alarms, number of parameters monitored shall be 10000 cnt11/13/2023PENDINGFALSE
- 6.07The Alarms, delay from trip to notification, max shall be 20 sec11/13/2023PENDINGFALSE
- 6.07The Values capture, parameter list size, max shall be 100000 cnt11/13/2023PENDINGFALSE
- 6.07The Values capture, time to complete, max shall be 5 min11/13/2023PENDINGFALSE
- 6.07The Values restoration, parameter list size, max shall be 100000 cnt11/13/2023PENDINGFALSE
- 6.07The Values restoration, time to complete, max shall be 5 min11/13/2023PENDINGFALSE
- 6.07The Elog search, latency, max shall be 1 sec11/13/2023PENDINGFALSE
- 6.07The Elog view update period, max shall be11/13/2023PENDINGFALSE
- 6.07The Personnel Protection shall be11/13/2023PENDINGFALSE
- 6.07The ODH monitoring, trip level, min shall be 19.5 %11/13/2023PENDINGFALSE
- 6.07The Chipmunk monitoring, high threshold interlock response time shall be ms11/13/2023PENDINGFALSE
- 6.07The Beamstops, interlock delay contribution to insertion latency shall be sec11/13/2023PENDINGFALSE
- 6.07The Beam Abort Event, response total budget time, max shall be tbd μs11/13/2023PENDINGTRUE
- 6.07The MPS Input Interlock, accuracy, max shall be 10 ns11/13/2023PENDINGFALSE
- 6.07The Beam Abort Event, accuracy, max shall be 10 ns11/13/2023PENDINGFALSE
- 6.07The Vacuum gauges, digital data publishing rate, max shall be 1 Hz11/13/2023PENDINGFALSE
- 6.07The Vacuum gauges, analog snapshot, buffer period, max shall be 10 sec11/13/2023PENDINGFALSE
- 6.07The Vacuum gauges, analog sample rate, max shall be 1 kHz11/13/2023PENDINGFALSE
- 6.07Exceptional cases placeholder TBA11/13/2023PENDINGFALSE
- 6.07The BLMs, Controls response time to excessive loss deviation shall be μs11/13/2023PENDINGFALSE
- 6.07The BPMs, Controls response time to excessive position deviation shall be 12 μs11/13/2023PENDINGFALSE
- 6.07The Vacuum pressure, Controls response time to high deviation shall be μs11/13/2023PENDINGFALSE
- 6.07The Beam abort, Controls maximum response time shall be 36 μs11/13/2023PENDINGFALSE
- EIC-INF : EIC Infustructure (WBS 6.11)
- EIC-INF-XFMR : EIC Infustructure Substation Transformers (WBS 6.11.03.03)
- 6.11.03.03The building substation transformers power input supply shall be compatible with BNL infrastructure, 13.8kV, 3Phase, 3wire.11/13/2023APPROVEDFALSE
- 6.11.03.03The building substation transformers load requirements shall be derived from building loads for unit substation procurement provided by engineering.11/13/2023APPROVEDFALSE
- 6.11.03.03The building substation transformers power output supply shall be compatible with load connections provided by BNL infustructure, 480V, 3Phase, 3wire with high resistance ground.11/13/2023APPROVEDFALSE
- 6.11.03.03The building substation transformers shall be complaint to NEC (NFPA70) and UL standards.11/13/2023APPROVEDFALSE
- 6.11.03.03The building substation transformers shall be designed for maintainability and reliability.11/13/2023APPROVEDFALSE
- 6.11.03.03The building substation transformers shall be designed to mitigate safety and enviromental hazards.11/13/2023APPROVEDFALSE
- 6.11.03.03The building substation transformers shall be designed to be expandable in size and power.11/13/2023APPROVEDFALSE
- EIC-MAG : EIC Magnet Strands and Cable (WBS 6.06.02.07)
- EIC-MAG-DWC_STRAND_TYPE1 : EIC IR Superconducting Direct Wind Conductor Strand Type 1 (0.470mm) (WBS 6.06.02.07)
- 6.06.02.07The 0.470mm direct wind conductor strand shall have the nominal filament diameter of <7μm11/13/2023APPROVEDFALSE
- 6.06.02.07The 0.470mm direct wind conductor strand shall have the nominal filament spacing of >1μm11/13/2023APPROVEDFALSE
- 6.06.02.07The 0.470mm direct wind conductor strand shall have the nominal copper to non-copper ratio of 1.6 to 1 (±0.1)11/13/2023APPROVEDFALSE
- 6.06.02.07The 0.470mm direct wind conductor strand shall have the number of filaments of 200011/13/2023APPROVEDFALSE
- 6.06.02.07The 0.470mm direct wind conductor strand shall have the bare wire diameter of 0.470(±0.005) mm11/13/2023APPROVEDFALSE
- 6.06.02.07The 0.470mm direct wind conductor strand shall have the wire twist direction of right11/13/2023APPROVEDFALSE
- 6.06.02.07The 0.470mm direct wind conductor strand shall have the wire twist pitch of 15 (±2) per/mm11/13/2023APPROVEDFALSE
- 6.06.02.07The 0.470mm direct wind conductor strand shall have the wire sharp bend test that results in no damage11/13/2023APPROVEDFALSE
- 6.06.02.07The 0.470mm direct wind conductor strand shall have the wire springback test of <1090 ? (horiz). & <1200 ? (vert.)11/13/2023APPROVEDFALSE
- 6.06.02.07The 0.470mm direct wind conductor strand shall have the wire minimum critical current (7.0 t and 4.2k) of 105a11/13/2023APPROVEDFALSE
- 6.06.02.07The 0.470mm direct wind conductor strand shall have the variation of measured wire critical current, maximum limit at 7t of ±10%11/13/2023APPROVEDFALSE
- 6.06.02.07The 0.470mm direct wind conductor strand shall have the maximum room temperature resistance of 0.16ohm/m11/13/2023APPROVEDFALSE
- 6.06.02.07The 0.470mm direct wind conductor strand shall have the wire minimum RRR of 10011/13/2023APPROVEDFALSE
- EIC-MAG-DWC_STRAND_TYPE2 : EIC IR Superconducting Direct Wind Conductor Strand Type 2 (0.330mm) (WBS 6.06.02.07)
- 6.06.02.07The 0.330mm direct wind conductor strand conductor shall have the nominal filament diameter of <7μm11/13/2023APPROVEDFALSE
- 6.06.02.07The 0.330mm direct wind conductor strand conductor shall have the nominal filament spacing of >1μm11/13/2023APPROVEDFALSE
- 6.06.02.07The 0.330mm direct wind conductor strand conductor shall have the nominal copper to non-copper ratio of 1.6 to 1 (±0.1)11/13/2023APPROVEDFALSE
- 6.06.02.07The 0.330mm direct wind conductor strand conductor shall have the number of filaments of 99011/13/2023APPROVEDFALSE
- 6.06.02.07The 0.330mm direct wind conductor strand conductor shall have the bare wire diameter of 0.330(±0.005) mm11/13/2023APPROVEDFALSE
- 6.06.02.07The 0.330mm direct wind conductor strand conductor shall have the wire twist direction of right11/13/2023APPROVEDFALSE
- 6.06.02.07The 0.330mm direct wind conductor strand conductor shall have the wire twist pitch of 15 (±2) per/mm11/13/2023APPROVEDFALSE
- 6.06.02.07The 0.330mm direct wind conductor strand conductor shall have the wire sharp bend test that results in no damage11/13/2023APPROVEDFALSE
- 6.06.02.07The 0.330mm direct wind conductor strand conductor shall have the wire springback test of <1090 ? (horiz.)
<1200 ? (vert.)11/13/2023APPROVEDFALSE - 6.06.02.07The 0.330mm direct wind conductor strand conductor shall have the wire minimum critical current (7.0 T and 4.2K) of 57A11/13/2023APPROVEDFALSE
- 6.06.02.07The 0.330mm direct wind conductor strand conductor shall have the variation of measured wire critical current, maximum limit at 7T of ±10%11/13/2023APPROVEDFALSE
- 6.06.02.07The 0.330mm direct wind conductor strand conductor shall have the maximum room temperature resistance of 0.324ohm/m11/13/2023APPROVEDFALSE
- 6.06.02.07The 0.330mm direct wind conductor strand conductor shall have the wire minimum RRR of 10011/13/2023APPROVEDFALSE
- EIC-MAG-SRCC : EIC IR Superconducting Rutherford Conductor Cable (WBS 6.06.02.07)
- 6.06.02.07The superconducting rutherford cable conductor shall have the nominal filament diameter of <7μm11/13/2023APPROVEDFALSE
- 6.06.02.07The superconducting rutherford cable conductor shall have the nominal filament spacing of >1μm11/13/2023APPROVEDFALSE
- 6.06.02.07The superconducting rutherford cable conductor shall have the nominal copper to non-copper ratio of 1.6 to 1 (±0.1)11/13/2023APPROVEDFALSE
- 6.06.02.07The superconducting rutherford cable conductor shall have the number of filaments of 867011/13/2023APPROVEDFALSE
- 6.06.02.07The superconducting rutherford cable conductor shall have the bare wire diameter of 1.065(±0.003) mm11/13/2023APPROVEDFALSE
- 6.06.02.07The superconducting rutherford cable conductor shall have the wire twist direction of right11/13/2023APPROVEDFALSE
- 6.06.02.07The superconducting rutherford cable conductor shall have the wire twist pitch of 18 (±2) per/mm11/13/2023APPROVEDFALSE
- 6.06.02.07The superconducting rutherford cable conductor shall have the wire sharp bend test that results in no damage11/13/2023APPROVEDFALSE
- 6.06.02.07The superconducting rutherford cable conductor shall have the wire springback test of <1090 ? (horiz.) & <1200 ? (vert.)11/13/2023APPROVEDFALSE
- 6.06.02.07The superconducting rutherford cable conductor shall have the wire minimum critical current (7.0 T and 4.2K) of 550A11/13/2023APPROVEDFALSE
- 6.06.02.07The superconducting rutherford cable conductor shall have the variation of measured wire critical current, maximum limit at 7T of ±10%11/13/2023APPROVEDFALSE
- 6.06.02.07The superconducting rutherford cable conductor shall have the maximum room temperature resistance of 0.0314ohm/m11/13/2023APPROVEDFALSE
- 6.06.02.07The superconducting rutherford cable conductor shall have the wire minimum RRR of 4011/13/2023APPROVEDFALSE
- EIS : Electron Injector System (EIS) System (WBS 6.03)
- EIS-GUN : EIS Electron Source Gun (WBS 6.03.04.01)
- 6.03.04.01The Bunch Energy shall be 280 to 350 keV11/13/2023APPROVEDFALSE
- 6.03.04.01The Bunch to Bunch Energy Variation shall be 1.5e-3 dE/E, rms11/13/2023APPROVEDFALSE
- 6.03.04.01The Bunch to Bunch Phase Variation shall be 5 ps, rms11/13/2023APPROVEDFALSE
- 6.03.04.01The Slow Energy Drift (T > 60s) shall be 1E-3 dE/E, rms11/13/2023APPROVEDFALSE
- 6.03.04.01The Slow Phase Drift (T > 60s) shall be 10 ps, rms11/13/2023APPROVEDFALSE
- 6.03.04.01The Bunch Charge (Min) shall be 0.1 nC11/13/2023APPROVEDFALSE
- 6.03.04.01The Bunch Charge (Max) shall be 8 nC11/13/2023APPROVEDFALSE
- 6.03.04.01The Polarization shall be Up to 90 %11/13/2023APPROVEDFALSE
- 6.03.04.01The Polarization Orientation shall be Longitudinal11/13/2023APPROVEDFALSE
- 6.03.04.01The Bunch Length shall be 1.2-1.6 ns, rms11/13/2023APPROVEDFALSE
- 6.03.04.01The Bunch Energy Spread shall be 8e-3 dE/E, rms11/13/2023APPROVEDFALSE
- 6.03.04.01The Bunch Normalized Horizontal Emittance shall be 8 mm-mrad, rms11/13/2023APPROVEDFALSE
- 6.03.04.01The Bunch Normalized Horizontal Emittance Tolerance shall be +/-1 %11/13/2023APPROVEDFALSE
- 6.03.04.01The Bunch Normalized Vertical Emittance shall be 7 mm-mrad, rms11/13/2023APPROVEDFALSE
- 6.03.04.01The Bunch Normalized Vertical Emittance Tolerance shall be +/-1 %11/13/2023APPROVEDFALSE
- 6.03.04.01The Bunch Longitudinal Profile Distribution shall be Beer Can11/13/2023APPROVEDFALSE
- EIS-GUN-CONT : EIS Electron Source Gun Controls System (WBS 6.07.02)
- 6.07.02The polarization monitoring rate shall be 8 bunches at 1 Hz11/13/2023APPROVEDFALSE
- 6.07.02The spin state control command window prior to laser trigger shall be 10 ms11/13/2023APPROVEDFALSE
- EIS-GUN-ESOURCE : EIS Electron Source Gun Electron Beam (WBS 6.03.04.02)
- 6.03.04.02The e-Gun system requires a minimum electrical service 300\208 Amps\Vac11/13/2023APPROVEDFALSE
- 6.03.04.02The maximum power consumption required for the Gun systems should not exceed. 108 kVA11/13/2023APPROVEDFALSE
- 6.03.04.02The gun system shall be designed to operate in a Class 100 (ISO 5) clean room with its temperature maintained at 18 +/- 2 °C11/13/2023APPROVEDFALSE
- 6.03.04.02The gun vacuum shall be able to achieve and maintain <10-11 Torr11/13/2023APPROVEDFALSE
- 6.03.04.02The bunch parameters from the cathode for 5&11GeV operation shall have a bunch charge of 7 nC11/13/2023APPROVEDFALSE
- 6.03.04.02The bunch parameters from the cathode for 18GeV operation shall have a bunch charge of 5 nC11/13/2023APPROVEDFALSE
- 6.03.04.02The bunch parameters from the cathode shall have a initial bunch length (FWHM) of 1.6 ns11/13/2023APPROVEDFALSE
- 6.03.04.02The bunch parameters from the cathode shall have a bunch Diameter(hard edge) within the range of 6-10 mm11/13/2023APPROVEDFALSE
- 6.03.04.02The bunch parameters from the cathode shall have a Longitudinal profile distribution which is flat11/13/2023APPROVEDFALSE
- 6.03.04.02The bunch parameters from the cathode shall have a Transverse Gaussian distribution with a σ of 6 to 10 mm11/13/2023APPROVEDFALSE
- 6.03.04.02The bunch parameters from the cathode shall have a Gun voltage in the range of 290 to 350 keV11/13/2023APPROVEDFALSE
- 6.03.04.02The gun shall be capable of generating four bunches with each bunch separated by at least 12.8295593046379 μs11/13/2023APPROVEDFALSE
- 6.03.04.02The gun shall be capable of reproducing the entire 4 bunch pairs with a repetition rate of 1 Hz11/13/2023APPROVEDFALSE
- 6.03.04.02For 7[nC] bunches the average current from the gun shall be 56 nA11/13/2023APPROVEDFALSE
- 6.03.04.02For 5[nC] bunches the average current from the gun shall be 40 nA11/13/2023APPROVEDFALSE
- 6.03.04.02The gun shall have an operational lifetime of >. 2 Wks11/13/2023APPROVEDFALSE
- 6.03.04.02The electron gun design for pre-injector shall permit the exchange of the cathode in Approx 2 hrs11/13/2023APPROVEDFALSE
- 6.03.04.02Minimum e-Beam polarizationfrom gun shall be >85 %11/13/2023APPROVEDFALSE
- EIS-GUN-INST : EIS Electron Source Gun Instrumentation System (WBS 6.03.04.02.06)
- EIS-GUN-INST-EM : EIS Electron Source Gun Instrumentation Emittance Monitor (WBS 6.03.04.02)
- 6.03.04.02Emittances shall be measured using a profile monitor and a dedicated upstream quadrupole configured to measure H, V, and skew profiles.11/13/2023APPROVEDFALSE
- 6.03.04.02Before the 400 MeV beam goes into the spin rotator, the emittance shall be measured by a quad scan11/13/2023APPROVEDFALSE
- 6.03.04.02The EM shall be able to measure the expected normalized emittance of 40 um11/13/2023APPROVEDFALSE
- 6.03.04.02Beam emittance shall be measured in the low energy diagnostics beamline using a slit scanner and profile monitor11/13/2023APPROVEDFALSE
- EIS-GUN-INST-F_Cup : EIS Electron Source Gun Instrumentation Faraday Cup (WBS 6.03.04.02)
- 6.03.04.02The Faraday cup shall be able to measure the charge of the electron bunches from the gun over a charge range of 0.1 - 14 nC11/13/2023APPROVEDFALSE
- 6.03.04.02The Faraday cup electronics shall require < 3 kW supplied from one 110 Vac, 20 Amp single chase circuit11/13/2023APPROVEDFALSE
- 6.03.04.02The Faraday cup power dissipation shall be less that 1 W11/13/2023APPROVEDFALSE
- EIS-GUN-INST-MOT : EIS Electron Source Gun Instrumentation Mott Polarimeter (WBS 6.03.04.02)
- 6.03.04.02The E-gun charge measurement shall use a Mott polarimeter measurement technique.11/13/2023APPROVEDFALSE
- 6.03.04.02The Mott polarimeter shall provide polarization measurements of 280-350 keV electron bunches with an accuracy >=2 %11/13/2023APPROVEDFALSE
- 6.03.04.02Right and left backscatter acquisition chains shall be incorporated in the design (e-detector, pre-amp, amp, and MCA)11/13/2023APPROVEDFALSE
- 6.03.04.02The Mott polarimeter shall be able to measure the polarization of the electron bunches from the gun.11/13/2023APPROVEDFALSE
- 6.03.04.02The Mott polarimeter shall read beam polarization over a repolarization range of 25 to 90 %11/13/2023APPROVEDFALSE
- 6.03.04.02Over the measurement range the Mott polarimeter shall be accurate to within a resolution of 2 %11/13/2023APPROVEDFALSE
- 6.03.04.02The Mott polarimeter system and electronics shall utilize ~11 kW, from one 208 Vac 3 phase @ 30 amps/phase circuit (It depends on Mott polarimeter design)11/13/2023APPROVEDFALSE
- 6.03.04.02The Mott polarimeter shall function @ 18[C] (nom.) within a temperature stability +/- 2[C]supplied by the gun clean room11/13/2023APPROVEDFALSE
- 6.03.04.02The 280-350 keV Mott polarimeter shall have a bunch charge measurement range of 0.1 to 14 nC11/13/2023APPROVEDFALSE
- 6.03.04.02Th polarimeter shall measure the bunch emittance by slit and beam viewer placed before the 143 deg bending dipole?11/13/2023APPROVEDFALSE
- EIS-GUN-INST-SR : EIS Electron Source Gun Instrumentation Spin Rotator (WBS 6.03.04.02)
- 6.03.04.02In the gun diagnostic line an electrostatic bend spin rotator (based on Illinois Univ. design, 1993) shall be used11/13/2023APPROVEDFALSE
- 6.03.04.02The system shall include two High voltage power supplies and two HV cables11/13/2023APPROVEDFALSE
- 6.03.04.02When bending at 300 keV the system shall have a bend angle of 143 deg11/13/2023APPROVEDFALSE
- 6.03.04.02The system shall be able to bend the electron spin such that the direction after bending is horizontal11/13/2023APPROVEDFALSE
- 6.03.04.02The system shall be able to bend the beam over the range of electron beam energies from 280 to 350 KeV11/13/2023APPROVEDFALSE
- EIS-GUN-LASER : EIS Electron Source Gun Laser (WBS 6.03.04.02)
- 6.03.04.02The Laser system requires a minimum voltage for electrical service 208 Vac11/13/2023APPROVEDFALSE
- 6.03.04.02The Laser power consumption shall be < 40 kW11/13/2023APPROVEDFALSE
- 6.03.04.02The Laser shall be cooled by chillers which also use the laser system power11/13/2023APPROVEDFALSE
- 6.03.04.02The Laser cooling power shall not exceed 20 kW11/13/2023APPROVEDFALSE
- 6.03.04.02The Laser shall be able to function in a clean room having an ambient temperature of 18 +/- 2 CO11/13/2023APPROVEDFALSE
- 6.03.04.02The Laser shall have a repetition rate 0.623 MHz11/13/2023APPROVEDFALSE
- 6.03.04.02The Laser pulse shall have a temporal profile 1.5 to 2 nS11/13/2023APPROVEDFALSE
- 6.03.04.02The Laser shall operate at a wavelength of 780 +/-5 tunability range nm11/13/2023APPROVEDFALSE
- 6.03.04.02The Laser shall be capable of generating a bunches having at least a spacing between bunches of <1.6 ns11/13/2023APPROVEDFALSE
- 6.03.04.02The Laser Shall have the ability to flip and filter the laser pulses11/13/2023APPROVEDFALSE
- 6.03.04.02The laser pulse shall have a transverse truncated gaussian profile11/13/2023APPROVEDFALSE
- 6.03.04.02The Laser pulse jitter rms shall not exceed <5 ps11/13/2023APPROVEDFALSE
- 6.03.04.02The laser (power differential received at the cathode?) in the laser OFF and ON conditions shall be >60 dB11/13/2023APPROVEDFALSE
- EIS-GUN-TIMING : EIS Electron Source Gun Timing (WBS 6.03.04.01)
- 6.03.04.01The harmonic number of the main linac RF system shall be 36624 Hz11/13/2023APPROVEDFALSE
- 6.03.04.01The harmonic number of the Low Frequency Buncher RF system shall be 1512 Hz11/13/2023APPROVEDFALSE
- 6.03.04.01The harmonic number of the High Frequency Buncher RF system shall be 7560 Hz11/13/2023APPROVEDFALSE
- 6.03.04.01The harmonic number of the DeChirp RF system shall be 15168 Hz11/13/2023APPROVEDFALSE
- EIS-GUN-VAC : EIS Electron Source Gun Vacuum (WBS 6.03.04.01.02)
- 6.03.04.01.02Impedance values shall be approved by accelerator physics.11/13/2023APPROVEDFALSE
- 6.03.04.01.02The typical vacuum chamber aperture shall be 32.9 mm11/13/2023APPROVEDFALSE
- 6.03.04.01.02Special aperture requirements and/or aperture file shall be provided by or approved by physics.11/13/2023APPROVEDFALSE
- 6.03.04.01.02The acceptable magnetic field from vacuum equipment within a radius of 16mm or the beam center shall be <0.4 Gauss11/13/2023APPROVEDFALSE
- 6.03.04.01.02The magnetic permeability for vacuum equipment shall be approved by beam physics.11/13/2023APPROVEDFALSE
- 6.03.04.01.02The average vacuum level after conditioning shall be 10^-10 Torr11/13/2023APPROVEDFALSE
- 6.03.04.01.02The vacuum stability (upper pressure limit) shall be TBD Torr11/13/2023APPROVEDTRUE
- EIS-HETL : EIS High Energy Transfer Line (HETL) System (WBS 6.03.03)
- EIS-HETL-INST : EIS HETL Instrumentation System (WBS 6.03.03.04)
- EIS-HETL-INST-BPM : EIS HETL Instrumentation Beam Profile Monitor (WBS 6.03.03.04)
- 6.03.03.04The BPM measurement resolution should be 100 um or less, for a bunch charge range of 100 pc to 28 nC. < 100 um11/13/2023APPROVEDFALSE
- 6.03.03.04The BPM acquisition rate shall depend on the rate of transfer from RCS-to-ESR, expected twice per second. 2.5 uS11/13/2023APPROVEDFALSE
- 6.03.03.04The number of BPMs in the RCS-to-ESR transport line shall be 10 ea11/13/2023APPROVEDFALSE
- 6.03.03.04The BPMs shall be located by the dipole correctors at every 2nd Quad11/13/2023APPROVEDFALSE
- 6.03.03.04BPM pick-up alignment accuracy to each nearby quad shall be within 100 um11/13/2023APPROVEDFALSE
- 6.03.03.04The BPM button style pick-ups shall be rotated TBD degree configuration to avoid the synch light near the dipole bends.11/13/2023PENDINGTRUE
- 6.03.03.04The BPMs shall be used as input for beam trajectory correction and/or feedforward to optimize transmission efficiency11/13/2023APPROVEDFALSE
- 6.03.03.04The BPMs shall be used to measure the transport lattice.11/13/2023APPROVEDFALSE
- 6.03.03.04The BPMs located in the high dispersion regions, shall monitor relative changes in the beam energy.11/13/2023APPROVEDFALSE
- EIS-HETL-INST-CM : EIS HETL Instrumentation Charge Monitor (WBS 6.03.03.04)
- 6.03.03.04An ICT and FCT shall be installed near the end of the transfer line.11/13/2023APPROVEDFALSE
- 6.03.03.04The bunch charge shall be measured with an accuracy better than <1 %11/13/2023APPROVEDFALSE
- 6.03.03.04The bunch charge shall be measured with the resolution of 10 pC11/13/2023APPROVEDFALSE
- 6.03.03.04The bunch charge monitor shall be used to measure transport efficiency of the Line11/13/2023APPROVEDFALSE
- 6.03.03.04The FCT shall provide measurements of the bunch patterns being transported to the RCS.11/13/2023PENDINGFALSE
- 6.03.03.04The fast current tansformer shall provide measurements of the bunch patterns being transported to the ESR11/13/2023APPROVEDFALSE
- EIS-HETL-INST-PM : EIS HETL Instrumentation Profile Monitor (WBS 6.03.03.04)
- 6.03.03.04The optical resolution for beam profile measurements shall be < < 50 um11/13/2023APPROVEDFALSE
- 6.03.03.04A single YAG/OTR PM station shall be located at a dispersive location and used to determine the beam energy spread.11/13/2023APPROVEDFALSE
- 6.03.03.04The "energy spread PM" station shall be able to measure the beam energy over the range TBA TBA11/13/2023APPROVEDFALSE
- 6.03.03.04The "energy spread PM station" shall be able to measure the beam energy with a resolution of 2.5 10-3 rms units11/13/2023APPROVEDFALSE
- 6.03.03.04Multiple, strategically located YAG/OTR screens shall be used in combination for beam emittance measurements11/13/2023APPROVEDFALSE
- 6.03.03.04The locations of the profile monitors shall be TBA11/13/2023PENDINGFALSE
- 6.03.03.04The total number of profile monitors shall be TBA ea11/13/2023PENDINGFALSE
- EIS-HETL-MAG : EIS HETL Magnet (WBS 6.03.03.01)
- EIS-HETL-MAG-B1 : EIS HETL Magnet B1 (WBS 6.03.03.01)
- 6.03.03.01The number of independent magnet functions shall be 111/13/2023PENDINGFALSE
- 6.03.03.01The field type shall be(Sol,Dip,Quad,Sext,Octu) DIPOLE11/13/2023PENDINGFALSE
- 6.03.03.01The field dir (ver or hor) shall be Vertical11/13/2023PENDINGFALSE
- 6.03.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.01The min coil inner rad shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The min gap shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The mag length shall be 0.3 m11/13/2023PENDINGFALSE
- 6.03.03.01The eff Length shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The dipole field B shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.03.03.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.03.03.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.03.03.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max b1 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b2 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b3 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b4 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b5 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b6 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b7 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b8 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b9 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b10 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b11 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b12 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b13 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b14 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b15 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b16 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The magnet shall be designed to limit Xtalk Requirements TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.03.03.01The max radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max analysis radius content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max X-talk multipoles content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max B1 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B2 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B3 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B4 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B5 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B6 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B7 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B8 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B9 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B10 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B11 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B12 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B13 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B14 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B15 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B16 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023PENDINGTRUE
- EIS-HETL-MAG-B2 : EIS HETL Magnet B2 (WBS 6.03.03.01)
- 6.03.03.01The number of independent magnet functions shall be 111/13/2023PENDINGFALSE
- 6.03.03.01The field type shall be(Sol,Dip,Quad,Sext,Octu) DIPOLE11/13/2023PENDINGFALSE
- 6.03.03.01The field dir (ver or hor) shall be Vertical11/13/2023PENDINGFALSE
- 6.03.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.01The min coil inner rad shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The min gap shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The mag length shall be 0.3 m11/13/2023PENDINGFALSE
- 6.03.03.01The eff Length shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The dipole field B shall be 0.3 T11/13/2023PENDINGFALSE
- 6.03.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.03.03.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.03.03.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.03.03.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max b1 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b2 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b3 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b4 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b5 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b6 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b7 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b8 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b9 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b10 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b11 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b12 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b13 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b14 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b15 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b16 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The magnet shall be designed to limit Xtalk Requirements TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.03.03.01The max radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max analysis radius content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max X-talk multipoles content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max B1 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B2 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B3 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B4 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B5 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B6 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B7 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B8 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B9 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B10 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B11 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B12 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B13 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B14 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B15 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B16 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023PENDINGTRUE
- EIS-HETL-MAG-D1 : EIS HETL Magnet D1 (WBS 6.03.03.01)
- 6.03.03.01The number of independent magnet functions shall be 111/13/2023PENDINGFALSE
- 6.03.03.01The field type shall be(Sol,Dip,Quad,Sext,Octu) DIPOLE11/13/2023APPROVEDFALSE
- 6.03.03.01The field dir (ver or hor) shall be Horizontal11/13/2023PENDINGFALSE
- 6.03.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.01The min coil inner rad shall be TBD m11/13/2023PENDINGTRUE
- 6.03.03.01The min gap shall be TBD m11/13/2023PENDINGTRUE
- 6.03.03.01The good field aperture drx required shall be TBD m11/13/2023PENDINGTRUE
- 6.03.03.01The good field aperture dry required shall be TBD m11/13/2023PENDINGTRUE
- 6.03.03.01The mag length shall be 2.99 m11/13/2023PENDINGFALSE
- 6.03.03.01The eff Length shall be TBD m11/13/2023PENDINGTRUE
- 6.03.03.01The dipole field B shall be 0.193275150423789 T11/13/2023PENDINGFALSE
- 6.03.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.03.03.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.03.03.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.03.03.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max b1 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b2 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b3 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b4 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b5 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b6 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b7 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b8 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b9 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b10 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b11 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b12 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b13 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b14 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b15 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b16 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The magnet shall be designed to limit Xtalk Requirements TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.03.03.01The max radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max analysis radius content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max X-talk multipoles content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max B1 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B2 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B3 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B4 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B5 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B6 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B7 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B8 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B9 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B10 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B11 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B12 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B13 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B14 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B15 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B16 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- EIS-HETL-MAG-D3 : EIS HETL Magnet D3 (WBS 6.03.03.01)
- 6.03.03.01The number of independent magnet functions shall be 111/13/2023APPROVEDFALSE
- 6.03.03.01The field type shall be(Sol,Dip,Quad,Sext,Octu) DIPOLE11/13/2023APPROVEDFALSE
- 6.03.03.01The field dir (ver or hor) shall be Vertical11/13/2023PENDINGFALSE
- 6.03.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.01The min coil inner rad shall be TBD m11/13/2023PENDINGTRUE
- 6.03.03.01The min gap shall be TBD m11/13/2023PENDINGTRUE
- 6.03.03.01The good field aperture drx required shall be TBD m11/13/2023PENDINGTRUE
- 6.03.03.01The good field aperture dry required shall be TBD m11/13/2023PENDINGTRUE
- 6.03.03.01The mag length shall be 1 m11/13/2023PENDINGFALSE
- 6.03.03.01The eff Length shall be TBD m11/13/2023PENDINGTRUE
- 6.03.03.01The dipole field B shall be 1.5115571597909 T11/13/2023PENDINGFALSE
- 6.03.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.03.03.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.03.03.01The good field region requirements shall be TBD ppm11/13/2023PENDINGTRUE
- 6.03.03.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max b1 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b2 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b3 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b4 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b5 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b6 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b7 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b8 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b9 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b10 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b11 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b12 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b13 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b14 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b15 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b16 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The magnet shall be designed to limit Xtalk Requirements TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.03.03.01The max radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max analysis radius content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max X-talk multipoles content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max B1 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B2 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B3 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B4 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B5 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B6 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B7 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B8 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B9 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B10 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B11 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B12 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B13 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B14 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B15 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B16 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- EIS-HETL-MAG-D4 : EIS HETL Magnet D4 (WBS 6.03.03.01)
- 6.03.03.01The number of independent magnet functions shall be 111/13/2023PENDINGFALSE
- 6.03.03.01The field type shall be(Sol,Dip,Quad,Sext,Octu) DIPOLE11/13/2023APPROVEDFALSE
- 6.03.03.01The field dir (ver or hor) shall be Vertical11/13/2023PENDINGFALSE
- 6.03.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.01The min coil inner rad shall be TBD m11/13/2023PENDINGTRUE
- 6.03.03.01The min gap shall be TBD m11/13/2023PENDINGTRUE
- 6.03.03.01The good field aperture drx required shall be TBD m11/13/2023PENDINGTRUE
- 6.03.03.01The good field aperture dry required shall be TBD m11/13/2023PENDINGTRUE
- 6.03.03.01The mag length shall be 2 m11/13/2023PENDINGFALSE
- 6.03.03.01The eff Length shall be TBD m11/13/2023PENDINGTRUE
- 6.03.03.01The dipole field B shall be 0.5253569997883 T11/13/2023PENDINGFALSE
- 6.03.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.03.03.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.03.03.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.03.03.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max b1 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b2 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b3 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b4 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b5 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b6 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b7 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b8 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b9 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b10 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b11 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b12 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b13 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b14 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b15 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b16 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The magnet shall be designed to limit Xtalk Requirements TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.03.03.01The max radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max analysis radius content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max X-talk multipoles content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max B1 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B2 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B3 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B4 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B5 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B6 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B7 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B8 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B9 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B10 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B11 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B12 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B13 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B14 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B15 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B16 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- EIS-HETL-MAG-K1 : EIS HETL Magnet K1 (WBS 6.03.03.01)
- 6.03.03.01The number of independent magnet functions shall be 111/13/2023PENDINGFALSE
- 6.03.03.01The field type shall be(Sol,Dip,Quad,Sext,Octu) KICKER11/13/2023PENDINGFALSE
- 6.03.03.01The field dir (ver or hor) shall be Vertical11/13/2023PENDINGFALSE
- 6.03.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.01The min coil inner rad shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The min gap shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The mag length shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The eff Length shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The dipole field B shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.03.03.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.03.03.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.03.03.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max b1 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b2 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b3 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b4 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b5 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b6 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b7 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b8 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b9 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b10 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b11 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b12 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b13 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b14 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b15 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b16 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The magnet shall be designed to limit Xtalk Requirements TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.03.03.01The max radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max analysis radius content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max X-talk multipoles content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max B1 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B2 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B3 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B4 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B5 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B6 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B7 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B8 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B9 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B10 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B11 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B12 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B13 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B14 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B15 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B16 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023PENDINGTRUE
- EIS-HETL-MAG-K2 : EIS HETL Magnet K2 (WBS 6.03.03.01)
- 6.03.03.01The number of independent magnet functions shall be 111/13/2023PENDINGFALSE
- 6.03.03.01The field type shall be(Sol,Dip,Quad,Sext,Octu) KICKER11/13/2023PENDINGFALSE
- 6.03.03.01The field dir (ver or hor) shall be Vertical11/13/2023PENDINGFALSE
- 6.03.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.01The min coil inner rad shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The min gap shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The mag length shall be 0 m11/13/2023PENDINGFALSE
- 6.03.03.01The eff Length shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The dipole field B shall be 3.00203999879028 T11/13/2023PENDINGFALSE
- 6.03.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.03.03.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.03.03.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.03.03.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max b1 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b2 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b3 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b4 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b5 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b6 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b7 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b8 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b9 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b10 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b11 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b12 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b13 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b14 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b15 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b16 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The magnet shall be designed to limit Xtalk Requirements TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.03.03.01The max radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max analysis radius content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max X-talk multipoles content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max B1 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B2 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B3 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B4 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B5 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B6 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B7 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B8 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B9 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B10 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B11 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B12 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B13 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B14 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B15 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B16 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023PENDINGTRUE
- EIS-HETL-MAG-Q1 : EIS HETL Magnet Q1 (WBS 6.03.03.01)
- 6.03.03.01The number of independent magnet functions shall be 111/13/2023PENDINGFALSE
- 6.03.03.01The field type shall be(Sol,Dip,Quad,Sext,Octu) QUAD11/13/2023PENDINGFALSE
- 6.03.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.01The field rotation (norm or skew) shall be N (N,S)11/13/2023PENDINGFALSE
- 6.03.03.01The min coil inner rad shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The min gap shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The mag length shall be 0.6 m11/13/2023PENDINGFALSE
- 6.03.03.01The eff Length shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.01The grad field G shall be 16.4420798079971 T/m(n-1)11/13/2023APPROVEDFALSE
- 6.03.03.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.03.03.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.03.03.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.03.03.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max b1 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b2 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b3 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b4 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b5 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b6 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b7 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b8 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b9 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b10 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b11 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b12 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b13 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b14 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b15 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b16 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The magnet shall be designed to limit Xtalk Requirements TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.03.03.01The max radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max analysis radius content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max X-talk multipoles content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max B1 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B2 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B3 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B4 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B5 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B6 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B7 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B8 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B9 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B10 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B11 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B12 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B13 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B14 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B15 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B16 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- EIS-HETL-MAG-Q2 : EIS HETL Magnet Q2 (WBS 6.03.03.01)
- 6.03.03.01The number of independent magnet functions shall be 111/13/2023APPROVEDFALSE
- 6.03.03.01The field type shall be(Sol,Dip,Quad,Sext,Octu) QUAD11/13/2023APPROVEDFALSE
- 6.03.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.01The field rotation (norm or skew) shall be N (N,S)11/13/2023APPROVEDFALSE
- 6.03.03.01The min coil inner rad shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The min gap shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The mag length shall be 0.6 m11/13/2023PENDINGFALSE
- 6.03.03.01The eff Length shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.01The grad field G shall be 23.7499170095036 T/m(n-1)11/13/2023PENDINGFALSE
- 6.03.03.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.03.03.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.03.03.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.03.03.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max b1 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b2 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b3 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b4 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b5 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b6 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b7 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b8 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b9 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b10 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b11 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b12 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b13 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b14 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b15 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b16 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The magnet shall be designed to limit Xtalk Requirements TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.03.03.01The max radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max analysis radius content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max X-talk multipoles content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max B1 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B2 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B3 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B4 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B5 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B6 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B7 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B8 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B9 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B10 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B11 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B12 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B13 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B14 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B15 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B16 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- EIS-HETL-MAG-SEP1 : EIS HETL Magnet SEP1 (WBS 6.03.03.01)
- 6.03.03.01The number of independent magnet functions shall be 111/13/2023PENDINGFALSE
- 6.03.03.01The field type shall be(Sol,Dip,Quad,Sext,Octu) SEPTUM11/13/2023PENDINGFALSE
- 6.03.03.01The field dir (ver or hor) shall be Vertical11/13/2023PENDINGFALSE
- 6.03.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.01The min coil inner rad shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The min gap shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The mag length shall be 1.3 m11/13/2023PENDINGFALSE
- 6.03.03.01The eff Length shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The dipole field B shall be 0.923704615012395 T11/13/2023PENDINGFALSE
- 6.03.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.03.03.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.03.03.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.03.03.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max b1 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b2 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b3 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b4 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b5 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b6 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b7 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b8 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b9 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b10 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b11 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b12 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b13 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b14 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b15 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b16 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The magnet shall be designed to limit Xtalk Requirements TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.03.03.01The max radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max analysis radius content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max X-talk multipoles content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max B1 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B2 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B3 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B4 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B5 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B6 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B7 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B8 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B9 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B10 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B11 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B12 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B13 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B14 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B15 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B16 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- EIS-HETL-MAG-SEP2 : EIS HETL Magnet SEP2 (WBS 6.03.03.01)
- 6.03.03.01The number of independent magnet functions shall be 111/13/2023PENDINGFALSE
- 6.03.03.01The field type shall be(Sol,Dip,Quad,Sext,Octu) SEPTUM11/13/2023PENDINGFALSE
- 6.03.03.01The field dir (ver or hor) shall be Vertical11/13/2023PENDINGFALSE
- 6.03.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.01The min coil inner rad shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The min gap shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The mag length shall be 2.49 m11/13/2023PENDINGFALSE
- 6.03.03.01The eff Length shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The dipole field B shall be 0.819834216537106 T11/13/2023PENDINGFALSE
- 6.03.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.03.03.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.03.03.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.03.03.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max b1 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b2 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b3 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b4 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b5 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b6 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b7 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b8 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b9 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b10 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b11 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b12 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b13 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b14 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b15 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b16 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The magnet shall be designed to limit Xtalk Requirements TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.03.03.01The max radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max analysis radius content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max X-talk multipoles content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max B1 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B2 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B3 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B4 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B5 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B6 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B7 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B8 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B9 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B10 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B11 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B12 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B13 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B14 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B15 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B16 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- EIS-HETL-MAG-SEP3 : EIS HETL Magnet SEP3 (WBS 6.03.03.01)
- 6.03.03.01The number of independent magnet functions shall be 111/13/2023PENDINGFALSE
- 6.03.03.01The field type shall be(Sol,Dip,Quad,Sext,Octu) SEPTUM11/13/2023PENDINGFALSE
- 6.03.03.01The field dir (ver or hor) shall be Vertical11/13/2023PENDINGFALSE
- 6.03.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.01The min coil inner rad shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The min gap shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The mag length shall be 1 m11/13/2023PENDINGFALSE
- 6.03.03.01The eff Length shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The dipole field B shall be 1.0507139995766 T11/13/2023PENDINGFALSE
- 6.03.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.03.03.01The field stability shall be TBD T/s11/13/2023PENDINGTRUE
- 6.03.03.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.03.03.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max b1 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b2 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b3 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b4 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b5 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b6 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b7 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b8 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b9 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b10 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b11 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b12 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b13 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b14 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b15 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b16 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The magnet shall be designed to limit Xtalk Requirements TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.03.03.01The max radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max analysis radius content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max X-talk multipoles content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max B1 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B2 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B3 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B4 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B5 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B6 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B7 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B8 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B9 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B10 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B11 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B12 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B13 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B14 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B15 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B16 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- EIS-HETL-PS : EIS HETL Magnet Power Supply (WBS 6.03.03.02)
- EIS-HETL-PS-B1 : EIS HETL Magnet Power Supply B1 (WBS 6.03.03.02)
- 6.03.03.02The number of Independent functions on the magnets being powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum magnet string resistance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum magnet string inductance to be powered shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.02The magnets being powered shall be saturated TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The miits rating of the magnet being powred shall be TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The voltage to ground of the magnet being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.03.03.02The nominal current of the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum current the PS must operate at shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.03.03.02The PS current type DC or AC shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The ppm of full scale current (peak to peak) shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The time period for specified stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02The long term stability shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The current setpoint resolution (min size in bits) shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The synchronization timing of synchronization shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The max allowable current ripple (peak to peak) TBD Hz11/13/2023APPROVEDTRUE
- 6.03.03.02The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.03.03.02WRT the ripple frequency the following resonant frequencies shall be avoided TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The max voltage ripple (peak to peak) shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02An NMR shall be required to measure the field TBD11/13/2023APPROVEDTRUE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet turns ratio shall be TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The terminal voltage shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- EIS-HETL-PS-B2 : EIS HETL Magnet Power Supply B2 (WBS 6.03.03.02)
- 6.03.03.02The number of Independent functions on the magnets being powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum magnet string resistance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum magnet string inductance to be powered shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.02The magnets being powered shall be saturated TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The miits rating of the magnet being powred shall be TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The voltage to ground of the magnet being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.03.03.02The nominal current of the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum current the PS must operate at shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.03.03.02The PS current type DC or AC shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The ppm of full scale current (peak to peak) shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The time period for specified stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02The long term stability shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The current setpoint resolution (min size in bits) shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The synchronization timing of synchronization shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The max allowable current ripple (peak to peak) TBD Hz11/13/2023APPROVEDTRUE
- 6.03.03.02The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.03.03.02WRT the ripple frequency the following resonant frequencies shall be avoided TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The max voltage ripple (peak to peak) shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02An NMR shall be required to measure the field TBD11/13/2023APPROVEDTRUE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet turns ratio shall be TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The terminal voltage shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- EIS-HETL-PS-D1 : EIS HETL Magnet Power Supply D1 (WBS 6.03.03.02)
- 6.03.03.02The number of Independent functions on the magnets being powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum magnet string resistance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum magnet string inductance to be powered shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.02The magnets being powered shall be saturated TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The miits rating of the magnet being powred shall be TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The voltage to ground of the magnet being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.03.03.02The nominal current of the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum current the PS must operate at shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.03.03.02The PS current type DC or AC shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The ppm of full scale current (peak to peak) shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The time period for specified stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02The long term stability shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The current setpoint resolution (min size in bits) shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The synchronization timing of synchronization shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The max allowable current ripple (peak to peak) TBD Hz11/13/2023APPROVEDTRUE
- 6.03.03.02The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.03.03.02WRT the ripple frequency the following resonant frequencies shall be avoided TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The max voltage ripple (peak to peak) shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02An NMR shall be required to measure the field TBD11/13/2023APPROVEDTRUE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet turns ratio shall be TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The terminal voltage shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- EIS-HETL-PS-D3 : EIS HETL Magnet Power Supply D3 (WBS 6.03.03.02)
- 6.03.03.02The number of Independent functions on the magnets being powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum magnet string resistance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum magnet string inductance to be powered shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.02The magnets being powered shall be saturated TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The miits rating of the magnet being powred shall be TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The voltage to ground of the magnet being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.03.03.02The nominal current of the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum current the PS must operate at shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.03.03.02The PS current type DC or AC shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The ppm of full scale current (peak to peak) shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The time period for specified stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02The long term stability shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The current setpoint resolution (min size in bits) shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The synchronization timing of synchronization shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The max allowable current ripple (peak to peak) TBD Hz11/13/2023APPROVEDTRUE
- 6.03.03.02The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.03.03.02WRT the ripple frequency the following resonant frequencies shall be avoided TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The max voltage ripple (peak to peak) shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02An NMR shall be required to measure the field TBD11/13/2023APPROVEDTRUE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet turns ratio shall be TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The terminal voltage shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- EIS-HETL-PS-D4 : EIS HETL Magnet Power Supply D4 (WBS 6.03.03.02)
- 6.03.03.02The number of Independent functions on the magnets being powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum magnet string resistance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum magnet string inductance to be powered shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.02The magnets being powered shall be saturated TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The miits rating of the magnet being powred shall be TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The voltage to ground of the magnet being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.03.03.02The nominal current of the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum current the PS must operate at shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.03.03.02The PS current type DC or AC shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The ppm of full scale current (peak to peak) shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The time period for specified stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02The long term stability shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The current setpoint resolution (min size in bits) shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The synchronization timing of synchronization shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The max allowable current ripple (peak to peak) TBD Hz11/13/2023APPROVEDTRUE
- 6.03.03.02The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.03.03.02WRT the ripple frequency the following resonant frequencies shall be avoided TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The max voltage ripple (peak to peak) shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02An NMR shall be required to measure the field TBD11/13/2023APPROVEDTRUE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet turns ratio shall be TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The terminal voltage shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- EIS-HETL-PS-K1 : EIS HETL Magnet Power Supply K1 (WBS 6.03.03.02)
- 6.03.03.02The number of Independent functions on the magnets being powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum magnet string resistance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum magnet string inductance to be powered shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.02The magnets being powered shall be saturated TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The miits rating of the magnet being powred shall be TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The voltage to ground of the magnet being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.03.03.02The nominal current of the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum current the PS must operate at shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.03.03.02The PS current type DC or AC shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The ppm of full scale current (peak to peak) shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The time period for specified stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02The long term stability shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The current setpoint resolution (min size in bits) shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The synchronization timing of synchronization shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The max allowable current ripple (peak to peak) TBD Hz11/13/2023APPROVEDTRUE
- 6.03.03.02The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.03.03.02WRT the ripple frequency the following resonant frequencies shall be avoided TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The max voltage ripple (peak to peak) shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02An NMR shall be required to measure the field TBD11/13/2023APPROVEDTRUE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet turns ratio shall be TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The terminal voltage shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- EIS-HETL-PS-K2 : EIS HETL Magnet Power Supply K2 (WBS 6.03.03.02)
- 6.03.03.02The number of Independent functions on the magnets being powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum magnet string resistance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum magnet string inductance to be powered shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.02The magnets being powered shall be saturated TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The miits rating of the magnet being powred shall be TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The voltage to ground of the magnet being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.03.03.02The nominal current of the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum current the PS must operate at shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.03.03.02The PS current type DC or AC shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The ppm of full scale current (peak to peak) shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The time period for specified stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02The long term stability shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The current setpoint resolution (min size in bits) shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The synchronization timing of synchronization shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The max allowable current ripple (peak to peak) TBD Hz11/13/2023APPROVEDTRUE
- 6.03.03.02The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.03.03.02WRT the ripple frequency the following resonant frequencies shall be avoided TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The max voltage ripple (peak to peak) shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02An NMR shall be required to measure the field TBD11/13/2023APPROVEDTRUE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet turns ratio shall be TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The terminal voltage shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- EIS-HETL-PS-Q1 : EIS HETL Magnet Power Supply Q1 (WBS 6.03.03.02)
- 6.03.03.02The number of Independent functions on the magnets being powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum magnet string resistance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum magnet string inductance to be powered shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.02The magnets being powered shall be saturated TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The miits rating of the magnet being powred shall be TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The voltage to ground of the magnet being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.03.03.02The nominal current of the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum current the PS must operate at shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.03.03.02The PS current type DC or AC shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The ppm of full scale current (peak to peak) shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The time period for specified stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02The long term stability shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The current setpoint resolution (min size in bits) shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The synchronization timing of synchronization shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The max allowable current ripple (peak to peak) TBD Hz11/13/2023APPROVEDTRUE
- 6.03.03.02The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.03.03.02WRT the ripple frequency the following resonant frequencies shall be avoided TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The max voltage ripple (peak to peak) shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02An NMR shall be required to measure the field TBD11/13/2023APPROVEDTRUE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet turns ratio shall be TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The terminal voltage shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- EIS-HETL-PS-Q2 : EIS HETL Magnet Power Supply Q2 (WBS 6.03.03.02)
- 6.03.03.02The number of Independent functions on the magnets being powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum magnet string resistance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum magnet string inductance to be powered shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.02The magnets being powered shall be saturated TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The miits rating of the magnet being powred shall be TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The voltage to ground of the magnet being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.03.03.02The nominal current of the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum current the PS must operate at shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.03.03.02The PS current type DC or AC shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The ppm of full scale current (peak to peak) shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The time period for specified stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02The long term stability shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The current setpoint resolution (min size in bits) shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The synchronization timing of synchronization shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The max allowable current ripple (peak to peak) TBD Hz11/13/2023APPROVEDTRUE
- 6.03.03.02The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.03.03.02WRT the ripple frequency the following resonant frequencies shall be avoided TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The max voltage ripple (peak to peak) shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02An NMR shall be required to measure the field TBD11/13/2023APPROVEDTRUE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet turns ratio shall be TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The terminal voltage shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- EIS-HETL-PS-SEP1 : EIS HETL Magnet Power Supply SEP1 (WBS 6.03.03.02)
- 6.03.03.02The number of Independent functions on the magnets being powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum magnet string resistance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum magnet string inductance to be powered shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.02The magnets being powered shall be saturated TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The miits rating of the magnet being powred shall be TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The voltage to ground of the magnet being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.03.03.02The nominal current of the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum current the PS must operate at shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.03.03.02The PS current type DC or AC shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The ppm of full scale current (peak to peak) shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The time period for specified stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02The long term stability shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The current setpoint resolution (min size in bits) shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The synchronization timing of synchronization shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The max allowable current ripple (peak to peak) TBD Hz11/13/2023APPROVEDTRUE
- 6.03.03.02The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.03.03.02WRT the ripple frequency the following resonant frequencies shall be avoided TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The max voltage ripple (peak to peak) shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02An NMR shall be required to measure the field TBD11/13/2023APPROVEDTRUE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet turns ratio shall be TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The terminal voltage shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- EIS-HETL-PS-SEP2 : EIS HETL Magnet Power Supply SEP2 (WBS 6.03.03.02)
- 6.03.03.02The number of Independent functions on the magnets being powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum magnet string resistance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum magnet string inductance to be powered shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.02The magnets being powered shall be saturated TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The miits rating of the magnet being powred shall be TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The voltage to ground of the magnet being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.03.03.02The nominal current of the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum current the PS must operate at shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.03.03.02The PS current type DC or AC shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The ppm of full scale current (peak to peak) shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The time period for specified stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02The long term stability shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The current setpoint resolution (min size in bits) shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The synchronization timing of synchronization shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The max allowable current ripple (peak to peak) TBD Hz11/13/2023APPROVEDTRUE
- 6.03.03.02The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.03.03.02WRT the ripple frequency the following resonant frequencies shall be avoided TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The max voltage ripple (peak to peak) shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02An NMR shall be required to measure the field TBD11/13/2023APPROVEDTRUE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet turns ratio shall be TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The terminal voltage shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- EIS-HETL-PS-SEP3 : EIS HETL Magnet Power Supply SEP3 (WBS 6.03.03.02)
- 6.03.03.02The number of Independent functions on the magnets being powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum magnet string resistance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum magnet string inductance to be powered shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.02The magnets being powered shall be saturated TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The miits rating of the magnet being powred shall be TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The voltage to ground of the magnet being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.03.03.02The nominal current of the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum current the PS must operate at shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.03.03.02The PS current type DC or AC shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The ppm of full scale current (peak to peak) shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The time period for specified stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02The long term stability shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The current setpoint resolution (min size in bits) shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The synchronization timing of synchronization shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The max allowable current ripple (peak to peak) TBD Hz11/13/2023APPROVEDTRUE
- 6.03.03.02The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.03.03.02WRT the ripple frequency the following resonant frequencies shall be avoided TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The max voltage ripple (peak to peak) shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02An NMR shall be required to measure the field TBD11/13/2023APPROVEDTRUE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet turns ratio shall be TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The terminal voltage shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- EIS-HETL-VAC : EIS HETL Vacuum (WBS 6.03.03.03)
- 6.03.03.03Impedance values shall be approved by accelerator physics.11/13/2023APPROVEDFALSE
- 6.03.03.03The typical vacuum chamber aperture shall be 32.9 mm11/13/2023APPROVEDFALSE
- 6.03.03.03Special aperture requirements and/or aperture file shall be provided by or approved by physics.11/13/2023APPROVEDFALSE
- 6.03.03.03The acceptable magnetic field from vacuum equipment within a radius 16mm (wrt Beam center) shall be <100 Gauss11/13/2023APPROVEDFALSE
- 6.03.03.03The remnant magnetic permeability for vacuum equipment shall be approved by beam physics.11/13/2023APPROVEDFALSE
- 6.03.03.03After conditioning the average vacuum level shall be 5x10^-8 Torr11/13/2023APPROVEDFALSE
- 6.03.03.03The vacuum stability (upper pressure limit) shall be TBD Torr11/13/2023APPROVEDTRUE
- 6.03.03.03Fast valve protection shall be provided at TBD11/13/2023APPROVEDTRUE
- EIS-LINAC : EIS Electron Source LINAC (WBS 6.03.04.01)
- 6.03.04.01The Bunch Energy shall be 400 MeV11/13/2023APPROVEDFALSE
- 6.03.04.01The Bunch to Bunch Energy Variation shall be 1.5e-3 dE/E, rms11/13/2023APPROVEDFALSE
- 6.03.04.01The Bunch to Bunch Phase Variation shall be 8 ps, rms11/13/2023APPROVEDFALSE
- 6.03.04.01The Slow Energy Drift (T > 60s) shall be 1E-3 dE/E, rms11/13/2023APPROVEDFALSE
- 6.03.04.01The Slow Phase Drift (T > 60s) shall be 8 ps, rms11/13/2023APPROVEDFALSE
- 6.03.04.01The Bunch Charge (Min) shall be 0.1 nC11/13/2023APPROVEDFALSE
- 6.03.04.01The Bunch Charge (Max) shall be 8 nC11/13/2023APPROVEDFALSE
- 6.03.04.01The Polarization shall be Up to 90 %11/13/2023APPROVEDFALSE
- 6.03.04.01The Polarization Orientation shall be Longitudinal11/13/2023APPROVEDFALSE
- 6.03.04.01The Bunch Length shall be 40 ps, rms11/13/2023APPROVEDFALSE
- 6.03.04.01The Bunch Energy Spread shall be 2.5e-3 dE/E, rms11/13/2023APPROVEDFALSE
- 6.03.04.01The Bunch Normalized Horizontal Emittance shall be 40 mm-mrad, rms11/13/2023APPROVEDFALSE
- 6.03.04.01The Bunch Normalized Horizontal Emittance Tolerance shall be TBD11/13/2023APPROVEDTRUE
- 6.03.04.01The Bunch Normalized Vertical Emittance shall be 40 mm-mrad, rms11/13/2023APPROVEDFALSE
- 6.03.04.01The Bunch Normalized Vertical Emittance Tolerance shall be TBD11/13/2023APPROVEDTRUE
- 6.03.04.01The Beam Loss from U.I.P to D.I.P (Maximum) shall be 5 %11/13/2023APPROVEDFALSE
- EIS-LINAC-ACCEL : EIS Electron Source LINAC Accelerating System (WBS 6.03.04.01)
- 6.03.04.01The accelerating cavity RF configurationshall be Traveling Wave, Constant Gradient11/13/2023APPROVEDFALSE
- 6.03.04.01The accelerating cavities frequencyshall be 2586 MHz11/13/2023APPROVEDFALSE
- 6.03.04.01The accelerating cavities harmonic number shall be 3662411/13/2023APPROVEDFALSE
- 6.03.04.01The Number of Cavities or Structures shall be 8 Ea11/13/2023APPROVEDFALSE
- 6.03.04.01The accelerating cavity Section Length shall be 5.2 m11/13/2023APPROVEDFALSE
- 6.03.04.01The accelerating cavity E0*T (Travelling Wave)shall be 8.75 MV/m11/13/2023APPROVEDFALSE
- 6.03.04.01The accelerating cavity Atten. shall be 0.25 Neper11/13/2023APPROVEDFALSE
- 6.03.04.01The accelerating cavity Rshunt (Acc. Def.)shall be 52-62 Mohm/m11/13/2023APPROVEDFALSE
- EIS-LINAC-BEAM : EIS Electron Source LINAC Beamline Electron Bunch (WBS 6.03.04.01)
- 6.03.04.01The Input Beam Energy range shall be 280 to 350 keV11/13/2023APPROVEDFALSE
- 6.03.04.01The Output Beam Energy shall be 400 MeV11/13/2023APPROVEDFALSE
- 6.03.04.01The linac system shall accelerate up to four bunches per linac system cycle.11/13/2023APPROVEDFALSE
- 6.03.04.01The Linac system cycle timing shall deliver the following pulse structure (eight (8) bunches / one (1) Hz)11/13/2023APPROVEDFALSE
- 6.03.04.01The cycle repetition rate shall be a maximum of 78 kHz11/13/2023APPROVEDFALSE
- 6.03.04.01The linac system shall support a bunch repetition rate of up to 360 Hz11/13/2023APPROVEDFALSE
- EIS-LINAC-BUNCH_118MHZ : EIS Electron Source LINAC Buncher 118MHz (WBS 6.03.04.01)
- 6.03.04.01The Sub-Sub-Harmonic buncher RF configurationshall be Standing Wave11/13/2023APPROVEDFALSE
- 6.03.04.01The Sub-Sub-Harmonic buncher cavity frequencyshall be 118 MHz11/13/2023APPROVEDFALSE
- 6.03.04.01The Sub-Sub-Harmonic buncher cavity harmonic number shall be 151211/13/2023APPROVEDFALSE
- 6.03.04.01The Sub-Sub-Harmonic buncher number of Cavities or Structures shall be 1 Ea11/13/2023APPROVEDFALSE
- 6.03.04.01The Sub-Sub-Harmonic buncher Section Length shall be 40 cm11/13/2023APPROVEDFALSE
- 6.03.04.01The Sub-Sub-Harmonic buncher E0 (Standing Wave)shall be 1 MV/m11/13/2023APPROVEDFALSE
- 6.03.04.01The Sub-Sub-Harmonic Effective Voltageshall be 0.4 Mv11/13/2023APPROVEDFALSE
- EIS-LINAC-BUNCH_2856MHZ : EIS Electron Source LINAC Buncher 2856MHz (WBS 6.03.04.01)
- 6.03.04.01The tapered buncher RF configurationshall be Traveling Wave, Constant Gradient11/13/2023APPROVEDFALSE
- 6.03.04.01The tapered buncher cavity frequencyshall be 2856 MHz11/13/2023APPROVEDFALSE
- 6.03.04.01The tapered buncher cavity harmonic numbershall be 3662411/13/2023APPROVEDFALSE
- 6.03.04.01The tapered buncher number of Cavities or Structures shall be 1 Ea11/13/2023APPROVEDFALSE
- 6.03.04.01The tapered buncher Section Length shall be 36.2 cm11/13/2023APPROVEDFALSE
- 6.03.04.01The tapered buncher E0*T (Travelling Wave)shall be 10 MV/m11/13/2023APPROVEDFALSE
- 6.03.04.01The tapered Effective Voltageshall be 3.62 Mv11/13/2023APPROVEDFALSE
- EIS-LINAC-BUNCH_560MHZ : EIS Electron Source LINAC Buncher 560MHz (WBS 6.03.04.01)
- 6.03.04.01The Sub-Harmonic buncher RF configurationshall be Standing Wave11/13/2023APPROVEDFALSE
- 6.03.04.01The Sub-Harmonic buncher cavities frequency shall be 590 MHz11/13/2023APPROVEDFALSE
- 6.03.04.01The Sub-Harmonic buncher cavities harmonic number shall be 756011/13/2023APPROVEDFALSE
- 6.03.04.01The Sub-Harmonic buncher number of Cavities or Structures shall be 2 Ea11/13/2023APPROVEDFALSE
- 6.03.04.01The Sub-Harmonic buncher Section Length shall be 20 cm11/13/2023APPROVEDFALSE
- 6.03.04.01The Sub-Harmonic buncher E0 (Standing Wave)shall be 0.92 MV/m11/13/2023APPROVEDFALSE
- 6.03.04.01The Sub-Harmonic Effective Voltageshall be 0.184 Mv11/13/2023APPROVEDFALSE
- EIS-LINAC-CONT : EIS Electron Source LINAC Controls System (WBS 6.03.04.01)
- 6.03.04.01The Orbit feed-forward optimization rate shall be 100 Hz11/13/2023APPROVEDFALSE
- 6.03.04.01The Orbit display rate shall be 10 Hz11/13/2023APPROVEDFALSE
- EIS-LINAC-DECHIRP : EIS Electron Source LINAC De Chirp System (WBS 6.03.04.01)
- 6.03.04.01The De Chirp cavity frequencyshall be 1182 MHz11/13/2023APPROVEDFALSE
- 6.03.04.01The Number of Cavities or Structures shall be 1 Ea11/13/2023APPROVEDFALSE
- 6.03.04.01The De Chirp Section Length shall be 200 cm11/13/2023APPROVEDFALSE
- 6.03.04.01The De Chirp E0*T (Travelling Wave)shall be 8.75 MV/m11/13/2023APPROVEDFALSE
- 6.03.04.01The De Chirp Effective Voltageshall be 17.5 MV11/13/2023APPROVEDFALSE
- EIS-LINAC-INST : EIS Electron Source LINAC Instrumentation System (WBS 6.03.04.01)
- EIS-LINAC-INST-BLM : EIS Electron Source LINAC Bunch Length Monitor (WBS 6.03.04.01)
- 6.03.04.01The resolution of the BLM Length measurement shall be 1 ps11/13/2023APPROVEDFALSE
- 6.03.04.01The bunch length shall be measured with an accuracy of less than 10 %11/13/2023APPROVEDFALSE
- 6.03.04.01The bunch charge dynamic range for length measurement shall be 6 to 10 nC11/13/2023APPROVEDFALSE
- 6.03.04.01The RMS bunch length at after De Chirp cavity shall be approximately 40 ps11/13/2023APPROVEDFALSE
- EIS-LINAC-INST-BPM : EIS Electron Source LINAC Beam Position Monitor (WBS 6.03.04.01)
- 6.03.04.01The BPM system shall provide bunch position measurements that meet the resolution requirements, over a bunch charge dynamic range of 0.1 to 10 nC11/13/2023APPROVEDFALSE
- 6.03.04.01The BPM system single bunch position measurement resolution shall be less than or equal to 100 microns11/13/2023APPROVEDFALSE
- 6.03.04.01Over a 24-hour period, the BPM pick-up housing mechanical position stability shall not vary by more than 100 microns11/13/2023APPROVEDFALSE
- 6.03.04.01The BPM horizontal and vertical measurement range for round aperture BPM pick-ups, where the resolution requirements must be met, from the center of the beampipe shall be at least +/- 5 mm11/13/2023APPROVEDFALSE
- 6.03.04.01The BPM horizontal and measurement range for the rectangular zigzag aperture BPM pick-ups, where the resolution requirements must be met, from the center of the beampipe shall be at least +/- 5 mm11/13/2023APPROVEDFALSE
- 6.03.04.01The BPM vertical measurement range for the rectangular zigzag aperture BPM pick-ups, where the resolution requirements must be met, from the center of the beampipe shall be at least +/- 45 mm11/13/2023APPROVEDFALSE
- 6.03.04.01The installation alignment difference between the BPM pick-up's mechanical center, and the mechanical center of a nearby quad magnet, or beam pipe center, shall be less than 100 microns11/13/2023APPROVEDFALSE
- 6.03.04.01The maximum BPM position DAQ measurement rate shall be at least the maximum electron bunch or bunch pair rate of 300 Hz11/13/2023APPROVEDFALSE
- 6.03.04.01The BPM system shall measure the position of every bunch, and graphically display the measurement data superimposed on a LINAC transport x,z and y,z diagram plots, through the Controls application with a refresh rate of 1 Hz11/13/2023APPROVEDFALSE
- 6.03.04.01Where the beampipe is rectangular in the zigzag, the arrangement of the BPM button locations shall be configured to meet the position measurement accuracy of better than 100 microns11/13/2023APPROVEDFALSE
- EIS-LINAC-INST-CM : EIS Electron Source LINAC Bunch Charge Monitors (ICT, WCM, FC) (WBS 6.03.04.01)
- 6.03.04.01The bunch charge dynamic range that the charge monitors shall measure is 0.1 to 10 nC11/13/2023APPROVEDFALSE
- 6.03.04.01The WCM charge measurement accuracy for a bunch charge range of 1-10 nC shall be at least 5 %11/13/2023APPROVEDFALSE
- 6.03.04.01The charge measurement accuracy for a bunch charge range of 100 pC to 1 nC shall be at least 10 %11/13/2023APPROVEDFALSE
- 6.03.04.01The maximum bunch charge measurement rate shall be the maximum rate of bunches, or bunch pairs through the LINAC 300 Hz11/13/2023APPROVEDFALSE
- 6.03.04.01Individual e-bunch charges, and short (<4 us long) bunch trains shall be measured using an ICT & BCM-IHR-E, with an accuracy of 1 %11/13/2023APPROVEDFALSE
- 6.03.04.01The remote-controlled pneumatically actuated Faraday Cup shall be able to measure a single bunch, or bunch train charges. When bunch charges are in the range of 6-10 nC, the measurement accuracy shall be better than 10 %11/13/2023APPROVEDFALSE
- EIS-LINAC-INST-PM : EIS Electron Source LINAC Transverse Profile Monitor (PM) (WBS 6.03.04.01)
- 6.03.04.01The transverse profile shall be measured using a screen material that is plunged into the path of the beam, screen type YAG:Ce11/13/2023APPROVEDFALSE
- 6.03.04.01The bunch charge range for measuring transverse profiles shall be 0.1 to 10 nC11/13/2023APPROVEDFALSE
- 6.03.04.01The H & V transverse image measurement range where the beam pipe has a 40 mm diameter, shall be at least +/- 10 mm11/13/2023APPROVEDFALSE
- 6.03.04.01The horizontal transverse image measurement range at the profile monitors in the zigzag rectangular aperture, shall be at least +/- 10 mm11/13/2023APPROVEDFALSE
- 6.03.04.01The vertical transverse image measurement range at the profile monitors in the zigzag rectangular apertures, shall be at least +/- 45 mm11/13/2023APPROVEDFALSE
- 6.03.04.01The expected horizontal and vertical transverse beam sizes at the profile monitors between the LINAC cavities is no larger than 2 mm rms11/13/2023APPROVEDFALSE
- 6.03.04.01The profile monitor station shall be equipped with a remote-control neutral density filter wheel that has 1 blank. The number of other positions with a variety of interchangeable different filters shall be 511/13/2023APPROVEDFALSE
- 6.03.04.01The optical resolution for beam profile measurements using plunging YAG:Ce screens shall be less than 50 microns11/13/2023APPROVEDFALSE
- 6.03.04.01The installation alignment difference between the mechanical center of the YAG:Ce screen, and the mechanical center of a nearby quad magnet, or beam pipe center, shall be less than 100 microns11/13/2023APPROVEDFALSE
- 6.03.04.01The H & V beam size measurement accuracy using plunging screens shall be better than 10 %11/13/2023APPROVEDFALSE
- EIS-LINAC-VAC : EIS Electron Source LINAC Vacuum (WBS 6.03.04.01)
- 6.03.04.01The typical vacuum chamber aperture shall be 32.9 mm11/13/2023APPROVEDFALSE
- 6.03.04.01The acceptable magnetic field from vacuum equipment within a radius shall be greater than 0.4 within 16mm of beam center Gauss11/13/2023APPROVEDFALSE
- 6.03.04.01The average vacuum level after conditioning shall be 1 x 10^-10 Torr11/13/2023APPROVEDFALSE
- 6.03.04.01The vacuum stability (upper pressure limit) shall be TBD Torr. TBD11/13/2023APPROVEDTRUE
- 6.03.04.01The LINAC vacuum system shall be designed such that the average pressure through-out the majority of the accelerating structures, the Zigzag and De-chirp sections of the LINAC shall be less than 5 x 10^-10 Torr11/13/2023APPROVEDFALSE
- 6.03.04.01The LINAC vacuum system beam tube aperture between and at either end of each accelerating structure shall have a nominal 40 mm (1 ½") diameter and all metal sealed Conflat flanges. 40 mm11/13/2023APPROVEDFALSE
- 6.03.04.01The LINAC vacuum system average pressure in the bunching section and the first accelerating structure shall be maintained at less than 5 x 10^-11 Torr11/13/2023APPROVEDFALSE
- 6.03.04.01The LINAC vacuum system shall be designed to eliminate pressure bursts that may increase pressure in the BSA supplied polarized e-gun which are greater than 1 x 10^-11 Torr11/13/2023APPROVEDFALSE
- 6.03.04.01The LINAC vacuum system shall be designed so the pressure at the exit valve is less than 6.0 x 10^-10 Torr11/13/2023APPROVEDFALSE
- 6.03.04.01The LINAC vacuum system waveguide RF vacuum pumps shall be sized to reliably achieve less than 2 x10^-9 Torr 2 x 10^-9 Torr11/13/2023APPROVEDFALSE
- 6.03.04.01The LINAC vacuum system UHV outgassing rate of vacuum system components after UHV cleaning, vacuum heat treating (in the case of stainless steels-vacuum firing), and under vacuum for 100 hours shall not exceed 5 x 10^-12 Torr l/sec/cm2.11/13/2023APPROVEDFALSE
- EIS-LINAC-ZIGZAG : EIS Electron Source LINAC Zigzag System (WBS 6.03.04.01)
- 6.03.04.01The maximum length of a single bunch at exit of 400 MeV LINACshall be less than 4.7 ps rms11/13/2023APPROVEDFALSE
- 6.03.04.01The zigzag magnet bend anglesshall be 22.5 Degrees11/13/2023APPROVEDFALSE
- 6.03.04.01The zigzag e-beam path length change shall be greater than 0.97 m11/13/2023APPROVEDFALSE
- 6.03.04.01The zigzag e-beam path length tunability rangeshall be +/-0.2 m11/13/2023APPROVEDFALSE
- 6.03.04.01The length of a single bunch at exit of zigzagshall be 40 ps rms11/13/2023APPROVEDFALSE
- EIS-METL : EIS Medium Energy Transfer Line (METL) System (WBS 6.03.03)
- EIS-METL-INST : EIS METL Instrumentation System (WBS 6.03.03.04)
- EIS-METL-INST-BPM : EIS METL Instrumentation Beam Profile Monitor (WBS 6.03.03.04)
- 6.03.03.04For a bunch charge range of 100 pc to 10 nC, the BPM measurement resolution shall better than 100 um11/13/2023APPROVEDFALSE
- 6.03.03.04The BPM acquisition rate shall be up to 100 Hz11/13/2023APPROVEDFALSE
- 6.03.03.04The number of BPMs in the Linac-to-RCS transport line shall be tbd ea11/13/2023APPROVEDTRUE
- 6.03.03.04The location of the BPMs shall be tbd11/13/2023APPROVEDTRUE
- 6.03.03.04BPM pick-up alignment accuracy with respect to to its nearby quadrapole magnet shall be better than 100 μm11/13/2023APPROVEDFALSE
- 6.03.03.04The BPM button style pick-ups shall be rotated 45 degree configuration to avoid the synch light near the dipole bends.11/13/2023APPROVEDFALSE
- 6.03.03.04The BPMs shall be used as input for beam trajectory correction and/or feedback to optimize transmission efficiency.11/13/2023APPROVEDFALSE
- 6.03.03.04The BPMs shall be used to measure the beam energy and characterize the accelerator lattice.11/13/2023APPROVEDFALSE
- 6.03.03.04Beam energy measurement resolution shall be 0.4 MeV11/13/2023APPROVEDFALSE
- EIS-METL-INST-CM : EIS METL Instrumentation Charge Monitor (WBS 6.03.03.04)
- 6.03.03.04An ICT and FCT shall be installed near the end of the transfer line.11/13/2023APPROVEDFALSE
- 6.03.03.04The bunch charge shall be measured. The accuracy shall be <1 %11/13/2023APPROVEDFALSE
- 6.03.03.04The bunch charge shall be measured. The resolution shall be ~ 10 pC. 10 pC11/13/2023APPROVEDFALSE
- 6.03.03.04The bunch charge monitor shall be used to measure transport efficiency.11/13/2023APPROVEDFALSE
- 6.03.03.04The FCT shall provide measurements of the bunch patterns being transported to the RCS.11/13/2023APPROVEDFALSE
- 6.03.03.04The number of ICTs in transfer line shall be 3 ea11/13/2023APPROVEDFALSE
- 6.03.03.04The number of FCTs in transfer line shall be tbd ea11/13/2023APPROVEDTRUE
- EIS-METL-INST-PM : EIS METL Instrumentation Profile Monitor (WBS 6.03.03.04)
- 6.03.03.04The transfer line shall include plunging YAG/OTR screens to measure beam position, transverse profiles and beam emittance measurements.11/13/2023APPROVEDFALSE
- 6.03.03.04The optical resolution for beam profile measurements shall be 50 um11/13/2023APPROVEDFALSE
- 6.03.03.04A YAG/OTR station at a dispersive location shall be used to determine the beam energy spread.11/13/2023APPROVEDFALSE
- 6.03.03.04The measurement capability shall be appropriate to measure a beam energy spread of 1 MeV11/13/2023APPROVEDFALSE
- 6.03.03.04The measurement capability shall be appropriate to measure a beam emittance of h & v 35 um. Ref MPT Table 4.4.2. 35 um11/13/2023APPROVEDFALSE
- 6.03.03.04The total number of profile monitors shall be tbd ea11/13/2023APPROVEDTRUE
- 6.03.03.04The locations of the profile monitors shall be tbd11/13/2023APPROVEDTRUE
- EIS-METL-MAG : EIS METL Magnet (WBS 6.03.03.01)
- EIS-METL-MAG-BATES : EIS METL Magnet BATES (WBS 6.03.03.01)
- 6.03.03.01The magnet function shall be 111/13/2023PENDINGFALSE
- 6.03.03.01The field type shall be(Sol,Dip,Quad,Sext,Octu) Quad11/13/2023PENDINGFALSE
- 6.03.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.01The field rotation (norm or skew) shall be N11/13/2023PENDINGFALSE
- 6.03.03.01The min coil inner rad shall be TBD m11/13/2023PENDINGTRUE
- 6.03.03.01The min gap shall be TBD m11/13/2023PENDINGTRUE
- 6.03.03.01The good field aperture drx required shall be TBD m11/13/2023PENDINGTRUE
- 6.03.03.01The good field aperture dry required shall be TBD m11/13/2023PENDINGTRUE
- 6.03.03.01The mag length shall be 0.2794 m11/13/2023PENDINGFALSE
- 6.03.03.01The eff Length shall be TBD m11/13/2023PENDINGTRUE
- 6.03.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.01The grad field G shall be 31.7842112122137 T/m(n-1)11/13/2023PENDINGFALSE
- 6.03.03.01The ramp rate shall be TBD T/s11/13/2023PENDINGTRUE
- 6.03.03.01The field stability shall be TBD T/s11/13/2023PENDINGTRUE
- 6.03.03.01The good field region requirements shall be TBD ppm11/13/2023PENDINGTRUE
- 6.03.03.01The harmonic reference radius shall be TBD mm11/13/2023PENDINGTRUE
- 6.03.03.01The max b1 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.03.03.01The max b2 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.03.03.01The max b3 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.03.03.01The max b4 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.03.03.01The max b5 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.03.03.01The max b6 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.03.03.01The max b7 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.03.03.01The max b8 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.03.03.01The max b9 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.03.03.01The max b10 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.03.03.01The max b11 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.03.03.01The max b12 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.03.03.01The max b13 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.03.03.01The max b14 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.03.03.01The max b15 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.03.03.01The max b16 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.03.03.01The magnet shall be designed to limit Xtalk Requirements TBD Y/N11/13/2023PENDINGTRUE
- 6.03.03.01The X-talk shall be controlled at the following location TBD11/13/2023PENDINGTRUE
- 6.03.03.01The max radial distance to X-talk location content shall be TBD mm11/13/2023PENDINGTRUE
- 6.03.03.01The max analysis radius content shall be TBD mm11/13/2023PENDINGTRUE
- 6.03.03.01The max X-talk multipoles content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.03.03.01The max B1 content shall be TBD T11/13/2023PENDINGTRUE
- 6.03.03.01The max B2 content shall be TBD T11/13/2023PENDINGTRUE
- 6.03.03.01The max B3 content shall be TBD T11/13/2023PENDINGTRUE
- 6.03.03.01The max B4 content shall be TBD T11/13/2023PENDINGTRUE
- 6.03.03.01The max B5 content shall be TBD T11/13/2023PENDINGTRUE
- 6.03.03.01The max B6 content shall be TBD T11/13/2023PENDINGTRUE
- 6.03.03.01The max B7 content shall be TBD T11/13/2023PENDINGTRUE
- 6.03.03.01The max B8 content shall be TBD T11/13/2023PENDINGTRUE
- 6.03.03.01The max B9 content shall be TBD T11/13/2023PENDINGTRUE
- 6.03.03.01The max B10 content shall be TBD T11/13/2023PENDINGTRUE
- 6.03.03.01The max B11 content shall be TBD T11/13/2023PENDINGTRUE
- 6.03.03.01The max B12 content shall be TBD T11/13/2023PENDINGTRUE
- 6.03.03.01The max B13 content shall be TBD T11/13/2023PENDINGTRUE
- 6.03.03.01The max B14 content shall be TBD T11/13/2023PENDINGTRUE
- 6.03.03.01The max B15 content shall be TBD T11/13/2023PENDINGTRUE
- 6.03.03.01The max B16 content shall be TBD T11/13/2023PENDINGTRUE
- 6.03.03.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023PENDINGTRUE
- 6.03.03.01The fringe field shall be constrained at the following location TBD mm11/13/2023PENDINGTRUE
- 6.03.03.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023PENDINGTRUE
- EIS-METL-MAG-BMP1 : EIS METL Magnet BMP1 (WBS 6.03.03.01)
- 6.03.03.01The magnet function shall be 111/13/2023PENDINGFALSE
- 6.03.03.01The field type shall be(Sol,Dip,Quad,Sext,Octu) Bump Dipole11/13/2023PENDINGFALSE
- 6.03.03.01The field dir (ver or hor) shall be vertical11/13/2023PENDINGFALSE
- 6.03.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.01The min coil inner rad shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The min gap shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The mag length shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The eff Length shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The dipole field B shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The grad field G shall be TBD T/m(n-1)11/13/2023APPROVEDTRUE
- 6.03.03.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.03.03.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.03.03.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.03.03.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max b1 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b2 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b3 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b4 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b5 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b6 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b7 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b8 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b9 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b10 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b11 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b12 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b13 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b14 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b15 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b16 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The magnet shall be designed to limit Xtalk Requirements TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.03.03.01The max radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max analysis radius content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max X-talk multipoles content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max B1 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B2 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B3 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B4 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B5 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B6 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B7 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B8 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B9 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B10 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B11 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B12 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B13 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B14 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B15 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B16 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023PENDINGTRUE
- EIS-METL-MAG-D1 : EIS METL Magnet D1 (WBS 6.03.03.01)
- 6.03.03.01The magnet function shall be 111/13/2023APPROVEDFALSE
- 6.03.03.01The field type shall be(Sol,Dip,Quad,Sext,Octu) Dipole11/13/2023APPROVEDFALSE
- 6.03.03.01The field dir (ver or hor) shall be Vertical11/13/2023PENDINGFALSE
- 6.03.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.01The min coil inner rad shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The min gap shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The mag length shall be 0.825 m11/13/2023PENDINGFALSE
- 6.03.03.01The eff Length shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The dipole field B shall be 1.39860583085309 T11/13/2023PENDINGFALSE
- 6.03.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.03.03.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.03.03.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.03.03.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max b1 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b2 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b3 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b4 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b5 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b6 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b7 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b8 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b9 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b10 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b11 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b12 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b13 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b14 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b15 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b16 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The magnet shall be designed to limit Xtalk Requirements TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.03.03.01The max radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max analysis radius content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max X-talk multipoles content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max B1 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B2 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B3 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B4 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B5 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B6 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B7 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B8 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B9 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B10 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B11 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B12 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B13 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B14 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B15 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B16 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- EIS-METL-MAG-D2 : EIS METL Magnet D2 (WBS 6.03.03.01)
- 6.03.03.01The magnet function shall be 111/13/2023APPROVEDFALSE
- 6.03.03.01The field type shall be(Sol,Dip,Quad,Sext,Octu) Dipole11/13/2023APPROVEDFALSE
- 6.03.03.01The field dir (ver or hor) shall be Vertical11/13/2023PENDINGFALSE
- 6.03.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.01The min coil inner rad shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The min gap shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The mag length shall be 0.5455 m11/13/2023PENDINGFALSE
- 6.03.03.01The eff Length shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The dipole field B shall be 1.29833308684266 T11/13/2023PENDINGFALSE
- 6.03.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.03.03.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.03.03.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.03.03.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max b1 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b2 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b3 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b4 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b5 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b6 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b7 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b8 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b9 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b10 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b11 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b12 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b13 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b14 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b15 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b16 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The magnet shall be designed to limit Xtalk Requirements TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.03.03.01The max radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max analysis radius content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max X-talk multipoles content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max B1 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B2 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B3 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B4 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B5 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B6 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B7 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B8 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B9 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B10 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B11 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B12 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B13 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B14 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B15 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B16 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023PENDINGTRUE
- EIS-METL-MAG-D3 : EIS METL Magnet D3 (WBS 6.03.03.01)
- 6.03.03.01The magnet function shall be 111/13/2023APPROVEDFALSE
- 6.03.03.01The field type shall be(Sol,Dip,Quad,Sext,Octu) Dipole11/13/2023APPROVEDFALSE
- 6.03.03.01The field dir (ver or hor) shall be Vertical11/13/2023PENDINGFALSE
- 6.03.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.01The min coil inner rad shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The min gap shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The mag length shall be 0.117 m11/13/2023PENDINGFALSE
- 6.03.03.01The eff Length shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The dipole field B shall be 0.881238538044864 T11/13/2023PENDINGFALSE
- 6.03.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.03.03.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.03.03.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.03.03.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max b1 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b2 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b3 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b4 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b5 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b6 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b7 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b8 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b9 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b10 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b11 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b12 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b13 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b14 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b15 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b16 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The magnet shall be designed to limit Xtalk Requirements TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.03.03.01The max radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max analysis radius content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max X-talk multipoles content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max B1 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B2 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B3 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B4 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B5 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B6 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B7 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B8 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B9 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B10 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B11 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B12 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B13 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B14 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B15 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B16 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023PENDINGTRUE
- EIS-METL-MAG-D4 : EIS METL Magnet D4 (WBS 6.03.03.01)
- 6.03.03.01The magnet function shall be 111/13/2023APPROVEDFALSE
- 6.03.03.01The field type shall be(Sol,Dip,Quad,Sext,Octu) Dipole11/13/2023APPROVEDFALSE
- 6.03.03.01The field dir (ver or hor) shall be Vertical11/13/2023PENDINGFALSE
- 6.03.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.01The min coil inner rad shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The min gap shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The mag length shall be 0.5 m11/13/2023PENDINGFALSE
- 6.03.03.01The eff Length shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The dipole field B shall be 0.895541157234723 T11/13/2023PENDINGFALSE
- 6.03.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.03.03.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.03.03.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.03.03.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max b1 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b2 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b3 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b4 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b5 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b6 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b7 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b8 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b9 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b10 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b11 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b12 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b13 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b14 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b15 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b16 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The magnet shall be designed to limit Xtalk Requirements TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.03.03.01The max radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max analysis radius content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max X-talk multipoles content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max B1 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B2 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B3 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B4 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B5 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B6 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B7 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B8 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B9 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B10 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B11 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B12 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B13 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B14 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B15 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B16 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- EIS-METL-MAG-HK1 : EIS METL Magnet HK1 (WBS 6.03.03.01)
- 6.03.03.01The magnet function shall be 111/13/2023PENDINGFALSE
- 6.03.03.01The field type shall be(Sol,Dip,Quad,Sext,Octu) Kicker11/13/2023PENDINGFALSE
- 6.03.03.01The field dir (ver or hor) shall be Vertical11/13/2023PENDINGFALSE
- 6.03.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.01The min coil inner rad shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The min gap shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The mag length shall be 0.000001 m11/13/2023PENDINGFALSE
- 6.03.03.01The eff Length shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The dipole field B shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.03.03.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.03.03.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.03.03.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max b1 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b2 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b3 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b4 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b5 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b6 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b7 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b8 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b9 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b10 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b11 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b12 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b13 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b14 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b15 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b16 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The magnet shall be designed to limit Xtalk Requirements TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.03.03.01The max radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max analysis radius content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max X-talk multipoles content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max B1 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B2 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B3 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B4 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B5 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B6 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B7 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B8 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B9 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B10 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B11 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B12 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B13 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B14 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B15 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B16 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023PENDINGTRUE
- EIS-METL-MAG-Q1 : EIS METL Magnet Q1 (WBS 6.03.03.01)
- 6.03.03.01The magnet function shall be 111/13/2023APPROVEDFALSE
- 6.03.03.01The field type shall be(Sol,Dip,Quad,Sext,Octu) Quad11/13/2023APPROVEDFALSE
- 6.03.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.01The field rotation (norm or skew) shall be N11/13/2023APPROVEDFALSE
- 6.03.03.01The min coil inner rad shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The min gap shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The mag length shall be 0.1 m11/13/2023PENDINGFALSE
- 6.03.03.01The eff Length shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.01The grad field G shall be 6.9840772514584 T/m(n-1)11/13/2023PENDINGFALSE
- 6.03.03.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.03.03.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.03.03.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.03.03.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max b1 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b2 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b3 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b4 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b5 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b6 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b7 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b8 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b9 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b10 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b11 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b12 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b13 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b14 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b15 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b16 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The magnet shall be designed to limit Xtalk Requirements TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.03.03.01The max radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max analysis radius content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max X-talk multipoles content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max B1 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B2 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B3 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B4 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B5 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B6 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B7 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B8 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B9 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B10 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B11 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B12 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B13 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B14 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B15 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B16 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- EIS-METL-MAG-Q2 : EIS METL Magnet Q2 (WBS 6.03.03.01)
- 6.03.03.01The magnet function shall be 111/13/2023APPROVEDFALSE
- 6.03.03.01The field type shall be(Sol,Dip,Quad,Sext,Octu) Quad11/13/2023APPROVEDFALSE
- 6.03.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.01The field rotation (norm or skew) shall be N11/13/2023APPROVEDFALSE
- 6.03.03.01The min coil inner rad shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The min gap shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The mag length shall be 0.05 m11/13/2023PENDINGFALSE
- 6.03.03.01The eff Length shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.01The grad field G shall be 32.7826598210032 T/m(n-1)11/13/2023PENDINGFALSE
- 6.03.03.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.03.03.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.03.03.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.03.03.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max b1 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b2 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b3 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b4 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b5 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b6 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b7 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b8 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b9 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b10 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b11 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b12 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b13 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b14 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b15 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b16 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The magnet shall be designed to limit Xtalk Requirements TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.03.03.01The max radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max analysis radius content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max X-talk multipoles content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max B1 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B2 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B3 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B4 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B5 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B6 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B7 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B8 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B9 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B10 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B11 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B12 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B13 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B14 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B15 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B16 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- EIS-METL-MAG-Q3 : EIS METL Magnet Q3 (WBS 6.03.03.01)
- 6.03.03.01The magnet function shall be 111/13/2023APPROVEDFALSE
- 6.03.03.01The field type shall be(Sol,Dip,Quad,Sext,Octu) Quad11/13/2023APPROVEDFALSE
- 6.03.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.01The field rotation (norm or skew) shall be N11/13/2023APPROVEDFALSE
- 6.03.03.01The min coil inner rad shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The min gap shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The mag length shall be 0.13 m11/13/2023PENDINGFALSE
- 6.03.03.01The eff Length shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.01The grad field G shall be 15.366488267969 T/m(n-1)11/13/2023PENDINGFALSE
- 6.03.03.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.03.03.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.03.03.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.03.03.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max b1 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b2 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b3 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b4 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b5 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b6 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b7 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b8 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b9 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b10 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b11 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b12 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b13 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b14 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b15 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b16 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The magnet shall be designed to limit Xtalk Requirements TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.03.03.01The max radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max analysis radius content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max X-talk multipoles content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max B1 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B2 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B3 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B4 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B5 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B6 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B7 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B8 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B9 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B10 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B11 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B12 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B13 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B14 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B15 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B16 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- EIS-METL-MAG-Q4 : EIS METL Magnet Q4 (WBS 6.03.03.01)
- 6.03.03.01The magnet function shall be 111/13/2023APPROVEDFALSE
- 6.03.03.01The field type shall be(Sol,Dip,Quad,Sext,Octu) Quad11/13/2023APPROVEDFALSE
- 6.03.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.01The field rotation (norm or skew) shall be N11/13/2023APPROVEDFALSE
- 6.03.03.01The min coil inner rad shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The min gap shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The mag length shall be 0.065 m11/13/2023PENDINGFALSE
- 6.03.03.01The eff Length shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.01The grad field G shall be 47.9685927666342 T/m(n-1)11/13/2023PENDINGFALSE
- 6.03.03.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.03.03.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.03.03.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.03.03.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max b1 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b2 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b3 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b4 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b5 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b6 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b7 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b8 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b9 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b10 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b11 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b12 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b13 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b14 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b15 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b16 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The magnet shall be designed to limit Xtalk Requirements TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.03.03.01The max radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max analysis radius content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max X-talk multipoles content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max B1 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B2 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B3 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B4 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B5 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B6 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B7 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B8 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B9 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B10 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B11 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B12 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B13 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B14 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B15 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B16 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- EIS-METL-MAG-SEPT1 : EIS METL Magnet SEP1 (WBS 6.03.03.01)
- 6.03.03.01The magnet function shall be 111/13/2023PENDINGFALSE
- 6.03.03.01The field type shall be(Sol,Dip,Quad,Sext,Octu) SEPTUM11/13/2023PENDINGFALSE
- 6.03.03.01The field dir (ver or hor) shall be vertical11/13/2023PENDINGFALSE
- 6.03.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.01The min coil inner rad shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The min gap shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The mag length shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The eff Length shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The dipole field B shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The grad field G shall be TBD T/m(n-1)11/13/2023APPROVEDTRUE
- 6.03.03.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.03.03.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.03.03.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.03.03.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max b1 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b2 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b3 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b4 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b5 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b6 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b7 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b8 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b9 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b10 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b11 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b12 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b13 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b14 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b15 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b16 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The magnet shall be designed to limit Xtalk Requirements TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.03.03.01The max radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max analysis radius content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max X-talk multipoles content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max B1 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B2 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B3 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B4 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B5 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B6 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B7 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B8 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B9 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B10 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B11 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B12 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B13 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B14 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B15 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B16 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- EIS-METL-MAG-SOL1 : EIS METL Magnet SOL1 (WBS 6.03.03.01)
- 6.03.03.01The magnet function shall be 111/13/2023PENDINGFALSE
- 6.03.03.01The field type shall be(Sol,Dip,Quad,Sext,Octu) Solenoid11/13/2023PENDINGFALSE
- 6.03.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.01The min coil inner rad shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The min gap shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The mag length shall be 0.6 m11/13/2023PENDINGFALSE
- 6.03.03.01The eff Length shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The solenoid field B shall be 3.66666666666667 T11/13/2023PENDINGFALSE
- 6.03.03.01The grad field G shall be 0 T/m(n-1)11/13/2023PENDINGFALSE
- 6.03.03.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.03.03.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.03.03.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.03.03.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max b1 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b2 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b3 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b4 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b5 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b6 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b7 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b8 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b9 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b10 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b11 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b12 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b13 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b14 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b15 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b16 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The magnet shall be designed to limit Xtalk Requirements TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.03.03.01The max radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max analysis radius content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max X-talk multipoles content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max B1 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B2 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B3 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B4 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B5 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B6 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B7 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B8 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B9 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B10 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B11 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B12 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B13 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B14 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B15 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B16 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023PENDINGTRUE
- EIS-METL-MAG-VK1 : EIS METL Magnet VK1 (WBS 6.03.03.01)
- 6.03.03.01The magnet function shall be 111/13/2023PENDINGFALSE
- 6.03.03.01The field type shall be(Sol,Dip,Quad,Sext,Octu) VKICKER11/13/2023PENDINGFALSE
- 6.03.03.01The field dir (ver or hor) shall be Horizontal11/13/2023PENDINGFALSE
- 6.03.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.01The min coil inner rad shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The min gap shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The mag length shall be 0.000001 m11/13/2023PENDINGFALSE
- 6.03.03.01The eff Length shall be TBD m11/13/2023APPROVEDTRUE
- 6.03.03.01The dipole field B shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.03.03.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.03.03.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.03.03.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max b1 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b2 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b3 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b4 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b5 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b6 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b7 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b8 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b9 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b10 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b11 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b12 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b13 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b14 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b15 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max b16 content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The magnet shall be designed to limit Xtalk Requirements TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.03.03.01The max radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max analysis radius content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01The max X-talk multipoles content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.03.03.01The max B1 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B2 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B3 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B4 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B5 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B6 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B7 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B8 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B9 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B10 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B11 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B12 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B13 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B14 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B15 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The max B16 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.03.03.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.03.03.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023PENDINGTRUE
- EIS-METL-PS : EIS METL Magnet Power Supply (WBS 6.03.03.02)
- EIS-METL-PS-BATES : EIS METL Magnet Power Supply BATES (WBS 6.03.03.02)
- 6.03.03.02The number of Independent functions on the magnets being powered shall be TBD ohm11/13/2023PENDINGTRUE
- 6.03.03.02The maximum magnet string resistance to be powered shall be TBD H11/13/2023PENDINGTRUE
- 6.03.03.02The maximum magnet string inductance to be powered shall be TBD Y/N11/13/2023PENDINGTRUE
- 6.03.03.02The magnets being powered shall be saturated TBD11/13/2023PENDINGTRUE
- 6.03.03.02The miits rating of the magnet being powred shall be TBD V11/13/2023PENDINGTRUE
- 6.03.03.02The voltage to ground of the magnet being powered shall be TBD A11/13/2023PENDINGTRUE
- 6.03.03.02The nominal current of the magnets being powered shall be TBD11/13/2023PENDINGTRUE
- 6.03.03.02The minmum current the PS must operate at shall be TBD A11/13/2023PENDINGTRUE
- 6.03.03.02The maximum current the PS must operate at shall be TBD DC\AC11/13/2023PENDINGTRUE
- 6.03.03.02The PS current type DC or AC shall be TBD11/13/2023PENDINGTRUE
- 6.03.03.02The PS AC waveshape required shall be TBD11/13/2023PENDINGTRUE
- 6.03.03.02The peak waveshape di/dt during ramping shall be TBD11/13/2023PENDINGTRUE
- 6.03.03.02The full power bandwidth required shall be TBD11/13/2023PENDINGTRUE
- 6.03.03.02The ppm of full scale current (peak to peak) shall be TBD s11/13/2023PENDINGTRUE
- 6.03.03.02The time period for specified stability shall be TBD A/s11/13/2023PENDINGTRUE
- 6.03.03.02The short term stability shall be TBD A/s11/13/2023PENDINGTRUE
- 6.03.03.02The long term stability shall be TBD11/13/2023PENDINGTRUE
- 6.03.03.02The current setpoint resolution (min size in bits) shall be TBD s11/13/2023PENDINGTRUE
- 6.03.03.02The synchronization required between PS's shall be TBD s11/13/2023PENDINGTRUE
- 6.03.03.02The synchronization timing of synchronization shall be TBD11/13/2023PENDINGTRUE
- 6.03.03.02The max allowable current ripple (peak to peak) TBD Hz11/13/2023PENDINGTRUE
- 6.03.03.02The max current ripple frequency range (Hz) TBD Hz11/13/2023PENDINGTRUE
- 6.03.03.02WRT the ripple frequency the following resonant frequencies shall be avoided TBD V11/13/2023PENDINGTRUE
- 6.03.03.02The max voltage ripple (peak to peak) shall be TBD A/s11/13/2023PENDINGTRUE
- 6.03.03.02An NMR shall be required to measure the field TBD11/13/2023PENDINGTRUE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02The current required to be shunted through the magnet shall be TBD11/13/2023PENDINGTRUE
- 6.03.03.02The magnet turns ratio shall be TBD V11/13/2023PENDINGTRUE
- 6.03.03.02The terminal voltage shall be TBD11/13/2023PENDINGTRUE
- 6.03.03.02The design shall have thermal switches TBD11/13/2023PENDINGTRUE
- 6.03.03.02The thermal switch connection numbers shall be TBD11/13/2023PENDINGTRUE
- 6.03.03.02The design shall have water flow switches TBD11/13/2023PENDINGTRUE
- 6.03.03.02The water flow switch connections numbers shall be TBD11/13/2023PENDINGTRUE
- 6.03.03.02The design shall have access controls interlocks TBD11/13/2023PENDINGTRUE
- 6.03.03.02The main terminals lug details shall be TBD11/13/2023PENDINGTRUE
- 6.03.03.02The lead end indications shall be TBD11/13/2023PENDINGTRUE
- 6.03.03.02The lugs details for thermal switch and water switches shall be TBD11/13/2023PENDINGTRUE
- 6.03.03.02The lug details for the auxiliary windings shall be TBD11/13/2023PENDINGTRUE
- 6.03.03.02The A/B terminal labeling details shall be TBD11/13/2023PENDINGTRUE
- 6.03.03.02The magnet drawing with terminations details shall be TBD11/13/2023PENDINGTRUE
- 6.03.03.02The magnet polarity connections shall be TBD11/13/2023PENDINGTRUE
- EIS-METL-PS-BMP1 : EIS METL Magnet Power Supply BMP1 (WBS 6.03.03.02)
- 6.03.03.02The number of Independent functions on the magnets being powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum magnet string resistance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum magnet string inductance to be powered shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.02The magnets being powered shall be saturated TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The miits rating of the magnet being powred shall be TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The voltage to ground of the magnet being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.03.03.02The nominal current of the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum current the PS must operate at shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.03.03.02The PS current type DC or AC shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The ppm of full scale current (peak to peak) shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The time period for specified stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02The long term stability shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The current setpoint resolution (min size in bits) shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The synchronization timing of synchronization shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The max allowable current ripple (peak to peak) TBD Hz11/13/2023APPROVEDTRUE
- 6.03.03.02The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.03.03.02WRT the ripple frequency the following resonant frequencies shall be avoided TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The max voltage ripple (peak to peak) shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02An NMR shall be required to measure the field TBD11/13/2023APPROVEDTRUE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet turns ratio shall be TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The terminal voltage shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- EIS-METL-PS-D1 : EIS METL Magnet Power Supply D1 (WBS 6.03.03.02)
- 6.03.03.02The number of Independent functions on the magnets being powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum magnet string resistance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum magnet string inductance to be powered shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.02The magnets being powered shall be saturated TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The miits rating of the magnet being powred shall be TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The voltage to ground of the magnet being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.03.03.02The nominal current of the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum current the PS must operate at shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.03.03.02The PS current type DC or AC shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The ppm of full scale current (peak to peak) shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The time period for specified stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02The long term stability shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The current setpoint resolution (min size in bits) shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The synchronization timing of synchronization shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The max allowable current ripple (peak to peak) TBD Hz11/13/2023APPROVEDTRUE
- 6.03.03.02The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.03.03.02WRT the ripple frequency the following resonant frequencies shall be avoided TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The max voltage ripple (peak to peak) shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02An NMR shall be required to measure the field TBD11/13/2023APPROVEDTRUE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet turns ratio shall be TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The terminal voltage shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- EIS-METL-PS-D2 : EIS METL Magnet Power Supply D2 (WBS 6.03.03.02)
- 6.03.03.02The number of Independent functions on the magnets being powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum magnet string resistance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum magnet string inductance to be powered shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.02The magnets being powered shall be saturated TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The miits rating of the magnet being powred shall be TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The voltage to ground of the magnet being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.03.03.02The nominal current of the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum current the PS must operate at shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.03.03.02The PS current type DC or AC shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The ppm of full scale current (peak to peak) shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The time period for specified stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02The long term stability shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The current setpoint resolution (min size in bits) shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The synchronization timing of synchronization shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The max allowable current ripple (peak to peak) TBD Hz11/13/2023APPROVEDTRUE
- 6.03.03.02The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.03.03.02WRT the ripple frequency the following resonant frequencies shall be avoided TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The max voltage ripple (peak to peak) shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02An NMR shall be required to measure the field TBD11/13/2023APPROVEDTRUE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet turns ratio shall be TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The terminal voltage shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- EIS-METL-PS-D3 : EIS METL Magnet Power Supply D3 (WBS 6.03.03.02)
- 6.03.03.02The number of Independent functions on the magnets being powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum magnet string resistance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum magnet string inductance to be powered shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.02The magnets being powered shall be saturated TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The miits rating of the magnet being powred shall be TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The voltage to ground of the magnet being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.03.03.02The nominal current of the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum current the PS must operate at shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.03.03.02The PS current type DC or AC shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The ppm of full scale current (peak to peak) shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The time period for specified stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02The long term stability shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The current setpoint resolution (min size in bits) shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The synchronization timing of synchronization shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The max allowable current ripple (peak to peak) TBD Hz11/13/2023APPROVEDTRUE
- 6.03.03.02The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.03.03.02WRT the ripple frequency the following resonant frequencies shall be avoided TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The max voltage ripple (peak to peak) shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02An NMR shall be required to measure the field TBD11/13/2023APPROVEDTRUE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet turns ratio shall be TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The terminal voltage shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- EIS-METL-PS-D4 : EIS METL Magnet Power Supply D4 (WBS 6.03.03.02)
- 6.03.03.02The number of Independent functions on the magnets being powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum magnet string resistance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum magnet string inductance to be powered shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.02The magnets being powered shall be saturated TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The miits rating of the magnet being powred shall be TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The voltage to ground of the magnet being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.03.03.02The nominal current of the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum current the PS must operate at shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.03.03.02The PS current type DC or AC shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The ppm of full scale current (peak to peak) shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The time period for specified stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02The long term stability shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The current setpoint resolution (min size in bits) shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The synchronization timing of synchronization shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The max allowable current ripple (peak to peak) TBD Hz11/13/2023APPROVEDTRUE
- 6.03.03.02The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.03.03.02WRT the ripple frequency the following resonant frequencies shall be avoided TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The max voltage ripple (peak to peak) shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02An NMR shall be required to measure the field TBD11/13/2023APPROVEDTRUE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet turns ratio shall be TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The terminal voltage shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- EIS-METL-PS-HK1 : EIS METL Magnet Power Supply HK1 (WBS 6.03.03.02)
- 6.03.03.02The number of Independent functions on the magnets being powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum magnet string resistance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum magnet string inductance to be powered shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.02The magnets being powered shall be saturated TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The miits rating of the magnet being powred shall be TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The voltage to ground of the magnet being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.03.03.02The nominal current of the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum current the PS must operate at shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.03.03.02The PS current type DC or AC shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The ppm of full scale current (peak to peak) shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The time period for specified stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02The long term stability shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The current setpoint resolution (min size in bits) shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The synchronization timing of synchronization shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The max allowable current ripple (peak to peak) TBD Hz11/13/2023APPROVEDTRUE
- 6.03.03.02The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.03.03.02WRT the ripple frequency the following resonant frequencies shall be avoided TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The max voltage ripple (peak to peak) shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02An NMR shall be required to measure the field TBD11/13/2023APPROVEDTRUE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet turns ratio shall be TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The terminal voltage shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- EIS-METL-PS-Q1 : EIS METL Magnet Power Supply Q1 (WBS 6.03.03.02)
- 6.03.03.02The number of Independent functions on the magnets being powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum magnet string resistance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum magnet string inductance to be powered shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.02The magnets being powered shall be saturated TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The miits rating of the magnet being powred shall be TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The voltage to ground of the magnet being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.03.03.02The nominal current of the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum current the PS must operate at shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.03.03.02The PS current type DC or AC shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The ppm of full scale current (peak to peak) shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The time period for specified stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02The long term stability shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The current setpoint resolution (min size in bits) shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The synchronization timing of synchronization shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The max allowable current ripple (peak to peak) TBD Hz11/13/2023APPROVEDTRUE
- 6.03.03.02The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.03.03.02WRT the ripple frequency the following resonant frequencies shall be avoided TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The max voltage ripple (peak to peak) shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02An NMR shall be required to measure the field TBD11/13/2023APPROVEDTRUE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet turns ratio shall be TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The terminal voltage shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- EIS-METL-PS-Q2 : EIS METL Magnet Power Supply Q2 (WBS 6.03.03.02)
- 6.03.03.02The number of Independent functions on the magnets being powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum magnet string resistance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum magnet string inductance to be powered shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.02The magnets being powered shall be saturated TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The miits rating of the magnet being powred shall be TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The voltage to ground of the magnet being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.03.03.02The nominal current of the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum current the PS must operate at shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.03.03.02The PS current type DC or AC shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The ppm of full scale current (peak to peak) shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The time period for specified stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02The long term stability shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The current setpoint resolution (min size in bits) shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The synchronization timing of synchronization shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The max allowable current ripple (peak to peak) TBD Hz11/13/2023APPROVEDTRUE
- 6.03.03.02The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.03.03.02WRT the ripple frequency the following resonant frequencies shall be avoided TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The max voltage ripple (peak to peak) shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02An NMR shall be required to measure the field TBD11/13/2023APPROVEDTRUE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet turns ratio shall be TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The terminal voltage shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- EIS-METL-PS-Q3 : EIS METL Magnet Power Supply Q3 (WBS 6.03.03.02)
- 6.03.03.02The number of Independent functions on the magnets being powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum magnet string resistance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum magnet string inductance to be powered shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.02The magnets being powered shall be saturated TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The miits rating of the magnet being powred shall be TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The voltage to ground of the magnet being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.03.03.02The nominal current of the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum current the PS must operate at shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.03.03.02The PS current type DC or AC shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The ppm of full scale current (peak to peak) shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The time period for specified stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02The long term stability shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The current setpoint resolution (min size in bits) shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The synchronization timing of synchronization shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The max allowable current ripple (peak to peak) TBD Hz11/13/2023APPROVEDTRUE
- 6.03.03.02The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.03.03.02WRT the ripple frequency the following resonant frequencies shall be avoided TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The max voltage ripple (peak to peak) shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02An NMR shall be required to measure the field TBD11/13/2023APPROVEDTRUE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet turns ratio shall be TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The terminal voltage shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- EIS-METL-PS-Q4 : EIS METL Magnet Power Supply Q4 (WBS 6.03.03.02)
- 6.03.03.02The number of Independent functions on the magnets being powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum magnet string resistance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum magnet string inductance to be powered shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.02The magnets being powered shall be saturated TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The miits rating of the magnet being powred shall be TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The voltage to ground of the magnet being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.03.03.02The nominal current of the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum current the PS must operate at shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.03.03.02The PS current type DC or AC shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The ppm of full scale current (peak to peak) shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The time period for specified stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02The long term stability shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The current setpoint resolution (min size in bits) shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The synchronization timing of synchronization shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The max allowable current ripple (peak to peak) TBD Hz11/13/2023APPROVEDTRUE
- 6.03.03.02The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.03.03.02WRT the ripple frequency the following resonant frequencies shall be avoided TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The max voltage ripple (peak to peak) shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02An NMR shall be required to measure the field TBD11/13/2023APPROVEDTRUE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet turns ratio shall be TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The terminal voltage shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- EIS-METL-PS-SEPT1 : EIS METL Magnet Power Supply SEP1 (WBS 6.03.03.02)
- 6.03.03.02The number of Independent functions on the magnets being powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum magnet string resistance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum magnet string inductance to be powered shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.02The magnets being powered shall be saturated TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The miits rating of the magnet being powred shall be TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The voltage to ground of the magnet being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.03.03.02The nominal current of the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum current the PS must operate at shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.03.03.02The PS current type DC or AC shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The ppm of full scale current (peak to peak) shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The time period for specified stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02The long term stability shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The current setpoint resolution (min size in bits) shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The synchronization timing of synchronization shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The max allowable current ripple (peak to peak) TBD Hz11/13/2023APPROVEDTRUE
- 6.03.03.02The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.03.03.02WRT the ripple frequency the following resonant frequencies shall be avoided TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The max voltage ripple (peak to peak) shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02An NMR shall be required to measure the field TBD11/13/2023APPROVEDTRUE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet turns ratio shall be TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The terminal voltage shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- EIS-METL-PS-SOL1 : EIS METL Magnet Power Supply SOL1 (WBS 6.03.03.02)
- 6.03.03.02The number of Independent functions on the magnets being powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum magnet string resistance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum magnet string inductance to be powered shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.02The magnets being powered shall be saturated TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The miits rating of the magnet being powred shall be TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The voltage to ground of the magnet being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.03.03.02The nominal current of the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum current the PS must operate at shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.03.03.02The PS current type DC or AC shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The ppm of full scale current (peak to peak) shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The time period for specified stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02The long term stability shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The current setpoint resolution (min size in bits) shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The synchronization timing of synchronization shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The max allowable current ripple (peak to peak) TBD Hz11/13/2023APPROVEDTRUE
- 6.03.03.02The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.03.03.02WRT the ripple frequency the following resonant frequencies shall be avoided TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The max voltage ripple (peak to peak) shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02An NMR shall be required to measure the field TBD11/13/2023APPROVEDTRUE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet turns ratio shall be TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The terminal voltage shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- EIS-METL-PS-VK1 : EIS METL Magnet Power Supply VK1 (WBS 6.03.03.02)
- 6.03.03.02The number of Independent functions on the magnets being powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum magnet string resistance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum magnet string inductance to be powered shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.03.03.02The magnets being powered shall be saturated TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The miits rating of the magnet being powred shall be TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The voltage to ground of the magnet being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.03.03.02The nominal current of the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.03.03.02The maximum current the PS must operate at shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.03.03.02The PS current type DC or AC shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The ppm of full scale current (peak to peak) shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The time period for specified stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02The long term stability shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The current setpoint resolution (min size in bits) shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.03.03.02The synchronization timing of synchronization shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The max allowable current ripple (peak to peak) TBD Hz11/13/2023APPROVEDTRUE
- 6.03.03.02The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.03.03.02WRT the ripple frequency the following resonant frequencies shall be avoided TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The max voltage ripple (peak to peak) shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.03.03.02An NMR shall be required to measure the field TBD11/13/2023APPROVEDTRUE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.03.02The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet turns ratio shall be TBD V11/13/2023APPROVEDTRUE
- 6.03.03.02The terminal voltage shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.03.03.02The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- EIS-METL-VAC : EIS METL Vacuum (WBS 6.03.03.03)
- 6.03.03.03Fast valve protection shall be provided at TBD11/13/2023APPROVEDTRUE
- EIS-RCS : EIS Rapid Cycle Synchrotron (RCS) System (WBS 6.03.02)
- EIS-RCS-CONT : EIS RCS Controls System (WBS 6.07.02)
- 6.07.02The beam based alignment shall power the quadrapole magnets to +/- .15 k111/13/2023APPROVEDFALSE
- 6.07.02The beam based alignment BPM's shall be placed in the following locations tbd11/13/2023APPROVEDTRUE
- 6.07.02The orbit display rate shall be 1 Hz11/13/2023APPROVEDFALSE
- 6.07.02The orbit feed-forward optimization rate shall be 1 Hz11/13/2023APPROVEDFALSE
- 6.07.02The orbit corrections sampling rate shall be 78 kHz11/13/2023APPROVEDFALSE
- 6.07.02The tunes feed-forward optimization period shall be 6 hrs +/- 111/13/2023APPROVEDFALSE
- 6.07.02The chromaticity feed-forward optimization rate shall be 6 hrs +/- 111/13/2023APPROVEDFALSE
- 6.07.02The fast context switching available PPM contexts shall be 8 cnt11/13/2023APPROVEDFALSE
- 6.07.02The fast context switching shall apply to selected RF components in the following locations tbd11/13/2023APPROVEDTRUE
- 6.07.02The fast context switching shall apply to selected PS components in the following locations tbd11/13/2023APPROVEDTRUE
- 6.07.02The fast context switching shal apply to selected Inst components in the following locations tbd11/13/2023APPROVEDTRUE
- 6.07.02The fast context switching shall support manual and automated control in the following locations tbd11/13/2023APPROVEDTRUE
- 6.07.02The fast context switching min context switching period shall be 1 sec11/13/2023APPROVEDFALSE
- EIS-RCS-CONT-INJ : EIS RCS Controls System Injection Tuning (WBS 6.07.02)
- 6.07.02Placeholder , Tuning requirements Should be listed here and/or under transfer lines in 6.03 shall be tbd11/13/2023APPROVEDTRUE
- EIS-RCS-INST : EIS RCS Instrumentation System (WBS 6.03.02.05)
- EIS-RCS-INST-BPM : EIS RCS Instrumentation Beam Position Monitor (WBS 6.03.02.05)
- 6.03.02.05The dual plane button style BPMs shall be placed near the RCS focusing quads and rotated at 45 degrees to avoid synchrotron radiation.11/13/2023APPROVEDFALSE
- 6.03.02.05The single plane button style BPMs shall be placed near the defocusing quads will have a button on the top and bottom.11/13/2023APPROVEDFALSE
- 6.03.02.05BPM pick-up shall be located near each quadrupole magnet in the RCS11/13/2023APPROVEDFALSE
- 6.03.02.05BPM pick-up shall be located with respect to the nearby quadrupole with alignment accuracy relative to closest quad of better than 100 microns11/13/2023APPROVEDFALSE
- 6.03.02.05BPM pick-ups shall be designed to provide the required measurement resolution for both vertical and horizontal measurements out to +/-10 mm11/13/2023APPROVEDFALSE
- 6.03.02.05BPM pick-ups design shall ensure the simulated impedance is within the accepted overall RCS impedance budget11/13/2023APPROVEDFALSE
- 6.03.02.05Measurement resolution for (1 nC) pilot bunch, single turn shall be 1 mm11/13/2023APPROVEDFALSE
- 6.03.02.05Measurement resolution for (1 nC) pilot bunch, 1000 turns average shall be 100 microns11/13/2023APPROVEDFALSE
- 6.03.02.05Measurement resolution for 4 bunch train & 2 bunch train (before merges), single turn, low charge/bunch (1-7 nC) shall be 1 mm11/13/2023APPROVEDFALSE
- 6.03.02.05Measurement resolution for 4 bunch train & 2 bunch train (before merges), single turn, high charge/bunch (7-28 nC) shall be 100 microns11/13/2023APPROVEDFALSE
- 6.03.02.05Measurement resolution for 4 bunch train & 2 bunch train (before merges), 1000 turns average, high charge/bunch (7-28 nC) shall be 10 microns11/13/2023APPROVEDFALSE
- 6.03.02.05Measurement resolution for single bunch (after merges), single turn, low charge/bunch (1-7 nC) shall be 1 mm11/13/2023APPROVEDFALSE
- 6.03.02.05Measurement resolution for single bunch (after merges), single turn, high charge/bunch (7-28 nC) shall be 100 microns11/13/2023APPROVEDFALSE
- 6.03.02.05Measurement resolution for single bunch (after merges), 1000 turns average, high charge/bunch (7-28 nC) shall be 10 microns11/13/2023APPROVEDFALSE
- 6.03.02.05Measurement resolution for average orbit all bunches (after merges), 1000 turns average, high charge/bunch (7-28 nC) shall be 10 microns11/13/2023APPROVEDFALSE
- EIS-RCS-INST-CM : EIS RCS Instrumentation Current and Charge Monitor (WBS 6.03.02.05)
- 6.03.02.05A DCCT shall be installed to measure the average current during the RCS cycle.11/13/2023APPROVEDFALSE
- 6.03.02.05The performance of the DCCT system shall be equivalent to what is provided by the COTS Bergoz NPCT system11/13/2023APPROVEDFALSE
- 6.03.02.05Provisions shall be made to ensure thermal effects do not interfere with the quality of the average current measurement11/13/2023APPROVEDFALSE
- 6.03.02.05The DCCT shall be able to measure the Individual bunch charges over a charge range of 5 to 28 nC11/13/2023APPROVEDFALSE
- 6.03.02.05The DCCT shall be able to measure to an accuracy of tba -11/13/2023APPROVEDFALSE
- 6.03.02.05The DCCT shall be able to monitor the Bunch patterns tba -11/13/2023APPROVEDFALSE
- 6.03.02.05The location of the DCCT shall be tba -11/13/2023APPROVEDFALSE
- 6.03.02.05The locations of FCT shall be -11/13/2023APPROVEDFALSE
- 6.03.02.05The range of average beam current to be measured shall be 0. 390 to 4.4 mA11/13/2023APPROVEDFALSE
- 6.03.02.05The DCCT system shall have a self calibration system -11/13/2023APPROVEDFALSE
- 6.03.02.05The DCCT system shall provide measurements with absolute accuracy of better than 0.2 %11/13/2023APPROVEDFALSE
- 6.03.02.05The measurement of the average current shall be provided to users at a rate of at least <0.1 Hz11/13/2023APPROVEDFALSE
- 6.03.02.05The measurement of the average current shall have an RMS noise of less than 0.01 %11/13/2023APPROVEDFALSE
- 6.03.02.05The digitizer sample rate of the DCCT measurement during the RCS cycle shall be 100 units11/13/2023APPROVEDFALSE
- 6.03.02.05The measured average current shall be archived at a rate of 100 units11/13/2023APPROVEDFALSE
- 6.03.02.05The DCCT sensor shall be radiation resistant11/13/2023APPROVEDFALSE
- 6.03.02.05The DCCT shall operate in the temperature range of 15-35 degrees C 15-35 °C11/13/2023APPROVEDFALSE
- 6.03.02.05Stray magnetic fields near the DCCT sensor shall not exceed 0.01 Gauss11/13/2023APPROVEDFALSE
- 6.03.02.05The DCCT sensor shall have the minimal impedance as seen by the beam11/13/2023APPROVEDFALSE
- EIS-RCS-INST-SLM : EIS RCS Instrumentation Synchrotron Light Monitor (WBS 6.03.02.05)
- 6.03.02.05A synchrotron light monitor (SLM) shall be installed in the RCS ring downstream of an RCS dipole magnet11/13/2023APPROVEDFALSE
- 6.03.02.05The location of the SLM light extraction port shall be- TBD11/13/2023APPROVEDTRUE
- 6.03.02.05The synchrotron light shall be transported from the RCS light extraction port to an optical table for detection.11/13/2023APPROVEDFALSE
- 6.03.02.05The synchrotron light optical table shall have a streak camera and gated camera shall be installed.11/13/2023APPROVEDFALSE
- 6.03.02.05The SLM shall be able to make Turn-by-turn measurements using gated cameras to provide measurements of; the injection matching parameters and the beam position stability parameters during acceleration. TBD -11/13/2023APPROVEDTRUE
- 6.03.02.05The SLM shall be used to provide horizontal and vertical transverse profile measurements on bunches with charges > 6nC11/13/2023APPROVEDFALSE
- 6.03.02.05The SLM horizontal and vertical transverse profile measurements shall be measured with a resolution in both planes of 0.1 mm11/13/2023APPROVEDFALSE
- 6.03.02.05The SLM shall be used to provide longitudinal profile measurements11/13/2023APPROVEDFALSE
- 6.03.02.05A dual sweep streak camera shall be used to provide measurements of the bunch length and longitudinal profiles11/13/2023APPROVEDFALSE
- 6.03.02.05The dual sweep streak camera shall have a resolution of <5 ps11/13/2023APPROVEDFALSE
- 6.03.02.05The profile measurements shall be used, together with modeled or measured beam optics to infer the beam emittances and energy spread.11/13/2023APPROVEDFALSE
- 6.03.02.05The Vertical emittance measurement for bunch charges > 6nC, shall be measured with a precision of 0.6 nm (un-norm)11/13/2023APPROVEDFALSE
- 6.03.02.05The Horizontal emittance measurement for bunch charges > 6nC, shall be measured with a precision of 10 nm (un-norm)11/13/2023APPROVEDFALSE
- 6.03.02.05The Longitudinal emittance measurement for bunch charges > 6nC, shall be measured with a precision of 0.00001 eV-s11/13/2023APPROVEDFALSE
- 6.03.02.05The Energy spread measurement, for bunch charges > 6nC, shall be measured with a precision of 0.0001 dp/p11/13/2023APPROVEDFALSE
- EIS-RCS-INST-TM : EIS RCS Instrumentation Tune Monitor (WBS 6.03.02.05)
- 6.03.02.05Stripline kickers (H & V) shall be installed in the RCS to kick the beam so tunes can be measured by the turn-by-turn BPMs as well as to blow up vertical emittance at end of ramp11/13/2023APPROVEDFALSE
- 6.03.02.05The design of the kickers shall adhere to the impedance budget requirement for the RCS ring11/13/2023APPROVEDFALSE
- 6.03.02.05The amount of kick that the horizontal and vertical kickers shall provide is 0.2 mrad11/13/2023APPROVEDFALSE
- 6.03.02.05The kicker waveform parameters (pulse shape and length) shall be Pulse shape rectangular
dt=2.4 to 5mS mS11/13/2023APPROVEDFALSE - 6.03.02.05The location of the kickers shall be near low beta value11/13/2023APPROVEDFALSE
- 6.03.02.05The kickers HV PS's shall have the capability to pulse twice per second: Once for tune and once for emittance blow up11/13/2023APPROVEDFALSE
- EIS-RCS-INST-TPM : EIS RCS Instrumentation Transverse Profile Monitor (WBS 6.03.02.05)
- 6.03.02.05Plunging YAG/OTR PM screen stations will be installed in the RCS ring to facilitate commissioning and re-establishing beam11/13/2023APPROVEDFALSE
- 6.03.02.05The YAG/OTR PM shall be located as follows : one in each straight section (6), and one after the injection septum(1). Making a Total of 7 -11/13/2023APPROVEDFALSE
- 6.03.02.05The exact locations in the straight sections shall be tbd -11/13/2023APPROVEDTRUE
- 6.03.02.05The optical resolution for beam profile measurements shall be <50 microns11/13/2023APPROVEDFALSE
- 6.03.02.05Each measurement station will provide three possible options, inserted YAG screen, inserted OTR screen, and an impedance matched sleeve connected with RF fingers during normal operations.11/13/2023APPROVEDFALSE
- 6.03.02.05Provisions shall be made so that the impedance match sleeve cannot be inadvertently retracted during normal operations.11/13/2023APPROVEDFALSE
- EIS-RCS-MAG : EIS RCS Magnet (WBS 6.03.02.02)
- EIS-RCS-MAG-CO : EIS RCS Magnet CO (WBS 6.03.02.01)
- 6.03.02.01The number of magnet functions shall be 111/13/2023PENDINGFALSE
- 6.03.02.01The field type shall be D (Sol,Dip,Qud,Sxt,Oct,Dec,Dod)11/13/2023PENDINGFALSE
- 6.03.02.01The field direction shall be V (V=vertical,H=horizontal,V&H)11/13/2023PENDINGFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01The min gap shall be 32 m11/13/2023PENDINGFALSE
- 6.03.02.01The good field aperture drx required shall be 22.56 m11/13/2023PENDINGFALSE
- 6.03.02.01The good field aperture dry required shall be 15.396 m11/13/2023PENDINGFALSE
- 6.03.02.01The mag length shall be <0.325 m11/13/2023PENDINGFALSE
- 6.03.02.01The eff Length shall be 0.325 m11/13/2023PENDINGFALSE
- 6.03.02.01The dipole field B shall be 0.001 T11/13/2023PENDINGFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01The ramp rate shall be 2.2 T/s11/13/2023PENDINGFALSE
- 6.03.02.01The field stability shall be *1000 T/s11/13/2023PENDINGFALSE
- 6.03.02.01The harmonic reference Radius and current shall be Ir=TBD[A]\Rr=16[mm] (mm,A)11/13/2023PENDINGTRUE
- 6.03.02.01The Field at the reference radius and current shall be Bref=0.0005 T11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 0th order of 0 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 1st order of b1=10000 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 2nd order of b2<0.1 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 3rd order of b3<0.1 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 4th order of b4<0.1 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 5th order of b5<0.1 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 6th order of b6<0.1 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 7th order of b7<0.1 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 8th order of b8<0.1 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 9th order of b9<0.1 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 10th order of b10<0.1 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 11th order of b11<0.1 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 12th order of b12<0.1 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 13th order of b13<0.1 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 14th order of b14<0.1 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 15th order of b15<0.1 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 16th order of b16<0.1 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The dipole field B shall be T11/13/2023PENDINGFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01The ramp rate shall be T/s11/13/2023PENDINGFALSE
- 6.03.02.01The field stability shall be T/s11/13/2023PENDINGFALSE
- 6.03.02.01The harmonic reference Radius and current shall be (mm,A)11/13/2023PENDINGFALSE
- 6.03.02.01The Field at the reference radius and current shall be T11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 0th order of 0 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 1st order of b1=10000 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 2nd order of b2<0.1 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 3rd order of b3<0.1 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 4th order of b4<0.1 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 5th order of b5<0.1 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 6th order of b6<0.1 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 7th order of b7<0.1 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 8th order of b8<0.1 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 9th order of b9<0.1 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 10th order of b10<0.1 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 11th order of b11<0.1 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 12th order of b12<0.1 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 13th order of b13<0.1 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 14th order of b14<0.1 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 15th order of b15<0.1 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 16th order of b16<0.1 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The magnet shall be designed to limit Xtalk Requirements No (Yes or No)11/13/2023PENDINGFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- EIS-RCS-MAG-D0 : EIS RCS Magnet D0 (WBS 6.03.02.02)
- 6.03.02.02The number of magnet functions shall be 111/13/2023PENDINGFALSE
- 6.03.02.02The field type shall be D (Sol,Dip,Qud,Sxt,Oct,Dec,Dod)11/13/2023PENDINGFALSE
- 6.03.02.02The field direction shall be V (V=vertical,H=horizontal,V&H)11/13/2023PENDINGFALSE
- 6.03.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.02The min gap shall be 32 m11/13/2023PENDINGFALSE
- 6.03.02.02The good field aperture drx required shall be 21.274 m11/13/2023PENDINGFALSE
- 6.03.02.02The good field aperture dry required shall be 15.191 m11/13/2023PENDINGFALSE
- 6.03.02.02The mag length shall be <1.9226 m11/13/2023PENDINGFALSE
- 6.03.02.02The eff Length shall be 1.9226 m11/13/2023PENDINGFALSE
- 6.03.02.02The dipole field B shall be 0.006 T11/13/2023PENDINGFALSE
- 6.03.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.02The ramp rate shall be 2.2 T/s11/13/2023PENDINGFALSE
- 6.03.02.02The field stability shall be *1000 T/s11/13/2023PENDINGFALSE
- 6.03.02.02The harmonic reference Radius and current shall be Ir=TBD[A]\Rr=16[mm] (mm,A)11/13/2023PENDINGTRUE
- 6.03.02.02The Field at the reference radius and current shall be Bref=0.0057 T11/13/2023PENDINGFALSE
- 6.03.02.02The Bore multipole content shall have a 0th order of 400MeV injection (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.02The Bore multipole content shall have a 1st order of b1=10000 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.02The Bore multipole content shall have a 2nd order of -2.3<b2<2.3 , -0.1<a2<0.1 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.02The Bore multipole content shall have a 3rd order of -5<b3<3 , 0.9<a3<1.1 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.02The Bore multipole content shall have a 4th order of -0.1<b4<0.1 , 0<a4<0.2 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.02The Bore multipole content shall have a 5th order of 0.4<b5<3 , 0<a5<0.2 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.02The Bore multipole content shall have a 6th order of -0.1<b6<0.1 , 0<a6<0.2 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.02The Bore multipole content shall have a 7th order of -2<b7<2 , 0<a7<0.2 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.02The Bore multipole content shall have a 8th order of -1<b8<1 , 0<a8<0.2 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.02The Bore multipole content shall have a 9th order of -1<b9<0 , 0.9<a9<1.1 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.02The Bore multipole content shall have a 10th order of -1<b10<1 , 0.9<a10<1.1 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.02The Bore multipole content shall have a 11th order of 0<b11<2 , 0.9<a11<1.1 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.02The Bore multipole content shall have a 12th order of - (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.02The Bore multipole content shall have a 13th order of - (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.02The Bore multipole content shall have a 14th order of - (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.02The Bore multipole content shall have a 15th order of - (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.02The Bore multipole content shall have a 16th order of - (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.02The dipole field B shall be 0.255 T11/13/2023PENDINGFALSE
- 6.03.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.02The ramp rate shall be 2.2 T/s11/13/2023PENDINGFALSE
- 6.03.02.02The field stability shall be *1000 T/s11/13/2023PENDINGFALSE
- 6.03.02.02The harmonic reference Radius and current shall be Ir=TBD[A]\Rr=16[mm] (mm,A)11/13/2023PENDINGTRUE
- 6.03.02.02The Field at the reference radius and current shall be Bref=0.0057 T11/13/2023PENDINGFALSE
- 6.03.02.02The Bore multipole content shall have a 0th order of 18GeV Extraction (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.02The Bore multipole content shall have a 1st order of b1=10000 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.02The Bore multipole content shall have a 2nd order of -2.3<b2<2.3 , -0.1<a2<0.1 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.02The Bore multipole content shall have a 3rd order of -5<b3<3 , 0.9<a3<1.1 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.02The Bore multipole content shall have a 4th order of -0.1<b4<0.1 , 0<a4<0.2 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.02The Bore multipole content shall have a 5th order of 0.4<b5<3 , 0<a5<0.2 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.02The Bore multipole content shall have a 6th order of -0.1<b6<0.1 , 0<a6<0.2 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.02The Bore multipole content shall have a 7th order of -2<b7<2 , 0<a7<0.2 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.02The Bore multipole content shall have a 8th order of -1<b8<1 , 0<a8<0.2 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.02The Bore multipole content shall have a 9th order of -1<b9<0 , 0.9<a9<1.1 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.02The Bore multipole content shall have a 10th order of -1<b10<1 , 0.9<a10<1.1 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.02The Bore multipole content shall have a 11th order of 0<b11<2 , 0.9<a11<1.1 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.02The Bore multipole content shall have a 12th order of - (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.02The Bore multipole content shall have a 13th order of - (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.02The Bore multipole content shall have a 14th order of - (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.02The Bore multipole content shall have a 15th order of - (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.02The Bore multipole content shall have a 16th order of - (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.02The magnet shall be designed to limit Xtalk Requirements No (Yes or No)11/13/2023PENDINGFALSE
- 6.03.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- EIS-RCS-MAG-Q0 : EIS RCS Magnet Q0 (WBS 6.03.02.01)
- 6.03.02.01The number of magnet functions shall be 111/13/2023PENDINGFALSE
- 6.03.02.01The field type shall be Q (Sol,Dip,Qud,Sxt,Oct,Dec,Dod)11/13/2023PENDINGFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01The field rotation shall be N (N=norm, S=skew)11/13/2023PENDINGFALSE
- 6.03.02.01The min coil inner rad shall be 16 m11/13/2023PENDINGFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01The good field aperture drx required shall be 22.693 m11/13/2023PENDINGFALSE
- 6.03.02.01The good field aperture dry required shall be 15.631 m11/13/2023PENDINGFALSE
- 6.03.02.01The mag length shall be <0.6 m11/13/2023PENDINGFALSE
- 6.03.02.01The eff Length shall be 0.6 m11/13/2023PENDINGFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01The grad field G shall be 0.001 T/m(n-1)11/13/2023PENDINGFALSE
- 6.03.02.01The ramp rate shall be 2.2 T/s11/13/2023PENDINGFALSE
- 6.03.02.01The field stability shall be *1000 T/s11/13/2023PENDINGFALSE
- 6.03.02.01The harmonic reference Radius and current shall be Ir=TBD[A]\Rr=16[mm] (mm,A)11/13/2023PENDINGTRUE
- 6.03.02.01The Field at the reference radius and current shall be Bref=TBD T11/13/2023PENDINGTRUE
- 6.03.02.01The Bore multipole content shall have a 0th order of 0 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 1st order of - (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 2nd order of b2=10000 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 3rd order of -7<b3<7 , 0<a3<0.2 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 4th order of -2<b4<2 , 0<a4<0.2 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 5th order of -10<b5<10 , 0<a5<0.2 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 6th order of 0.4<b6<2.4 , 0<a6<0.2 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 7th order of -10<b7<10 , 0<a7<0.2 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 8th order of -1<b8<1 , 0<a8<0.2 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 9th order of -10<b9<10 , 0<a9<0.2 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 10th order of -1.3<b10<4.7 , 0<a10<0.2 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 11th order of -10<b11<10 , 0<a11<0.2 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 12th order of -2<b12<2 , 0<a12<0.2 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 13th order of -10<b13<10 , 0<a13<0.2 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 14th order of -7.1<b14<10.9 , 0<a14<0.2 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 15th order of -10<b15<10 , 0<a15<0.2 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 16th order of -10<b16<10 , 0<a16<0.2 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01The grad field G shall be T/m(n-1)11/13/2023PENDINGFALSE
- 6.03.02.01The ramp rate shall be T/s11/13/2023PENDINGFALSE
- 6.03.02.01The field stability shall be T/s11/13/2023PENDINGFALSE
- 6.03.02.01The harmonic reference Radius and current shall be (mm,A)11/13/2023PENDINGFALSE
- 6.03.02.01The Field at the reference radius and current shall be T11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 0th order of 0 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 1st order of - (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 2nd order of b2=10000 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 3rd order of -7<b3<7 , 0<a3<0.2 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 4th order of -2<b4<2 , 0<a4<0.2 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 5th order of -10<b5<10 , 0<a5<0.2 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 6th order of 0.4<b6<2.4 , 0<a6<0.2 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 7th order of -10<b7<10 , 0<a7<0.2 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 8th order of -1<b8<1 , 0<a8<0.2 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 9th order of -10<b9<10 , 0<a9<0.2 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 10th order of -1.3<b10<4.7 , 0<a10<0.2 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 11th order of -10<b11<10 , 0<a11<0.2 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 12th order of -2<b12<2 , 0<a12<0.2 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 13th order of -10<b13<10 , 0<a13<0.2 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 14th order of -7.1<b14<10.9 , 0<a14<0.2 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 15th order of -10<b15<10 , 0<a15<0.2 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 16th order of -10<b16<10 , 0<a16<0.2 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The magnet shall be designed to limit Xtalk Requirements No (Yes or No)11/13/2023PENDINGFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- EIS-RCS-MAG-SXT : EIS RCS Magnet SXT (WBS 6.03.02.01)
- 6.03.02.01The number of magnet functions shall be 111/13/2023PENDINGFALSE
- 6.03.02.01The field type shall be S (Sol,Dip,Qud,Sxt,Oct,Dec,Dod)11/13/2023PENDINGFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01The field rotation shall be N (N=norm, S=skew)11/13/2023PENDINGFALSE
- 6.03.02.01The min coil inner rad shall be 16 m11/13/2023PENDINGFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01The good field aperture drx required shall be 22.329 m11/13/2023PENDINGFALSE
- 6.03.02.01The good field aperture dry required shall be 15.251 m11/13/2023PENDINGFALSE
- 6.03.02.01The mag length shall be <0.5 m11/13/2023PENDINGFALSE
- 6.03.02.01The eff Length shall be 0.5 m11/13/2023PENDINGFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01The grad field G shall be 0 T/m(n-1)11/13/2023PENDINGFALSE
- 6.03.02.01The ramp rate shall be 2.2 T/s11/13/2023PENDINGFALSE
- 6.03.02.01The field stability shall be *1000 T/s11/13/2023PENDINGFALSE
- 6.03.02.01The harmonic reference Radius and current shall be Ir=TBD[A]\Rr=16[mm] (mm,A)11/13/2023PENDINGTRUE
- 6.03.02.01The Field at the reference radius and current shall be Bref=TBD T11/13/2023PENDINGTRUE
- 6.03.02.01The Bore multipole content shall have a 0th order of 0 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 1st order of - (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 2nd order of - (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 3rd order of b3=10000 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 4th order of -10<b4<10 , 0<a4<0.2 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 5th order of -10<b5<10 , 0<a5<0.2 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 6th order of -10<b6<10 , 0<a6<0.2 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 7th order of -10<b7<10 , 0<a7<0.2 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 8th order of -10<b8<10 , 0<a8<0.2 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 9th order of -10<b9<10 , 0<a9<0.2 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 10th order of -10<b10<10 , 0<a10<0.2 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 11th order of -10<b11<10 , 0<a11<0.2 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 12th order of -10<b12<10 , 0<a12<0.2 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 13th order of -10<b13<10 , 0<a13<0.2 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 14th order of -10<b14<10 , 0<a14<0.2 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 15th order of -10<b15<10 , 0<a15<0.2 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 16th order of -10<b16<10 , 0<a16<0.2 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01The grad field G shall be T/m(n-1)11/13/2023PENDINGFALSE
- 6.03.02.01The ramp rate shall be T/s11/13/2023PENDINGFALSE
- 6.03.02.01The field stability shall be T/s11/13/2023PENDINGFALSE
- 6.03.02.01The harmonic reference Radius and current shall be (mm,A)11/13/2023PENDINGFALSE
- 6.03.02.01The Field at the reference radius and current shall be T11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 0th order of 0 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 1st order of - (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 2nd order of - (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 3rd order of b3=10000 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 4th order of -10<b4<10 , 0<a4<0.2 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 5th order of -10<b5<10 , 0<a5<0.2 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 6th order of -10<b6<10 , 0<a6<0.2 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 7th order of -10<b7<10 , 0<a7<0.2 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 8th order of -10<b8<10 , 0<a8<0.2 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 9th order of -10<b9<10 , 0<a9<0.2 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 10th order of -10<b10<10 , 0<a10<0.2 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 11th order of -10<b11<10 , 0<a11<0.2 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 12th order of -10<b12<10 , 0<a12<0.2 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 13th order of -10<b13<10 , 0<a13<0.2 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 14th order of -10<b14<10 , 0<a14<0.2 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 15th order of -10<b15<10 , 0<a15<0.2 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The Bore multipole content shall have a 16th order of -10<b16<10 , 0<a16<0.2 (10^-4)11/13/2023PENDINGFALSE
- 6.03.02.01The magnet shall be designed to limit Xtalk Requirements No (Yes or No)11/13/2023PENDINGFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- EIS-RCS-PPD : EIS Pulsed Power Device System (WBS 6.03.03.05)
- EIS-RCS-PPD-EXT_PULSE_KICK : EIS RCS Extraction Pulse Power Kicker System (WBS 6.03.03.05.03)
- 6.03.03.05.03The location (Section) shall be 12 o'clock11/13/2023APPROVEDFALSE
- 6.03.03.05.03The dimension in W shall be 4 (ft)11/13/2023APPROVEDFALSE
- 6.03.03.05.03The dimension in L shall be 10 (ft)11/13/2023APPROVEDFALSE
- 6.03.03.05.03The dimension in H shall be 7 (ft)11/13/2023APPROVEDFALSE
- 6.03.03.05.03The num magnets shall be 3 -11/13/2023APPROVEDFALSE
- 6.03.03.05.03The mag gap shall be tbd (cm)11/13/2023APPROVEDTRUE
- 6.03.03.05.03The rise time shall be 0.001 (sec)11/13/2023APPROVEDFALSE
- 6.03.03.05.03The fall time shall be 0.001 (sec)11/13/2023APPROVEDFALSE
- 6.03.03.05.03The flat top time shall be 0.0015 (sec)11/13/2023APPROVEDFALSE
- 6.03.03.05.03The waveshape shall be trap11/13/2023APPROVEDFALSE
- 6.03.03.05.03The flat top repeatability shall be tbd %11/13/2023APPROVEDTRUE
- 6.03.03.05.03The uniformity of the flattop shall be tbd (V)11/13/2023APPROVEDTRUE
- 6.03.03.05.03The deflecting Angle shall be 1.2 (mRad)11/13/2023APPROVEDFALSE
- 6.03.03.05.03The rep rate spec shall be TBD (Hz)11/13/2023APPROVEDTRUE
- 6.03.03.05.03The output voltage Spec shall be 50 (Hz)11/13/2023APPROVEDFALSE
- 6.03.03.05.03The output current spec shall be 600 (Amps)11/13/2023APPROVEDFALSE
- 6.03.03.05.03The inductance with cable shall be 26 (uH)11/13/2023APPROVEDFALSE
- 6.03.03.05.03The cooling type shall be water11/13/2023APPROVEDFALSE
- EIS-RCS-PPD-EXT_PULSE_SEPT : EIS RCS Extraction Pulsed Power Septum System (WBS 6.03.03.05.05)
- 6.03.03.05.05The location (Section) type shall be 12 o'clock11/13/2023APPROVEDFALSE
- 6.03.03.05.05The dimension in W type shall be 4 (ft)11/13/2023APPROVEDFALSE
- 6.03.03.05.05The dimension in L type shall be 10 (ft)11/13/2023APPROVEDFALSE
- 6.03.03.05.05The dimension in H type shall be 7 (ft)11/13/2023APPROVEDFALSE
- 6.03.03.05.05The num magnets type shall be 2 -11/13/2023APPROVEDFALSE
- 6.03.03.05.05The mag gap type shall be tbd (cm)11/13/2023APPROVEDTRUE
- 6.03.03.05.05The rise time type shall be 0.002 (sec)11/13/2023APPROVEDFALSE
- 6.03.03.05.05The fall time type shall be 0.002 (sec)11/13/2023APPROVEDFALSE
- 6.03.03.05.05The flat top time type shall be 0.0015 (sec)11/13/2023APPROVEDFALSE
- 6.03.03.05.05The waveshape type shall be trap11/13/2023APPROVEDFALSE
- 6.03.03.05.05The flat top repeatability type shall be tbd %11/13/2023APPROVEDTRUE
- 6.03.03.05.05The uniformity of the flattop type shall be tbd (V)11/13/2023APPROVEDTRUE
- 6.03.03.05.05The deflecting Angle type shall be 30 011/13/2023APPROVEDFALSE
- 6.03.03.05.05The rep rate spec type shall be TBD (Hz)11/13/2023APPROVEDTRUE
- 6.03.03.05.05The output voltage Spec type shall be 80 (Hz)11/13/2023APPROVEDFALSE
- 6.03.03.05.05The output current spec type shall be 1200 011/13/2023APPROVEDFALSE
- 6.03.03.05.05The inductance with cable type shall be 40 (uH)11/13/2023APPROVEDFALSE
- 6.03.03.05.05The cooling type type shall be water11/13/2023APPROVEDFALSE
- EIS-RCS-PPD-EXT_RF_KICK : EIS RCS Extraction Pulse Power System (WBS 6.03.03.05.04)
- 6.03.03.05.04The location (Section) shall be 12 o'clock11/13/2023APPROVEDFALSE
- 6.03.03.05.04The dimension in W shall be 5 (ft)11/13/2023APPROVEDFALSE
- 6.03.03.05.04The dimension in L shall be 15 (ft)11/13/2023APPROVEDFALSE
- 6.03.03.05.04The dimension in H shall be 7 (ft)11/13/2023APPROVEDFALSE
- 6.03.03.05.04The num magnets shall be 1 -11/13/2023APPROVEDFALSE
- 6.03.03.05.04The mag gap shall be tbd (cm)11/13/2023APPROVEDTRUE
- 6.03.03.05.04The rise time shall be 0.000002 (sec)11/13/2023APPROVEDFALSE
- 6.03.03.05.04The fall time shall be 0.00001 (sec)11/13/2023APPROVEDFALSE
- 6.03.03.05.04The flat top time shall be 0.00000001 (sec)11/13/2023APPROVEDFALSE
- 6.03.03.05.04The waveshape shall be 2 pulses/cycle11/13/2023APPROVEDFALSE
- 6.03.03.05.04The flat top repeatability shall be tbd %11/13/2023APPROVEDTRUE
- 6.03.03.05.04The uniformity of the flattop shall be tbd (V)11/13/2023APPROVEDTRUE
- 6.03.03.05.04The deflecting Angle shall be 1.2 011/13/2023APPROVEDFALSE
- 6.03.03.05.04The rep rate spec shall be TBD (Hz)11/13/2023APPROVEDTRUE
- 6.03.03.05.04The output voltage Spec shall be 5000 (Hz)11/13/2023APPROVEDFALSE
- 6.03.03.05.04The output current spec shall be 2300 011/13/2023APPROVEDFALSE
- 6.03.03.05.04The inductance with cable shall be 4 (uH)11/13/2023APPROVEDFALSE
- 6.03.03.05.04The cooling type type shall be water11/13/2023APPROVEDFALSE
- EIS-RCS-PPD-INJ_PULSE_KICK : EIS RCS Injection Pulse Power Kicker System (WBS 6.03.03.05.01)
- 6.03.03.05.01The location (Section) shall be 2 o'clock11/13/2023APPROVEDFALSE
- 6.03.03.05.01The dimension in W shall be 3 (ft)11/13/2023APPROVEDFALSE
- 6.03.03.05.01The dimension in L shall be 5 (ft)11/13/2023APPROVEDFALSE
- 6.03.03.05.01The dimension in H shall be 7 (ft)11/13/2023APPROVEDFALSE
- 6.03.03.05.01The num magnets shall be 311/13/2023APPROVEDFALSE
- 6.03.03.05.01The mag gap shall be tbd (cm)11/13/2023APPROVEDTRUE
- 6.03.03.05.01The rise time shall be 0.002 (sec)11/13/2023APPROVEDFALSE
- 6.03.03.05.01The fall time shall be 0.002 (sec)11/13/2023APPROVEDFALSE
- 6.03.03.05.01The flat top time shall be 0.05 (sec)11/13/2023APPROVEDFALSE
- 6.03.03.05.01The waveshape shall be trap11/13/2023APPROVEDFALSE
- 6.03.03.05.01The flat top repeatability shall be tbd %11/13/2023APPROVEDTRUE
- 6.03.03.05.01The uniformity of the flattop shall be tbd (V)11/13/2023APPROVEDTRUE
- 6.03.03.05.01The deflecting Angle shall be tbd (mRad)11/13/2023APPROVEDTRUE
- 6.03.03.05.01The rep rate spec shall be 100 (Hz)11/13/2023APPROVEDFALSE
- 6.03.03.05.01The output voltage Spec shall be 30 (Volts)11/13/2023APPROVEDFALSE
- 6.03.03.05.01The output current spec shall be 425 (Amps)11/13/2023APPROVEDFALSE
- 6.03.03.05.01The inductance with cable shall be 6 (uH)11/13/2023APPROVEDFALSE
- 6.03.03.05.01The cooling type shall be water11/13/2023APPROVEDFALSE
- EIS-RCS-PPD-INJ_PULSE_SEPT : EIS RCS Injection Pulsed Power Septum System (WBS 6.03.03.05.02)
- 6.03.03.05.02The location (Section) shall be 2 o'clock11/13/2023APPROVEDFALSE
- 6.03.03.05.02The dimension in W shall be 4 (ft)11/13/2023APPROVEDFALSE
- 6.03.03.05.02The dimension in L shall be 8 (ft)11/13/2023APPROVEDFALSE
- 6.03.03.05.02The dimension in H shall be 7 (ft)11/13/2023APPROVEDFALSE
- 6.03.03.05.02The num magnets shall be 111/13/2023APPROVEDFALSE
- 6.03.03.05.02The mag gap shall be tbd (cm)11/13/2023APPROVEDTRUE
- 6.03.03.05.02The rise time shall be 0.00001 (sec)11/13/2023APPROVEDFALSE
- 6.03.03.05.02The fall time shall be 0.00001 (sec)11/13/2023APPROVEDFALSE
- 6.03.03.05.02The flat top time shall be 0.005 (sec)11/13/2023APPROVEDFALSE
- 6.03.03.05.02The waveshape shall be trap11/13/2023APPROVEDFALSE
- 6.03.03.05.02The flat top repeatability shall be tbd %11/13/2023APPROVEDTRUE
- 6.03.03.05.02The uniformity of the flattop shall be tbd (V)11/13/2023APPROVEDTRUE
- 6.03.03.05.02The deflecting Angle shall be 30 (mRad)11/13/2023APPROVEDFALSE
- 6.03.03.05.02The rep rate spec shall be 100 (Hz)11/13/2023APPROVEDFALSE
- 6.03.03.05.02The output voltage Spec shall be 30 (Volts)11/13/2023APPROVEDFALSE
- 6.03.03.05.02The output current spec shall be 530 (Amps)11/13/2023APPROVEDFALSE
- 6.03.03.05.02The inductance with cable shall be 12.5 (uH)11/13/2023APPROVEDFALSE
- 6.03.03.05.02The cooling type shall be water11/13/2023APPROVEDFALSE
- EIS-RCS-PPD-INJ_RF_KICK : EIS RCS Injection Pulse Power System (WBS 6.03.03.05.04)
- 6.03.03.05.04The location (Section) shall be 2 o'clock11/13/2023APPROVEDFALSE
- 6.03.03.05.04The dimension in W shall be 5 (ft)11/13/2023APPROVEDFALSE
- 6.03.03.05.04The dimension in L shall be 10 (ft)11/13/2023APPROVEDFALSE
- 6.03.03.05.04The dimension in H shall be 7 (ft)11/13/2023APPROVEDFALSE
- 6.03.03.05.04The num magnets shall be 111/13/2023APPROVEDFALSE
- 6.03.03.05.04The mag gap shall be tbd (cm)11/13/2023APPROVEDTRUE
- 6.03.03.05.04The rise time shall be 0.00001 (sec)11/13/2023APPROVEDFALSE
- 6.03.03.05.04The fall time shall be 0.00001 (sec)11/13/2023APPROVEDFALSE
- 6.03.03.05.04The flat top time shall be 0.0000025 (sec)11/13/2023APPROVEDFALSE
- 6.03.03.05.04The waveshape shall be trap11/13/2023APPROVEDFALSE
- 6.03.03.05.04The flat top repeatability shall be tbd %11/13/2023APPROVEDTRUE
- 6.03.03.05.04The uniformity of the flattop shall be tbd (V)11/13/2023APPROVEDTRUE
- 6.03.03.05.04The deflecting Angle shall be 1 (mRad)11/13/2023APPROVEDFALSE
- 6.03.03.05.04The rep rate spec shall be 100 (Hz)11/13/2023APPROVEDFALSE
- 6.03.03.05.04The output voltage Spec shall be 5000 (Volts)11/13/2023APPROVEDFALSE
- 6.03.03.05.04The output current spec shall be 2300 (Amps)11/13/2023APPROVEDFALSE
- 6.03.03.05.04The inductance with cable shall be 4 (uH)11/13/2023APPROVEDFALSE
- 6.03.03.05.04The cooling type shall be water11/13/2023APPROVEDFALSE
- EIS-RCS-PS : EIS RCS Magnet Power Supply (WBS 6.03.02.03)
- EIS-RCS-PS-CO : EIS RCS Magnet Power Supply CO (WBS 6.03.02.03)
- 6.03.02.03The number of Independent functions on the magnets being powered shall be 111/13/2023PENDINGFALSE
- 6.03.02.03The maximum magnet string resistance to be powered shall be TBD ohm11/13/2023PENDINGTRUE
- 6.03.02.03The maximum magnet string inductance to be powered shall be TBD H11/13/2023PENDINGTRUE
- 6.03.02.03The magnets being powered shall be saturated TBD Y/N11/13/2023PENDINGTRUE
- 6.03.02.03< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.03The voltage to ground of the magnet being powered shall be TBD V11/13/2023PENDINGTRUE
- 6.03.02.03The nominal current of the magnets being powered shall be 12.713724 A11/13/2023PENDINGFALSE
- 6.03.02.03The minimum current the PS must operate at shall be TBD A11/13/2023PENDINGTRUE
- 6.03.02.03The maximum current the PS must operate at shall be TBD A11/13/2023PENDINGTRUE
- 6.03.02.03The PS current type shall be DC (DC or AC)11/13/2023PENDINGFALSE
- 6.03.02.03< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.03The peak waveshape di/dt during ramping shall be TBD11/13/2023PENDINGTRUE
- 6.03.02.03The full power bandwidth required shall be TBD11/13/2023PENDINGTRUE
- 6.03.02.03The ppm of full scale current (peak to peak) shall be TBD %11/13/2023PENDINGTRUE
- 6.03.02.03The time period for specified stability shall be TBD s11/13/2023PENDINGTRUE
- 6.03.02.03The short term stability shall be TBD A/s11/13/2023PENDINGTRUE
- 6.03.02.03The long term stability shall be TBD A/s11/13/2023PENDINGTRUE
- 6.03.02.03The current setpoint resolution (min size in bits) shall be TBD bits11/13/2023PENDINGTRUE
- 6.03.02.03The synchronization required between PS's shall be TBD s11/13/2023PENDINGTRUE
- 6.03.02.03The synchronization timing of synchronization shall be TBD s11/13/2023PENDINGTRUE
- 6.03.02.03The max allowable current ripple (peak to peak) TBD A11/13/2023PENDINGTRUE
- 6.03.02.03The max current ripple frequency range (Hz) TBD Hz11/13/2023PENDINGTRUE
- 6.03.02.03WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz11/13/2023PENDINGTRUE
- 6.03.02.03The max voltage ripple (peak to peak) shall be TBD V11/13/2023PENDINGTRUE
- 6.03.02.03An NMR shall be required to measure the field TBD A/s11/13/2023PENDINGTRUE
- 6.03.02.03The voltage tap configuration shall be TBD11/13/2023PENDINGTRUE
- 6.03.02.03The threshold levels shall be TBD V11/13/2023PENDINGTRUE
- 6.03.02.03The peak di/dt without inducing a quench shall be TBD A/S11/13/2023PENDINGTRUE
- 6.03.02.03The design shall have quench heaters TBD Y/N11/13/2023PENDINGTRUE
- 6.03.02.03The quench heater power rating shall be TBD W11/13/2023PENDINGTRUE
- 6.03.02.03The design shall have warm up heaters TBD Y/N11/13/2023PENDINGTRUE
- 6.03.02.03The warmup heater power rating shall be TBD W11/13/2023PENDINGTRUE
- 6.03.02.03The current required to be shunted through the magnet shall be TBD11/13/2023PENDINGTRUE
- 6.03.02.03The magnet turns ratio shall be TBD11/13/2023PENDINGTRUE
- 6.03.02.03The terminal voltage shall be TBD V11/13/2023PENDINGTRUE
- 6.03.02.03The design shall have thermal switches TBD11/13/2023PENDINGTRUE
- 6.03.02.03The thermal switch connection numbers shall be TBD11/13/2023PENDINGTRUE
- 6.03.02.03The design shall have water flow switches TBD11/13/2023PENDINGTRUE
- 6.03.02.03The water flow switch connections numbers shall be TBD11/13/2023PENDINGTRUE
- 6.03.02.03The design shall have access controls interlocks TBD11/13/2023PENDINGTRUE
- 6.03.02.03The main terminals lug details shall be TBD11/13/2023PENDINGTRUE
- 6.03.02.03The lead end indications shall be TBD11/13/2023PENDINGTRUE
- 6.03.02.03The lugs details for thermal switch and water switches shall be TBD11/13/2023PENDINGTRUE
- 6.03.02.03The lug details for the auxiliary windings shall be TBD11/13/2023PENDINGTRUE
- 6.03.02.03The A/B terminal labeling details shall be TBD Draw id11/13/2023PENDINGTRUE
- 6.03.02.03The magnet drawing with terminations details shall be TBD11/13/2023PENDINGTRUE
- 6.03.02.03The magnet polarity connections shall be TBD11/13/2023PENDINGTRUE
- EIS-RCS-PS-D0 : EIS RCS Magnet Power Supply D0 (WBS 6.03.02.03)
- 6.03.02.03The number of Independent functions on the magnets being powered shall be 111/13/2023PENDINGFALSE
- 6.03.02.03The maximum magnet string resistance to be powered shall be TBD ohm11/13/2023PENDINGTRUE
- 6.03.02.03The maximum magnet string inductance to be powered shall be TBD H11/13/2023PENDINGTRUE
- 6.03.02.03The magnets being powered shall be saturated TBD Y/N11/13/2023PENDINGTRUE
- 6.03.02.03< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.03The voltage to ground of the magnet being powered shall be TBD V11/13/2023PENDINGTRUE
- 6.03.02.03The nominal current of the magnets being powered shall be 1865 A11/13/2023PENDINGFALSE
- 6.03.02.03The minimum current the PS must operate at shall be TBD A11/13/2023PENDINGTRUE
- 6.03.02.03The maximum current the PS must operate at shall be TBD A11/13/2023PENDINGTRUE
- 6.03.02.03The PS current type shall be DC (DC or AC)11/13/2023PENDINGFALSE
- 6.03.02.03< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.03The peak waveshape di/dt during ramping shall be TBD11/13/2023PENDINGTRUE
- 6.03.02.03The full power bandwidth required shall be TBD11/13/2023PENDINGTRUE
- 6.03.02.03The ppm of full scale current (peak to peak) shall be TBD %11/13/2023PENDINGTRUE
- 6.03.02.03The time period for specified stability shall be TBD s11/13/2023PENDINGTRUE
- 6.03.02.03The short term stability shall be TBD A/s11/13/2023PENDINGTRUE
- 6.03.02.03The long term stability shall be TBD A/s11/13/2023PENDINGTRUE
- 6.03.02.03The current setpoint resolution (min size in bits) shall be TBD bits11/13/2023PENDINGTRUE
- 6.03.02.03The synchronization required between PS's shall be TBD s11/13/2023PENDINGTRUE
- 6.03.02.03The synchronization timing of synchronization shall be TBD s11/13/2023PENDINGTRUE
- 6.03.02.03The max allowable current ripple (peak to peak) TBD A11/13/2023PENDINGTRUE
- 6.03.02.03The max current ripple frequency range (Hz) TBD Hz11/13/2023PENDINGTRUE
- 6.03.02.03WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz11/13/2023PENDINGTRUE
- 6.03.02.03The max voltage ripple (peak to peak) shall be TBD V11/13/2023PENDINGTRUE
- 6.03.02.03An NMR shall be required to measure the field TBD A/s11/13/2023PENDINGTRUE
- 6.03.02.03The voltage tap configuration shall be TBD11/13/2023PENDINGTRUE
- 6.03.02.03The threshold levels shall be TBD V11/13/2023PENDINGTRUE
- 6.03.02.03The peak di/dt without inducing a quench shall be TBD A/S11/13/2023PENDINGTRUE
- 6.03.02.03The design shall have quench heaters TBD Y/N11/13/2023PENDINGTRUE
- 6.03.02.03The quench heater power rating shall be TBD W11/13/2023PENDINGTRUE
- 6.03.02.03The design shall have warm up heaters TBD Y/N11/13/2023PENDINGTRUE
- 6.03.02.03The warmup heater power rating shall be TBD W11/13/2023PENDINGTRUE
- 6.03.02.03The current required to be shunted through the magnet shall be TBD11/13/2023PENDINGTRUE
- 6.03.02.03The magnet turns ratio shall be TBD11/13/2023PENDINGTRUE
- 6.03.02.03The terminal voltage shall be TBD V11/13/2023PENDINGTRUE
- 6.03.02.03The design shall have thermal switches TBD11/13/2023PENDINGTRUE
- 6.03.02.03The thermal switch connection numbers shall be TBD11/13/2023PENDINGTRUE
- 6.03.02.03The design shall have water flow switches TBD11/13/2023PENDINGTRUE
- 6.03.02.03The water flow switch connections numbers shall be TBD11/13/2023PENDINGTRUE
- 6.03.02.03The design shall have access controls interlocks TBD11/13/2023PENDINGTRUE
- 6.03.02.03The main terminals lug details shall be TBD11/13/2023PENDINGTRUE
- 6.03.02.03The lead end indications shall be TBD11/13/2023PENDINGTRUE
- 6.03.02.03The lugs details for thermal switch and water switches shall be TBD11/13/2023PENDINGTRUE
- 6.03.02.03The lug details for the auxiliary windings shall be TBD11/13/2023PENDINGTRUE
- 6.03.02.03The A/B terminal labeling details shall be TBD Draw id11/13/2023PENDINGTRUE
- 6.03.02.03The magnet drawing with terminations details shall be TBD11/13/2023PENDINGTRUE
- 6.03.02.03The magnet polarity connections shall be TBD11/13/2023PENDINGTRUE
- EIS-RCS-PS-Q0 : EIS RCS Magnet Power Supply Q0 (WBS 6.03.02.03)
- 6.03.02.03The number of Independent functions on the magnets being powered shall be 111/13/2023PENDINGFALSE
- 6.03.02.03The maximum magnet string resistance to be powered shall be TBD ohm11/13/2023PENDINGTRUE
- 6.03.02.03The maximum magnet string inductance to be powered shall be TBD H11/13/2023PENDINGTRUE
- 6.03.02.03The magnets being powered shall be saturated TBD Y/N11/13/2023PENDINGTRUE
- 6.03.02.03< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.03The voltage to ground of the magnet being powered shall be TBD V11/13/2023PENDINGTRUE
- 6.03.02.03The nominal current of the magnets being powered shall be 928.7 A11/13/2023PENDINGFALSE
- 6.03.02.03The minimum current the PS must operate at shall be TBD A11/13/2023PENDINGTRUE
- 6.03.02.03The maximum current the PS must operate at shall be TBD A11/13/2023PENDINGTRUE
- 6.03.02.03The PS current type shall be DC (DC or AC)11/13/2023PENDINGFALSE
- 6.03.02.03< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.03The peak waveshape di/dt during ramping shall be TBD11/13/2023PENDINGTRUE
- 6.03.02.03The full power bandwidth required shall be TBD11/13/2023PENDINGTRUE
- 6.03.02.03The ppm of full scale current (peak to peak) shall be TBD %11/13/2023PENDINGTRUE
- 6.03.02.03The time period for specified stability shall be TBD s11/13/2023PENDINGTRUE
- 6.03.02.03The short term stability shall be TBD A/s11/13/2023PENDINGTRUE
- 6.03.02.03The long term stability shall be TBD A/s11/13/2023PENDINGTRUE
- 6.03.02.03The current setpoint resolution (min size in bits) shall be TBD bits11/13/2023PENDINGTRUE
- 6.03.02.03The synchronization required between PS's shall be TBD s11/13/2023PENDINGTRUE
- 6.03.02.03The synchronization timing of synchronization shall be TBD s11/13/2023PENDINGTRUE
- 6.03.02.03The max allowable current ripple (peak to peak) TBD A11/13/2023PENDINGTRUE
- 6.03.02.03The max current ripple frequency range (Hz) TBD Hz11/13/2023PENDINGTRUE
- 6.03.02.03WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz11/13/2023PENDINGTRUE
- 6.03.02.03The max voltage ripple (peak to peak) shall be TBD V11/13/2023PENDINGTRUE
- 6.03.02.03An NMR shall be required to measure the field TBD A/s11/13/2023PENDINGTRUE
- 6.03.02.03The voltage tap configuration shall be N/A11/13/2023PENDINGFALSE
- 6.03.02.03The threshold levels shall be N/A V11/13/2023PENDINGFALSE
- 6.03.02.03The peak di/dt without inducing a quench shall be N/A A/S11/13/2023PENDINGFALSE
- 6.03.02.03The design shall have quench heaters N/A Y/N11/13/2023PENDINGFALSE
- 6.03.02.03The quench heater power rating shall be N/A W11/13/2023PENDINGFALSE
- 6.03.02.03The design shall have warm up heaters N/A Y/N11/13/2023PENDINGFALSE
- 6.03.02.03The warmup heater power rating shall be N/A W11/13/2023PENDINGFALSE
- 6.03.02.03The current required to be shunted through the magnet shall be TBD11/13/2023PENDINGTRUE
- 6.03.02.03The magnet turns ratio shall be TBD11/13/2023PENDINGTRUE
- 6.03.02.03The terminal voltage shall be TBD V11/13/2023PENDINGTRUE
- 6.03.02.03The design shall have thermal switches TBD11/13/2023PENDINGTRUE
- 6.03.02.03The thermal switch connection numbers shall be TBD11/13/2023PENDINGTRUE
- 6.03.02.03The design shall have water flow switches TBD11/13/2023PENDINGTRUE
- 6.03.02.03The water flow switch connections numbers shall be TBD11/13/2023PENDINGTRUE
- 6.03.02.03The design shall have access controls interlocks TBD11/13/2023PENDINGTRUE
- 6.03.02.03The main terminals lug details shall be TBD11/13/2023PENDINGTRUE
- 6.03.02.03The lead end indications shall be TBD11/13/2023PENDINGTRUE
- 6.03.02.03The lugs details for thermal switch and water switches shall be TBD11/13/2023PENDINGTRUE
- 6.03.02.03The lug details for the auxiliary windings shall be TBD11/13/2023PENDINGTRUE
- 6.03.02.03The A/B terminal labeling details shall be TBD Draw id11/13/2023PENDINGTRUE
- 6.03.02.03The magnet drawing with terminations details shall be TBD11/13/2023PENDINGTRUE
- 6.03.02.03The magnet polarity connections shall be TBD11/13/2023PENDINGTRUE
- EIS-RCS-PS-SXT : EIS RCS Magnet Power Supply SXT (WBS 6.03.02.03)
- 6.03.02.03The number of Independent functions on the magnets being powered shall be 111/13/2023PENDINGFALSE
- 6.03.02.03The maximum magnet string resistance to be powered shall be TBD ohm11/13/2023PENDINGTRUE
- 6.03.02.03The maximum magnet string inductance to be powered shall be TBD H11/13/2023PENDINGTRUE
- 6.03.02.03The magnets being powered shall be saturated TBD Y/N11/13/2023PENDINGTRUE
- 6.03.02.03< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.03The voltage to ground of the magnet being powered shall be TBD V11/13/2023PENDINGTRUE
- 6.03.02.03The nominal current of the magnets being powered shall be 580 A11/13/2023PENDINGFALSE
- 6.03.02.03The minimum current the PS must operate at shall be TBD A11/13/2023PENDINGTRUE
- 6.03.02.03The maximum current the PS must operate at shall be TBD A11/13/2023PENDINGTRUE
- 6.03.02.03The PS current type shall be DC (DC or AC)11/13/2023PENDINGFALSE
- 6.03.02.03< blank >11/13/2023NOT APPLICABLEFALSE
- 6.03.02.03The peak waveshape di/dt during ramping shall be TBD11/13/2023PENDINGTRUE
- 6.03.02.03The full power bandwidth required shall be TBD11/13/2023PENDINGTRUE
- 6.03.02.03The ppm of full scale current (peak to peak) shall be TBD %11/13/2023PENDINGTRUE
- 6.03.02.03The time period for specified stability shall be TBD s11/13/2023PENDINGTRUE
- 6.03.02.03The short term stability shall be TBD A/s11/13/2023PENDINGTRUE
- 6.03.02.03The long term stability shall be TBD A/s11/13/2023PENDINGTRUE
- 6.03.02.03The current setpoint resolution (min size in bits) shall be TBD bits11/13/2023PENDINGTRUE
- 6.03.02.03The synchronization required between PS's shall be TBD s11/13/2023PENDINGTRUE
- 6.03.02.03The synchronization timing of synchronization shall be TBD s11/13/2023PENDINGTRUE
- 6.03.02.03The max allowable current ripple (peak to peak) TBD A11/13/2023PENDINGTRUE
- 6.03.02.03The max current ripple frequency range (Hz) TBD Hz11/13/2023PENDINGTRUE
- 6.03.02.03WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz11/13/2023PENDINGTRUE
- 6.03.02.03The max voltage ripple (peak to peak) shall be TBD V11/13/2023PENDINGTRUE
- 6.03.02.03An NMR shall be required to measure the field TBD A/s11/13/2023PENDINGTRUE
- 6.03.02.03The voltage tap configuration shall be TBD11/13/2023PENDINGTRUE
- 6.03.02.03The threshold levels shall be TBD V11/13/2023PENDINGTRUE
- 6.03.02.03The peak di/dt without inducing a quench shall be TBD A/S11/13/2023PENDINGTRUE
- 6.03.02.03The design shall have quench heaters TBD Y/N11/13/2023PENDINGTRUE
- 6.03.02.03The quench heater power rating shall be TBD W11/13/2023PENDINGTRUE
- 6.03.02.03The design shall have warm up heaters TBD Y/N11/13/2023PENDINGTRUE
- 6.03.02.03The warmup heater power rating shall be TBD W11/13/2023PENDINGTRUE
- 6.03.02.03The current required to be shunted through the magnet shall be TBD11/13/2023PENDINGTRUE
- 6.03.02.03The magnet turns ratio shall be TBD11/13/2023PENDINGTRUE
- 6.03.02.03The terminal voltage shall be TBD V11/13/2023PENDINGTRUE
- 6.03.02.03The design shall have thermal switches TBD11/13/2023PENDINGTRUE
- 6.03.02.03The thermal switch connection numbers shall be TBD11/13/2023PENDINGTRUE
- 6.03.02.03The design shall have water flow switches TBD11/13/2023PENDINGTRUE
- 6.03.02.03The water flow switch connections numbers shall be TBD11/13/2023PENDINGTRUE
- 6.03.02.03The design shall have access controls interlocks TBD11/13/2023PENDINGTRUE
- 6.03.02.03The main terminals lug details shall be TBD11/13/2023PENDINGTRUE
- 6.03.02.03The lead end indications shall be TBD11/13/2023PENDINGTRUE
- 6.03.02.03The lugs details for thermal switch and water switches shall be TBD11/13/2023PENDINGTRUE
- 6.03.02.03The lug details for the auxiliary windings shall be TBD11/13/2023PENDINGTRUE
- 6.03.02.03The A/B terminal labeling details shall be TBD Draw id11/13/2023PENDINGTRUE
- 6.03.02.03The magnet drawing with terminations details shall be TBD11/13/2023PENDINGTRUE
- 6.03.02.03The magnet polarity connections shall be TBD11/13/2023PENDINGTRUE
- EIS-RCS-RF : EIS RCS RF System (WBS 6.08)
- EIS-RCS-RF-INJ_KICK : EIS RCS RF Injection Kicker System (WBS 6.08.05.09)
- EIS-RCS-RF-INJ_KICK-HARMONIC1_MODE : EIS RCS RF Injection Kicker Harmonic 1 Mode (WBS 6.08.05.09)
- 6.08.05.09The Type of system shall be NRF11/13/2023PENDINGFALSE
- 6.08.05.09The RF Harmonic Number shall be 189611/13/2023PENDINGFALSE
- 6.08.05.09The RF Drive Frequency shall be 147.75 MHz11/13/2023PENDINGFALSE
- 6.08.05.09The RF Wavelength shall be 2.02905216920474 m11/13/2023PENDINGFALSE
- 6.08.05.09The Required kicking angle shall be 0.375 mrad11/13/2023PENDINGFALSE
- 6.08.05.09The Required transverse voltage shall be 150 kV11/13/2023PENDINGFALSE
- 6.08.05.09The Installed Voltage shall be TBD kV11/13/2023PENDINGTRUE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09The Envelop Rise Time (0 to 100%) shall be <9.7 μs11/13/2023PENDINGFALSE
- 6.08.05.09The Envelop Flat top width shall be >=3 μs11/13/2023PENDINGFALSE
- 6.08.05.09The Envelop Fall time (100% to 0) shall be <9.7 μs11/13/2023PENDINGFALSE
- 6.08.05.09The Pulse Rise/Fall Time shall be TBD ns11/13/2023PENDINGTRUE
- 6.08.05.09The Fundamental Mode Damper shall not be required11/13/2023PENDINGFALSE
- 6.08.05.09The RF System Impedance Budget (Single bunch microwave instability) (L) shall be 0.1 ohm11/13/2023PENDINGFALSE
- 6.08.05.09The RF System Impedance Budget (H) shall be TBD Mohm/m11/13/2023PENDINGTRUE
- 6.08.05.09The RF System Impedance Budget (V) shall be TBD Mohm/m11/13/2023PENDINGTRUE
- 6.08.05.09The Impedance budget coupled bunch instability (L) shall be TBD MohmGHz11/13/2023PENDINGTRUE
- 6.08.05.09The RF System Impedance Budget (H) shall be TBD Mohm/m11/13/2023PENDINGTRUE
- 6.08.05.09The RF System Impedance Budget (V) shall be TBD Mohm/m11/13/2023PENDINGTRUE
- 6.08.05.09The RF System Same Passband Impedance Budget (L) shall be TBD Mohm11/13/2023PENDINGTRUE
- 6.08.05.09The Maximum Dipole content shall be main kick11/13/2023PENDINGFALSE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09The Cavity Minimum Aperture (diameter) shall be 32.9 mm11/13/2023PENDINGFALSE
- 6.08.05.09The Maximum Beam Offset at Cavities (H) shall be TBD mm11/13/2023PENDINGTRUE
- 6.08.05.09The Maximum Beam Offset at Cavities (V) shall be TBD mm11/13/2023PENDINGTRUE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09The Beamline Space Allocation (Beamline Length) shall be TBD m11/13/2023PENDINGTRUE
- 6.08.05.09The Beamline Space Allocation (Width) shall be TBD m11/13/2023PENDINGTRUE
- 6.08.05.09The Beamline Space Allocation (Height) shall be TBD m11/13/2023PENDINGTRUE
- 6.08.05.09The Distance Beamline Center to Ceiling shall be TBD m11/13/2023PENDINGTRUE
- 6.08.05.09The Distance Beamline Center to Floor shall be TBD m11/13/2023PENDINGTRUE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09The provided detailed bunch pattern shall be met TBD11/13/2023PENDINGTRUE
- 6.08.05.09The following fill sequence shall be met TBD11/13/2023PENDINGTRUE
- 6.08.05.09The following synchronization requirements shall be met TBD11/13/2023PENDINGTRUE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- EIS-RCS-RF-INJ_KICK-HARMONIC2_MODE : EIS RCS RF Injection Kicker Harmonic 2 Mode (WBS 6.08.05.09)
- 6.08.05.09The Type of system shall be NRF11/13/2023PENDINGFALSE
- 6.08.05.09The RF Harmonic Number shall be 379211/13/2023PENDINGFALSE
- 6.08.05.09The RF Drive Frequency shall be 295.5 MHz11/13/2023PENDINGFALSE
- 6.08.05.09The RF Wavelength shall be 1.01452608460237 m11/13/2023PENDINGFALSE
- 6.08.05.09The Required kicking angle shall be 0.25 mrad11/13/2023PENDINGFALSE
- 6.08.05.09The Required transverse voltage shall be 100 kV11/13/2023PENDINGFALSE
- 6.08.05.09The Installed Voltage shall be TBD kV11/13/2023PENDINGTRUE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09The Envelop Rise Time (0 to 100%) shall be <9.7 μs11/13/2023PENDINGFALSE
- 6.08.05.09The Envelop Flat top width shall be >=3 μs11/13/2023PENDINGFALSE
- 6.08.05.09The Envelop Fall time (100% to 0) shall be <9.7 μs11/13/2023PENDINGFALSE
- 6.08.05.09The Pulse Rise/Fall Time shall be TBD ns11/13/2023PENDINGTRUE
- 6.08.05.09The Fundamental Mode Damper shall not be required11/13/2023PENDINGFALSE
- 6.08.05.09The RF System Impedance Budget (Single bunch microwave instability) (L) shall be 0.1 ohm11/13/2023PENDINGFALSE
- 6.08.05.09The RF System Impedance Budget (H) shall be TBD Mohm/m11/13/2023PENDINGTRUE
- 6.08.05.09The RF System Impedance Budget (V) shall be TBD Mohm/m11/13/2023PENDINGTRUE
- 6.08.05.09The Impedance budget coupled bunch instability (L) shall be TBD MohmGHz11/13/2023PENDINGTRUE
- 6.08.05.09The RF System Impedance Budget (H) shall be TBD Mohm/m11/13/2023PENDINGTRUE
- 6.08.05.09The RF System Impedance Budget (V) shall be TBD Mohm/m11/13/2023PENDINGTRUE
- 6.08.05.09The RF System Same Passband Impedance Budget (L) shall be TBD Mohm11/13/2023PENDINGTRUE
- 6.08.05.09The Maximum Dipole content shall be main kick11/13/2023PENDINGFALSE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09The Cavity Minimum Aperture (diameter) shall be 32.9 mm11/13/2023PENDINGFALSE
- 6.08.05.09The Maximum Beam Offset at Cavities (H) shall be TBD mm11/13/2023PENDINGTRUE
- 6.08.05.09The Maximum Beam Offset at Cavities (V) shall be TBD mm11/13/2023PENDINGTRUE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09The Beamline Space Allocation (Beamline Length) shall be 9.8 m11/13/2023PENDINGFALSE
- 6.08.05.09The Beamline Space Allocation (Width) shall be TBD m11/13/2023PENDINGTRUE
- 6.08.05.09The Beamline Space Allocation (Height) shall be TBD m11/13/2023PENDINGTRUE
- 6.08.05.09The Distance Beamline Center to Ceiling shall be TBD m11/13/2023PENDINGTRUE
- 6.08.05.09The Distance Beamline Center to Floor shall be TBD m11/13/2023PENDINGTRUE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09The provided detailed bunch pattern shall be met TBD11/13/2023PENDINGTRUE
- 6.08.05.09The following fill sequence shall be met TBD11/13/2023PENDINGTRUE
- 6.08.05.09The following synchronization requirements shall be met TBD11/13/2023PENDINGTRUE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- EIS-RCS-RF-INJ_KICK-HARMONIC3_MODE : EIS RCS RF Injection Kicker Harmonic 3 Mode (WBS 6.08.05.09)
- 6.08.05.09The Type of system shall be NRF11/13/2023PENDINGFALSE
- 6.08.05.09The RF Harmonic Number shall be 568811/13/2023PENDINGFALSE
- 6.08.05.09The RF Drive Frequency shall be 443.25 MHz11/13/2023PENDINGFALSE
- 6.08.05.09The RF Wavelength shall be 0.676350723068246 m11/13/2023PENDINGFALSE
- 6.08.05.09The Required kicking angle shall be 0.125 mrad11/13/2023PENDINGFALSE
- 6.08.05.09The Required transverse voltage shall be 50 kV11/13/2023PENDINGFALSE
- 6.08.05.09The Installed Voltage shall be TBD kV11/13/2023PENDINGTRUE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09The Envelop Rise Time (0 to 100%) shall be <9.7 μs11/13/2023PENDINGFALSE
- 6.08.05.09The Envelop Flat top width shall be >=3 μs11/13/2023PENDINGFALSE
- 6.08.05.09The Envelop Fall time (100% to 0) shall be <9.7 μs11/13/2023PENDINGFALSE
- 6.08.05.09The Pulse Rise/Fall Time shall be TBD ns11/13/2023PENDINGTRUE
- 6.08.05.09The Fundamental Mode Damper shall not be required11/13/2023PENDINGFALSE
- 6.08.05.09The RF System Impedance Budget (Single bunch microwave instability) (L) shall be 0.1 ohm11/13/2023PENDINGFALSE
- 6.08.05.09The RF System Impedance Budget (H) shall be TBD Mohm/m11/13/2023PENDINGTRUE
- 6.08.05.09The RF System Impedance Budget (V) shall be TBD Mohm/m11/13/2023PENDINGTRUE
- 6.08.05.09The Impedance budget coupled bunch instability (L) shall be TBD MohmGHz11/13/2023PENDINGTRUE
- 6.08.05.09The RF System Impedance Budget (H) shall be TBD Mohm/m11/13/2023PENDINGTRUE
- 6.08.05.09The RF System Impedance Budget (V) shall be TBD Mohm/m11/13/2023PENDINGTRUE
- 6.08.05.09The RF System Same Passband Impedance Budget (L) shall be TBD Mohm11/13/2023PENDINGTRUE
- 6.08.05.09The Maximum Dipole content shall be main kick11/13/2023PENDINGFALSE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09The Cavity Minimum Aperture (diameter) shall be 32.9 mm11/13/2023PENDINGFALSE
- 6.08.05.09The Maximum Beam Offset at Cavities (H) shall be TBD mm11/13/2023PENDINGTRUE
- 6.08.05.09The Maximum Beam Offset at Cavities (V) shall be TBD mm11/13/2023PENDINGTRUE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09The Beamline Space Allocation (Beamline Length) shall be 10.8 m11/13/2023PENDINGFALSE
- 6.08.05.09The Beamline Space Allocation (Width) shall be TBD m11/13/2023PENDINGTRUE
- 6.08.05.09The Beamline Space Allocation (Height) shall be TBD m11/13/2023PENDINGTRUE
- 6.08.05.09The Distance Beamline Center to Ceiling shall be TBD m11/13/2023PENDINGTRUE
- 6.08.05.09The Distance Beamline Center to Floor shall be TBD m11/13/2023PENDINGTRUE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09The provided detailed bunch pattern shall be met TBD11/13/2023PENDINGTRUE
- 6.08.05.09The following fill sequence shall be met TBD11/13/2023PENDINGTRUE
- 6.08.05.09The following synchronization requirements shall be met TBD11/13/2023PENDINGTRUE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- EIS-RCS-RF-INJ_KICK-SUM_INC_MODE : EIS RCS RF Injection Kicker SUM-INC DC (WBS 6.08.05.09)
- 6.08.05.09The Type of system shall be11/13/2023PENDINGFALSE
- 6.08.05.09The RF Harmonic Number shall be11/13/2023PENDINGFALSE
- 6.08.05.09The RF Drive Frequency shall be MHz11/13/2023PENDINGFALSE
- 6.08.05.09The RF Wavelength shall be m11/13/2023PENDINGFALSE
- 6.08.05.09The Required kicking angle shall be 1 mrad11/13/2023PENDINGFALSE
- 6.08.05.09The Required transverse voltage shall be 400 kV11/13/2023PENDINGFALSE
- 6.08.05.09The Installed Voltage shall be TBD kV11/13/2023PENDINGTRUE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09The Envelop Rise Time (0 to 100%) shall be <9.7 μs11/13/2023PENDINGFALSE
- 6.08.05.09The Envelop Flat top width shall be >=3 μs11/13/2023PENDINGFALSE
- 6.08.05.09The Envelop Fall time (100% to 0) shall be <9.7 μs11/13/2023PENDINGFALSE
- 6.08.05.09The Pulse Rise/Fall Time shall be <1.6 ns11/13/2023PENDINGFALSE
- 6.08.05.09The Fundamental Mode Damper shall be required TBD Yes / No11/13/2023PENDINGTRUE
- 6.08.05.09The RF System Impedance Budget (Single bunch microwave instability) (L) shall be TBD ohm11/13/2023PENDINGTRUE
- 6.08.05.09The RF System Impedance Budget (H) shall be TBD Mohm/m11/13/2023PENDINGTRUE
- 6.08.05.09The RF System Impedance Budget (V) shall be TBD Mohm/m11/13/2023PENDINGTRUE
- 6.08.05.09The Impedance budget coupled bunch instability (L) shall be TBD MohmGHz11/13/2023PENDINGTRUE
- 6.08.05.09The RF System Impedance Budget (H) shall be TBD Mohm/m11/13/2023PENDINGTRUE
- 6.08.05.09The RF System Impedance Budget (V) shall be TBD Mohm/m11/13/2023PENDINGTRUE
- 6.08.05.09The RF System Same Passband Impedance Budget (L) shall be TBD Mohm11/13/2023PENDINGTRUE
- 6.08.05.09The Maximum Dipole content shall be main kick11/13/2023PENDINGFALSE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09The Cavity Minimum Aperture (diameter) shall be 32.9 mm11/13/2023PENDINGFALSE
- 6.08.05.09The Maximum Beam Offset at Cavities (H) shall be TBD mm11/13/2023PENDINGTRUE
- 6.08.05.09The Maximum Beam Offset at Cavities (V) shall be TBD mm11/13/2023PENDINGTRUE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09The Beamline Space Allocation (Beamline Length) shall be 11.8 m11/13/2023PENDINGFALSE
- 6.08.05.09The Beamline Space Allocation (Width) shall be TBD m11/13/2023PENDINGTRUE
- 6.08.05.09The Beamline Space Allocation (Height) shall be TBD m11/13/2023PENDINGTRUE
- 6.08.05.09The Distance Beamline Center to Ceiling shall be TBD m11/13/2023PENDINGTRUE
- 6.08.05.09The Distance Beamline Center to Floor shall be TBD m11/13/2023PENDINGTRUE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09The provided detailed bunch pattern shall be met TBD11/13/2023PENDINGTRUE
- 6.08.05.09The following fill sequence shall be met TBD11/13/2023PENDINGTRUE
- 6.08.05.09The following synchronization requirements shall be met TBD11/13/2023PENDINGTRUE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.09< blank >11/13/2023NOT APPLICABLEFALSE
- EIS-RCS-RF-MAIN_RF : EIS RCS Main RF System (WBS 6.08.05)
- EIS-RCS-RF-MAIN_RF-CAPTURE&ACCEL_MODE : EIS RCS Main RF Capture & Accel Mode (WBS 6.08.04.02)
- 6.08.04.02The Type of system shall be SRF11/13/2023PENDINGFALSE
- 6.08.04.02The RF Harmonic Number shall be 758411/13/2023APPROVEDFALSE
- 6.08.04.02The RF Drive Frequency shall be 591 MHz11/13/2023PENDINGFALSE
- 6.08.04.02The RF Wavelength shall be 0 m11/13/2023APPROVEDFALSE
- 6.08.04.02The Required Voltage per Turn shall be 60 MV11/13/2023APPROVEDFALSE
- 6.08.04.02The Installed Voltage per Turn shall be 60 MV11/13/2023APPROVEDFALSE
- 6.08.04.02The Fundamental Mode Damper shall not be required11/13/2023APPROVEDFALSE
- 6.08.04.02The RF System Impedance Budget (Single bunch microwave instability) (L) shall be TBD11/13/2023PENDINGTRUE
- 6.08.04.02The RF System Impedance Budget (H) shall be TBD Mohm/m11/13/2023APPROVEDTRUE
- 6.08.04.02The RF System Impedance Budget (V) shall be TBD Mohm/m11/13/2023APPROVEDTRUE
- 6.08.04.02The Impedance budget coupled bunch instability (L) shall be TBD MohmGHz11/13/2023APPROVEDTRUE
- 6.08.04.02The RF System Impedance Budget (H) shall be TBD Mohm/m11/13/2023APPROVEDTRUE
- 6.08.04.02The RF System Impedance Budget (V) shall be TBD Mohm/m11/13/2023APPROVEDTRUE
- 6.08.04.02The RF System Same Passband Impedance Budget (L) shall be TBD Mohm11/13/2023APPROVEDTRUE
- 6.08.04.02The Maximum Dipole content shall be TBD11/13/2023APPROVEDTRUE
- 6.08.04.02The Maximum Quadrupole content shall be TBD11/13/2023APPROVEDTRUE
- 6.08.04.02The Maximum Sextupole content shall be TBD11/13/2023APPROVEDTRUE
- 6.08.04.02The Maximum Octupole content shall be TBD11/13/2023APPROVEDTRUE
- 6.08.04.02The Amplitude Stability (Noise, df > 1Hz) shall be TBD 1E-4 (rms)11/13/2023APPROVEDTRUE
- 6.08.04.02The Phase Stability (Noise, df > 1Hz) shall be TBD deg (rms)11/13/2023APPROVEDTRUE
- 6.08.04.02The Amplitude Stability (Drift, df < 1Hz) shall be TBD 1E-4 (rms)11/13/2023APPROVEDTRUE
- 6.08.04.02The Phase Stability (Drift, df < 1Hz) shall be TBD deg (rms)11/13/2023APPROVEDTRUE
- 6.08.04.02The Cavity Minimum Aperture (diameter) shall be 32.9 mm11/13/2023APPROVEDFALSE
- 6.08.04.02The Maximum Beam Offset at Cavities (H) shall be TBD mm11/13/2023APPROVEDTRUE
- 6.08.04.02The Maximum Beam Offset at Cavities (V) shall be TBD mm11/13/2023APPROVEDTRUE
- 6.08.04.02The EM Center Alignment Tolerance in X shall be TBD mm11/13/2023APPROVEDTRUE
- 6.08.04.02The EM Center Alignment Tolerance in y shall be TBD mm11/13/2023APPROVEDTRUE
- 6.08.04.02The EM Center Alignment Tolerance in Z shall be TBD mm11/13/2023APPROVEDTRUE
- 6.08.04.02The EM Center Alignment Tolerance Roll shall be TBD deg11/13/2023APPROVEDTRUE
- 6.08.04.02The EM Center Alignment Tolerance Pitch shall be TBD deg11/13/2023APPROVEDTRUE
- 6.08.04.02The EM Center Alignment Tolerance Yaw shall be TBD deg11/13/2023APPROVEDTRUE
- 6.08.04.02The Beamline Space Allocation (Beamline Length) shall be 8.8 m11/13/2023APPROVEDFALSE
- 6.08.04.02The Beamline Space Allocation (Width) shall be TBD m11/13/2023PENDINGTRUE
- 6.08.04.02The Beamline Space Allocation (Height) shall be TBD m11/13/2023PENDINGTRUE
- 6.08.04.02The Distance Beamline Center to Ceiling shall be TBD m11/13/2023PENDINGTRUE
- 6.08.04.02The Distance Beamline Center to Floor shall be TBD m11/13/2023PENDINGTRUE
- 6.08.04.02The following nominal and worst case B(t), V(t) plots shall be met TBD11/13/2023PENDINGTRUE
- 6.08.04.02The provided detailed bunch pattern shall be met TBD11/13/2023PENDINGTRUE
- 6.08.04.02The following fill sequence shall be met TBD11/13/2023PENDINGTRUE
- 6.08.04.02The following synchronization requirements shall be met TBD11/13/2023PENDINGTRUE
- 6.08.04.02The following RF gymnastics (like bunch merge, split,etc ) shall be met TBD11/13/2023PENDINGTRUE
- 6.08.04.02The following specific control requirements from beam dynamics shall be met TBD11/13/2023PENDINGTRUE
- 6.08.04.02The following tuning Range shall be met TBD11/13/2023PENDINGTRUE
- EIS-RCS-RF-MAIN_RF-MERGE1_MODE : EIS RCS Main RF Merge 1 Mode (WBS 6.08.05.01)
- 6.08.05.01The Type of system shall be NC RF11/13/2023PENDINGFALSE
- 6.08.05.01The RF Harmonic Number shall be 379211/13/2023PENDINGFALSE
- 6.08.05.01The RF Drive Frequency shall be 295.5 MHz11/13/2023PENDINGFALSE
- 6.08.05.01The RF Wavelength shall be 0 m11/13/2023PENDINGFALSE
- 6.08.05.01The Required Voltage per Turn shall be 1.4 MV11/13/2023PENDINGFALSE
- 6.08.05.01The Installed Voltage per Turn shall be 1.4 MV11/13/2023PENDINGFALSE
- 6.08.05.01The Fundamental Mode Damper shall not be required11/13/2023PENDINGFALSE
- 6.08.05.01The RF System Impedance Budget (Single bunch microwave instability) (L) shall be TBD11/13/2023PENDINGTRUE
- 6.08.05.01The RF System Impedance Budget (H) shall be TBD Mohm/m11/13/2023PENDINGTRUE
- 6.08.05.01The RF System Impedance Budget (V) shall be TBD Mohm/m11/13/2023PENDINGTRUE
- 6.08.05.01The Impedance budget coupled bunch instability (L) shall be 1.59MOhm (<1GHz), 1.59MOhm-GHz (>1GHz) MohmGHz11/13/2023PENDINGFALSE
- 6.08.05.01The RF System Impedance Budget (H) shall be 12 Mohm/m11/13/2023PENDINGFALSE
- 6.08.05.01The RF System Impedance Budget (V) shall be 12 Mohm/m11/13/2023PENDINGFALSE
- 6.08.05.01The RF System Same Passband Impedance Budget (L) shall be TBD Mohm11/13/2023PENDINGTRUE
- 6.08.05.01The Maximum Dipole content shall be TBD11/13/2023PENDINGTRUE
- 6.08.05.01The Maximum Quadrupole content shall be TBD11/13/2023PENDINGTRUE
- 6.08.05.01The Maximum Sextupole content shall be TBD11/13/2023PENDINGTRUE
- 6.08.05.01The Maximum Octupole content shall be TBD11/13/2023PENDINGTRUE
- 6.08.05.01The Amplitude Stability (Noise, df > 1Hz) shall be TBD 1E-4 (rms)11/13/2023PENDINGTRUE
- 6.08.05.01The Phase Stability (Noise, df > 1Hz) shall be TBD deg (rms)11/13/2023PENDINGTRUE
- 6.08.05.01The Amplitude Stability (Drift, df < 1Hz) shall be TBD 1E-4 (rms)11/13/2023PENDINGTRUE
- 6.08.05.01The Phase Stability (Drift, df < 1Hz) shall be TBD deg (rms)11/13/2023PENDINGTRUE
- 6.08.05.01The Cavity Minimum Aperture (diameter) shall be 32.9 mm11/13/2023PENDINGFALSE
- 6.08.05.01The Maximum Beam Offset at Cavities (H) shall be TBD mm11/13/2023PENDINGTRUE
- 6.08.05.01The Maximum Beam Offset at Cavities (V) shall be TBD mm11/13/2023PENDINGTRUE
- 6.08.05.01The EM Center Alignment Tolerance in X shall be TBD mm11/13/2023PENDINGTRUE
- 6.08.05.01The EM Center Alignment Tolerance in y shall be TBD mm11/13/2023PENDINGTRUE
- 6.08.05.01The EM Center Alignment Tolerance in Z shall be TBD mm11/13/2023PENDINGTRUE
- 6.08.05.01The EM Center Alignment Tolerance Roll shall be TBD deg11/13/2023PENDINGTRUE
- 6.08.05.01The EM Center Alignment Tolerance Pitch shall be TBD deg11/13/2023PENDINGTRUE
- 6.08.05.01The EM Center Alignment Tolerance Yaw shall be TBD deg11/13/2023PENDINGTRUE
- 6.08.05.01The Beamline Space Allocation (Beamline Length) shall be TBD m11/13/2023PENDINGTRUE
- 6.08.05.01The Beamline Space Allocation (Width) shall be TBD m11/13/2023PENDINGTRUE
- 6.08.05.01The Beamline Space Allocation (Height) shall be TBD m11/13/2023PENDINGTRUE
- 6.08.05.01The Distance Beamline Center to Ceiling shall be TBD m11/13/2023PENDINGTRUE
- 6.08.05.01The Distance Beamline Center to Floor shall be TBD m11/13/2023PENDINGTRUE
- 6.08.05.01The following nominal and worst case B(t), V(t) plots shall be met TBD11/13/2023PENDINGTRUE
- 6.08.05.01The provided detailed bunch pattern shall be met TBD11/13/2023PENDINGTRUE
- 6.08.05.01The following fill sequence shall be met TBD11/13/2023PENDINGTRUE
- 6.08.05.01The following synchronization requirements shall be met TBD11/13/2023PENDINGTRUE
- 6.08.05.01The following RF gymnastics (like bunch merge, split,etc ) shall be met TBD11/13/2023PENDINGTRUE
- 6.08.05.01The following specific control requirements from beam dynamics shall be met TBD11/13/2023PENDINGTRUE
- 6.08.05.01The following tuning Range shall be met TBD11/13/2023PENDINGTRUE
- EIS-RCS-RF-MAIN_RF-MERGE2_MODE : EIS RCS Main RF Merge 2 Mode (WBS 6.08.05.02)
- 6.08.05.02The Type of system shall be NC RF11/13/2023PENDINGFALSE
- 6.08.05.02The RF Harmonic Number shall be 189611/13/2023PENDINGFALSE
- 6.08.05.02The RF Drive Frequency shall be 147.75 MHz11/13/2023PENDINGFALSE
- 6.08.05.02The RF Wavelength shall be 0 m11/13/2023PENDINGFALSE
- 6.08.05.02The Required Voltage per Turn shall be 0.7 MV11/13/2023PENDINGFALSE
- 6.08.05.02The Installed Voltage per Turn shall be 0.7 MV11/13/2023PENDINGFALSE
- 6.08.05.02The Fundamental Mode Damper shall not be required11/13/2023PENDINGFALSE
- 6.08.05.02The RF System Impedance Budget (Single bunch microwave instability) (L) shall be TBD11/13/2023PENDINGTRUE
- 6.08.05.02The RF System Impedance Budget (H) shall be TBD Mohm/m11/13/2023PENDINGTRUE
- 6.08.05.02The RF System Impedance Budget (V) shall be TBD Mohm/m11/13/2023PENDINGTRUE
- 6.08.05.02The Impedance budget coupled bunch instability (L) shall be 1.59MOhm (<1GHz), 1.59MOhm-GHz (>1GHz) MohmGHz11/13/2023PENDINGFALSE
- 6.08.05.02The RF System Impedance Budget (H) shall be 12 Mohm/m11/13/2023PENDINGFALSE
- 6.08.05.02The RF System Impedance Budget (V) shall be 12 Mohm/m11/13/2023PENDINGFALSE
- 6.08.05.02The RF System Same Passband Impedance Budget (L) shall be TBD Mohm11/13/2023PENDINGTRUE
- 6.08.05.02The Maximum Dipole content shall be TBD11/13/2023PENDINGTRUE
- 6.08.05.02The Maximum Quadrupole content shall be TBD11/13/2023PENDINGTRUE
- 6.08.05.02The Maximum Sextupole content shall be TBD11/13/2023PENDINGTRUE
- 6.08.05.02The Maximum Octupole content shall be TBD11/13/2023PENDINGTRUE
- 6.08.05.02The Amplitude Stability (Noise, df > 1Hz) shall be TBD 1E-4 (rms)11/13/2023PENDINGTRUE
- 6.08.05.02The Phase Stability (Noise, df > 1Hz) shall be TBD deg (rms)11/13/2023PENDINGTRUE
- 6.08.05.02The Amplitude Stability (Drift, df < 1Hz) shall be TBD 1E-4 (rms)11/13/2023PENDINGTRUE
- 6.08.05.02The Phase Stability (Drift, df < 1Hz) shall be TBD deg (rms)11/13/2023PENDINGTRUE
- 6.08.05.02The Cavity Minimum Aperture (diameter) shall be 32.9 mm11/13/2023PENDINGFALSE
- 6.08.05.02The Maximum Beam Offset at Cavities (H) shall be TBD mm11/13/2023PENDINGTRUE
- 6.08.05.02The Maximum Beam Offset at Cavities (V) shall be TBD mm11/13/2023PENDINGTRUE
- 6.08.05.02The EM Center Alignment Tolerance in X shall be TBD mm11/13/2023PENDINGTRUE
- 6.08.05.02The EM Center Alignment Tolerance in y shall be TBD mm11/13/2023PENDINGTRUE
- 6.08.05.02The EM Center Alignment Tolerance in Z shall be TBD mm11/13/2023PENDINGTRUE
- 6.08.05.02The EM Center Alignment Tolerance Roll shall be TBD deg11/13/2023PENDINGTRUE
- 6.08.05.02The EM Center Alignment Tolerance Pitch shall be TBD deg11/13/2023PENDINGTRUE
- 6.08.05.02The EM Center Alignment Tolerance Yaw shall be TBD deg11/13/2023PENDINGTRUE
- 6.08.05.02The Beamline Space Allocation (Beamline Length) shall be TBD m11/13/2023PENDINGTRUE
- 6.08.05.02The Beamline Space Allocation (Width) shall be TBD m11/13/2023PENDINGTRUE
- 6.08.05.02The Beamline Space Allocation (Height) shall be TBD m11/13/2023PENDINGTRUE
- 6.08.05.02The Distance Beamline Center to Ceiling shall be TBD m11/13/2023PENDINGTRUE
- 6.08.05.02The Distance Beamline Center to Floor shall be TBD m11/13/2023PENDINGTRUE
- 6.08.05.02The following nominal and worst case B(t), V(t) plots shall be met TBD11/13/2023PENDINGTRUE
- 6.08.05.02The provided detailed bunch pattern shall be met TBD11/13/2023PENDINGTRUE
- 6.08.05.02The following fill sequence shall be met TBD11/13/2023PENDINGTRUE
- 6.08.05.02The following synchronization requirements shall be met TBD11/13/2023PENDINGTRUE
- 6.08.05.02The following RF gymnastics (like bunch merge, split,etc ) shall be met TBD11/13/2023PENDINGTRUE
- 6.08.05.02The following specific control requirements from beam dynamics shall be met TBD11/13/2023PENDINGTRUE
- 6.08.05.02The following tuning Range shall be met TBD11/13/2023PENDINGTRUE
- EIS-RCS-RF-MAIN_RF_SRFCM : EIS RCS Main RF Super Conducting Cryogenic Module (SCFCM) (WBS 6.08.04)
- EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE : EIS RCS Main RF SCFCM Capture & Accel Mode (WBS 6.08.04.01)
- 6.08.04The Slow Tuner Range (frequency) shall be TBD KHz11/13/2023PENDINGTRUE
- 6.08.04The Slow Tuner Backlash shall be TBD Hz11/13/2023PENDINGTRUE
- 6.08.04The Slow Tuning Rate shall be TBD Hz/s11/13/2023PENDINGTRUE
- 6.08.04The Fast Tuner Range (frequency) shall be TBD Khz11/13/2023PENDINGTRUE
- 6.08.04The Fast Tuner Backlash shall be TBD Hz11/13/2023PENDINGTRUE
- 6.08.04The Fast Tuning Rate shall be TBD Hz/s11/13/2023PENDINGTRUE
- 6.08.04The Operational Cavity Gradient shall be TBD MV/m11/13/2023PENDINGTRUE
- 6.08.04The Operational Cavity Qo shall be TBD Unit11/13/2023PENDINGTRUE
- 6.08.04The Operational Field emission onset shall be TBD MV/m11/13/2023PENDINGTRUE
- 6.08.04The Operational FPC Qext. shall be TBD Unit11/13/2023PENDINGTRUE
- 6.08.04The Operational Field Probe Qext. shall be TBD Unit11/13/2023PENDINGTRUE
- 6.08.04The Cavity Frequency (Resonant Operational) shall be TBD MHz11/13/2023PENDINGTRUE
- 6.08.04The Cavity Frequency (Drive Operational) shall be TBD MHz11/13/2023PENDINGTRUE
- 6.08.04The Microphonics (cold) shall be TBD Hz11/13/2023PENDINGTRUE
- 6.08.04The Radius (from beam center)(<6 in) shall be TBD RADS11/13/2023PENDINGTRUE
- 6.08.04The Radius (from beam center)(<12 in) shall be TBD RADS11/13/2023PENDINGTRUE
- 6.08.04The Radius (from beam center)(< 18 in) shall be TBD RADS11/13/2023PENDINGTRUE
- 6.08.04The Radius (from beam center)(< 21 in) shall be TBD RADS11/13/2023PENDINGTRUE
- 6.08.04The Radius (from beam center)(< 50 in) shall be TBD RADS11/13/2023PENDINGTRUE
- 6.08.04The Beamline Components (Outside VV) shall be TBD PSID11/13/2023PENDINGTRUE
- 6.08.04The Beamline Components (Inside VV/Outside HV) shall be TBD PSID11/13/2023PENDINGTRUE
- 6.08.04The Beamline Components (Inside VV/Inside HV) shall be TBD PSID11/13/2023PENDINGTRUE
- 6.08.04The Beamline Components (Inside VV/Tracecooled) shall be TBD PSID11/13/2023PENDINGTRUE
- 6.08.04The Inner Coupler (Inside VV) shall be TBD PSID11/13/2023PENDINGTRUE
- 6.08.04The Inner Coupler (Outside VV) shall be TBD PSID11/13/2023PENDINGTRUE
- 6.08.04The Supply Circuit shall be TBD PSID11/13/2023PENDINGTRUE
- 6.08.04The Primary Return Circuit shall be TBD PSID11/13/2023PENDINGTRUE
- 6.08.04The Trace Cooling shall be TBD PSID11/13/2023PENDINGTRUE
- 6.08.04The Trace Cooling (around beamline) shall be TBD PSID11/13/2023PENDINGTRUE
- 6.08.04The Coupler Trace Cooling shall be TBD PSID11/13/2023PENDINGTRUE
- 6.08.04The Coupler Trace Cooling (Around Coupler) shall be TBD PSID11/13/2023PENDINGTRUE
- 6.08.04The Shield Circuit shall be TBD PSID11/13/2023PENDINGTRUE
- 6.08.04The Vacuum Vessel shall be TBD PSID11/13/2023PENDINGTRUE
- 6.08.04The Cooling Water Operating Temperature shall be TBD K11/13/2023PENDINGTRUE
- 6.08.04The Primary Supply Piping Operating Temperature shall be TBD K11/13/2023PENDINGTRUE
- 6.08.04The Cavity Trace Cooling Operating Temperature shall be TBD K11/13/2023PENDINGTRUE
- 6.08.04The Shield Circuit Operating Temperature shall be TBD K11/13/2023PENDINGTRUE
- 6.08.04The Coupler Trace Cooling Operating Temperature shall be TBD K11/13/2023PENDINGTRUE
- 6.08.04The Primary Return Circuit Operating Temperature shall be TBD K11/13/2023PENDINGTRUE
- 6.08.04The Cooling Water Operating Pressure shall be TBD ATM11/13/2023PENDINGTRUE
- 6.08.04The Primary Supply Piping Operating Pressure shall be TBD ATM11/13/2023PENDINGTRUE
- 6.08.04The Cavity Trace Cooling Operating Pressure shall be TBD ATM11/13/2023PENDINGTRUE
- 6.08.04The Shield Circuit Operating Pressure shall be TBD ATM11/13/2023PENDINGTRUE
- 6.08.04The Coupler Trace Cooling Operating Pressure shall be TBD ATM11/13/2023PENDINGTRUE
- 6.08.04The Primary Return Circuit Temperature shall be TBD ATM11/13/2023PENDINGTRUE
- 6.08.04The Beamline Vacuum (Warm) shall be TBD Torr11/13/2023PENDINGTRUE
- 6.08.04The Insulating Vacuum (Warm) shall be TBD Torr11/13/2023PENDINGTRUE
- 6.08.04The Beamline Vacuum (Cold) shall be TBD Torr11/13/2023PENDINGTRUE
- 6.08.04The Insulating Vacuum (Cold) shall be TBD Torr11/13/2023PENDINGTRUE
- 6.08.04The Maximum Leak Rate shall be TBD torr L/s11/13/2023PENDINGTRUE
- 6.08.04The Efficiency shall be TBD Value11/13/2023PENDINGTRUE
- 6.08.04The Inlet Temperature (High Pressure) shall be TBD K11/13/2023PENDINGTRUE
- 6.08.04The Outlet Temperature (High Pressure) shall be TBD K11/13/2023PENDINGTRUE
- 6.08.04The Pressure Drop (High Pressure) shall be TBD ATM11/13/2023PENDINGTRUE
- 6.08.04The Inlet Temperature (Low Pressure) shall be TBD K11/13/2023PENDINGTRUE
- 6.08.04The Outlet Temperature (Low Pressure) shall be TBD K11/13/2023PENDINGTRUE
- 6.08.04The Pressure Drop (Low Pressure) shall be TBD ATM11/13/2023PENDINGTRUE
- 6.08.04The Shield Circuit Heat Load (Static) shall be TBD W11/13/2023PENDINGTRUE
- 6.08.04The Coupler Circuit Heat Load (Static) shall be TBD W11/13/2023PENDINGTRUE
- 6.08.04The Primary Circuit Heat Load (Static) shall be TBD W11/13/2023PENDINGTRUE
- 6.08.04The Shield Circuit Heat Load (Dynamic) shall be TBD W11/13/2023PENDINGTRUE
- 6.08.04The Coupler Circuit Heat Load (Dynamic) shall be TBD W11/13/2023PENDINGTRUE
- 6.08.04The Primary Circuit Heat Load (Dynamic) shall be TBD W11/13/2023PENDINGTRUE
- 6.08.04The Cooling Water Flow (Large BLA) shall be TBD gpm11/13/2023PENDINGTRUE
- 6.08.04The Cooling Water Flow (Small BLA) shall be TBD gpm11/13/2023PENDINGTRUE
- 6.08.04The Cooling Water Flow (FPC Window Outer Diameter) shall be TBD gpm11/13/2023PENDINGTRUE
- 6.08.04The Cooling Water Flow (FPC Window Antenna) shall be TBD gpm11/13/2023PENDINGTRUE
- 6.08.04The Beamline Space Allocation (Beamline Length gate valve to gate valve per cavity pair) shall be TBD m11/13/2023PENDINGTRUE
- 6.08.04The Beamline Space Allocation (Width) shall be TBD m11/13/2023PENDINGTRUE
- 6.08.04The Beamline Space Allocation (Height) shall be TBD m11/13/2023PENDINGTRUE
- 6.08.04The Distance Beamline Center to Floor shall be TBD m11/13/2023PENDINGTRUE
- 6.08.04The X-axis CM alignment tolerance shall be TBD mm11/13/2023PENDINGTRUE
- 6.08.04The Y-axis CM alignment tolerance shall be TBD mm11/13/2023PENDINGTRUE
- 6.08.04The Z-axis CM alignment tolerance shall be TBD mm11/13/2023PENDINGTRUE
- 6.08.04The Roll CM alignment tolerance shall be TBD deg11/13/2023PENDINGTRUE
- 6.08.04The Pitch CM alignment tolerance shall be TBD deg11/13/2023PENDINGTRUE
- 6.08.04The Yaw CM alignment tolerance shall be TBD deg11/13/2023PENDINGTRUE
- 6.08.04The Maximum Vertical Shock Acceleration shall be TBD g11/13/2023PENDINGTRUE
- 6.08.04The Maximum Lateral Shock Acceleration shall be TBD g11/13/2023PENDINGTRUE
- 6.08.04The Maximum Shock Acceleration along Beamline shall be TBD g11/13/2023PENDINGTRUE
- EIS-RCS-VAC : EIS RCS Vacuum (WBS 6.03.02.04)
- 6.03.02.04Impedance values shall be approved by accelerator physics. 0.1 Ohms11/13/2023APPROVEDFALSE
- 6.03.02.04The typical vacuum chamber aperture shall be 32.9 mm diameter. 32.9 mm11/13/2023APPROVEDFALSE
- 6.03.02.04Special aperture requirements and/or aperture file shall be provided by or approved by physics.11/13/2023APPROVEDFALSE
- 6.03.02.04The acceptable magnetic field from vacuum equipment within a radius 16mm (wrt Beam center) shall be <100 Gauss11/13/2023APPROVEDFALSE
- 6.03.02.04The magnetic permeability for vacuum equipment shall be approved by beam physics.11/13/2023APPROVEDFALSE
- 6.03.02.04After conditioning the average vacuum level shall be 5x10^-8 Torr11/13/2023APPROVEDFALSE
- 6.03.02.04On 15 m on each side (or one vacuum section) of the SRF cavities the vacuum system shall be processed to class ISO 5.11/13/2023APPROVEDFALSE
- 6.03.02.04The vacuum chamber shall be capable of absorb synchrotron radiation and carrying away the absorbed power.11/13/2023APPROVEDFALSE
- 6.03.02.04The vacuum chamber shall be capable of absorbing and carrying away the eddy current power.11/13/2023APPROVEDFALSE
- ESR : Electron Storage Ring (ESR) System (WBS 6.04)
- ESR-COLL : ESR Momentum Collimator System (WBS 6.06.03.02)
- ESR-COLL-ABS : ESR Momentum Collimator Injection Absorbers (WBS 6.06.03.02)
- 6.06.03.02The ESR Injection absorber shall be placed in Sector 12 adjacent to the Momentum collimator.11/13/2023APPROVEDFALSE
- 6.06.03.02The ESR Injection absorber shall be vertical.11/13/2023APPROVEDFALSE
- 6.06.03.02The vertical aperture shall be 17.5 mm half gap. +/- 17.5 mm11/13/2023APPROVEDFALSE
- 6.06.03.02The vertical aperture shall be fixed.11/13/2023APPROVEDFALSE
- 6.06.03.02The ESR injection absorber has dual jaws.11/13/2023APPROVEDFALSE
- 6.06.03.02The aperture shall be centered on the beam axshall be.11/13/2023APPROVEDFALSE
- 6.06.03.02The beam energy deposition shall be 550 W. 550 W11/13/2023APPROVEDFALSE
- 6.06.03.02The beam energy deposition shall be steady-state.11/13/2023APPROVEDFALSE
- 6.06.03.02The energy deposition from synchrotron radiation shall be negligible. ~0 W11/13/2023APPROVEDFALSE
- 6.06.03.02The impedance shall be less than the Impedance budget (100 kV/pc). 100 kV/pc11/13/2023APPROVEDFALSE
- 6.06.03.02The beam energy deposition shall be 275 J (1 bunch). 275 J11/13/2023APPROVEDFALSE
- 6.06.03.02The thermal duty cycle shall be 2 Hz. 2 Hz11/13/2023APPROVEDFALSE
- 6.06.03.02The tapered jaw slope shall be 1/10. 1/1011/13/2023APPROVEDFALSE
- 6.06.03.02The jaw tip length shall be 0.89 m11/13/2023APPROVEDFALSE
- 6.06.03.02The jaw material shall be Al-Ti11/13/2023APPROVEDFALSE
- 6.06.03.02The total length shall be 1.1 m11/13/2023APPROVEDFALSE
- ESR-COLL-DET : ESR Momentum Collimator Detector Absorbers (WBS 6.06.03.02)
- 6.06.03.02The ESR detector absorbers shall be placed at Sector 5.11/13/2023APPROVEDFALSE
- 6.06.03.02The vertical aperture shall be fixed.11/13/2023APPROVEDFALSE
- 6.06.03.02The horizontal aperture shall be fixed.11/13/2023APPROVEDFALSE
- 6.06.03.02The vertical aperture shall be tbd mm half gap. tbd mm11/13/2023APPROVEDTRUE
- 6.06.03.02The horizontal aperture shall be tbd.11/13/2023APPROVEDTRUE
- 6.06.03.02The detector absorbers have dual jaws.11/13/2023APPROVEDFALSE
- 6.06.03.02The aperture shall be centered on the beam axshall be.11/13/2023APPROVEDFALSE
- 6.06.03.02The beam energy deposition shall be negligible. ~0 W11/13/2023APPROVEDFALSE
- 6.06.03.02The energy deposition from synchrotron radiation shall be tbd kW. tbd kW11/13/2023APPROVEDTRUE
- 6.06.03.02The impedance shall be less than the Impedance budget (100 kV/pc). 100 kV/pc11/13/2023APPROVEDFALSE
- 6.06.03.02The beam failure energy deposition shall be 275 J (1 bunch). 275 J11/13/2023APPROVEDFALSE
- 6.06.03.02The failure thermal duty cycle shall be intermittent.11/13/2023APPROVEDFALSE
- 6.06.03.02The tapered jaw slope shall be 1/10. 1/1011/13/2023APPROVEDFALSE
- 6.06.03.02The jaw tip length shall be 21 mm11/13/2023APPROVEDFALSE
- 6.06.03.02The jaw material shall be Cu11/13/2023APPROVEDFALSE
- 6.06.03.02The total length shall be 560-720 mm11/13/2023APPROVEDFALSE
- ESR-COLL-MOM : ESR Momentum Collimator (WBS 6.06.03.02)
- 6.06.03.02The ESR momentum collimators shall be placed in Sector 12 adjacent to the Injection absorber.11/13/2023APPROVEDFALSE
- 6.06.03.02The ESR momentum collimator shall be horizontal.11/13/2023APPROVEDFALSE
- 6.06.03.02The horizontal aperture shall be tbd mm half gap. tbd mm11/13/2023APPROVEDTRUE
- 6.06.03.02The horizontal aperture shall be range shall be tbd.11/13/2023APPROVEDTRUE
- 6.06.03.02The ESR momentum collimator has dual jaws.11/13/2023APPROVEDFALSE
- 6.06.03.02The aperture shall be centered on the beam axshall be.11/13/2023APPROVEDFALSE
- 6.06.03.02The beam energy deposition shall be 550 W. 550 W11/13/2023APPROVEDFALSE
- 6.06.03.02The beam energy deposition shall be steady-state.11/13/2023APPROVEDFALSE
- 6.06.03.02The energy deposition from synchrotron radiation shall be negligible. ~0 W11/13/2023APPROVEDFALSE
- 6.06.03.02The impedance shall be less than the Impedance budget (100 kV/pc). 100 kV/pc11/13/2023APPROVEDFALSE
- 6.06.03.02The beam failure energy deposition shall be 275 J (1 bunch). 275 J11/13/2023APPROVEDFALSE
- 6.06.03.02The failure thermal duty cycle shall be intermittent.11/13/2023APPROVEDFALSE
- 6.06.03.02The tapered jaw slope shall be 1/10. 1/1011/13/2023APPROVEDFALSE
- 6.06.03.02The jaw tip length shall be 0.89 m11/13/2023APPROVEDFALSE
- 6.06.03.02The jaw material shall be Al-Ti11/13/2023APPROVEDFALSE
- 6.06.03.02The total length shall be 1.1 m11/13/2023APPROVEDFALSE
- ESR-COLL-PRIM : ESR Momentum Collimator Primary Collimators (WBS 6.06.03.02)
- 6.06.03.02The ESR primary vertical collimator shall be placed at Sector 4.11/13/2023APPROVEDFALSE
- 6.06.03.02The ESR primary horizontal collimator shall be placed at Sector 2.11/13/2023APPROVEDFALSE
- 6.06.03.02The vertical aperture shall range from 5 to 10 mm (half gap, +/- 10 μm).11/13/2023APPROVEDFALSE
- 6.06.03.02The horizontal aperture shall range from 8 to 23 mm (half gap, +/- 10 μm).11/13/2023APPROVEDFALSE
- 6.06.03.02The ESR primary collimators have dual jaws.11/13/2023APPROVEDFALSE
- 6.06.03.02The aperture shall be centered on the beam axshall be.11/13/2023APPROVEDFALSE
- 6.06.03.02The beam energy deposition shall be 300 W on the tip of the jaw. 300 W11/13/2023APPROVEDFALSE
- 6.06.03.02The duty cycle shall be steady state.11/13/2023APPROVEDFALSE
- 6.06.03.02The energy deposition from synchrotron radiation shall be 2.5 kW (horizontal only). 2.5 kW11/13/2023APPROVEDFALSE
- 6.06.03.02The impedance shall be less than the Impedance budget (100 kV/pc). 100 kV/pc11/13/2023APPROVEDFALSE
- 6.06.03.02Jaw angle in position relative to beam axshall be 1 mrad11/13/2023APPROVEDFALSE
- 6.06.03.02The beam failure energy deposition shall be 275 J (1 bunch) on the tip of the jaw. 275 J11/13/2023APPROVEDFALSE
- 6.06.03.02The failure thermal duty cycle shall be intermittent.11/13/2023APPROVEDFALSE
- 6.06.03.02The tapered jaw slope shall be 1/10. 1/1011/13/2023APPROVEDFALSE
- 6.06.03.02The jaw tip length shall be 180 mm11/13/2023APPROVEDFALSE
- 6.06.03.02The jaw material shall be Mo-Gr11/13/2023APPROVEDFALSE
- 6.06.03.02The total length shall be 762-995 mm11/13/2023APPROVEDFALSE
- ESR-COLL-SECDRY : ESR Momentum Collimator Secondary Collimators (WBS 6.06.03.02)
- 6.06.03.02The ESR secondary vertical collimators shall be placed at Sector 4.11/13/2023APPROVEDFALSE
- 6.06.03.02The ESR secondary horizontal collimators shall be placed at Sector 2.11/13/2023APPROVEDFALSE
- 6.06.03.02The vertical aperture shall range from 6 to 11 mm (half gap, +/- tbd). tbd mm11/13/2023APPROVEDTRUE
- 6.06.03.02The horizontal aperture shall range from 9 to 25 mm (half gap, +/- tbd).11/13/2023APPROVEDTRUE
- 6.06.03.02The ESR collimators have dual jaws.11/13/2023APPROVEDFALSE
- 6.06.03.02The aperture shall be centered on the beam axshall be.11/13/2023APPROVEDFALSE
- 6.06.03.02The beam energy deposition shall be 300 W. 300 W11/13/2023APPROVEDFALSE
- 6.06.03.02The duty cycle shall be steady state.11/13/2023APPROVEDFALSE
- 6.06.03.02The energy deposition from synchrotron radiation shall be 2.5 kW (horizontal only). 2.5 kW11/13/2023APPROVEDFALSE
- 6.06.03.02The impedance shall be less than the Impedance budget (100 kV/pc). 100 kV/pc11/13/2023APPROVEDFALSE
- 6.06.03.02Jaw angle in position relative to beam axshall be 1 mrad11/13/2023APPROVEDFALSE
- 6.06.03.02The beam failure energy deposition shall be 275 J (1 bunch). 275 J11/13/2023APPROVEDFALSE
- 6.06.03.02The failure thermal duty cycle shall be intermittent.11/13/2023APPROVEDFALSE
- 6.06.03.02The tapered jaw slope shall be 1/10. 1/1011/13/2023APPROVEDFALSE
- 6.06.03.02The jaw tip length shall be 180 mm11/13/2023APPROVEDFALSE
- 6.06.03.02The jaw material shall be Mo-Gr11/13/2023APPROVEDFALSE
- 6.06.03.02The total length shall be 762-995 mm11/13/2023APPROVEDFALSE
- ESR-CONT : ESR Controls System (WBS 6.07.02)
- ESR-CONT-ALGNMNT : ESR Controls Beam Based Alignment (WBS 6.07.02)
- 6.07.02The BBA quad strength command output rate shall be 1 Hz11/13/2023APPROVEDFALSE
- ESR-CONT-FEEDBACK : ESR Controls Slow Orbit Feedback (WBS 6.07.02)
- 6.07.02The slow orbit feedback BPM data averaging period shall be tbd -11/13/2023APPROVEDTRUE
- 6.07.02The slow orbit feedback correction output rate shall be 10 Hz11/13/2023APPROVEDFALSE
- 6.07.02Placeholder for fast orbit feedback requirements11/13/2023APPROVEDFALSE
- 6.07.02Placeholder for fast orbit feedback requirements11/13/2023APPROVEDFALSE
- 6.07.02Placeholder for fast orbit feedback requirements11/13/2023APPROVEDFALSE
- 6.07.02The tune feedback measurement sample rate shall be tbd Hz11/13/2023APPROVEDTRUE
- 6.07.02The tune feedback correction rate shall be tbd Hz11/13/2023APPROVEDTRUE
- ESR-CONT-SPIN : ESR Controls Spin Pattern (WBS 6.07.02)
- 6.07.02The ESR controls system shall be capable of producing arbitrary spin pattern at injection11/13/2023APPROVEDFALSE
- 6.07.02The Spin pattern control granularity shall be 1 bunch11/13/2023APPROVEDFALSE
- 6.07.02The number of bunches @ 18GeV shall be 290 cnt11/13/2023APPROVEDFALSE
- 6.07.02The number of bunches @ 10GeV and below shall be 1160 cnt11/13/2023APPROVEDFALSE
- ESR-INST : ESR Instrumentation System (WBS 6.04.06)
- ESR-INST-BCM : ESR Instrumentation Bunch Charge and Bunch Pattern Monitor (WBS 6.04.06)
- 6.04.06A bunch pattern monitor shall be installed in the ESR to measure indiviual bunch charge with an accuracy 1 %11/13/2023APPROVEDFALSE
- 6.04.06The Bunch pattern monitor shall be capable of measuring Bunch patterns ranging from a single bunch, to a filled ring with 1,160 bunches11/13/2023APPROVEDFALSE
- ESR-INST-BLM : ESR Instrumentation Beam Loss Monitor (WBS 6.04.06)
- 6.04.06BLM shall be needed to needed to protect sensitive equipment.11/13/2023PENDINGFALSE
- 6.04.06The number of BLM installed in the ESR shall be TBD ea11/13/2023APPROVEDTRUE
- 6.04.06The response time from loss detection to abort shall be TBD us11/13/2023APPROVEDTRUE
- 6.04.06The sensitivity of the BLM detectors shall be TBD units?11/13/2023APPROVEDTRUE
- 6.04.06Where possible existing RHIC BLM's can be relocated to identify ESR & HSR losses11/13/2023APPROVEDFALSE
- ESR-INST-BPM : ESR Instrumentation Beam Postion Monitor System (WBS 6.04.06)
- ESR-INST-BPM-ELEC : ESR Instrumentation Beam Postion Monitor (WBS 6.04.06)
- 6.04.06Beam position monitor shall have electronics with turn-by-turn capability11/13/2023APPROVEDFALSE
- 6.04.06The first 20 BPMs after injection shall be capable of measuring individual bunch positions to minimize betatron oscillations of the newly injected bunches.11/13/2023APPROVEDFALSE
- 6.04.06For 2 nC pilot bunches, single turn, The BPM measurement resolution shall be 100 um11/13/2023APPROVEDFALSE
- 6.04.06For 2 nC pilot bunches, single turn, The BPM maximum allowable drift shall be 50 um11/13/2023APPROVEDFALSE
- 6.04.06For 2 nC pilot bunches, 1,000 turns average, the BPM measurement resolution shall be 30 um11/13/2023APPROVEDFALSE
- 6.04.06For 2 nC pilot bunches, 1,000 turns average, the BPM maximum allowable drift shall be 30 um11/13/2023APPROVEDFALSE
- 6.04.06For newly injected refill bunches , with low charge (2nC bunches), in presence of stored beam, the measurement resolution shall be H=50
V=10 um11/13/2023APPROVEDFALSE - 6.04.06For newly injected refill bunches , with low charge (2nC bunches), in presence of stored beam, the maximum allowable drift shall be 10 um11/13/2023APPROVEDFALSE
- 6.04.06For newly injected refill bunch - high charge (7-28 nC bunch range), in presence of stored beam, the measurement resolution shall be H=10
V=5 um11/13/2023APPROVEDFALSE - 6.04.06For newly injected refill bunch - high charge (7-28 nC bunch range), in presence of stored beam, the maximum allowable drift shall be 5 um11/13/2023APPROVEDFALSE
- 6.04.06For stored beam, turn-by-turn - low charge(2 nC bunches),the measurement resolution shall be H=V=30 um11/13/2023APPROVEDFALSE
- 6.04.06For stored beam, turn-by-turn - low charge(2 nC bunches), the maximum allowable drift H=V=30 um11/13/2023APPROVEDFALSE
- 6.04.06For stored beam, turn-by-turn - high charge(7-28 nC bunch range), the measurement resolution shall be H=V=10 um11/13/2023APPROVEDFALSE
- 6.04.06For stored beam, turn-by-turn - high charge(7-28 nC bunch range), the maximum allowable drift shall be H=V=10 um11/13/2023APPROVEDFALSE
- 6.04.06For stored beam, 1,000 turns average, high charge(7-28 nC bunch range),the measurement resolution shall be H=V=5 um11/13/2023APPROVEDFALSE
- 6.04.06For stored beam, 1,000 turns average, high charge(7-28 nC bunch range),the maximum allowable drift shall be H=V=5 um11/13/2023APPROVEDFALSE
- 6.04.06For stored beam, 1 second average, high charge(7-28 nC bunch range), the measurement resolution shall be H=V=1 um11/13/2023APPROVEDFALSE
- 6.04.06For stored beam, 1 second average, high charge, 7-28 nC bunch range, the maximum allowable drift shall be H=V=1 um11/13/2023APPROVEDFALSE
- 6.04.06The BPM sum signals shall be used to measure bunch lifetime (1/e) during the 2.5 minute bunch duration11/13/2023APPROVEDFALSE
- ESR-INST-BPM-PU : ESR Instrumentation Beam Postion Monitor Pick-up (WBS 6.04.06)
- 6.04.06There shall be Dual plane BPM pick-ups shall be located at all vertically focusing quads,and at all quadrupoles within about +/- 100 meters around IP611/13/2023APPROVEDFALSE
- 6.04.06There shall be NO BPMs at the horizontally focusing quadrupoles.11/13/2023APPROVEDFALSE
- 6.04.06No single plane BPMs are required for the ESR11/13/2023APPROVEDFALSE
- 6.04.06Special BPM pick-ups shall be located between the RF cavities in sector 10, for position resolution11/13/2023PENDINGFALSE
- 6.04.06The total number of ESR BPM pick-ups shall be 220 BPMs11/13/2023PENDINGFALSE
- 6.04.06ESR BPM pick-ups shall be designed to provide the required measurement resolution over the range of H=+/- 10
V=+/- 5 mm11/13/2023APPROVEDFALSE - 6.04.06No ESR BPM pick-ups shall be required to have an unusual range of position requirements.11/13/2023APPROVEDFALSE
- 6.04.06The BPM pick-up design shall ensure the simulated impedance is within the accepted overall ESR impedance budget.11/13/2023APPROVEDFALSE
- 6.04.06The BPM pick-up shall be designed to ensure the maximim temperatures of the components (due to heating by the beam) are acceptable for reliability and operations, using thermal simulation software.11/13/2023APPROVEDFALSE
- 6.04.06The BPM pick-ups shall be designed to be baked to 250 °C for a sufficiently large number of thermal cycles.11/13/2023APPROVEDFALSE
- 6.04.06The BPM pick-up installation mechanical misalignment tolerance shall be same as for the quadrupoles. 100 μm11/13/2023APPROVEDFALSE
- 6.04.06The relative alignment of the BPMs and neighboring quads, after BBA shall be <20 μm11/13/2023APPROVEDFALSE
- 6.04.06The BPM pick-up operational misalignement tolerance variations due to thermal cycling of the ESR shall be <20 μm11/13/2023APPROVEDFALSE
- ESR-INST-DCCT : ESR Instrumentation Current and Charge Monitor (WBS 6.04.06)
- 6.04.06A DCCT shall measure the average beam current in the ESR.11/13/2023APPROVEDFALSE
- 6.04.06The measurement resolution averaged over 1 sec shall be < 5 uA11/13/2023APPROVEDFALSE
- 6.04.06The DCCT beamline device impedance shall be approved by beam physics.11/13/2023APPROVEDFALSE
- 6.04.06Measurement drift tolerance (thermal effects) shall be ≤ 1 uA/K11/13/2023APPROVEDFALSE
- 6.04.06The DCCT sensor in the ring shall operate in the temperature range of 15 to 35 degrees C11/13/2023APPROVEDFALSE
- 6.04.06The range of average beam current to be measured shall be 0.156x10-3 to 2.5 A11/13/2023APPROVEDFALSE
- 6.04.06The DCCT system shall have a remote controlled self calibration system11/13/2023APPROVEDFALSE
- 6.04.06The DCCT system shall provide measurements with absolute accuracy of better than 0.2 %11/13/2023APPROVEDFALSE
- 6.04.06The measured average current shall be provided to users at a rate of 10 Hz11/13/2023APPROVEDFALSE
- 6.04.06The measured average current shall be archived at a rate of 10 Hz Hz11/13/2023APPROVEDFALSE
- 6.04.06The DCCT sensor assembly in the ring shall be radiation resistant11/13/2023APPROVEDFALSE
- ESR-INST-LONGIFB : ESR Instrumentation Longitudinal Bunch-by-Bunch Feedback (WBS 6.04.06)
- 6.04.06The requirements for longitudinal feedback are ??? TBD11/13/2023PENDINGTRUE
- 6.04.06The Longitudinal feedback systems shall be capable of counteracting single-bunch rise times of 1 ms11/13/2023APPROVEDFALSE
- ESR-INST-SLM : ESR Instrumentation Synchrotron Light Monitors (WBS 6.04.06)
- 6.04.06The ESR shall have two synchrotron light monitors (SLM), and one X-ray pin hole monitor11/13/2023APPROVEDFALSE
- 6.04.06The longitudinal bunch profile monitor shall have a turn-by-turn capability based on a single bunch in the fully filled bunch train.11/13/2023APPROVEDFALSE
- 6.04.06TThe SLM systems shall measure the crabbing angle, longitudinal bunch parameters, H & V beam size and global coupling.11/13/2023APPROVEDFALSE
- 6.04.06The SLM shall be able to measure a crabbing angle of 12.5 mrad with accuracy of 10 %11/13/2023APPROVEDFALSE
- 6.04.06The SLM shall be able to measure the Longitudinal bunch parameters with accuracy of TBD -11/13/2023APPROVEDTRUE
- 6.04.06The SLM shall be able to measure the H & V beam size with accuracy of H=??
V=?? units11/13/2023APPROVEDFALSE - 6.04.06The SLM shall be able to measure the Global coupling with accuracy of TBD -11/13/2023APPROVEDTRUE
- 6.04.06One SLM port shall be located downstream of a dipole in an appropriate location in the ESR, exact location not critical.11/13/2023APPROVEDFALSE
- 6.04.06The second SLM port shall be located in a complimentary location in the lattice to ensure all the necessary SLM measurements can be made. TBD -11/13/2023APPROVEDTRUE
- 6.04.06The SLM light extraction port mirrors shall be good quality, having a surface finish better than 1/10 Lambda11/13/2023PENDINGFALSE
- 6.04.06The SLM light extraction port mirrors shall be water cooled to avoid image distortion.11/13/2023APPROVEDFALSE
- 6.04.06There shall be an enclosed SL transport from the light extraction port to the SLM optical lab rooms. Length to be determined by the distance to optical lab room, should be minimized to reduce vibration problems.11/13/2023APPROVEDTRUE
- 6.04.06The locations of the SLM optical lab rooms shall be11/13/2023APPROVEDFALSE
- 6.04.06The double-slit interferometer method shall be used to measure transverse beam size11/13/2023APPROVEDFALSE
- 6.04.06The standard transverse resolution of an SLM using visible light shall be ~ 60 um11/13/2023APPROVEDFALSE
- 6.04.06The resolution using the double-slit method Shall equal to 10 um11/13/2023APPROVEDFALSE
- 6.04.06A streak camera shall be used to measure the bunch longitudinal profiles11/13/2023APPROVEDFALSE
- 6.04.06A position sensitive photo-diode will provide photon beam centroid information which shall supplement the orbit stability measurements by the BPMs11/13/2023APPROVEDFALSE
- 6.04.06A GigE CCD/CMOS camera, externally triggerable with exposure times ranging from 10 nsec to 5 sec, shall be used to image the visible radiation11/13/2023APPROVEDFALSE
- 6.04.06A commercially available gated camera with gate width of <2 nsec (compared to a minimum bunch spacing of 10 nsec) shall be used to detect injection oscillations and for beam studies.11/13/2023APPROVEDFALSE
- 6.04.06The location of the X-ray pinhole monitoring system shall be TBD11/13/2023APPROVEDTRUE
- 6.04.06The target resolution of the X-ray pin hole monitoring system shall be ~ 5 um (or as best that can be achieved with the machine parameters and commercial equipment) 5 um11/13/2023APPROVEDFALSE
- 6.04.06The X-ray pin hole monitor shall provide independent measurement of the energy spread and horizontal/vertical emittance. H=V=15.4 nm11/13/2023APPROVEDFALSE
- 6.04.06The X-ray pinhole photon beamline shall be equipped with gated cameras that will be employed to provide high resolution turn-by-turn profile measurements11/13/2023APPROVEDFALSE
- 6.04.06A pinhole assembly including tungsten slits shall provide sufficient resolution to precisely measure the beam size11/13/2023APPROVEDFALSE
- 6.04.06Several different size pinholes sizes shall be incorporated to allow easy alignment and measurements at different beam currents and energies.11/13/2023APPROVEDFALSE
- ESR-INST-TMK : ESR Instrumentation Horizontal and Vertical Tune Meter Kicker (WBS 6.04.06)
- 6.04.06Stripline kickers (H & V) shall be used to excite the beam so tunes can be measured using turn-by-turn BPM data.11/13/2023APPROVEDFALSE
- 6.04.06The magnitude of the kick required for the horizontal kicker shall be TBD units11/13/2023APPROVEDTRUE
- 6.04.06The kicker waveform (risetime and shape) requirements shall be TBD units11/13/2023APPROVEDTRUE
- 6.04.06The location of the tune meter kicker striplines in the ESR shall be TBD units11/13/2023APPROVEDTRUE
- 6.04.06The impedance of the kicker beamline device shall be approved by beam Physics.11/13/2023APPROVEDFALSE
- ESR-INST-TRANSFB : ESR Instrumentation Transverse Bunch-by-Bunch Feedback (WBS 6.04.06)
- 6.04.06Placeholder, Input needed TBD11/13/2023PENDINGTRUE
- 6.04.06The transverse feedback systems shall be capable of counteracting single-bunch rise times of 1 ms11/13/2023APPROVEDFALSE
- 6.04.06Placeholder, Input needed11/13/2023PENDINGFALSE
- ESR-INST-TRANSSLFB : ESR Instrumentation Transverse Slow Feedback (WBS 6.04.06)
- 6.04.06The transverse slow feedback system bandwidth shall bs 10 Hz11/13/2023APPROVEDFALSE
- ESR-MAG : ESR Magnet (WBS 6.04.02/6.04.03)
- ESR-MAG-D13 : ESR Magnet D13 (WBS 6.04.02.01)
- 6.04.02.01The number of magnet function shall be 111/13/2023APPROVEDFALSE
- 6.04.02.01The field type shall be D (Sol,Dip,Qud,Sxt,Oct,Dec,Dod)11/13/2023APPROVEDFALSE
- 6.04.02.01The field direction shall be V (V=vertical,H=horizontal,V&H)11/13/2023PENDINGFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01The min gap shall be 0.08 m11/13/2023APPROVEDFALSE
- 6.04.02.01The good field aperture drx required shall be 56.3583502956515 m11/13/2023PENDINGFALSE
- 6.04.02.01The good field aperture dry required shall be 28.6137067725569 m11/13/2023PENDINGFALSE
- 6.04.02.01The mag length shall be <3.01 m11/13/2023APPROVEDFALSE
- 6.04.02.01The eff Length shall be 3.01 m11/13/2023APPROVEDFALSE
- 6.04.02.01The dipole field B shall be 0.03 T11/13/2023PENDINGFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.04.02.01The harmonic reference Radius and current shall be TBD (mm,A)11/13/2023APPROVEDTRUE
- 6.04.02.01The Field at the reference radius and current shall be TBD T11/13/2023APPROVEDTRUE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01The Bore multipole content shall have a 1st order of 10000 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.01The Bore multipole content shall have a 2nd order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.01The Bore multipole content shall have a 3rd order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.01The Bore multipole content shall have a 4th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.01The Bore multipole content shall have a 5th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.01The Bore multipole content shall have a 6th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.01The Bore multipole content shall have a 7th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.01The Bore multipole content shall have a 8th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.01The Bore multipole content shall have a 9th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.01The Bore multipole content shall have a 10th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.01The Bore multipole content shall have a 11th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.01The Bore multipole content shall have a 12th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.01The Bore multipole content shall have a 13th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.01The Bore multipole content shall have a 14th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.01The Bore multipole content shall have a 15th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.01The Bore multipole content shall have a 16th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.01The magnet shall be designed to limit Xtalk Requirements N (Yes or No)11/13/2023PENDINGFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01The magnet design shall constrain the ext. fringe field N (Yes or No)11/13/2023PENDINGFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- ESR-MAG-D2 : ESR Magnet D2 (WBS 6.04.02.01)
- 6.04.02.01The number of magnet function shall be 111/13/2023APPROVEDFALSE
- 6.04.02.01The field type shall be D (Sol,Dip,Qud,Sxt,Oct,Dec,Dod)11/13/2023APPROVEDFALSE
- 6.04.02.01The field direction shall be V (V=vertical,H=horizontal,V&H)11/13/2023APPROVEDFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01The min gap shall be 0.08 m11/13/2023APPROVEDFALSE
- 6.04.02.01The good field aperture drx required shall be 24.4830416250744 m11/13/2023PENDINGFALSE
- 6.04.02.01The good field aperture dry required shall be 15.8543141665975 m11/13/2023PENDINGFALSE
- 6.04.02.01The mag length shall be <0.61 m11/13/2023APPROVEDFALSE
- 6.04.02.01The eff Length shall be 0.61 m11/13/2023APPROVEDFALSE
- 6.04.02.01The dipole field B shall be 0.193 T11/13/2023PENDINGFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.04.02.01The harmonic reference Radius and current shall be TBD (mm,A)11/13/2023APPROVEDTRUE
- 6.04.02.01The Field at the reference radius and current shall be TBD T11/13/2023APPROVEDTRUE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01The Bore multipole content shall have a 1st order of 10000 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.01The Bore multipole content shall have a 2nd order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.01The Bore multipole content shall have a 3rd order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.01The Bore multipole content shall have a 4th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.01The Bore multipole content shall have a 5th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.01The Bore multipole content shall have a 6th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.01The Bore multipole content shall have a 7th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.01The Bore multipole content shall have a 8th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.01The Bore multipole content shall have a 9th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.01The Bore multipole content shall have a 10th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.01The Bore multipole content shall have a 11th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.01The Bore multipole content shall have a 12th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.01The Bore multipole content shall have a 13th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.01The Bore multipole content shall have a 14th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.01The Bore multipole content shall have a 15th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.01The Bore multipole content shall have a 16th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.01The magnet shall be designed to limit Xtalk Requirements N (Yes or No)11/13/2023PENDINGFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01The magnet design shall constrain the ext. fringe field N (Yes or No)11/13/2023PENDINGFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- ESR-MAG-D_DISP : ESR Magnet D_DISP (WBS 6.04.02.01)
- 6.04.02.01The number of magnet function shall be 111/13/2023APPROVEDFALSE
- 6.04.02.01The field type shall be D (Sol,Dip,Qud,Sxt,Oct,Dec,Dod)11/13/2023APPROVEDFALSE
- 6.04.02.01The field direction shall be V (V=vertical,H=horizontal,V&H)11/13/2023APPROVEDFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01The min gap shall be 0.08 m11/13/2023APPROVEDFALSE
- 6.04.02.01The good field aperture drx required shall be 34.6967789816646 m11/13/2023PENDINGFALSE
- 6.04.02.01The good field aperture dry required shall be 27.2686999759932 m11/13/2023PENDINGFALSE
- 6.04.02.01The mag length shall be <5.81 m11/13/2023PENDINGFALSE
- 6.04.02.01The eff Length shall be 5.81 m11/13/2023PENDINGFALSE
- 6.04.02.01The dipole field B shall be 0.233 T11/13/2023PENDINGFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.04.02.01The harmonic reference Radius and current shall be TBD (mm,A)11/13/2023APPROVEDTRUE
- 6.04.02.01The Field at the reference radius and current shall be TBD T11/13/2023APPROVEDTRUE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01The Bore multipole content shall have a 1st order of 10000 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.01The Bore multipole content shall have a 2nd order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.01The Bore multipole content shall have a 3rd order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.01The Bore multipole content shall have a 4th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.01The Bore multipole content shall have a 5th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.01The Bore multipole content shall have a 6th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.01The Bore multipole content shall have a 7th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.01The Bore multipole content shall have a 8th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.01The Bore multipole content shall have a 9th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.01The Bore multipole content shall have a 10th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.01The Bore multipole content shall have a 11th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.01The Bore multipole content shall have a 12th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.01The Bore multipole content shall have a 13th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.01The Bore multipole content shall have a 14th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.01The Bore multipole content shall have a 15th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.01The Bore multipole content shall have a 16th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.01The magnet shall be designed to limit Xtalk Requirements N (Yes or No)11/13/2023PENDINGFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01The magnet design shall constrain the ext. fringe field N (Yes or No)11/13/2023PENDINGFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- ESR-MAG-D_IR3m : ESR Magnet D_IR3m (WBS 6.04.02.01)
- 6.04.02.01The number of magnet function shall be 111/13/2023APPROVEDFALSE
- 6.04.02.01The field type shall be D (Sol,Dip,Qud,Sxt,Oct,Dec,Dod)11/13/2023APPROVEDFALSE
- 6.04.02.01The field direction shall be V (V=vertical,H=horizontal,V&H)11/13/2023PENDINGFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01The min gap shall be 0.08 m11/13/2023APPROVEDFALSE
- 6.04.02.01The good field aperture drx required shall be 51.5074313480153 m11/13/2023PENDINGFALSE
- 6.04.02.01The good field aperture dry required shall be 37.1607659313176 m11/13/2023PENDINGFALSE
- 6.04.02.01The mag length shall be <3.8 m11/13/2023APPROVEDFALSE
- 6.04.02.01The eff Length shall be 3.8 m11/13/2023APPROVEDFALSE
- 6.04.02.01The dipole field B shall be 0.084 T11/13/2023PENDINGFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.04.02.01The harmonic reference Radius and current shall be TBD (mm,A)11/13/2023APPROVEDTRUE
- 6.04.02.01The Field at the reference radius and current shall be TBD T11/13/2023APPROVEDTRUE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01The Bore multipole content shall have a 1st order of 10000 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.01The Bore multipole content shall have a 2nd order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.01The Bore multipole content shall have a 3rd order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.01The Bore multipole content shall have a 4th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.01The Bore multipole content shall have a 5th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.01The Bore multipole content shall have a 6th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.01The Bore multipole content shall have a 7th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.01The Bore multipole content shall have a 8th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.01The Bore multipole content shall have a 9th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.01The Bore multipole content shall have a 10th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.01The Bore multipole content shall have a 11th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.01The Bore multipole content shall have a 12th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.01The Bore multipole content shall have a 13th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.01The Bore multipole content shall have a 14th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.01The Bore multipole content shall have a 15th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.01The Bore multipole content shall have a 16th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.01The magnet shall be designed to limit Xtalk Requirements N (Yes or No)11/13/2023PENDINGFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.01The magnet design shall constrain the ext. fringe field N (Yes or No)11/13/2023PENDINGFALSE
- 6.04.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- ESR-MAG-HCOR : ESR Magnet HCOR (WBS 6.04.03.02)
- 6.04.03.02The number of magnet function shall be 111/13/2023APPROVEDFALSE
- 6.04.03.02The field type shall be D (Sol,Dip,Qud,Sxt,Oct,Dec,Dod)11/13/2023APPROVEDFALSE
- 6.04.03.02The field direction shall be V (V=vertical,H=horizontal,V&H)11/13/2023PENDINGFALSE
- 6.04.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.02The min coil inner rad shall be TBD m11/13/2023APPROVEDTRUE
- 6.04.03.02The min gap shall be TBD m11/13/2023APPROVEDTRUE
- 6.04.03.02The good field aperture drx required shall be 29.6322841168707 m11/13/2023PENDINGFALSE
- 6.04.03.02The good field aperture dry required shall be 19.6947366095483 m11/13/2023PENDINGFALSE
- 6.04.03.02The mag length shall be <0.2 m11/13/2023APPROVEDFALSE
- 6.04.03.02The eff Length shall be 0.2 m11/13/2023APPROVEDFALSE
- 6.04.03.02The dipole field B shall be >12*** T11/13/2023PENDINGFALSE
- 6.04.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.02The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.04.03.02The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.04.03.02The harmonic reference Radius and current shall be TBD (mm,A)11/13/2023APPROVEDTRUE
- 6.04.03.02The Field at the reference radius and current shall be TBD T11/13/2023APPROVEDTRUE
- 6.04.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.02The Bore multipole content shall have a 1st order of 10000 (10^-4)11/13/2023PENDINGFALSE
- 6.04.03.02The Bore multipole content shall have a 2nd order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.03.02The Bore multipole content shall have a 3rd order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.03.02The Bore multipole content shall have a 4th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.03.02The Bore multipole content shall have a 5th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.03.02The Bore multipole content shall have a 6th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.03.02The Bore multipole content shall have a 7th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.03.02The Bore multipole content shall have a 8th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.03.02The Bore multipole content shall have a 9th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.03.02The Bore multipole content shall have a 10th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.03.02The Bore multipole content shall have a 11th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.03.02The Bore multipole content shall have a 12th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.03.02The Bore multipole content shall have a 13th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.03.02The Bore multipole content shall have a 14th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.03.02The Bore multipole content shall have a 15th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.03.02The Bore multipole content shall have a 16th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.03.02The magnet shall be designed to limit Xtalk Requirements N (Yes or No)11/13/2023PENDINGFALSE
- 6.04.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.02The magnet design shall constrain the ext. fringe field N (Yes or No)11/13/2023PENDINGFALSE
- 6.04.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- ESR-MAG-Q50 : ESR Magnet Q50 (WBS 6.04.03.01)
- 6.04.03.01The number of magnet function shall be 111/13/2023APPROVEDFALSE
- 6.04.03.01The field type shall be Q (Sol,Dip,Qud,Sxt,Oct,Dec,Dod)11/13/2023APPROVEDFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01The field rotation shall be N (N=norm, S=skew)11/13/2023PENDINGFALSE
- 6.04.03.01The min coil inner rad shall be 0.08 m11/13/2023APPROVEDFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01The good field aperture drx required shall be 30.122 m11/13/2023PENDINGFALSE
- 6.04.03.01The good field aperture dry required shall be 25.037 m11/13/2023PENDINGFALSE
- 6.04.03.01The mag length shall be <0.5 m11/13/2023APPROVEDFALSE
- 6.04.03.01The eff Length shall be 0.5 m11/13/2023APPROVEDFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01The grad field G shall be 0.976 T/m(n-1)11/13/2023PENDINGFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.04.03.01The harmonic reference Radius and current shall be TBD (mm,A)11/13/2023PENDINGTRUE
- 6.04.03.01The Field at the reference radius and current shall be TBD T11/13/2023PENDINGTRUE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01The Bore multipole content shall have a 2nd order of 10000 (10^-4)11/13/2023PENDINGFALSE
- 6.04.03.01The Bore multipole content shall have a 3rd order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.03.01The Bore multipole content shall have a 4th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.03.01The Bore multipole content shall have a 5th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.03.01The Bore multipole content shall have a 6th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.03.01The Bore multipole content shall have a 7th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.03.01The Bore multipole content shall have a 8th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.03.01The Bore multipole content shall have a 9th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.03.01The Bore multipole content shall have a 10th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.03.01The Bore multipole content shall have a 11th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.03.01The Bore multipole content shall have a 12th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.03.01The Bore multipole content shall have a 13th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.03.01The Bore multipole content shall have a 14th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.03.01The Bore multipole content shall have a 15th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.03.01The Bore multipole content shall have a 16th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.03.01The magnet shall be designed to limit Xtalk Requirements N (Yes or No)11/13/2023PENDINGFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01The magnet design shall constrain the ext. fringe field N (Yes or No)11/13/2023PENDINGFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- ESR-MAG-Q60 : ESR Magnet Q60 (WBS 6.04.03.01)
- 6.04.03.01The number of magnet function shall be 111/13/2023APPROVEDFALSE
- 6.04.03.01The field type shall be Q (Sol,Dip,Qud,Sxt,Oct,Dec,Dod)11/13/2023APPROVEDFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01The field rotation shall be N (N=norm, S=skew)11/13/2023PENDINGFALSE
- 6.04.03.01The min coil inner rad shall be 0.08 m11/13/2023APPROVEDFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01The good field aperture drx required shall be 47.835 m11/13/2023PENDINGFALSE
- 6.04.03.01The good field aperture dry required shall be 35.993 m11/13/2023PENDINGFALSE
- 6.04.03.01The mag length shall be <0.6 m11/13/2023APPROVEDFALSE
- 6.04.03.01The eff Length shall be 0.6 m11/13/2023APPROVEDFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01The grad field G shall be 0.116 T/m(n-1)11/13/2023PENDINGFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.04.03.01The harmonic reference Radius and current shall be TBD (mm,A)11/13/2023PENDINGTRUE
- 6.04.03.01The Field at the reference radius and current shall be TBD T11/13/2023PENDINGTRUE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01The Bore multipole content shall have a 2nd order of 10000 (10^-4)11/13/2023PENDINGFALSE
- 6.04.03.01The Bore multipole content shall have a 3rd order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.03.01The Bore multipole content shall have a 4th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.03.01The Bore multipole content shall have a 5th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.03.01The Bore multipole content shall have a 6th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.03.01The Bore multipole content shall have a 7th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.03.01The Bore multipole content shall have a 8th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.03.01The Bore multipole content shall have a 9th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.03.01The Bore multipole content shall have a 10th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.03.01The Bore multipole content shall have a 11th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.03.01The Bore multipole content shall have a 12th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.03.01The Bore multipole content shall have a 13th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.03.01The Bore multipole content shall have a 14th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.03.01The Bore multipole content shall have a 15th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.03.01The Bore multipole content shall have a 16th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.03.01The magnet shall be designed to limit Xtalk Requirements N (Yes or No)11/13/2023PENDINGFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01The magnet design shall constrain the ext. fringe field N (Yes or No)11/13/2023PENDINGFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- ESR-MAG-Q80 : ESR Magnet Q80 (WBS 6.04.03.01)
- 6.04.03.01The number of magnet function shall be 111/13/2023APPROVEDFALSE
- 6.04.03.01The field type shall be Q (Sol,Dip,Qud,Sxt,Oct,Dec,Dod)11/13/2023APPROVEDFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01The field rotation shall be N (N=norm, S=skew)11/13/2023PENDINGFALSE
- 6.04.03.01The min coil inner rad shall be 0.08 m11/13/2023APPROVEDFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01The good field aperture drx required shall be 35.61 m11/13/2023PENDINGFALSE
- 6.04.03.01The good field aperture dry required shall be 20.773 m11/13/2023PENDINGFALSE
- 6.04.03.01The mag length shall be <0.8 m11/13/2023APPROVEDFALSE
- 6.04.03.01The eff Length shall be 0.8 m11/13/2023APPROVEDFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01The grad field G shall be 5.122 T/m(n-1)11/13/2023PENDINGFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.04.03.01The harmonic reference Radius and current shall be TBD (mm,A)11/13/2023PENDINGTRUE
- 6.04.03.01The Field at the reference radius and current shall be TBD T11/13/2023PENDINGTRUE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01The Bore multipole content shall have a 2nd order of 10000 (10^-4)11/13/2023PENDINGFALSE
- 6.04.03.01The Bore multipole content shall have a 3rd order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.03.01The Bore multipole content shall have a 4th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.03.01The Bore multipole content shall have a 5th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.03.01The Bore multipole content shall have a 6th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.03.01The Bore multipole content shall have a 7th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.03.01The Bore multipole content shall have a 8th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.03.01The Bore multipole content shall have a 9th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.03.01The Bore multipole content shall have a 10th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.03.01The Bore multipole content shall have a 11th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.03.01The Bore multipole content shall have a 12th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.03.01The Bore multipole content shall have a 13th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.03.01The Bore multipole content shall have a 14th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.03.01The Bore multipole content shall have a 15th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.03.01The Bore multipole content shall have a 16th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.03.01The magnet shall be designed to limit Xtalk Requirements N (Yes or No)11/13/2023PENDINGFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.03.01The magnet design shall constrain the ext. fringe field N (Yes or No)11/13/2023PENDINGFALSE
- 6.04.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- ESR-MAG-QLS1 : ESR Magnet QLS1 (WBS 6.06.02.02)
- 6.06.02.02The number of magnet function shall be 111/13/2023APPROVEDFALSE
- 6.06.02.02The field type shall be Q (Sol,Dip,Qud,Sxt,Oct,Dec,Dod)11/13/2023APPROVEDFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02The field rotation shall be N (N=norm, S=skew)11/13/2023PENDINGFALSE
- 6.06.02.02The min coil inner rad shall be ≥0.08 m11/13/2023PENDINGFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02The good field aperture drx required shall be 29.392 m11/13/2023PENDINGFALSE
- 6.06.02.02The good field aperture dry required shall be 17.868 m11/13/2023PENDINGFALSE
- 6.06.02.02The mag length shall be <0.98 m11/13/2023APPROVEDFALSE
- 6.06.02.02The eff Length shall be 0.98 m11/13/2023APPROVEDFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02The grad field G shall be 29.643 T/m(n-1)11/13/2023PENDINGFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.06.02.02The harmonic reference Radius and current shall be TBD (mm,A)11/13/2023PENDINGTRUE
- 6.06.02.02The Field at the reference radius and current shall be TBD T11/13/2023PENDINGTRUE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02The Bore multipole content shall have a 2nd order of 10000 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 3rd order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 4th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 5th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 6th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 7th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 8th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 9th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 10th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 11th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 12th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 13th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 14th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 15th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 16th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The magnet shall be designed to limit Xtalk Requirements N (Yes or No)11/13/2023PENDINGFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02The magnet design shall constrain the ext. fringe field N (Yes or No)11/13/2023PENDINGFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- ESR-MAG-QLS2 : ESR Magnet QLS2 (WBS 6.06.02.02)
- 6.06.02.02The number of magnet function shall be 111/13/2023APPROVEDFALSE
- 6.06.02.02The field type shall be Q (Sol,Dip,Qud,Sxt,Oct,Dec,Dod)11/13/2023PENDINGFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02The field rotation shall be N (N=norm, S=skew)11/13/2023PENDINGFALSE
- 6.06.02.02The min coil inner rad shall be ≥0.08 m11/13/2023PENDINGFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02The good field aperture drx required shall be 18.848 m11/13/2023PENDINGFALSE
- 6.06.02.02The good field aperture dry required shall be 24.311 m11/13/2023PENDINGFALSE
- 6.06.02.02The mag length shall be <1.47 m11/13/2023APPROVEDFALSE
- 6.06.02.02The eff Length shall be 1.47 m11/13/2023APPROVEDFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02The grad field G shall be 29.664 T/m(n-1)11/13/2023PENDINGFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.06.02.02The harmonic reference Radius and current shall be TBD (mm,A)11/13/2023PENDINGTRUE
- 6.06.02.02The Field at the reference radius and current shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02The Bore multipole content shall have a 2nd order of 10000 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 3rd order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 4th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 5th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 6th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 7th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 8th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 9th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 10th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 11th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 12th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 13th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 14th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 15th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 16th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The magnet shall be designed to limit Xtalk Requirements N (Yes or No)11/13/2023PENDINGFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02The magnet design shall constrain the ext. fringe field N (Yes or No)11/13/2023PENDINGFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- ESR-MAG-QLS3 : ESR Magnet QLS3 (WBS 6.06.02.02)
- 6.06.02.02The number of magnet function shall be 111/13/2023APPROVEDFALSE
- 6.06.02.02The field type shall be Q (Sol,Dip,Qud,Sxt,Oct,Dec,Dod)11/13/2023APPROVEDFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02The field rotation shall be N (N=norm, S=skew)11/13/2023PENDINGFALSE
- 6.06.02.02The min coil inner rad shall be ≥0.08 m11/13/2023PENDINGFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02The good field aperture drx required shall be 17.276 m11/13/2023PENDINGFALSE
- 6.06.02.02The good field aperture dry required shall be 15.913 m11/13/2023PENDINGFALSE
- 6.06.02.02The mag length shall be <1.53 m11/13/2023APPROVEDFALSE
- 6.06.02.02The eff Length shall be 1.53 m11/13/2023APPROVEDFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02The grad field G shall be 19.366 T/m(n-1)11/13/2023PENDINGFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.06.02.02The harmonic reference Radius and current shall be TBD (mm,A)11/13/2023APPROVEDTRUE
- 6.06.02.02The Field at the reference radius and current shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02The Bore multipole content shall have a 2nd order of 10000 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 3rd order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 4th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 5th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 6th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 7th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 8th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 9th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 10th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 11th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 12th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 13th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 14th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 15th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 16th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The magnet shall be designed to limit Xtalk Requirements N (Yes or No)11/13/2023PENDINGFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02The magnet design shall constrain the ext. fringe field N (Yes or No)11/13/2023PENDINGFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- ESR-MAG-QSS1 : ESR Magnet QSS1 (WBS 6.06.02.02)
- 6.06.02.02The number of magnet function shall be 111/13/2023APPROVEDFALSE
- 6.06.02.02The field type shall be Q (Sol,Dip,Qud,Sxt,Oct,Dec,Dod)11/13/2023APPROVEDFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02The field rotation shall be N (N=norm, S=skew)11/13/2023PENDINGFALSE
- 6.06.02.02The min coil inner rad shall be ≥0.08 m11/13/2023PENDINGFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02The good field aperture drx required shall be 23.817 m11/13/2023PENDINGFALSE
- 6.06.02.02The good field aperture dry required shall be 15.571 m11/13/2023PENDINGFALSE
- 6.06.02.02The mag length shall be <0.65 m11/13/2023APPROVEDFALSE
- 6.06.02.02The eff Length shall be 0.65 m11/13/2023APPROVEDFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02The grad field G shall be 5.926 T/m(n-1)11/13/2023PENDINGFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.06.02.02The harmonic reference Radius and current shall be TBD (mm,A)11/13/2023APPROVEDTRUE
- 6.06.02.02The Field at the reference radius and current shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02The Bore multipole content shall have a 2nd order of 10000 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 3rd order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 4th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 5th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 6th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 7th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 8th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 9th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 10th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 11th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 12th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 13th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 14th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 15th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 16th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The magnet shall be designed to limit Xtalk Requirements N (Yes or No)11/13/2023PENDINGFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02The magnet design shall constrain the ext. fringe field N (Yes or No)11/13/2023PENDINGFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- ESR-MAG-QSS2 : ESR Magnet QSS2 (WBS 6.06.02.02)
- 6.06.02.02The number of magnet function shall be 111/13/2023APPROVEDFALSE
- 6.06.02.02The field type shall be Q (Sol,Dip,Qud,Sxt,Oct,Dec,Dod)11/13/2023APPROVEDFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02The field rotation shall be N (N=norm, S=skew)11/13/2023PENDINGFALSE
- 6.06.02.02The min coil inner rad shall be ≥0.08 m11/13/2023PENDINGFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02The good field aperture drx required shall be 26.16 m11/13/2023PENDINGFALSE
- 6.06.02.02The good field aperture dry required shall be 15.758 m11/13/2023PENDINGFALSE
- 6.06.02.02The mag length shall be <0.96 m11/13/2023APPROVEDFALSE
- 6.06.02.02The eff Length shall be 0.96 m11/13/2023APPROVEDFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02The grad field G shall be 6.318 T/m(n-1)11/13/2023PENDINGFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.06.02.02The harmonic reference Radius and current shall be TBD (mm,A)11/13/2023APPROVEDTRUE
- 6.06.02.02The Field at the reference radius and current shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02The Bore multipole content shall have a 2nd order of 10000 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 3rd order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 4th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 5th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 6th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 7th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 8th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 9th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 10th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 11th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 12th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 13th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 14th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 15th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 16th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The magnet shall be designed to limit Xtalk Requirements N (Yes or No)11/13/2023PENDINGFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02The magnet design shall constrain the ext. fringe field N (Yes or No)11/13/2023PENDINGFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- ESR-MAG-QSS3 : ESR Magnet QSS3 (WBS 6.06.02.02)
- 6.06.02.02The number of magnet function shall be 111/13/2023APPROVEDFALSE
- 6.06.02.02The field type shall be Q (Sol,Dip,Qud,Sxt,Oct,Dec,Dod)11/13/2023APPROVEDFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02The field rotation shall be N (N=norm, S=skew)11/13/2023PENDINGFALSE
- 6.06.02.02The min coil inner rad shall be ≥0.08 m11/13/2023PENDINGFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02The good field aperture drx required shall be 30.048 m11/13/2023PENDINGFALSE
- 6.06.02.02The good field aperture dry required shall be 15.111 m11/13/2023PENDINGFALSE
- 6.06.02.02The mag length shall be <1.63 m11/13/2023APPROVEDFALSE
- 6.06.02.02The eff Length shall be 1.63 m11/13/2023APPROVEDFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02The grad field G shall be 0.706 T/m(n-1)11/13/2023PENDINGFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.06.02.02The harmonic reference Radius and current shall be TBD (mm,A)11/13/2023APPROVEDTRUE
- 6.06.02.02The Field at the reference radius and current shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02The Bore multipole content shall have a 2nd order of 10000 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 3rd order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 4th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 5th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 6th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 7th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 8th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 9th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 10th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 11th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 12th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 13th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 14th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 15th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 16th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The magnet shall be designed to limit Xtalk Requirements N (Yes or No)11/13/2023PENDINGFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02The magnet design shall constrain the ext. fringe field N (Yes or No)11/13/2023PENDINGFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- ESR-MAG-QSS4 : ESR Magnet QSS4 (WBS 6.06.02.02)
- 6.06.02.02The number of magnet function shall be 111/13/2023APPROVEDFALSE
- 6.06.02.02The field type shall be Q (Sol,Dip,Qud,Sxt,Oct,Dec,Dod)11/13/2023APPROVEDFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02The field rotation shall be N (N=norm, S=skew)11/13/2023PENDINGFALSE
- 6.06.02.02The min coil inner rad shall be ≥0.08 m11/13/2023PENDINGFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02The good field aperture drx required shall be 30.006 m11/13/2023PENDINGFALSE
- 6.06.02.02The good field aperture dry required shall be 20.681 m11/13/2023PENDINGFALSE
- 6.06.02.02The mag length shall be <1.02 m11/13/2023APPROVEDFALSE
- 6.06.02.02The eff Length shall be 1.02 m11/13/2023APPROVEDFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02The grad field G shall be 1.61 T/m(n-1)11/13/2023PENDINGFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.06.02.02The harmonic reference Radius and current shall be TBD (mm,A)11/13/2023APPROVEDTRUE
- 6.06.02.02The Field at the reference radius and current shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02The Bore multipole content shall have a 2nd order of 10000 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 3rd order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 4th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 5th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 6th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 7th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 8th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 9th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 10th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 11th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 12th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 13th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 14th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 15th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 16th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The magnet shall be designed to limit Xtalk Requirements N (Yes or No)11/13/2023PENDINGFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02The magnet design shall constrain the ext. fringe field N (Yes or No)11/13/2023PENDINGFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- ESR-MAG-QSS5 : ESR Magnet QSS5 (WBS 6.06.02.02)
- 6.06.02.02The number of magnet function shall be 111/13/2023APPROVEDFALSE
- 6.06.02.02The field type shall be Q (Sol,Dip,Qud,Sxt,Oct,Dec,Dod)11/13/2023APPROVEDFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02The field rotation shall be N (N=norm, S=skew)11/13/2023PENDINGFALSE
- 6.06.02.02The min coil inner rad shall be ≥0.08 m11/13/2023PENDINGFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02The good field aperture drx required shall be 27.69 m11/13/2023PENDINGFALSE
- 6.06.02.02The good field aperture dry required shall be 21.001 m11/13/2023PENDINGFALSE
- 6.06.02.02The mag length shall be <0.69 m11/13/2023APPROVEDFALSE
- 6.06.02.02The eff Length shall be 0.69 m11/13/2023APPROVEDFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02The grad field G shall be 1.83 T/m(n-1)11/13/2023PENDINGFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.06.02.02The harmonic reference Radius and current shall be TBD (mm,A)11/13/2023APPROVEDTRUE
- 6.06.02.02The Field at the reference radius and current shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02The Bore multipole content shall have a 2nd order of 10000 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 3rd order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 4th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 5th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 6th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 7th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 8th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 9th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 10th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 11th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 12th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 13th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 14th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 15th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The Bore multipole content shall have a 16th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.06.02.02The magnet shall be designed to limit Xtalk Requirements N (Yes or No)11/13/2023PENDINGFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02The magnet design shall constrain the ext. fringe field N (Yes or No)11/13/2023PENDINGFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- ESR-MAG-SXT : ESR Magnet SXT (WBS 6.04.02.02)
- 6.04.02.02The number of magnet function shall be 111/13/2023APPROVEDFALSE
- 6.04.02.02The field type shall be S (Sol,Dip,Qud,Sxt,Oct,Dec,Dod)11/13/2023APPROVEDFALSE
- 6.04.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.02The field rotation shall be N (N=norm, S=skew)11/13/2023PENDINGFALSE
- 6.04.02.02The min coil inner rad shall be 0.098 m11/13/2023PENDINGFALSE
- 6.04.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.02The good field aperture drx required shall be 36.7234682331369 m11/13/2023PENDINGFALSE
- 6.04.02.02The good field aperture dry required shall be 28.3507827774167 m11/13/2023PENDINGFALSE
- 6.04.02.02The mag length shall be <0.24 m11/13/2023APPROVEDFALSE
- 6.04.02.02The eff Length shall be 0.24 m11/13/2023APPROVEDFALSE
- 6.04.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.02The grad field G shall be 0 T/m(n-1)11/13/2023PENDINGFALSE
- 6.04.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.02The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.04.02.02The harmonic reference Radius and current shall be TBD (mm,A)11/13/2023APPROVEDTRUE
- 6.04.02.02The Field at the reference radius and current shall be TBD T11/13/2023APPROVEDTRUE
- 6.04.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.02The Bore multipole content shall have a 2nd order of 10000 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.02The Bore multipole content shall have a 3rd order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.02The Bore multipole content shall have a 4th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.02The Bore multipole content shall have a 5th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.02The Bore multipole content shall have a 6th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.02The Bore multipole content shall have a 7th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.02The Bore multipole content shall have a 8th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.02The Bore multipole content shall have a 9th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.02The Bore multipole content shall have a 10th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.02The Bore multipole content shall have a 11th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.02The Bore multipole content shall have a 12th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.02The Bore multipole content shall have a 13th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.02The Bore multipole content shall have a 14th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.02The Bore multipole content shall have a 15th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.02The Bore multipole content shall have a 16th order of <1 (10^-4)11/13/2023PENDINGFALSE
- 6.04.02.02The magnet shall be designed to limit Xtalk Requirements N (Yes or No)11/13/2023PENDINGFALSE
- 6.04.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.02.02The magnet design shall constrain the ext. fringe field N (Yes or No)11/13/2023PENDINGFALSE
- 6.04.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- ESR-MPS : ESR Machine Protection System (WBS 6.06.03.01)
- ESR-MPS-EXT_KICK : ESR Machine Protection System Single Turn Extraction Kicker (WBS 6.06.03.01)
- 6.06.03.01The number of kickers shall be 611/13/2023APPROVEDFALSE
- 6.06.03.01The Rise time shall be 900 ns11/13/2023APPROVEDFALSE
- 6.06.03.01The Fall time shall be NA sec11/13/2023APPROVEDFALSE
- 6.06.03.01The flat top time shall be 13 us11/13/2023APPROVEDFALSE
- 6.06.03.01The waveshape shall be trap11/13/2023APPROVEDFALSE
- 6.06.03.01The painting shall be vertical11/13/2023APPROVEDFALSE
- 6.06.03.01The maximum field shall be 0.12 T11/13/2023APPROVEDFALSE
- 6.06.03.01The total deflection shall be 16 mrad11/13/2023APPROVEDFALSE
- 6.06.03.01The maximum current shall be TBD TBD11/13/2023APPROVEDTRUE
- 6.06.03.01The maximum voltage shall be TBD TBD11/13/2023APPROVEDTRUE
- 6.06.03.01The inductance with cable shall be TBD (uH)11/13/2023APPROVEDTRUE
- 6.06.03.01The Max rep rate shall be 100 kV/pC11/13/2023APPROVEDFALSE
- 6.06.03.01The flat top repeatability shall be NA Hz11/13/2023APPROVEDFALSE
- 6.06.03.01The flatness of flat top/pulse form shall be 1 %11/13/2023APPROVEDFALSE
- 6.06.03.01The beam abort kicker shall be tbd %11/13/2023APPROVEDTRUE
- 6.06.03.01The cooling type shall be w (W,A)11/13/2023APPROVEDFALSE
- ESR-MPS-EXT_KICK-DUMP_BLK : ESR Machine Protection System Dump block (WBS 6.06.03.01)
- 6.06.03.01The diameter shall be 90 mm11/13/2023APPROVEDFALSE
- 6.06.03.01The length shall be 2 m11/13/2023APPROVEDFALSE
- 6.06.03.01The materials shall be C / Al / Cu11/13/2023APPROVEDFALSE
- 6.06.03.01The energy deposited during abort shall be 320 kJ11/13/2023APPROVEDFALSE
- 6.06.03.01The frequency of thermal cycle shall be 1 hour11/13/2023APPROVEDFALSE
- 6.06.03.01The window thickness shall be tbd mm11/13/2023APPROVEDTRUE
- 6.06.03.01The window material shall be tbd11/13/2023APPROVEDTRUE
- ESR-MPS-EXT_KICK-INST_BP : ESR Machine Protection System Beam Pipe & Instrumentation (WBS 6.06.03.01)
- 6.06.03.01The Length shall be 50 m11/13/2023APPROVEDFALSE
- 6.06.03.01The Internal diameter shall be 90 mm11/13/2023APPROVEDFALSE
- 6.06.03.01The Temperature sensors shall be yes11/13/2023APPROVEDFALSE
- 6.06.03.01The BPMs shall be 411/13/2023APPROVEDFALSE
- 6.06.03.01The Correctors shall be 411/13/2023APPROVEDFALSE
- 6.06.03.01The Corrector PS shall be tbd tbd11/13/2023APPROVEDTRUE
- 6.06.03.01The power supply accuracy shall be tbd tbd11/13/2023APPROVEDTRUE
- 6.06.03.01The Cooling / pumping shall be yes11/13/2023APPROVEDFALSE
- ESR-MPS-EXT_KICK-LAMBERT : ESR Machine Protection System Lamberton Magnet (WBS 6.06.03.01)
- 6.06.03.01The deflection shall be 2 mrad11/13/2023APPROVEDFALSE
- 6.06.03.01The length shall be 1.2 m11/13/2023APPROVEDFALSE
- 6.06.03.01The power supply shall be 1600 A11/13/2023APPROVEDFALSE
- 6.06.03.01The power supply accuracy shall be TBD TBD11/13/2023APPROVEDTRUE
- 6.06.03.01The Y-chamber aperture shall be 36 mm11/13/2023APPROVEDFALSE
- 6.06.03.01May need to add additional window requirements for other leg of Lambertson magnet TBD TBD11/13/2023APPROVEDTRUE
- ESR-MPS-EXT_KICK-QUAD : ESR Machine Protection System Line Quads (WBS 6.06.03.01)
- 6.06.03.01The gradient shall be 17 T/m11/13/2023APPROVEDFALSE
- 6.06.03.01The power supply shall be 1600 A11/13/2023APPROVEDFALSE
- 6.06.03.01The power supply accuracy shall be TBD TBD11/13/2023APPROVEDTRUE
- 6.06.03.01The length shall be 70 cm11/13/2023APPROVEDFALSE
- 6.06.03.01The aperture radius shall be 50 mm11/13/2023APPROVEDFALSE
- ESR-PPD : EZSR Pulse Power Device System (WBS 6.03.03.05)
- ESR-PPD-INJ_EXT_PULSE_KICK : EIS RCS Injection/Extraction Pulsed Bump IM&HW System (WBS 6.03.03.05.07)
- 6.03.03.05.07The location (Section) shall be 12 o'clock11/13/2023APPROVEDFALSE
- 6.03.03.05.07The dimension in W shall be 4 (ft)11/13/2023APPROVEDFALSE
- 6.03.03.05.07The dimension in L shall be 10 (ft)11/13/2023APPROVEDFALSE
- 6.03.03.05.07The dimension in H shall be 7 (ft)11/13/2023APPROVEDFALSE
- 6.03.03.05.07The num magnets shall be 311/13/2023APPROVEDFALSE
- 6.03.03.05.07The mag gap shall be tbd (cm)11/13/2023APPROVEDTRUE
- 6.03.03.05.07The rise time shall be 0.001 (sec)11/13/2023APPROVEDFALSE
- 6.03.03.05.07The fall time shall be 0.002 (sec)11/13/2023APPROVEDFALSE
- 6.03.03.05.07The flat top time shall be 0.0015 (sec)11/13/2023APPROVEDFALSE
- 6.03.03.05.07The waveshape shall be trap11/13/2023APPROVEDFALSE
- 6.03.03.05.07The flat top repeatability shall be tbd %11/13/2023APPROVEDTRUE
- 6.03.03.05.07The uniformity of the flattop shall be tbd (V)11/13/2023APPROVEDTRUE
- 6.03.03.05.07The deflecting Angle shall be 1 (mRad)11/13/2023APPROVEDFALSE
- 6.03.03.05.07The rep rate spec shall be 1 (Hz)11/13/2023APPROVEDFALSE
- 6.03.03.05.07The output voltage Spec shall be 60 (Volts)11/13/2023APPROVEDFALSE
- 6.03.03.05.07The output current spec shall be 1000 (Amps)11/13/2023APPROVEDFALSE
- 6.03.03.05.07The inductance with cable shall be 11 (uH)11/13/2023APPROVEDFALSE
- 6.03.03.05.07The cooling type shall be water11/13/2023APPROVEDFALSE
- ESR-PPD-INJ_EXT_PULSE_SEPTUM : EIS RCS Injection/Extraction Pulsed Septum System (WBS 6.03.03.05.08)
- 6.03.03.05.08The location (Section) shall be 12 o'clock11/13/2023APPROVEDFALSE
- 6.03.03.05.08The dimension in W shall be 4 (ft)11/13/2023APPROVEDFALSE
- 6.03.03.05.08The dimension in L shall be 10 (ft)11/13/2023APPROVEDFALSE
- 6.03.03.05.08The dimension in H shall be 7 (ft)11/13/2023APPROVEDFALSE
- 6.03.03.05.08The num magnets shall be 2 ea11/13/2023APPROVEDFALSE
- 6.03.03.05.08The mag gap shall be tbd11/13/2023APPROVEDTRUE
- 6.03.03.05.08The rise time shall be 0.001 (sec)11/13/2023APPROVEDFALSE
- 6.03.03.05.08The fall time shall be 0.0015 (sec)11/13/2023APPROVEDFALSE
- 6.03.03.05.08The flat top time shall be 0.002 (sec)11/13/2023APPROVEDFALSE
- 6.03.03.05.08The waveshape shall be Trap11/13/2023APPROVEDFALSE
- 6.03.03.05.08The flat top repeatability shall be tbd %11/13/2023APPROVEDTRUE
- 6.03.03.05.08The uniformity of the flattop shall be tbd (V)11/13/2023APPROVEDTRUE
- 6.03.03.05.08The deflecting Angle shall be 15 (mRad)11/13/2023APPROVEDFALSE
- 6.03.03.05.08The rep rate spec shall be 1 (Hz)11/13/2023APPROVEDFALSE
- 6.03.03.05.08The output voltage Spec shall be 80 (Volts)11/13/2023APPROVEDFALSE
- 6.03.03.05.08The output current spec shall be 1000 (Amps)11/13/2023APPROVEDFALSE
- 6.03.03.05.08The inductance with cable shall be 25 (uH)11/13/2023APPROVEDFALSE
- 6.03.03.05.08The cooling type shall be water11/13/2023APPROVEDFALSE
- ESR-PPD-INJ_EXT_PULSE_STRIPLINE_KICK : EIS RCS Injection/Extraction Pulse Power Strip-line Kicker System (WBS 6.03.03.05.06)
- 6.03.03.05.06The location (Section) type shall be 12 o'clock11/13/2023APPROVEDFALSE
- 6.03.03.05.06The dimension in W type shall be 5 (ft)11/13/2023APPROVEDFALSE
- 6.03.03.05.06The dimension in L type shall be 5 (ft)11/13/2023APPROVEDFALSE
- 6.03.03.05.06The dimension in H type shall be 7 (ft)11/13/2023APPROVEDFALSE
- 6.03.03.05.06The num magnets type shall be 1011/13/2023APPROVEDFALSE
- 6.03.03.05.06The mag gap type shall be 3 (cm)11/13/2023APPROVEDFALSE
- 6.03.03.05.06The rise time type shall be 0.000000002 (sec)11/13/2023APPROVEDFALSE
- 6.03.03.05.06The fall time type shall be 0.0000000025 (sec)11/13/2023APPROVEDFALSE
- 6.03.03.05.06The flat top time type shall be 0.000000013 (sec)11/13/2023APPROVEDFALSE
- 6.03.03.05.06The waveshape type shall be Trap11/13/2023APPROVEDFALSE
- 6.03.03.05.06The flat top repeatability type shall be tbd %11/13/2023APPROVEDTRUE
- 6.03.03.05.06The uniformity of the flattop type shall be tbd (V)11/13/2023APPROVEDTRUE
- 6.03.03.05.06The deflecting Angle type shall be 1.3 (mRad)11/13/2023APPROVEDFALSE
- 6.03.03.05.06The rep rate spec type shall be 1 (Hz)11/13/2023APPROVEDFALSE
- 6.03.03.05.06The output voltage Spec type shall be 20000 (Volts)11/13/2023APPROVEDFALSE
- 6.03.03.05.06The output current spec type shall be 400 (Amps)11/13/2023APPROVEDFALSE
- 6.03.03.05.06The inductance with cable type shall be 50 ohm (TBD) (uH)11/13/2023APPROVEDTRUE
- 6.03.03.05.06The cooling type shall be water11/13/2023APPROVEDFALSE
- ESR-PS : ESR Magnet Power Supply (WBS 6.04.04)
- ESR-PS-D13 : ESR Magnet Power Supply D13 (WBS 6.04.04)
- 6.04.04The number of Independent functions on the magnets being powered shall be 111/13/2023PENDINGFALSE
- 6.04.04The maximum magnet string resistance to be powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.04.04The maximum magnet string inductance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.04.04The magnets being powered shall be saturated TBD Y/N11/13/2023APPROVEDTRUE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04The voltage to ground of the magnet being powered shall be TBD V11/13/2023APPROVEDTRUE
- 6.04.04The nominal current of the magnets being powered shall be 1040 A11/13/2023PENDINGFALSE
- 6.04.04The minimum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.04.04The maximum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.04.04The PS current type shall be NC (DC or AC)11/13/2023PENDINGFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The ppm of full scale current (peak to peak) shall be TBD %11/13/2023APPROVEDTRUE
- 6.04.04The time period for specified stability shall be TBD s11/13/2023APPROVEDTRUE
- 6.04.04The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.04.04The long term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.04.04The current setpoint resolution (min size in bits) shall be TBD bits11/13/2023APPROVEDTRUE
- 6.04.04The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.04.04The synchronization timing of synchronization shall be TBD s11/13/2023APPROVEDTRUE
- 6.04.04The max allowable current ripple (peak to peak) TBD A11/13/2023APPROVEDTRUE
- 6.04.04The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.04.04WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz11/13/2023APPROVEDTRUE
- 6.04.04The max voltage ripple (peak to peak) shall be TBD V11/13/2023APPROVEDTRUE
- 6.04.04An NMR shall be required to measure the field TBD A/s11/13/2023APPROVEDTRUE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The magnet turns ratio shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The terminal voltage shall be TBD V11/13/2023APPROVEDTRUE
- 6.04.04The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.04.04The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.04.04The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.04.04The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The magnet drawing with terminations details shall be TBD Draw id11/13/2023APPROVEDTRUE
- 6.04.04The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- ESR-PS-D2 : ESR Magnet Power Supply D2 (WBS 6.04.04)
- 6.04.04The number of Independent functions on the magnets being powered shall be 111/13/2023PENDINGFALSE
- 6.04.04The maximum magnet string resistance to be powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.04.04The maximum magnet string inductance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.04.04The magnets being powered shall be saturated TBD Y/N11/13/2023APPROVEDTRUE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04The voltage to ground of the magnet being powered shall be TBD V11/13/2023APPROVEDTRUE
- 6.04.04The nominal current of the magnets being powered shall be 1035 A11/13/2023PENDINGFALSE
- 6.04.04The minimum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.04.04The maximum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.04.04The PS current type shall be NC (DC or AC)11/13/2023PENDINGFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The ppm of full scale current (peak to peak) shall be TBD %11/13/2023APPROVEDTRUE
- 6.04.04The time period for specified stability shall be TBD s11/13/2023APPROVEDTRUE
- 6.04.04The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.04.04The long term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.04.04The current setpoint resolution (min size in bits) shall be TBD bits11/13/2023APPROVEDTRUE
- 6.04.04The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.04.04The synchronization timing of synchronization shall be TBD s11/13/2023APPROVEDTRUE
- 6.04.04The max allowable current ripple (peak to peak) TBD A11/13/2023APPROVEDTRUE
- 6.04.04The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.04.04WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz11/13/2023APPROVEDTRUE
- 6.04.04The max voltage ripple (peak to peak) shall be TBD V11/13/2023APPROVEDTRUE
- 6.04.04An NMR shall be required to measure the field TBD A/s11/13/2023APPROVEDTRUE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The magnet turns ratio shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The terminal voltage shall be TBD V11/13/2023APPROVEDTRUE
- 6.04.04The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.04.04The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.04.04The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.04.04The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The magnet drawing with terminations details shall be TBD Draw id11/13/2023APPROVEDTRUE
- 6.04.04The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- ESR-PS-D_DISP : ESR Magnet Power Supply D_DISP (WBS 6.04.04)
- 6.04.04The number of Independent functions on the magnets being powered shall be 111/13/2023PENDINGFALSE
- 6.04.04The maximum magnet string resistance to be powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.04.04The maximum magnet string inductance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.04.04The magnets being powered shall be saturated TBD Y/N11/13/2023APPROVEDTRUE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04The voltage to ground of the magnet being powered shall be TBD V11/13/2023APPROVEDTRUE
- 6.04.04The nominal current of the magnets being powered shall be 1040 A11/13/2023APPROVEDFALSE
- 6.04.04The minimum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.04.04The maximum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.04.04The PS current type shall be NC (DC or AC)11/13/2023PENDINGFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The ppm of full scale current (peak to peak) shall be TBD %11/13/2023APPROVEDTRUE
- 6.04.04The time period for specified stability shall be TBD s11/13/2023APPROVEDTRUE
- 6.04.04The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.04.04The long term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.04.04The current setpoint resolution (min size in bits) shall be TBD bits11/13/2023APPROVEDTRUE
- 6.04.04The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.04.04The synchronization timing of synchronization shall be TBD s11/13/2023APPROVEDTRUE
- 6.04.04The max allowable current ripple (peak to peak) TBD A11/13/2023APPROVEDTRUE
- 6.04.04The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.04.04WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz11/13/2023APPROVEDTRUE
- 6.04.04The max voltage ripple (peak to peak) shall be TBD V11/13/2023APPROVEDTRUE
- 6.04.04An NMR shall be required to measure the field TBD A/s11/13/2023APPROVEDTRUE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The magnet turns ratio shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The terminal voltage shall be TBD V11/13/2023APPROVEDTRUE
- 6.04.04The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.04.04The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.04.04The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.04.04The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The magnet drawing with terminations details shall be TBD Draw id11/13/2023APPROVEDTRUE
- 6.04.04The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- ESR-PS-D_IR3m : ESR Magnet Power Supply D_IR3m (WBS 6.04.04)
- 6.04.04The number of Independent functions on the magnets being powered shall be 111/13/2023PENDINGFALSE
- 6.04.04The maximum magnet string resistance to be powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.04.04The maximum magnet string inductance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.04.04The magnets being powered shall be saturated TBD Y/N11/13/2023APPROVEDTRUE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04The voltage to ground of the magnet being powered shall be TBD V11/13/2023APPROVEDTRUE
- 6.04.04The nominal current of the magnets being powered shall be 1035 A11/13/2023PENDINGFALSE
- 6.04.04The minimum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.04.04The maximum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.04.04The PS current type shall be NC (DC or AC)11/13/2023PENDINGFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The ppm of full scale current (peak to peak) shall be TBD %11/13/2023APPROVEDTRUE
- 6.04.04The time period for specified stability shall be TBD s11/13/2023APPROVEDTRUE
- 6.04.04The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.04.04The long term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.04.04The current setpoint resolution (min size in bits) shall be TBD bits11/13/2023APPROVEDTRUE
- 6.04.04The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.04.04The synchronization timing of synchronization shall be TBD s11/13/2023APPROVEDTRUE
- 6.04.04The max allowable current ripple (peak to peak) TBD A11/13/2023APPROVEDTRUE
- 6.04.04The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.04.04WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz11/13/2023APPROVEDTRUE
- 6.04.04The max voltage ripple (peak to peak) shall be TBD V11/13/2023APPROVEDTRUE
- 6.04.04An NMR shall be required to measure the field TBD A/s11/13/2023APPROVEDTRUE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The magnet turns ratio shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The terminal voltage shall be TBD V11/13/2023APPROVEDTRUE
- 6.04.04The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.04.04The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.04.04The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.04.04The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The magnet drawing with terminations details shall be TBD Draw id11/13/2023APPROVEDTRUE
- 6.04.04The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- ESR-PS-HCOR : ESR Magnet Power Supply HCOR (WBS 6.04.04)
- 6.04.04The number of Independent functions on the magnets being powered shall be 111/13/2023PENDINGFALSE
- 6.04.04The maximum magnet string resistance to be powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.04.04The maximum magnet string inductance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.04.04The magnets being powered shall be saturated TBD Y/N11/13/2023APPROVEDTRUE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04The voltage to ground of the magnet being powered shall be TBD V11/13/2023APPROVEDTRUE
- 6.04.04The nominal current of the magnets being powered shall be 5.38717948717949 A11/13/2023PENDINGFALSE
- 6.04.04The minimum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.04.04The maximum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.04.04The PS current type shall be NC (DC or AC)11/13/2023PENDINGFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The ppm of full scale current (peak to peak) shall be TBD %11/13/2023APPROVEDTRUE
- 6.04.04The time period for specified stability shall be TBD s11/13/2023APPROVEDTRUE
- 6.04.04The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.04.04The long term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.04.04The current setpoint resolution (min size in bits) shall be TBD bits11/13/2023APPROVEDTRUE
- 6.04.04The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.04.04The synchronization timing of synchronization shall be TBD s11/13/2023APPROVEDTRUE
- 6.04.04The max allowable current ripple (peak to peak) TBD A11/13/2023APPROVEDTRUE
- 6.04.04The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.04.04WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz11/13/2023APPROVEDTRUE
- 6.04.04The max voltage ripple (peak to peak) shall be TBD V11/13/2023APPROVEDTRUE
- 6.04.04An NMR shall be required to measure the field TBD A/s11/13/2023APPROVEDTRUE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The magnet turns ratio shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The terminal voltage shall be TBD V11/13/2023APPROVEDTRUE
- 6.04.04The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.04.04The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.04.04The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.04.04The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The magnet drawing with terminations details shall be TBD Draw id11/13/2023APPROVEDTRUE
- 6.04.04The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- ESR-PS-Q50 : ESR Magnet Power Supply Q50 (WBS 6.04.04)
- 6.04.04The number of Independent functions on the magnets being powered shall be 111/13/2023PENDINGFALSE
- 6.04.04The maximum magnet string resistance to be powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.04.04The maximum magnet string inductance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.04.04The magnets being powered shall be saturated TBD Y/N11/13/2023APPROVEDTRUE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04The voltage to ground of the magnet being powered shall be TBD V11/13/2023APPROVEDTRUE
- 6.04.04The nominal current of the magnets being powered shall be 412 A11/13/2023APPROVEDFALSE
- 6.04.04The minimum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.04.04The maximum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.04.04The PS current type shall be NC (DC or AC)11/13/2023APPROVEDFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The ppm of full scale current (peak to peak) shall be TBD %11/13/2023APPROVEDTRUE
- 6.04.04The time period for specified stability shall be TBD s11/13/2023APPROVEDTRUE
- 6.04.04The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.04.04The long term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.04.04The current setpoint resolution (min size in bits) shall be TBD bits11/13/2023APPROVEDTRUE
- 6.04.04The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.04.04The synchronization timing of synchronization shall be TBD s11/13/2023APPROVEDTRUE
- 6.04.04The max allowable current ripple (peak to peak) TBD A11/13/2023APPROVEDTRUE
- 6.04.04The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.04.04WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz11/13/2023APPROVEDTRUE
- 6.04.04The max voltage ripple (peak to peak) shall be TBD V11/13/2023APPROVEDTRUE
- 6.04.04An NMR shall be required to measure the field TBD A/s11/13/2023APPROVEDTRUE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The magnet turns ratio shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The terminal voltage shall be TBD V11/13/2023APPROVEDTRUE
- 6.04.04The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.04.04The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.04.04The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.04.04The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The magnet drawing with terminations details shall be TBD Draw id11/13/2023APPROVEDTRUE
- 6.04.04The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- ESR-PS-Q60 : ESR Magnet Power Supply Q60 (WBS 6.04.04)
- 6.04.04The number of Independent functions on the magnets being powered shall be 111/13/2023PENDINGFALSE
- 6.04.04The maximum magnet string resistance to be powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.04.04The maximum magnet string inductance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.04.04The magnets being powered shall be saturated TBD Y/N11/13/2023APPROVEDTRUE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04The voltage to ground of the magnet being powered shall be TBD V11/13/2023APPROVEDTRUE
- 6.04.04The nominal current of the magnets being powered shall be 412 A11/13/2023PENDINGFALSE
- 6.04.04The minimum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.04.04The maximum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.04.04The PS current type shall be NC (DC or AC)11/13/2023APPROVEDFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The ppm of full scale current (peak to peak) shall be TBD %11/13/2023APPROVEDTRUE
- 6.04.04The time period for specified stability shall be TBD s11/13/2023APPROVEDTRUE
- 6.04.04The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.04.04The long term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.04.04The current setpoint resolution (min size in bits) shall be TBD bits11/13/2023APPROVEDTRUE
- 6.04.04The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.04.04The synchronization timing of synchronization shall be TBD s11/13/2023APPROVEDTRUE
- 6.04.04The max allowable current ripple (peak to peak) TBD A11/13/2023APPROVEDTRUE
- 6.04.04The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.04.04WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz11/13/2023APPROVEDTRUE
- 6.04.04The max voltage ripple (peak to peak) shall be TBD V11/13/2023APPROVEDTRUE
- 6.04.04An NMR shall be required to measure the field TBD A/s11/13/2023APPROVEDTRUE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The magnet turns ratio shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The terminal voltage shall be TBD V11/13/2023APPROVEDTRUE
- 6.04.04The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.04.04The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.04.04The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.04.04The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The magnet drawing with terminations details shall be TBD Draw id11/13/2023APPROVEDTRUE
- 6.04.04The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- ESR-PS-Q80 : ESR Magnet Power Supply Q80 (WBS 6.04.04)
- 6.04.04The number of Independent functions on the magnets being powered shall be 111/13/2023PENDINGFALSE
- 6.04.04The maximum magnet string resistance to be powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.04.04The maximum magnet string inductance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.04.04The magnets being powered shall be saturated TBD Y/N11/13/2023APPROVEDTRUE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04The voltage to ground of the magnet being powered shall be TBD V11/13/2023APPROVEDTRUE
- 6.04.04The nominal current of the magnets being powered shall be 412 A11/13/2023PENDINGFALSE
- 6.04.04The minimum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.04.04The maximum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.04.04The PS current type shall be NC (DC or AC)11/13/2023PENDINGFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The ppm of full scale current (peak to peak) shall be TBD %11/13/2023APPROVEDTRUE
- 6.04.04The time period for specified stability shall be TBD s11/13/2023APPROVEDTRUE
- 6.04.04The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.04.04The long term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.04.04The current setpoint resolution (min size in bits) shall be TBD bits11/13/2023APPROVEDTRUE
- 6.04.04The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.04.04The synchronization timing of synchronization shall be TBD s11/13/2023APPROVEDTRUE
- 6.04.04The max allowable current ripple (peak to peak) TBD A11/13/2023APPROVEDTRUE
- 6.04.04The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.04.04WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz11/13/2023APPROVEDTRUE
- 6.04.04The max voltage ripple (peak to peak) shall be TBD V11/13/2023APPROVEDTRUE
- 6.04.04An NMR shall be required to measure the field TBD A/s11/13/2023APPROVEDTRUE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The magnet turns ratio shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The terminal voltage shall be TBD V11/13/2023APPROVEDTRUE
- 6.04.04The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.04.04The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.04.04The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.04.04The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The magnet drawing with terminations details shall be TBD Draw id11/13/2023APPROVEDTRUE
- 6.04.04The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- ESR-PS-QLS1 : ESR Magnet Power Supply QLS1 (WBS 6.04.04)
- 6.04.04The number of Independent functions on the magnets being powered shall be 111/13/2023PENDINGFALSE
- 6.04.04The maximum magnet string resistance to be powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.04.04The maximum magnet string inductance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.04.04The magnets being powered shall be saturated TBD Y/N11/13/2023APPROVEDTRUE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04The voltage to ground of the magnet being powered shall be TBD V11/13/2023APPROVEDTRUE
- 6.04.04The nominal current of the magnets being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.04.04The minimum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.04.04The maximum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.04.04The PS current type shall be NC (DC or AC)11/13/2023PENDINGFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The ppm of full scale current (peak to peak) shall be TBD %11/13/2023APPROVEDTRUE
- 6.04.04The time period for specified stability shall be TBD s11/13/2023APPROVEDTRUE
- 6.04.04The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.04.04The long term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.04.04The current setpoint resolution (min size in bits) shall be TBD bits11/13/2023APPROVEDTRUE
- 6.04.04The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.04.04The synchronization timing of synchronization shall be TBD s11/13/2023APPROVEDTRUE
- 6.04.04The max allowable current ripple (peak to peak) TBD A11/13/2023APPROVEDTRUE
- 6.04.04The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.04.04WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz11/13/2023APPROVEDTRUE
- 6.04.04The max voltage ripple (peak to peak) shall be TBD V11/13/2023APPROVEDTRUE
- 6.04.04An NMR shall be required to measure the field TBD A/s11/13/2023APPROVEDTRUE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The magnet turns ratio shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The terminal voltage shall be TBD V11/13/2023APPROVEDTRUE
- 6.04.04The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.04.04The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.04.04The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.04.04The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The magnet drawing with terminations details shall be TBD Draw id11/13/2023APPROVEDTRUE
- 6.04.04The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- ESR-PS-QLS2 : ESR Magnet Power Supply QLS2 (WBS 6.04.04)
- 6.04.04The number of Independent functions on the magnets being powered shall be 111/13/2023APPROVEDFALSE
- 6.04.04The maximum magnet string resistance to be powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.04.04The maximum magnet string inductance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.04.04The magnets being powered shall be saturated TBD Y/N11/13/2023APPROVEDTRUE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04The voltage to ground of the magnet being powered shall be TBD V11/13/2023APPROVEDTRUE
- 6.04.04The nominal current of the magnets being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.04.04The minimum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.04.04The maximum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.04.04The PS current type shall be NC (DC or AC)11/13/2023PENDINGFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The ppm of full scale current (peak to peak) shall be TBD %11/13/2023APPROVEDTRUE
- 6.04.04The time period for specified stability shall be TBD s11/13/2023APPROVEDTRUE
- 6.04.04The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.04.04The long term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.04.04The current setpoint resolution (min size in bits) shall be TBD bits11/13/2023APPROVEDTRUE
- 6.04.04The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.04.04The synchronization timing of synchronization shall be TBD s11/13/2023APPROVEDTRUE
- 6.04.04The max allowable current ripple (peak to peak) TBD A11/13/2023APPROVEDTRUE
- 6.04.04The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.04.04WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz11/13/2023APPROVEDTRUE
- 6.04.04The max voltage ripple (peak to peak) shall be TBD V11/13/2023APPROVEDTRUE
- 6.04.04An NMR shall be required to measure the field TBD A/s11/13/2023APPROVEDTRUE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The magnet turns ratio shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The terminal voltage shall be TBD V11/13/2023APPROVEDTRUE
- 6.04.04The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.04.04The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.04.04The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.04.04The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The magnet drawing with terminations details shall be TBD Draw id11/13/2023APPROVEDTRUE
- 6.04.04The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- ESR-PS-QLS3 : ESR Magnet Power Supply QLS3 (WBS 6.04.04)
- 6.04.04The number of Independent functions on the magnets being powered shall be 111/13/2023PENDINGFALSE
- 6.04.04The maximum magnet string resistance to be powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.04.04The maximum magnet string inductance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.04.04The magnets being powered shall be saturated TBD Y/N11/13/2023APPROVEDTRUE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04The voltage to ground of the magnet being powered shall be TBD V11/13/2023APPROVEDTRUE
- 6.04.04The nominal current of the magnets being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.04.04The minimum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.04.04The maximum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.04.04The PS current type shall be NC (DC or AC)11/13/2023PENDINGFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The ppm of full scale current (peak to peak) shall be TBD %11/13/2023APPROVEDTRUE
- 6.04.04The time period for specified stability shall be TBD s11/13/2023APPROVEDTRUE
- 6.04.04The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.04.04The long term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.04.04The current setpoint resolution (min size in bits) shall be TBD bits11/13/2023APPROVEDTRUE
- 6.04.04The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.04.04The synchronization timing of synchronization shall be TBD s11/13/2023APPROVEDTRUE
- 6.04.04The max allowable current ripple (peak to peak) TBD A11/13/2023APPROVEDTRUE
- 6.04.04The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.04.04WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz11/13/2023APPROVEDTRUE
- 6.04.04The max voltage ripple (peak to peak) shall be TBD V11/13/2023APPROVEDTRUE
- 6.04.04An NMR shall be required to measure the field TBD A/s11/13/2023APPROVEDTRUE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The magnet turns ratio shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The terminal voltage shall be TBD V11/13/2023APPROVEDTRUE
- 6.04.04The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.04.04The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.04.04The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.04.04The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The magnet drawing with terminations details shall be TBD Draw id11/13/2023APPROVEDTRUE
- 6.04.04The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- ESR-PS-QSS1 : ESR Magnet Power Supply QSS1 (WBS 6.04.04)
- 6.04.04The number of Independent functions on the magnets being powered shall be 111/13/2023PENDINGFALSE
- 6.04.04The maximum magnet string resistance to be powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.04.04The maximum magnet string inductance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.04.04The magnets being powered shall be saturated TBD Y/N11/13/2023APPROVEDTRUE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04The voltage to ground of the magnet being powered shall be TBD V11/13/2023APPROVEDTRUE
- 6.04.04The nominal current of the magnets being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.04.04The minimum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.04.04The maximum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.04.04The PS current type shall be NC (DC or AC)11/13/2023PENDINGFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The ppm of full scale current (peak to peak) shall be TBD %11/13/2023APPROVEDTRUE
- 6.04.04The time period for specified stability shall be TBD s11/13/2023APPROVEDTRUE
- 6.04.04The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.04.04The long term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.04.04The current setpoint resolution (min size in bits) shall be TBD bits11/13/2023APPROVEDTRUE
- 6.04.04The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.04.04The synchronization timing of synchronization shall be TBD s11/13/2023APPROVEDTRUE
- 6.04.04The max allowable current ripple (peak to peak) TBD A11/13/2023APPROVEDTRUE
- 6.04.04The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.04.04WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz11/13/2023APPROVEDTRUE
- 6.04.04The max voltage ripple (peak to peak) shall be TBD V11/13/2023APPROVEDTRUE
- 6.04.04An NMR shall be required to measure the field TBD A/s11/13/2023APPROVEDTRUE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The magnet turns ratio shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The terminal voltage shall be TBD V11/13/2023APPROVEDTRUE
- 6.04.04The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.04.04The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.04.04The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.04.04The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The magnet drawing with terminations details shall be TBD Draw id11/13/2023APPROVEDTRUE
- 6.04.04The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- ESR-PS-QSS2 : ESR Magnet Power Supply QSS2 (WBS 6.04.04)
- 6.04.04The number of Independent functions on the magnets being powered shall be 111/13/2023PENDINGFALSE
- 6.04.04The maximum magnet string resistance to be powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.04.04The maximum magnet string inductance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.04.04The magnets being powered shall be saturated TBD Y/N11/13/2023APPROVEDTRUE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04The voltage to ground of the magnet being powered shall be TBD V11/13/2023APPROVEDTRUE
- 6.04.04The nominal current of the magnets being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.04.04The minimum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.04.04The maximum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.04.04The PS current type shall be NC (DC or AC)11/13/2023PENDINGFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The ppm of full scale current (peak to peak) shall be TBD %11/13/2023APPROVEDTRUE
- 6.04.04The time period for specified stability shall be TBD s11/13/2023APPROVEDTRUE
- 6.04.04The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.04.04The long term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.04.04The current setpoint resolution (min size in bits) shall be TBD bits11/13/2023APPROVEDTRUE
- 6.04.04The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.04.04The synchronization timing of synchronization shall be TBD s11/13/2023APPROVEDTRUE
- 6.04.04The max allowable current ripple (peak to peak) TBD A11/13/2023APPROVEDTRUE
- 6.04.04The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.04.04WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz11/13/2023APPROVEDTRUE
- 6.04.04The max voltage ripple (peak to peak) shall be TBD V11/13/2023APPROVEDTRUE
- 6.04.04An NMR shall be required to measure the field TBD A/s11/13/2023APPROVEDTRUE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The magnet turns ratio shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The terminal voltage shall be TBD V11/13/2023APPROVEDTRUE
- 6.04.04The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.04.04The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.04.04The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.04.04The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The magnet drawing with terminations details shall be TBD Draw id11/13/2023APPROVEDTRUE
- 6.04.04The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- ESR-PS-QSS3 : ESR Magnet Power Supply QSS3 (WBS 6.04.04)
- 6.04.04The number of Independent functions on the magnets being powered shall be 111/13/2023PENDINGFALSE
- 6.04.04The maximum magnet string resistance to be powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.04.04The maximum magnet string inductance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.04.04The magnets being powered shall be saturated TBD Y/N11/13/2023APPROVEDTRUE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04The voltage to ground of the magnet being powered shall be TBD V11/13/2023APPROVEDTRUE
- 6.04.04The nominal current of the magnets being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.04.04The minimum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.04.04The maximum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.04.04The PS current type shall be NC (DC or AC)11/13/2023PENDINGFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The ppm of full scale current (peak to peak) shall be TBD %11/13/2023APPROVEDTRUE
- 6.04.04The time period for specified stability shall be TBD s11/13/2023APPROVEDTRUE
- 6.04.04The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.04.04The long term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.04.04The current setpoint resolution (min size in bits) shall be TBD bits11/13/2023APPROVEDTRUE
- 6.04.04The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.04.04The synchronization timing of synchronization shall be TBD s11/13/2023APPROVEDTRUE
- 6.04.04The max allowable current ripple (peak to peak) TBD A11/13/2023APPROVEDTRUE
- 6.04.04The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.04.04WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz11/13/2023APPROVEDTRUE
- 6.04.04The max voltage ripple (peak to peak) shall be TBD V11/13/2023APPROVEDTRUE
- 6.04.04An NMR shall be required to measure the field TBD A/s11/13/2023APPROVEDTRUE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The magnet turns ratio shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The terminal voltage shall be TBD V11/13/2023APPROVEDTRUE
- 6.04.04The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.04.04The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.04.04The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.04.04The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The magnet drawing with terminations details shall be TBD Draw id11/13/2023APPROVEDTRUE
- 6.04.04The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- ESR-PS-QSS4 : ESR Magnet Power Supply QSS4 (WBS 6.04.04)
- 6.04.04The number of Independent functions on the magnets being powered shall be 111/13/2023APPROVEDFALSE
- 6.04.04The maximum magnet string resistance to be powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.04.04The maximum magnet string inductance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.04.04The magnets being powered shall be saturated TBD Y/N11/13/2023APPROVEDTRUE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04The voltage to ground of the magnet being powered shall be TBD V11/13/2023APPROVEDTRUE
- 6.04.04The nominal current of the magnets being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.04.04The minimum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.04.04The maximum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.04.04The PS current type shall be NC (DC or AC)11/13/2023PENDINGFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The ppm of full scale current (peak to peak) shall be TBD %11/13/2023APPROVEDTRUE
- 6.04.04The time period for specified stability shall be TBD s11/13/2023APPROVEDTRUE
- 6.04.04The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.04.04The long term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.04.04The current setpoint resolution (min size in bits) shall be TBD bits11/13/2023APPROVEDTRUE
- 6.04.04The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.04.04The synchronization timing of synchronization shall be TBD s11/13/2023APPROVEDTRUE
- 6.04.04The max allowable current ripple (peak to peak) TBD A11/13/2023APPROVEDTRUE
- 6.04.04The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.04.04WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz11/13/2023APPROVEDTRUE
- 6.04.04The max voltage ripple (peak to peak) shall be TBD V11/13/2023APPROVEDTRUE
- 6.04.04An NMR shall be required to measure the field TBD A/s11/13/2023APPROVEDTRUE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The magnet turns ratio shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The terminal voltage shall be TBD V11/13/2023APPROVEDTRUE
- 6.04.04The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.04.04The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.04.04The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.04.04The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The magnet drawing with terminations details shall be TBD Draw id11/13/2023APPROVEDTRUE
- 6.04.04The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- ESR-PS-QSS5 : ESR Magnet Power Supply QSS5 (WBS 6.04.04)
- 6.04.04The number of Independent functions on the magnets being powered shall be 111/13/2023PENDINGFALSE
- 6.04.04The maximum magnet string resistance to be powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.04.04The maximum magnet string inductance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.04.04The magnets being powered shall be saturated TBD Y/N11/13/2023APPROVEDTRUE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04The voltage to ground of the magnet being powered shall be TBD V11/13/2023APPROVEDTRUE
- 6.04.04The nominal current of the magnets being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.04.04The minimum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.04.04The maximum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.04.04The PS current type shall be NC (DC or AC)11/13/2023PENDINGFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The ppm of full scale current (peak to peak) shall be TBD %11/13/2023APPROVEDTRUE
- 6.04.04The time period for specified stability shall be TBD s11/13/2023APPROVEDTRUE
- 6.04.04The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.04.04The long term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.04.04The current setpoint resolution (min size in bits) shall be TBD bits11/13/2023APPROVEDTRUE
- 6.04.04The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.04.04The synchronization timing of synchronization shall be TBD s11/13/2023APPROVEDTRUE
- 6.04.04The max allowable current ripple (peak to peak) TBD A11/13/2023APPROVEDTRUE
- 6.04.04The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.04.04WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz11/13/2023APPROVEDTRUE
- 6.04.04The max voltage ripple (peak to peak) shall be TBD V11/13/2023APPROVEDTRUE
- 6.04.04An NMR shall be required to measure the field TBD A/s11/13/2023APPROVEDTRUE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The magnet turns ratio shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The terminal voltage shall be TBD V11/13/2023APPROVEDTRUE
- 6.04.04The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.04.04The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.04.04The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.04.04The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The magnet drawing with terminations details shall be TBD Draw id11/13/2023APPROVEDTRUE
- 6.04.04The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- ESR-PS-SXT : ESR Magnet Power Supply SXT (WBS 6.04.04)
- 6.04.04The number of Independent functions on the magnets being powered shall be 111/13/2023PENDINGFALSE
- 6.04.04The maximum magnet string resistance to be powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.04.04The maximum magnet string inductance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.04.04The magnets being powered shall be saturated TBD Y/N11/13/2023APPROVEDTRUE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04The voltage to ground of the magnet being powered shall be TBD V11/13/2023APPROVEDTRUE
- 6.04.04The nominal current of the magnets being powered shall be 161 A11/13/2023PENDINGFALSE
- 6.04.04The minimum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.04.04The maximum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.04.04The PS current type shall be NC (DC or AC)11/13/2023PENDINGFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The ppm of full scale current (peak to peak) shall be TBD %11/13/2023APPROVEDTRUE
- 6.04.04The time period for specified stability shall be TBD s11/13/2023APPROVEDTRUE
- 6.04.04The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.04.04The long term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.04.04The current setpoint resolution (min size in bits) shall be TBD bits11/13/2023APPROVEDTRUE
- 6.04.04The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.04.04The synchronization timing of synchronization shall be TBD s11/13/2023APPROVEDTRUE
- 6.04.04The max allowable current ripple (peak to peak) TBD A11/13/2023APPROVEDTRUE
- 6.04.04The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.04.04WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz11/13/2023APPROVEDTRUE
- 6.04.04The max voltage ripple (peak to peak) shall be TBD V11/13/2023APPROVEDTRUE
- 6.04.04An NMR shall be required to measure the field TBD A/s11/13/2023APPROVEDTRUE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.04.04The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The magnet turns ratio shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The terminal voltage shall be TBD V11/13/2023APPROVEDTRUE
- 6.04.04The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.04.04The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.04.04The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.04.04The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.04.04The magnet drawing with terminations details shall be TBD Draw id11/13/2023APPROVEDTRUE
- 6.04.04The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- ESR-RF : ESR RF System (WBS 6.08.03.02)
- ESR-RF-MAIN_RF : ESR Main RF System (WBS 6.08.03.02)
- ESR-RF-MAIN_RF-FUNDAMENTAL_MODE : ESR Main RF Fundamental Mode (WBS 6.08.03.02)
- 6.08.03.02The Type of system shall be SRF11/13/2023APPROVEDFALSE
- 6.08.03.02The RF Harmonic Number shall be 756011/13/2023APPROVEDFALSE
- 6.08.03.02The Nominal RF Frequency shall be 591 MHz11/13/2023PENDINGFALSE
- 6.08.03.02The Cavity Tuning Range shall be 0.22 +-, MHz11/13/2023APPROVEDFALSE
- 6.08.03.02The RF Wavelength shall be 0.507263042301184 m11/13/2023PENDINGFALSE
- 6.08.03.02The Required Voltage per Turn [Max, 18 GeV] shall be 61.5 MV11/13/2023APPROVEDFALSE
- 6.08.03.02The Requirement shall be 10.1 MV11/13/2023APPROVEDFALSE
- 6.08.03.02The Installed Voltage per Turn shall be 68 MV11/13/2023APPROVEDFALSE
- 6.08.03.02The RF System Impedance Budget (L) shall be 26 Kohm GHz Mohm11/13/2023APPROVEDFALSE
- 6.08.03.02The RF System Impedance Budget (H) shall be 12 Mohm/m11/13/2023APPROVEDFALSE
- 6.08.03.02The RF System Impedance Budget (V) shall be 12 Mohm/m11/13/2023APPROVEDFALSE
- 6.08.03.02The Maximum Dipole content shall be TBD11/13/2023APPROVEDTRUE
- 6.08.03.02The Maximum Quadrupole content shall be TBD11/13/2023APPROVEDTRUE
- 6.08.03.02The Maximum Sextupole content shall be TBD11/13/2023APPROVEDTRUE
- 6.08.03.02The Maximum Octupole content shall be TBD11/13/2023APPROVEDTRUE
- 6.08.03.02The Amplitude Stability (Noise, df > 1Hz) shall be TBD 1E-4 (rms)11/13/2023APPROVEDTRUE
- 6.08.03.02The Phase Stability (Noise, df > 1Hz) shall be TBD deg (rms)11/13/2023APPROVEDTRUE
- 6.08.03.02The Amplitude Stability (Drift, df < 1Hz) shall be TBD 1E-4 (rms)11/13/2023APPROVEDTRUE
- 6.08.03.02The Phase Stability (Drift, df < 1Hz) shall be TBD deg (rms)11/13/2023APPROVEDTRUE
- 6.08.03.02The Cavity Minimum Aperture Radius shall be 30 mm11/13/2023APPROVEDFALSE
- 6.08.03.02The Maximum Beam Offset at Cavities (H) shall be <1mm mm11/13/2023APPROVEDFALSE
- 6.08.03.02The Maximum Beam Offset at Cavities (V) shall be <1mm mm11/13/2023APPROVEDFALSE
- 6.08.03.02The EM Center Alignment Tolerance in X shall be few 100 um mm11/13/2023APPROVEDFALSE
- 6.08.03.02The EM Center Alignment Tolerance in y shall be few 100 um mm11/13/2023APPROVEDFALSE
- 6.08.03.02The EM Center Alignment Tolerance in Z shall be several millimeters mm11/13/2023APPROVEDFALSE
- 6.08.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.03.02The EM Center Alignment Tolerance Pitch shall be TBD deg11/13/2023APPROVEDTRUE
- 6.08.03.02The EM Center Alignment Tolerance Yaw shall be TBD deg11/13/2023APPROVEDTRUE
- 6.08.03.02The Beamline Space Allocation shall be 8.7 m11/13/2023APPROVEDFALSE
- 6.08.03.02The Beamline Space Allocation (Width) shall be TBD m11/13/2023APPROVEDTRUE
- 6.08.03.02The Beamline Space Allocation (Height) shall be TBD m11/13/2023APPROVEDTRUE
- 6.08.03.02The Distance Beamline Center to Ceiling shall be TBD m11/13/2023APPROVEDTRUE
- 6.08.03.02The Distance Beamline Center to Floor shall be TBD m11/13/2023APPROVEDTRUE
- 6.08.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.03.02The provided detailed bunch pattern shall be met 1011/13/2023APPROVEDFALSE
- 6.08.03.02The following fill sequence shall be met TBD11/13/2023APPROVEDTRUE
- 6.08.03.02The describe bunch replacement sequence shall be met yes11/13/2023APPROVEDFALSE
- 6.08.03.02The following synchronization and cogging requirements shall be met TBD11/13/2023APPROVEDTRUE
- 6.08.03.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.03.02The following specific control requirements from beam dynamics shall be met TBD11/13/2023APPROVEDTRUE
- 6.08.03.02The Max HOM RF power is allowed to leak down the beam pipe shall be TBD11/13/2023APPROVEDTRUE
- 6.08.03.02The Sum total non-RF parasitic losses in the ring shall be TBD11/13/2023APPROVEDTRUE
- 6.08.03.02The Shadow Synchrotron radiation capability shall be TBD11/13/2023APPROVEDTRUE
- 6.08.03.02The following tuning Range shall be met 0.6 MHz11/13/2023APPROVEDFALSE
- 6.08.03.02The Tuner type shall be Tension/strech11/13/2023APPROVEDFALSE
- ESR-RF-MAIN_RF_SRFCM : ESR Main RF Super Conducting Cryogenic Module (SCFCM) (WBS 6.08.03.02)
- ESR-RF-MAIN_RF_SRFCM-FUNDAMENTAL_MODE : ESR Main RF SCFCM Fundamental Mode (WBS 6.08.03.02)
- 6.08.03.02The Slow Tuner Range (frequency) shall be 600 KHz11/13/2023APPROVEDFALSE
- 6.08.03.02The Slow Tuner Backlash shall be 2.5 Hz11/13/2023APPROVEDFALSE
- 6.08.03.02The Slow Tuning Rate shall be 200 Hz/s11/13/2023APPROVEDFALSE
- 6.08.03.02The Fast Tuner Range (frequency) shall be 0.4 Khz11/13/2023APPROVEDFALSE
- 6.08.03.02The Fast Tuner Backlash shall be 1 Hz11/13/2023APPROVEDFALSE
- 6.08.03.02The Fast Tuning Rate shall be 1000 Hz/s11/13/2023APPROVEDFALSE
- 6.08.03.02The Operational Cavity Gradient shall be 15.4 MV/m11/13/2023APPROVEDFALSE
- 6.08.03.02The Operational Cavity Qo shall be >2x1010 Unit11/13/2023APPROVEDFALSE
- 6.08.03.02The Operational Field emission onset shall be 15.4 MV/m11/13/2023APPROVEDFALSE
- 6.08.03.02The Operational FPC Qext. shall be (4.0±0.2)x105 Unit11/13/2023APPROVEDFALSE
- 6.08.03.02The Operational Field Probe Qext. shall be 100000000000 Unit11/13/2023APPROVEDFALSE
- 6.08.03.02The Cavity Frequency (Resonant Operational) shall be 591.149±0.22 MHz11/13/2023APPROVEDFALSE
- 6.08.03.02The Cavity Frequency (Drive Operational) shall be 591.149 MHz11/13/2023APPROVEDFALSE
- 6.08.03.02The Microphonics (cold) shall be <500 Hz11/13/2023APPROVEDFALSE
- 6.08.03.02The Radius (from beam center)(<6 in) shall be 400000000 RADS11/13/2023APPROVEDFALSE
- 6.08.03.02The Radius (from beam center)(<12 in) shall be 120000000 RADS11/13/2023APPROVEDFALSE
- 6.08.03.02The Radius (from beam center)(< 18 in) shall be 30000000 RADS11/13/2023APPROVEDFALSE
- 6.08.03.02The Radius (from beam center)(< 21 in) shall be 12000000 RADS11/13/2023APPROVEDFALSE
- 6.08.03.02The Radius (from beam center)(< 50 in) shall be 4000000 RADS11/13/2023APPROVEDFALSE
- 6.08.03.02The Beamline Components (Outside VV) shall be 11 Internal
15 External PSID11/13/2023APPROVEDFALSE - 6.08.03.02The Beamline Components (Inside VV/Outside HV) shall be 26 Internal
30 External PSID11/13/2023APPROVEDFALSE - 6.08.03.02The Beamline Components (Inside VV/Inside HV) shall be 26 Internal
33 External Warm
75 External Cold PSID11/13/2023APPROVEDFALSE - 6.08.03.02The Beamline Components (Inside VV/Tracecooled) shall be 26 Internal
165 External PSID11/13/2023APPROVEDFALSE - 6.08.03.02The Inner Coupler (Inside VV) shall be 85 Internal
26 External PSID11/13/2023APPROVEDFALSE - 6.08.03.02The Inner Coupler (Outside VV) shall be 70 Internal
15 External PSID11/13/2023APPROVEDFALSE - 6.08.03.02The Supply Circuit shall be 165 Internal
30 External PSID11/13/2023APPROVEDFALSE - 6.08.03.02The Primary Return Circuit shall be 33 Internal Warm
75 Internal Cold
30 External PSID11/13/2023APPROVEDFALSE - 6.08.03.02The Trace Cooling shall be 165 Internal
30 External PSID11/13/2023APPROVEDFALSE - 6.08.03.02The Trace Cooling (around beamline) shall be 165 Internal
30 External Towards IV
26 External Towards Beamline PSID11/13/2023APPROVEDFALSE - 6.08.03.02The Coupler Trace Cooling shall be 165 Internal
30 External PSID11/13/2023APPROVEDFALSE - 6.08.03.02The Coupler Trace Cooling (Around Coupler) shall be 165 Internal
30 External Towards IV
26 External Towards Beamline PSID11/13/2023APPROVEDFALSE - 6.08.03.02The Shield Circuit shall be 165 Internal
30 External PSID11/13/2023APPROVEDFALSE - 6.08.03.02The Vacuum Vessel shall be 15 Internal
15 External PSID11/13/2023APPROVEDFALSE - 6.08.03.02The Cooling Water Operating Temperature shall be 303 K11/13/2023APPROVEDFALSE
- 6.08.03.02The Primary Supply Piping Operating Temperature shall be 4.5 K11/13/2023APPROVEDFALSE
- 6.08.03.02The Cavity Trace Cooling Operating Temperature shall be 4.5 K11/13/2023APPROVEDFALSE
- 6.08.03.02The Shield Circuit Operating Temperature shall be 4.5 K11/13/2023APPROVEDFALSE
- 6.08.03.02The Coupler Trace Cooling Operating Temperature shall be 4.5 K11/13/2023APPROVEDFALSE
- 6.08.03.02The Primary Return Circuit Operating Temperature shall be 2 K11/13/2023APPROVEDFALSE
- 6.08.03.02The Cooling Water Operating Pressure shall be 3.4 ATM11/13/2023APPROVEDFALSE
- 6.08.03.02The Primary Supply Piping Operating Pressure shall be 3 ATM11/13/2023APPROVEDFALSE
- 6.08.03.02The Cavity Trace Cooling Operating Pressure shall be 3 ATM11/13/2023APPROVEDFALSE
- 6.08.03.02The Shield Circuit Operating Pressure shall be 3 ATM11/13/2023APPROVEDFALSE
- 6.08.03.02The Coupler Trace Cooling Operating Pressure shall be 3 ATM11/13/2023APPROVEDFALSE
- 6.08.03.02The Primary Return Circuit Temperature shall be 0.03 ATM11/13/2023APPROVEDFALSE
- 6.08.03.02The Beamline Vacuum (Warm) shall be 0.0000005 Torr11/13/2023APPROVEDFALSE
- 6.08.03.02The Insulating Vacuum (Warm) shall be 0.005 Torr11/13/2023APPROVEDFALSE
- 6.08.03.02The Beamline Vacuum (Cold) shall be 0.000000005 Torr11/13/2023APPROVEDFALSE
- 6.08.03.02The Insulating Vacuum (Cold) shall be 0.00005 Torr11/13/2023APPROVEDFALSE
- 6.08.03.02The Maximum Leak Rate shall be TBD torr L/s11/13/2023APPROVEDTRUE
- 6.08.03.02The Efficiency shall be 0.9655 Value11/13/2023APPROVEDFALSE
- 6.08.03.02The Inlet Temperature (High Pressure) shall be 4.5 K11/13/2023APPROVEDFALSE
- 6.08.03.02The Outlet Temperature (High Pressure) shall be 2.2 K11/13/2023APPROVEDFALSE
- 6.08.03.02The Pressure Drop (High Pressure) shall be 0.02 ATM11/13/2023APPROVEDFALSE
- 6.08.03.02The Inlet Temperature (Low Pressure) shall be 2 K11/13/2023APPROVEDFALSE
- 6.08.03.02The Outlet Temperature (Low Pressure) shall be 3.96 K11/13/2023APPROVEDFALSE
- 6.08.03.02The Pressure Drop (Low Pressure) shall be 0.001 ATM11/13/2023APPROVEDFALSE
- 6.08.03.02The Shield Circuit Heat Load (Static) shall be 166 W11/13/2023APPROVEDFALSE
- 6.08.03.02The Coupler Circuit Heat Load (Static) shall be 4.9 W11/13/2023APPROVEDFALSE
- 6.08.03.02The Primary Circuit Heat Load (Static) shall be 10.8 W11/13/2023APPROVEDFALSE
- 6.08.03.02The Shield Circuit Heat Load (Dynamic) shall be 126 W11/13/2023APPROVEDFALSE
- 6.08.03.02The Coupler Circuit Heat Load (Dynamic) shall be 0 (needs update) W11/13/2023APPROVEDFALSE
- 6.08.03.02The Primary Circuit Heat Load (Dynamic) shall be 33.3 W11/13/2023APPROVEDFALSE
- 6.08.03.02The Cooling Water Flow (Large BLA) shall be TBD gpm11/13/2023APPROVEDTRUE
- 6.08.03.02The Cooling Water Flow (Small BLA) shall be TBD gpm11/13/2023APPROVEDTRUE
- 6.08.03.02The Cooling Water Flow (FPC Window Outer Diameter) shall be 0.5 gpm11/13/2023APPROVEDFALSE
- 6.08.03.02The Cooling Water Flow (FPC Window Antenna) shall be 1.5 gpm11/13/2023APPROVEDFALSE
- 6.08.03.02The Beamline Space Allocation (Beamline Length gate valve to gate valve per cavity pair) shall be 4 m11/13/2023APPROVEDFALSE
- 6.08.03.02The Beamline Space Allocation (Width) shall be 1.8 m11/13/2023APPROVEDFALSE
- 6.08.03.02The Beamline Space Allocation (Height) shall be 2 m11/13/2023APPROVEDFALSE
- 6.08.03.02The Distance Beamline Center to Floor shall be 1.159-1.381 m11/13/2023APPROVEDFALSE
- 6.08.03.02The X-axis CM alignment tolerance shall be few 100 um mm11/13/2023APPROVEDFALSE
- 6.08.03.02The Y-axis CM alignment tolerance shall be several millimeters mm11/13/2023APPROVEDFALSE
- 6.08.03.02The Z-axis CM alignment tolerance shall be several millimeters mm11/13/2023APPROVEDFALSE
- 6.08.03.02The Roll CM alignment tolerance shall be N/A deg11/13/2023APPROVEDFALSE
- 6.08.03.02The Pitch CM alignment tolerance shall be TBD deg11/13/2023APPROVEDTRUE
- 6.08.03.02The Yaw CM alignment tolerance shall be TBD deg11/13/2023APPROVEDTRUE
- 6.08.03.02The Maximum Vertical Shock Acceleration shall be 4 g11/13/2023APPROVEDFALSE
- 6.08.03.02The Maximum Lateral Shock Acceleration shall be 1.5 g11/13/2023APPROVEDFALSE
- 6.08.03.02The Maximum Shock Acceleration along Beamline shall be 5 g11/13/2023APPROVEDFALSE
- ESR-VAC : ESR Vacuum (WBS 6.04.05)
- 6.04.05Impedance values shall be approved by accelerator physics.11/13/2023APPROVEDFALSE
- 6.04.05The typical (standard) vacuum chamber aperture shall be 80 x 36 mm11/13/2023APPROVEDFALSE
- 6.04.05Special aperture requirements and/or aperture file shall be provided by or approved by physics.11/13/2023APPROVEDFALSE
- 6.04.05The acceptable allowable stray field on the ESR shall be TBD gauss11/13/2023APPROVEDTRUE
- 6.04.05The magnetic permeability for vacuum equipment shall be approved by beam physics.11/13/2023APPROVEDFALSE
- 6.04.05After conditioning the average vacuum level shall be <5x10-9 Torr11/13/2023APPROVEDFALSE
- 6.04.05There shall be no upper pressure limit as long as the average pressure is maintained.11/13/2023APPROVEDFALSE
- 6.04.05On 15 m on each side (or one vacuum sector) of the SRF cavities shall be processed to class ISO 5.11/13/2023APPROVEDFALSE
- 6.04.05All hardware in vacuum shall be UHV compatible.11/13/2023APPROVEDFALSE
- 6.04.05The maximum beam excursion orbit shall be TBD11/13/2023APPROVEDTRUE
- 6.04.05The beam current is an input for the interlocks. The threshold shall be adjusted during commissioning and operations.11/13/2023APPROVEDFALSE
- 6.04.05The vacuum chamber shall absorb synchrotron radiation and carry away the power. 10 MW11/13/2023APPROVEDFALSE
- HSR : Hadron Storage Ring (HSR) System (WBS 6.05)
- HSR-ATR : HSR Hadron Ring Injection System (WBS 6.05.03)
- HSR-ATR-CONT : HSR HT Line Controls System (WBS 6.07.02)
- 6.07.02The ATR Bunch Timing, synchronization tolerance between AGS & HSR shall be 5 ns11/13/2023APPROVEDFALSE
- HSR-ATR-INST : HSR HT Instrumentation System (WBS 6.05.05)
- HSR-ATR-INST-INJ_BC : HSR ATR Instrumentation Beam Charge Monitor (WBS 6.05.05.02 )
- 6.05.05.02The ATR DCCT Bunch charge monitors shall measure over the measurement range 5-44 nC11/13/2023APPROVEDFALSE
- 6.05.05.02The ATR DCCT Bunch charge monitors shall have a measurement resolution of 100 pC11/13/2023APPROVEDFALSE
- 6.05.05.02The ATR shall have DCCT Bunch Charge monitors at the following Locations tbd11/13/2023APPROVEDTRUE
- HSR-ATR-INST-INJ_BLM : HSR ATR Instrumentation Beam Loss Monitors (WBS 6.05.05.02 )
- 6.05.05.02The ATR Beam Loss monitors shall be the same as the RHIC type Beam Loss Monitors or an equavilent model having at least the same functionality tbd11/13/2023APPROVEDTRUE
- 6.05.05.02The ATR shall have BLM's at the following Locations tbd11/13/2023APPROVEDTRUE
- HSR-ATR-INST-INJ_BPM : HSR ATR Instrumentation Beam Position Monitor (WBS 6.05.05.02 )
- 6.05.05.02The ATR BPM's shal have a (single pass) Position measurement resolution of 100 μm11/13/2023APPROVEDFALSE
- 6.05.05.02The existing RHIC stripline BPMs in the blue arc cryostat between sector 6 to 4 shall be re-used, but new modern electronics shall be added.11/13/2023APPROVEDFALSE
- 6.05.05.02The following locations on the ATR transfer line shall have BPM tbd11/13/2023APPROVEDTRUE
- 6.05.05.02The beam pipe aperture for the warm HT BPMs will be 5 cm11/13/2023APPROVEDFALSE
- HSR-ATR-INST-INJ_PM : HSR ATR Instrumentation Profile Monitor (WBS 6.05.05.02 )
- 6.05.05.02the ATR PM's posphour Screens shall have a Transverse optical resolution of 100 μm11/13/2023APPROVEDFALSE
- 6.05.05.02The ATR shall have Transverse PM Posphour Screens in the following locations tbd11/13/2023APPROVEDTRUE
- 6.05.05.02The beam pipe aperture for the warm HT transverse profile monitors shll be 5 cm11/13/2023APPROVEDFALSE
- HSR-ATR-MAG : HSR ATR Magnet (WBS 6.05.03.01)
- HSR-ATR-MAG-C1 : HSR ATR Magnet C1 (WBS 6.05.03.01)
- 6.05.03.01The magnet function shall be 111/13/2023PENDINGFALSE
- 6.05.03.01The field type shall be(Sol,Dip,Quad,Sext,Octu) Dipole11/13/2023PENDINGFALSE
- 6.05.03.01The field dir (ver or hor) shall be H-bend11/13/2023PENDINGFALSE
- 6.05.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.03.01The min gap shall be 0.04 m11/13/2023PENDINGFALSE
- 6.05.03.01The good field aperture drx required shall be TBD m11/13/2023PENDINGTRUE
- 6.05.03.01The good field aperture dry required shall be TBD m11/13/2023PENDINGTRUE
- 6.05.03.01The mag length shall be 0.5 m11/13/2023PENDINGFALSE
- 6.05.03.01The eff Length shall be TBD m11/13/2023PENDINGTRUE
- 6.05.03.01The dipole field B shall be 0.08339 T11/13/2023PENDINGFALSE
- 6.05.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.03.01The ramp rate shall be TBD T/s11/13/2023PENDINGTRUE
- 6.05.03.01The field stability shall be TBD T/s11/13/2023PENDINGTRUE
- 6.05.03.01The good field region requirements shall be TBD ppm11/13/2023PENDINGTRUE
- 6.05.03.01The harmonic reference radius shall be TBD mm11/13/2023PENDINGTRUE
- 6.05.03.01The max b1 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b2 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b3 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b4 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b5 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b6 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b7 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b8 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b9 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b10 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b11 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b12 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b13 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b14 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b15 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b16 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The magnet shall be designed to limit Xtalk Requirements TBD11/13/2023PENDINGTRUE
- 6.05.03.01The X-talk shall be controlled at the following location TBD11/13/2023PENDINGTRUE
- 6.05.03.01The max radial distance to X-talk location content shall be TBD mm11/13/2023PENDINGTRUE
- 6.05.03.01The max analysis radius content shall be TBD mm11/13/2023PENDINGTRUE
- 6.05.03.01The max X-talk multipoles content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max B1 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B2 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B3 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B4 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B5 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B6 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B7 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B8 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B9 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B10 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B11 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B12 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B13 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B14 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B15 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B16 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The magnet design shall constrain the ext. fringe field TBD11/13/2023PENDINGTRUE
- 6.05.03.01The fringe field shall be constrained at the following location TBD mm11/13/2023PENDINGTRUE
- 6.05.03.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023PENDINGTRUE
- HSR-ATR-MAG-D1 : HSR ATR Magnet D1 (WBS 6.05.03.01)
- 6.05.03.01The magnet function shall be 111/13/2023PENDINGFALSE
- 6.05.03.01The field type shall be(Sol,Dip,Quad,Sext,Octu) Dipole11/13/2023PENDINGFALSE
- 6.05.03.01The field dir (ver or hor) shall be H-bend11/13/2023PENDINGFALSE
- 6.05.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.03.01The min gap shall be 0.04 m11/13/2023PENDINGFALSE
- 6.05.03.01The good field aperture drx required shall be TBD m11/13/2023PENDINGTRUE
- 6.05.03.01The good field aperture dry required shall be TBD m11/13/2023PENDINGTRUE
- 6.05.03.01The mag length shall be 0.9 m11/13/2023PENDINGFALSE
- 6.05.03.01The eff Length shall be TBD m11/13/2023PENDINGTRUE
- 6.05.03.01The dipole field B shall be 1.00068 T11/13/2023PENDINGFALSE
- 6.05.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.03.01The ramp rate shall be TBD T/s11/13/2023PENDINGTRUE
- 6.05.03.01The field stability shall be TBD T/s11/13/2023PENDINGTRUE
- 6.05.03.01The good field region requirements shall be TBD ppm11/13/2023PENDINGTRUE
- 6.05.03.01The harmonic reference radius shall be TBD mm11/13/2023PENDINGTRUE
- 6.05.03.01The max b1 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b2 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b3 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b4 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b5 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b6 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b7 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b8 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b9 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b10 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b11 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b12 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b13 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b14 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b15 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b16 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The magnet shall be designed to limit Xtalk Requirements TBD11/13/2023PENDINGTRUE
- 6.05.03.01The X-talk shall be controlled at the following location TBD11/13/2023PENDINGTRUE
- 6.05.03.01The max radial distance to X-talk location content shall be TBD mm11/13/2023PENDINGTRUE
- 6.05.03.01The max analysis radius content shall be TBD mm11/13/2023PENDINGTRUE
- 6.05.03.01The max X-talk multipoles content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max B1 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B2 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B3 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B4 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B5 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B6 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B7 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B8 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B9 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B10 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B11 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B12 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B13 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B14 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B15 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B16 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The magnet design shall constrain the ext. fringe field TBD11/13/2023PENDINGTRUE
- 6.05.03.01The fringe field shall be constrained at the following location TBD mm11/13/2023PENDINGTRUE
- 6.05.03.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023PENDINGTRUE
- HSR-ATR-MAG-D2 : HSR ATR Magnet D2 (WBS 6.05.03.01)
- 6.05.03.01The magnet function shall be 111/13/2023PENDINGFALSE
- 6.05.03.01The field type shall be(Sol,Dip,Quad,Sext,Octu) Dipole11/13/2023PENDINGFALSE
- 6.05.03.01The field dir (ver or hor) shall be H-bend11/13/2023PENDINGFALSE
- 6.05.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.03.01The min gap shall be 0.04 m11/13/2023PENDINGFALSE
- 6.05.03.01The good field aperture drx required shall be TBD m11/13/2023PENDINGTRUE
- 6.05.03.01The good field aperture dry required shall be TBD m11/13/2023PENDINGTRUE
- 6.05.03.01The mag length shall be 0.5 m11/13/2023PENDINGFALSE
- 6.05.03.01The eff Length shall be TBD m11/13/2023PENDINGTRUE
- 6.05.03.01The dipole field B shall be 0.41695 T11/13/2023PENDINGFALSE
- 6.05.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.03.01The ramp rate shall be TBD T/s11/13/2023PENDINGTRUE
- 6.05.03.01The field stability shall be TBD T/s11/13/2023PENDINGTRUE
- 6.05.03.01The good field region requirements shall be TBD ppm11/13/2023PENDINGTRUE
- 6.05.03.01The harmonic reference radius shall be TBD mm11/13/2023PENDINGTRUE
- 6.05.03.01The max b1 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b2 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b3 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b4 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b5 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b6 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b7 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b8 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b9 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b10 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b11 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b12 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b13 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b14 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b15 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b16 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The magnet shall be designed to limit Xtalk Requirements TBD11/13/2023PENDINGTRUE
- 6.05.03.01The X-talk shall be controlled at the following location TBD11/13/2023PENDINGTRUE
- 6.05.03.01The max radial distance to X-talk location content shall be TBD mm11/13/2023PENDINGTRUE
- 6.05.03.01The max analysis radius content shall be TBD mm11/13/2023PENDINGTRUE
- 6.05.03.01The max X-talk multipoles content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max B1 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B2 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B3 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B4 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B5 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B6 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B7 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B8 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B9 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B10 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B11 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B12 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B13 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B14 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B15 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B16 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The magnet design shall constrain the ext. fringe field TBD11/13/2023PENDINGTRUE
- 6.05.03.01The fringe field shall be constrained at the following location TBD mm11/13/2023PENDINGTRUE
- 6.05.03.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023PENDINGTRUE
- HSR-ATR-MAG-D3 : HSR ATR Magnet D3 (WBS 6.05.03.01)
- 6.05.03.01The magnet function shall be 111/13/2023PENDINGFALSE
- 6.05.03.01The field type shall be(Sol,Dip,Quad,Sext,Octu) Dipole11/13/2023PENDINGFALSE
- 6.05.03.01The field dir (ver or hor) shall be H-bend11/13/2023PENDINGFALSE
- 6.05.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.03.01The min gap shall be 0.04 m11/13/2023PENDINGFALSE
- 6.05.03.01The good field aperture drx required shall be TBD m11/13/2023PENDINGTRUE
- 6.05.03.01The good field aperture dry required shall be TBD m11/13/2023PENDINGTRUE
- 6.05.03.01The mag length shall be 1 m11/13/2023PENDINGFALSE
- 6.05.03.01The eff Length shall be TBD m11/13/2023PENDINGTRUE
- 6.05.03.01The dipole field B shall be 1.00068 T11/13/2023PENDINGFALSE
- 6.05.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.03.01The ramp rate shall be TBD T/s11/13/2023PENDINGTRUE
- 6.05.03.01The field stability shall be TBD T/s11/13/2023PENDINGTRUE
- 6.05.03.01The good field region requirements shall be TBD ppm11/13/2023PENDINGTRUE
- 6.05.03.01The harmonic reference radius shall be TBD mm11/13/2023PENDINGTRUE
- 6.05.03.01The max b1 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b2 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b3 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b4 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b5 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b6 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b7 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b8 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b9 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b10 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b11 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b12 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b13 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b14 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b15 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b16 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The magnet shall be designed to limit Xtalk Requirements TBD11/13/2023PENDINGTRUE
- 6.05.03.01The X-talk shall be controlled at the following location TBD11/13/2023PENDINGTRUE
- 6.05.03.01The max radial distance to X-talk location content shall be TBD mm11/13/2023PENDINGTRUE
- 6.05.03.01The max analysis radius content shall be TBD mm11/13/2023PENDINGTRUE
- 6.05.03.01The max X-talk multipoles content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max B1 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B2 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B3 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B4 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B5 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B6 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B7 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B8 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B9 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B10 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B11 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B12 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B13 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B14 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B15 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B16 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The magnet design shall constrain the ext. fringe field TBD11/13/2023PENDINGTRUE
- 6.05.03.01The fringe field shall be constrained at the following location TBD mm11/13/2023PENDINGTRUE
- 6.05.03.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023PENDINGTRUE
- HSR-ATR-MAG-D4 : HSR ATR Magnet D4 (WBS 6.05.03.01)
- 6.05.03.01The magnet function shall be 111/13/2023PENDINGFALSE
- 6.05.03.01The field type shall be(Sol,Dip,Quad,Sext,Octu) Dipole11/13/2023PENDINGFALSE
- 6.05.03.01The field dir (ver or hor) shall be H-bend11/13/2023PENDINGFALSE
- 6.05.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.03.01The min gap shall be 0.04 m11/13/2023PENDINGFALSE
- 6.05.03.01The good field aperture drx required shall be TBD m11/13/2023PENDINGTRUE
- 6.05.03.01The good field aperture dry required shall be TBD m11/13/2023PENDINGTRUE
- 6.05.03.01The mag length shall be 3 m11/13/2023PENDINGFALSE
- 6.05.03.01The eff Length shall be TBD m11/13/2023PENDINGTRUE
- 6.05.03.01The dipole field B shall be 2.5017 T11/13/2023PENDINGFALSE
- 6.05.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.03.01The ramp rate shall be TBD T/s11/13/2023PENDINGTRUE
- 6.05.03.01The field stability shall be TBD T/s11/13/2023PENDINGTRUE
- 6.05.03.01The good field region requirements shall be TBD ppm11/13/2023PENDINGTRUE
- 6.05.03.01The harmonic reference radius shall be TBD mm11/13/2023PENDINGTRUE
- 6.05.03.01The max b1 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b2 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b3 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b4 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b5 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b6 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b7 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b8 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b9 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b10 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b11 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b12 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b13 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b14 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b15 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b16 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The magnet shall be designed to limit Xtalk Requirements TBD11/13/2023PENDINGTRUE
- 6.05.03.01The X-talk shall be controlled at the following location TBD11/13/2023PENDINGTRUE
- 6.05.03.01The max radial distance to X-talk location content shall be TBD mm11/13/2023PENDINGTRUE
- 6.05.03.01The max analysis radius content shall be TBD mm11/13/2023PENDINGTRUE
- 6.05.03.01The max X-talk multipoles content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max B1 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B2 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B3 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B4 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B5 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B6 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B7 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B8 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B9 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B10 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B11 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B12 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B13 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B14 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B15 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B16 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The magnet design shall constrain the ext. fringe field TBD11/13/2023PENDINGTRUE
- 6.05.03.01The fringe field shall be constrained at the following location TBD mm11/13/2023PENDINGTRUE
- 6.05.03.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023PENDINGTRUE
- HSR-ATR-MAG-DVERT_1 : HSR ATR Magnet DVERT_1 (WBS 6.05.03.01)
- 6.05.03.01The magnet function shall be 111/13/2023PENDINGFALSE
- 6.05.03.01The field type shall be(Sol,Dip,Quad,Sext,Octu) Dipole11/13/2023PENDINGFALSE
- 6.05.03.01The field dir (ver or hor) shall be H11/13/2023PENDINGFALSE
- 6.05.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.03.01The min gap shall be 0.04 m11/13/2023PENDINGFALSE
- 6.05.03.01The good field aperture drx required shall be TBD m11/13/2023PENDINGTRUE
- 6.05.03.01The good field aperture dry required shall be TBD m11/13/2023PENDINGTRUE
- 6.05.03.01The mag length shall be 1.5 m11/13/2023PENDINGFALSE
- 6.05.03.01The eff Length shall be TBD m11/13/2023PENDINGTRUE
- 6.05.03.01The dipole field B shall be 1.6678 T11/13/2023PENDINGFALSE
- 6.05.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.03.01The ramp rate shall be TBD T/s11/13/2023PENDINGTRUE
- 6.05.03.01The field stability shall be TBD T/s11/13/2023PENDINGTRUE
- 6.05.03.01The good field region requirements shall be TBD ppm11/13/2023PENDINGTRUE
- 6.05.03.01The harmonic reference radius shall be TBD mm11/13/2023PENDINGTRUE
- 6.05.03.01The max b1 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b2 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b3 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b4 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b5 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b6 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b7 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b8 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b9 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b10 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b11 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b12 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b13 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b14 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b15 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b16 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The magnet shall be designed to limit Xtalk Requirements TBD11/13/2023PENDINGTRUE
- 6.05.03.01The X-talk shall be controlled at the following location TBD11/13/2023PENDINGTRUE
- 6.05.03.01The max radial distance to X-talk location content shall be TBD mm11/13/2023PENDINGTRUE
- 6.05.03.01The max analysis radius content shall be TBD mm11/13/2023PENDINGTRUE
- 6.05.03.01The max X-talk multipoles content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max B1 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B2 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B3 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B4 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B5 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B6 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B7 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B8 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B9 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B10 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B11 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B12 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B13 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B14 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B15 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B16 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The magnet design shall constrain the ext. fringe field TBD11/13/2023PENDINGTRUE
- 6.05.03.01The fringe field shall be constrained at the following location TBD mm11/13/2023PENDINGTRUE
- 6.05.03.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023PENDINGTRUE
- HSR-ATR-MAG-Q1 : HSR ATR Magnet Q1 (WBS 6.05.03.01)
- 6.05.03.01The magnet function shall be 111/13/2023PENDINGFALSE
- 6.05.03.01The field type shall be(Sol,Dip,Quad,Sext,Octu) Q11/13/2023PENDINGFALSE
- 6.05.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.03.01The field rotation (norm or skew) shall be N11/13/2023PENDINGFALSE
- 6.05.03.01The min coil inner rad shall be 0.04 m11/13/2023PENDINGFALSE
- 6.05.03.01The min gap shall be TBD m11/13/2023PENDINGTRUE
- 6.05.03.01The good field aperture drx required shall be TBD m11/13/2023PENDINGTRUE
- 6.05.03.01The good field aperture dry required shall be TBD m11/13/2023PENDINGTRUE
- 6.05.03.01The mag length shall be 0.9 m11/13/2023PENDINGFALSE
- 6.05.03.01The eff Length shall be TBD m11/13/2023PENDINGTRUE
- 6.05.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.03.01The grad field G shall be 12.5085 T/m(n-1)11/13/2023PENDINGFALSE
- 6.05.03.01The ramp rate shall be TBD T/s11/13/2023PENDINGTRUE
- 6.05.03.01The field stability shall be TBD T/s11/13/2023PENDINGTRUE
- 6.05.03.01The good field region requirements shall be TBD ppm11/13/2023PENDINGTRUE
- 6.05.03.01The harmonic reference radius shall be TBD mm11/13/2023PENDINGTRUE
- 6.05.03.01The max b1 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b2 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b3 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b4 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b5 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b6 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b7 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b8 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b9 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b10 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b11 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b12 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b13 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b14 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b15 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b16 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The magnet shall be designed to limit Xtalk Requirements TBD11/13/2023PENDINGTRUE
- 6.05.03.01The X-talk shall be controlled at the following location TBD11/13/2023PENDINGTRUE
- 6.05.03.01The max radial distance to X-talk location content shall be TBD mm11/13/2023PENDINGTRUE
- 6.05.03.01The max analysis radius content shall be TBD mm11/13/2023PENDINGTRUE
- 6.05.03.01The max X-talk multipoles content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max B1 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B2 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B3 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B4 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B5 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B6 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B7 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B8 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B9 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B10 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B11 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B12 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B13 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B14 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B15 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B16 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The magnet design shall constrain the ext. fringe field TBD11/13/2023PENDINGTRUE
- 6.05.03.01The fringe field shall be constrained at the following location TBD mm11/13/2023PENDINGTRUE
- 6.05.03.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023PENDINGTRUE
- HSR-ATR-MAG-SEPT1 : HSR ATR Magnet 45170 (WBS 6.05.03.01)
- 6.05.03.01The magnet function shall be 111/13/2023PENDINGFALSE
- 6.05.03.01The field type shall be(Sol,Dip,Quad,Sext,Octu) Septum11/13/2023PENDINGFALSE
- 6.05.03.01The field dir (ver or hor) shall be H-bend11/13/2023PENDINGFALSE
- 6.05.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.03.01The min gap shall be 0.04 m11/13/2023PENDINGFALSE
- 6.05.03.01The good field aperture drx required shall be TBD m11/13/2023PENDINGTRUE
- 6.05.03.01The good field aperture dry required shall be TBD m11/13/2023PENDINGTRUE
- 6.05.03.01The mag length shall be 1.5 m11/13/2023PENDINGFALSE
- 6.05.03.01The eff Length shall be TBD m11/13/2023PENDINGTRUE
- 6.05.03.01The dipole field B shall be 1.09449375 T11/13/2023PENDINGFALSE
- 6.05.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.03.01The ramp rate shall be TBD T/s11/13/2023PENDINGTRUE
- 6.05.03.01The field stability shall be TBD T/s11/13/2023PENDINGTRUE
- 6.05.03.01The good field region requirements shall be TBD ppm11/13/2023PENDINGTRUE
- 6.05.03.01The harmonic reference radius shall be TBD mm11/13/2023PENDINGTRUE
- 6.05.03.01The max b1 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b2 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b3 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b4 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b5 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b6 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b7 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b8 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b9 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b10 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b11 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b12 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b13 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b14 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b15 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b16 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The magnet shall be designed to limit Xtalk Requirements TBD11/13/2023PENDINGTRUE
- 6.05.03.01The X-talk shall be controlled at the following location TBD11/13/2023PENDINGTRUE
- 6.05.03.01The max radial distance to X-talk location content shall be TBD mm11/13/2023PENDINGTRUE
- 6.05.03.01The max analysis radius content shall be TBD mm11/13/2023PENDINGTRUE
- 6.05.03.01The max X-talk multipoles content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max B1 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B2 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B3 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B4 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B5 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B6 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B7 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B8 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B9 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B10 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B11 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B12 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B13 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B14 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B15 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B16 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The magnet design shall constrain the ext. fringe field TBD11/13/2023PENDINGTRUE
- 6.05.03.01The fringe field shall be constrained at the following location TBD mm11/13/2023PENDINGTRUE
- 6.05.03.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023PENDINGTRUE
- HSR-ATR-MAG-SEPT2 : HSR ATR Magnet 45171 (WBS 6.05.03.01)
- 6.05.03.01The magnet function shall be 111/13/2023PENDINGFALSE
- 6.05.03.01The field type shall be(Sol,Dip,Quad,Sext,Octu) Septum11/13/2023PENDINGFALSE
- 6.05.03.01The field dir (ver or hor) shall be H-bend11/13/2023PENDINGFALSE
- 6.05.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.03.01The min gap shall be 0.04 m11/13/2023PENDINGFALSE
- 6.05.03.01The good field aperture drx required shall be TBD m11/13/2023PENDINGTRUE
- 6.05.03.01The good field aperture dry required shall be TBD m11/13/2023PENDINGTRUE
- 6.05.03.01The mag length shall be 2.5 m11/13/2023PENDINGFALSE
- 6.05.03.01The eff Length shall be TBD m11/13/2023PENDINGTRUE
- 6.05.03.01The dipole field B shall be 1.82415625 T11/13/2023PENDINGFALSE
- 6.05.03.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.03.01The ramp rate shall be TBD T/s11/13/2023PENDINGTRUE
- 6.05.03.01The field stability shall be TBD T/s11/13/2023PENDINGTRUE
- 6.05.03.01The good field region requirements shall be TBD ppm11/13/2023PENDINGTRUE
- 6.05.03.01The harmonic reference radius shall be TBD mm11/13/2023PENDINGTRUE
- 6.05.03.01The max b1 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b2 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b3 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b4 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b5 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b6 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b7 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b8 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b9 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b10 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b11 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b12 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b13 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b14 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b15 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max b16 content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The magnet shall be designed to limit Xtalk Requirements TBD11/13/2023PENDINGTRUE
- 6.05.03.01The X-talk shall be controlled at the following location TBD11/13/2023PENDINGTRUE
- 6.05.03.01The max radial distance to X-talk location content shall be TBD mm11/13/2023PENDINGTRUE
- 6.05.03.01The max analysis radius content shall be TBD mm11/13/2023PENDINGTRUE
- 6.05.03.01The max X-talk multipoles content shall be TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.03.01The max B1 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B2 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B3 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B4 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B5 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B6 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B7 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B8 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B9 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B10 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B11 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B12 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B13 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B14 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B15 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The max B16 content shall be TBD T11/13/2023PENDINGTRUE
- 6.05.03.01The magnet design shall constrain the ext. fringe field TBD11/13/2023PENDINGTRUE
- 6.05.03.01The fringe field shall be constrained at the following location TBD mm11/13/2023PENDINGTRUE
- 6.05.03.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023PENDINGTRUE
- HSR-ATR-PS : HSR ATR Magnet Power Supply (WBS 6.05.03.02)
- HSR-ATR-PS-C1 : HSR ATR Magnet Power Supply C1 (WBS 6.05.03.02)
- 6.05.03.02The number of Independent functions on the magnets being powered shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The maximum magnet string resistance to be powered shall be TBD ohm11/13/2023PENDINGTRUE
- 6.05.03.02The maximum magnet string inductance to be powered shall be TBD H11/13/2023PENDINGTRUE
- 6.05.03.02The magnets being powered shall be saturated TBD Y/N11/13/2023PENDINGTRUE
- 6.05.03.02The miits rating of the magnet being powred shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The voltage to ground of the magnet being powered shall be TBD V11/13/2023PENDINGTRUE
- 6.05.03.02The nominal current of the magnets being powered shall be TBD A11/13/2023PENDINGTRUE
- 6.05.03.02The minmum current the PS must operate at shall be TBD A11/13/2023PENDINGTRUE
- 6.05.03.02The maximum current the PS must operate at shall be TBD A11/13/2023PENDINGTRUE
- 6.05.03.02The PS current type DC or AC shall be TBD DC\AC11/13/2023PENDINGTRUE
- 6.05.03.02The PS AC waveshape required shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The peak waveshape di/dt during ramping shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The full power bandwidth required shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The ppm of full scale current (peak to peak) shall be TBD %11/13/2023PENDINGTRUE
- 6.05.03.02The time period for specified stability shall be TBD s11/13/2023PENDINGTRUE
- 6.05.03.02The short term stability shall be TBD A/s11/13/2023PENDINGTRUE
- 6.05.03.02The long term stability shall be TBD A/s11/13/2023PENDINGTRUE
- 6.05.03.02The current setpoint resolution (min size in bits) shall be TBD bits11/13/2023PENDINGTRUE
- 6.05.03.02The synchronization required between PS's shall be TBD s11/13/2023PENDINGTRUE
- 6.05.03.02The synchronization timing of synchronization shall be TBD s11/13/2023PENDINGTRUE
- 6.05.03.02The max allowable current ripple (peak to peak) TBD A11/13/2023PENDINGTRUE
- 6.05.03.02The max current ripple frequency range (Hz) TBD Hz11/13/2023PENDINGTRUE
- 6.05.03.02WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz11/13/2023PENDINGTRUE
- 6.05.03.02The max voltage ripple (peak to peak) shall be TBD V11/13/2023PENDINGTRUE
- 6.05.03.02An NMR shall be required to measure the field TBD A/s11/13/2023PENDINGTRUE
- 6.05.03.02The voltage tap configuration shall be TBD -11/13/2023PENDINGTRUE
- 6.05.03.02The threshold levels shall be TBD V11/13/2023PENDINGTRUE
- 6.05.03.02The peak di/dt without inducing a quench shall be TBD A/S11/13/2023PENDINGTRUE
- 6.05.03.02The design shall have quench heaters TBD Y/N11/13/2023PENDINGTRUE
- 6.05.03.02The quench heater power rating shall be TBD W11/13/2023PENDINGTRUE
- 6.05.03.02The design shall have warm up heaters TBD Y/N11/13/2023PENDINGTRUE
- 6.05.03.02The warmup heater power rating shall be TBD W11/13/2023PENDINGTRUE
- 6.05.03.02The current required to be shunted through the magnet shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The magnet turns ratio shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The terminal voltage shall be TBD V11/13/2023PENDINGTRUE
- 6.05.03.02The design shall have thermal switches TBD11/13/2023PENDINGTRUE
- 6.05.03.02The thermal switch connection numbers shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The design shall have water flow switches TBD11/13/2023PENDINGTRUE
- 6.05.03.02The water flow switch connections numbers shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The design shall have access controls interlocks TBD11/13/2023PENDINGTRUE
- 6.05.03.02The main terminals lug details shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The lead end indications shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The lugs details for thermal switch and water switches shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The lug details for the auxiliary windings shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The A/B terminal labeling details shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The magnet drawing with terminations details shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The magnet polarity connections shall be TBD11/13/2023PENDINGTRUE
- HSR-ATR-PS-D1 : HSR ATR Magnet Power Supply D1 (WBS 6.05.03.02)
- 6.05.03.02The number of Independent functions on the magnets being powered shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The maximum magnet string resistance to be powered shall be TBD ohm11/13/2023PENDINGTRUE
- 6.05.03.02The maximum magnet string inductance to be powered shall be TBD H11/13/2023PENDINGTRUE
- 6.05.03.02The magnets being powered shall be saturated TBD Y/N11/13/2023PENDINGTRUE
- 6.05.03.02The miits rating of the magnet being powred shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The voltage to ground of the magnet being powered shall be TBD V11/13/2023PENDINGTRUE
- 6.05.03.02The nominal current of the magnets being powered shall be TBD A11/13/2023PENDINGTRUE
- 6.05.03.02The minmum current the PS must operate at shall be TBD A11/13/2023PENDINGTRUE
- 6.05.03.02The maximum current the PS must operate at shall be TBD A11/13/2023PENDINGTRUE
- 6.05.03.02The PS current type DC or AC shall be TBD DC\AC11/13/2023PENDINGTRUE
- 6.05.03.02The PS AC waveshape required shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The peak waveshape di/dt during ramping shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The full power bandwidth required shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The ppm of full scale current (peak to peak) shall be TBD %11/13/2023PENDINGTRUE
- 6.05.03.02The time period for specified stability shall be TBD s11/13/2023PENDINGTRUE
- 6.05.03.02The short term stability shall be TBD A/s11/13/2023PENDINGTRUE
- 6.05.03.02The long term stability shall be TBD A/s11/13/2023PENDINGTRUE
- 6.05.03.02The current setpoint resolution (min size in bits) shall be TBD bits11/13/2023PENDINGTRUE
- 6.05.03.02The synchronization required between PS's shall be TBD s11/13/2023PENDINGTRUE
- 6.05.03.02The synchronization timing of synchronization shall be TBD s11/13/2023PENDINGTRUE
- 6.05.03.02The max allowable current ripple (peak to peak) TBD A11/13/2023PENDINGTRUE
- 6.05.03.02The max current ripple frequency range (Hz) TBD Hz11/13/2023PENDINGTRUE
- 6.05.03.02WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz11/13/2023PENDINGTRUE
- 6.05.03.02The max voltage ripple (peak to peak) shall be TBD V11/13/2023PENDINGTRUE
- 6.05.03.02An NMR shall be required to measure the field TBD A/s11/13/2023PENDINGTRUE
- 6.05.03.02The voltage tap configuration shall be TBD -11/13/2023PENDINGTRUE
- 6.05.03.02The threshold levels shall be TBD V11/13/2023PENDINGTRUE
- 6.05.03.02The peak di/dt without inducing a quench shall be TBD A/S11/13/2023PENDINGTRUE
- 6.05.03.02The design shall have quench heaters TBD Y/N11/13/2023PENDINGTRUE
- 6.05.03.02The quench heater power rating shall be TBD W11/13/2023PENDINGTRUE
- 6.05.03.02The design shall have warm up heaters TBD Y/N11/13/2023PENDINGTRUE
- 6.05.03.02The warmup heater power rating shall be TBD W11/13/2023PENDINGTRUE
- 6.05.03.02The current required to be shunted through the magnet shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The magnet turns ratio shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The terminal voltage shall be TBD V11/13/2023PENDINGTRUE
- 6.05.03.02The design shall have thermal switches TBD11/13/2023PENDINGTRUE
- 6.05.03.02The thermal switch connection numbers shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The design shall have water flow switches TBD11/13/2023PENDINGTRUE
- 6.05.03.02The water flow switch connections numbers shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The design shall have access controls interlocks TBD11/13/2023PENDINGTRUE
- 6.05.03.02The main terminals lug details shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The lead end indications shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The lugs details for thermal switch and water switches shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The lug details for the auxiliary windings shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The A/B terminal labeling details shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The magnet drawing with terminations details shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The magnet polarity connections shall be TBD11/13/2023PENDINGTRUE
- HSR-ATR-PS-D2 : HSR ATR Magnet Power Supply D2 (WBS 6.05.03.02)
- 6.05.03.02The number of Independent functions on the magnets being powered shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The maximum magnet string resistance to be powered shall be TBD ohm11/13/2023PENDINGTRUE
- 6.05.03.02The maximum magnet string inductance to be powered shall be TBD H11/13/2023PENDINGTRUE
- 6.05.03.02The magnets being powered shall be saturated TBD Y/N11/13/2023PENDINGTRUE
- 6.05.03.02The miits rating of the magnet being powred shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The voltage to ground of the magnet being powered shall be TBD V11/13/2023PENDINGTRUE
- 6.05.03.02The nominal current of the magnets being powered shall be TBD A11/13/2023PENDINGTRUE
- 6.05.03.02The minmum current the PS must operate at shall be TBD A11/13/2023PENDINGTRUE
- 6.05.03.02The maximum current the PS must operate at shall be TBD A11/13/2023PENDINGTRUE
- 6.05.03.02The PS current type DC or AC shall be TBD DC\AC11/13/2023PENDINGTRUE
- 6.05.03.02The PS AC waveshape required shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The peak waveshape di/dt during ramping shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The full power bandwidth required shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The ppm of full scale current (peak to peak) shall be TBD %11/13/2023PENDINGTRUE
- 6.05.03.02The time period for specified stability shall be TBD s11/13/2023PENDINGTRUE
- 6.05.03.02The short term stability shall be TBD A/s11/13/2023PENDINGTRUE
- 6.05.03.02The long term stability shall be TBD A/s11/13/2023PENDINGTRUE
- 6.05.03.02The current setpoint resolution (min size in bits) shall be TBD bits11/13/2023PENDINGTRUE
- 6.05.03.02The synchronization required between PS's shall be TBD s11/13/2023PENDINGTRUE
- 6.05.03.02The synchronization timing of synchronization shall be TBD s11/13/2023PENDINGTRUE
- 6.05.03.02The max allowable current ripple (peak to peak) TBD A11/13/2023PENDINGTRUE
- 6.05.03.02The max current ripple frequency range (Hz) TBD Hz11/13/2023PENDINGTRUE
- 6.05.03.02WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz11/13/2023PENDINGTRUE
- 6.05.03.02The max voltage ripple (peak to peak) shall be TBD V11/13/2023PENDINGTRUE
- 6.05.03.02An NMR shall be required to measure the field TBD A/s11/13/2023PENDINGTRUE
- 6.05.03.02The voltage tap configuration shall be TBD -11/13/2023PENDINGTRUE
- 6.05.03.02The threshold levels shall be TBD V11/13/2023PENDINGTRUE
- 6.05.03.02The peak di/dt without inducing a quench shall be TBD A/S11/13/2023PENDINGTRUE
- 6.05.03.02The design shall have quench heaters TBD Y/N11/13/2023PENDINGTRUE
- 6.05.03.02The quench heater power rating shall be TBD W11/13/2023PENDINGTRUE
- 6.05.03.02The design shall have warm up heaters TBD Y/N11/13/2023PENDINGTRUE
- 6.05.03.02The warmup heater power rating shall be TBD W11/13/2023PENDINGTRUE
- 6.05.03.02The current required to be shunted through the magnet shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The magnet turns ratio shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The terminal voltage shall be TBD V11/13/2023PENDINGTRUE
- 6.05.03.02The design shall have thermal switches TBD11/13/2023PENDINGTRUE
- 6.05.03.02The thermal switch connection numbers shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The design shall have water flow switches TBD11/13/2023PENDINGTRUE
- 6.05.03.02The water flow switch connections numbers shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The design shall have access controls interlocks TBD11/13/2023PENDINGTRUE
- 6.05.03.02The main terminals lug details shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The lead end indications shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The lugs details for thermal switch and water switches shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The lug details for the auxiliary windings shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The A/B terminal labeling details shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The magnet drawing with terminations details shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The magnet polarity connections shall be TBD11/13/2023PENDINGTRUE
- HSR-ATR-PS-D3 : HSR ATR Magnet Power Supply D3 (WBS 6.05.03.02)
- 6.05.03.02The number of Independent functions on the magnets being powered shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The maximum magnet string resistance to be powered shall be TBD ohm11/13/2023PENDINGTRUE
- 6.05.03.02The maximum magnet string inductance to be powered shall be TBD H11/13/2023PENDINGTRUE
- 6.05.03.02The magnets being powered shall be saturated TBD Y/N11/13/2023PENDINGTRUE
- 6.05.03.02The miits rating of the magnet being powred shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The voltage to ground of the magnet being powered shall be TBD V11/13/2023PENDINGTRUE
- 6.05.03.02The nominal current of the magnets being powered shall be TBD A11/13/2023PENDINGTRUE
- 6.05.03.02The minmum current the PS must operate at shall be TBD A11/13/2023PENDINGTRUE
- 6.05.03.02The maximum current the PS must operate at shall be TBD A11/13/2023PENDINGTRUE
- 6.05.03.02The PS current type DC or AC shall be TBD DC\AC11/13/2023PENDINGTRUE
- 6.05.03.02The PS AC waveshape required shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The peak waveshape di/dt during ramping shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The full power bandwidth required shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The ppm of full scale current (peak to peak) shall be TBD %11/13/2023PENDINGTRUE
- 6.05.03.02The time period for specified stability shall be TBD s11/13/2023PENDINGTRUE
- 6.05.03.02The short term stability shall be TBD A/s11/13/2023PENDINGTRUE
- 6.05.03.02The long term stability shall be TBD A/s11/13/2023PENDINGTRUE
- 6.05.03.02The current setpoint resolution (min size in bits) shall be TBD bits11/13/2023PENDINGTRUE
- 6.05.03.02The synchronization required between PS's shall be TBD s11/13/2023PENDINGTRUE
- 6.05.03.02The synchronization timing of synchronization shall be TBD s11/13/2023PENDINGTRUE
- 6.05.03.02The max allowable current ripple (peak to peak) TBD A11/13/2023PENDINGTRUE
- 6.05.03.02The max current ripple frequency range (Hz) TBD Hz11/13/2023PENDINGTRUE
- 6.05.03.02WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz11/13/2023PENDINGTRUE
- 6.05.03.02The max voltage ripple (peak to peak) shall be TBD V11/13/2023PENDINGTRUE
- 6.05.03.02An NMR shall be required to measure the field TBD A/s11/13/2023PENDINGTRUE
- 6.05.03.02The voltage tap configuration shall be TBD -11/13/2023PENDINGTRUE
- 6.05.03.02The threshold levels shall be TBD V11/13/2023PENDINGTRUE
- 6.05.03.02The peak di/dt without inducing a quench shall be TBD A/S11/13/2023PENDINGTRUE
- 6.05.03.02The design shall have quench heaters TBD Y/N11/13/2023PENDINGTRUE
- 6.05.03.02The quench heater power rating shall be TBD W11/13/2023PENDINGTRUE
- 6.05.03.02The design shall have warm up heaters TBD Y/N11/13/2023PENDINGTRUE
- 6.05.03.02The warmup heater power rating shall be TBD W11/13/2023PENDINGTRUE
- 6.05.03.02The current required to be shunted through the magnet shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The magnet turns ratio shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The terminal voltage shall be TBD V11/13/2023PENDINGTRUE
- 6.05.03.02The design shall have thermal switches TBD11/13/2023PENDINGTRUE
- 6.05.03.02The thermal switch connection numbers shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The design shall have water flow switches TBD11/13/2023PENDINGTRUE
- 6.05.03.02The water flow switch connections numbers shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The design shall have access controls interlocks TBD11/13/2023PENDINGTRUE
- 6.05.03.02The main terminals lug details shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The lead end indications shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The lugs details for thermal switch and water switches shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The lug details for the auxiliary windings shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The A/B terminal labeling details shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The magnet drawing with terminations details shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The magnet polarity connections shall be TBD11/13/2023PENDINGTRUE
- HSR-ATR-PS-D4 : HSR ATR Magnet Power Supply D4 (WBS 6.05.03.02)
- 6.05.03.02The number of Independent functions on the magnets being powered shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The maximum magnet string resistance to be powered shall be TBD ohm11/13/2023PENDINGTRUE
- 6.05.03.02The maximum magnet string inductance to be powered shall be TBD H11/13/2023PENDINGTRUE
- 6.05.03.02The magnets being powered shall be saturated TBD Y/N11/13/2023PENDINGTRUE
- 6.05.03.02The miits rating of the magnet being powred shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The voltage to ground of the magnet being powered shall be TBD V11/13/2023PENDINGTRUE
- 6.05.03.02The nominal current of the magnets being powered shall be TBD A11/13/2023PENDINGTRUE
- 6.05.03.02The minmum current the PS must operate at shall be TBD A11/13/2023PENDINGTRUE
- 6.05.03.02The maximum current the PS must operate at shall be TBD A11/13/2023PENDINGTRUE
- 6.05.03.02The PS current type DC or AC shall be TBD DC\AC11/13/2023PENDINGTRUE
- 6.05.03.02The PS AC waveshape required shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The peak waveshape di/dt during ramping shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The full power bandwidth required shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The ppm of full scale current (peak to peak) shall be TBD %11/13/2023PENDINGTRUE
- 6.05.03.02The time period for specified stability shall be TBD s11/13/2023PENDINGTRUE
- 6.05.03.02The short term stability shall be TBD A/s11/13/2023PENDINGTRUE
- 6.05.03.02The long term stability shall be TBD A/s11/13/2023PENDINGTRUE
- 6.05.03.02The current setpoint resolution (min size in bits) shall be TBD bits11/13/2023PENDINGTRUE
- 6.05.03.02The synchronization required between PS's shall be TBD s11/13/2023PENDINGTRUE
- 6.05.03.02The synchronization timing of synchronization shall be TBD s11/13/2023PENDINGTRUE
- 6.05.03.02The max allowable current ripple (peak to peak) TBD A11/13/2023PENDINGTRUE
- 6.05.03.02The max current ripple frequency range (Hz) TBD Hz11/13/2023PENDINGTRUE
- 6.05.03.02WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz11/13/2023PENDINGTRUE
- 6.05.03.02The max voltage ripple (peak to peak) shall be TBD V11/13/2023PENDINGTRUE
- 6.05.03.02An NMR shall be required to measure the field TBD A/s11/13/2023PENDINGTRUE
- 6.05.03.02The voltage tap configuration shall be TBD -11/13/2023PENDINGTRUE
- 6.05.03.02The threshold levels shall be TBD V11/13/2023PENDINGTRUE
- 6.05.03.02The peak di/dt without inducing a quench shall be TBD A/S11/13/2023PENDINGTRUE
- 6.05.03.02The design shall have quench heaters TBD Y/N11/13/2023PENDINGTRUE
- 6.05.03.02The quench heater power rating shall be TBD W11/13/2023PENDINGTRUE
- 6.05.03.02The design shall have warm up heaters TBD Y/N11/13/2023PENDINGTRUE
- 6.05.03.02The warmup heater power rating shall be TBD W11/13/2023PENDINGTRUE
- 6.05.03.02The current required to be shunted through the magnet shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The magnet turns ratio shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The terminal voltage shall be TBD V11/13/2023PENDINGTRUE
- 6.05.03.02The design shall have thermal switches TBD11/13/2023PENDINGTRUE
- 6.05.03.02The thermal switch connection numbers shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The design shall have water flow switches TBD11/13/2023PENDINGTRUE
- 6.05.03.02The water flow switch connections numbers shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The design shall have access controls interlocks TBD11/13/2023PENDINGTRUE
- 6.05.03.02The main terminals lug details shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The lead end indications shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The lugs details for thermal switch and water switches shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The lug details for the auxiliary windings shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The A/B terminal labeling details shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The magnet drawing with terminations details shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The magnet polarity connections shall be TBD11/13/2023PENDINGTRUE
- HSR-ATR-PS-DVERT_1 : HSR ATR Magnet Power Supply DVERT_1 (WBS 6.05.03.02)
- 6.05.03.02The number of Independent functions on the magnets being powered shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The maximum magnet string resistance to be powered shall be TBD ohm11/13/2023PENDINGTRUE
- 6.05.03.02The maximum magnet string inductance to be powered shall be TBD H11/13/2023PENDINGTRUE
- 6.05.03.02The magnets being powered shall be saturated TBD Y/N11/13/2023PENDINGTRUE
- 6.05.03.02The miits rating of the magnet being powred shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The voltage to ground of the magnet being powered shall be TBD V11/13/2023PENDINGTRUE
- 6.05.03.02The nominal current of the magnets being powered shall be TBD A11/13/2023PENDINGTRUE
- 6.05.03.02The minmum current the PS must operate at shall be TBD A11/13/2023PENDINGTRUE
- 6.05.03.02The maximum current the PS must operate at shall be TBD A11/13/2023PENDINGTRUE
- 6.05.03.02The PS current type DC or AC shall be TBD DC\AC11/13/2023PENDINGTRUE
- 6.05.03.02The PS AC waveshape required shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The peak waveshape di/dt during ramping shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The full power bandwidth required shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The ppm of full scale current (peak to peak) shall be TBD %11/13/2023PENDINGTRUE
- 6.05.03.02The time period for specified stability shall be TBD s11/13/2023PENDINGTRUE
- 6.05.03.02The short term stability shall be TBD A/s11/13/2023PENDINGTRUE
- 6.05.03.02The long term stability shall be TBD A/s11/13/2023PENDINGTRUE
- 6.05.03.02The current setpoint resolution (min size in bits) shall be TBD bits11/13/2023PENDINGTRUE
- 6.05.03.02The synchronization required between PS's shall be TBD s11/13/2023PENDINGTRUE
- 6.05.03.02The synchronization timing of synchronization shall be TBD s11/13/2023PENDINGTRUE
- 6.05.03.02The max allowable current ripple (peak to peak) TBD A11/13/2023PENDINGTRUE
- 6.05.03.02The max current ripple frequency range (Hz) TBD Hz11/13/2023PENDINGTRUE
- 6.05.03.02WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz11/13/2023PENDINGTRUE
- 6.05.03.02The max voltage ripple (peak to peak) shall be TBD V11/13/2023PENDINGTRUE
- 6.05.03.02An NMR shall be required to measure the field TBD A/s11/13/2023PENDINGTRUE
- 6.05.03.02The voltage tap configuration shall be TBD -11/13/2023PENDINGTRUE
- 6.05.03.02The threshold levels shall be TBD V11/13/2023PENDINGTRUE
- 6.05.03.02The peak di/dt without inducing a quench shall be TBD A/S11/13/2023PENDINGTRUE
- 6.05.03.02The design shall have quench heaters TBD Y/N11/13/2023PENDINGTRUE
- 6.05.03.02The quench heater power rating shall be TBD W11/13/2023PENDINGTRUE
- 6.05.03.02The design shall have warm up heaters TBD Y/N11/13/2023PENDINGTRUE
- 6.05.03.02The warmup heater power rating shall be TBD W11/13/2023PENDINGTRUE
- 6.05.03.02The current required to be shunted through the magnet shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The magnet turns ratio shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The terminal voltage shall be TBD V11/13/2023PENDINGTRUE
- 6.05.03.02The design shall have thermal switches TBD11/13/2023PENDINGTRUE
- 6.05.03.02The thermal switch connection numbers shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The design shall have water flow switches TBD11/13/2023PENDINGTRUE
- 6.05.03.02The water flow switch connections numbers shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The design shall have access controls interlocks TBD11/13/2023PENDINGTRUE
- 6.05.03.02The main terminals lug details shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The lead end indications shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The lugs details for thermal switch and water switches shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The lug details for the auxiliary windings shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The A/B terminal labeling details shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The magnet drawing with terminations details shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The magnet polarity connections shall be TBD11/13/2023PENDINGTRUE
- HSR-ATR-PS-Q1 : HSR ATR Magnet Power Supply Q1 (WBS 6.05.03.02)
- 6.05.03.02The number of Independent functions on the magnets being powered shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The maximum magnet string resistance to be powered shall be TBD ohm11/13/2023PENDINGTRUE
- 6.05.03.02The maximum magnet string inductance to be powered shall be TBD H11/13/2023PENDINGTRUE
- 6.05.03.02The magnets being powered shall be saturated TBD Y/N11/13/2023PENDINGTRUE
- 6.05.03.02The miits rating of the magnet being powred shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The voltage to ground of the magnet being powered shall be TBD V11/13/2023PENDINGTRUE
- 6.05.03.02The nominal current of the magnets being powered shall be TBD A11/13/2023PENDINGTRUE
- 6.05.03.02The minmum current the PS must operate at shall be TBD A11/13/2023PENDINGTRUE
- 6.05.03.02The maximum current the PS must operate at shall be TBD A11/13/2023PENDINGTRUE
- 6.05.03.02The PS current type DC or AC shall be TBD DC\AC11/13/2023PENDINGTRUE
- 6.05.03.02The PS AC waveshape required shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The peak waveshape di/dt during ramping shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The full power bandwidth required shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The ppm of full scale current (peak to peak) shall be TBD %11/13/2023PENDINGTRUE
- 6.05.03.02The time period for specified stability shall be TBD s11/13/2023PENDINGTRUE
- 6.05.03.02The short term stability shall be TBD A/s11/13/2023PENDINGTRUE
- 6.05.03.02The long term stability shall be TBD A/s11/13/2023PENDINGTRUE
- 6.05.03.02The current setpoint resolution (min size in bits) shall be TBD bits11/13/2023PENDINGTRUE
- 6.05.03.02The synchronization required between PS's shall be TBD s11/13/2023PENDINGTRUE
- 6.05.03.02The synchronization timing of synchronization shall be TBD s11/13/2023PENDINGTRUE
- 6.05.03.02The max allowable current ripple (peak to peak) TBD A11/13/2023PENDINGTRUE
- 6.05.03.02The max current ripple frequency range (Hz) TBD Hz11/13/2023PENDINGTRUE
- 6.05.03.02WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz11/13/2023PENDINGTRUE
- 6.05.03.02The max voltage ripple (peak to peak) shall be TBD V11/13/2023PENDINGTRUE
- 6.05.03.02An NMR shall be required to measure the field TBD A/s11/13/2023PENDINGTRUE
- 6.05.03.02The voltage tap configuration shall be TBD -11/13/2023PENDINGTRUE
- 6.05.03.02The threshold levels shall be TBD V11/13/2023PENDINGTRUE
- 6.05.03.02The peak di/dt without inducing a quench shall be TBD A/S11/13/2023PENDINGTRUE
- 6.05.03.02The design shall have quench heaters TBD Y/N11/13/2023PENDINGTRUE
- 6.05.03.02The quench heater power rating shall be TBD W11/13/2023PENDINGTRUE
- 6.05.03.02The design shall have warm up heaters TBD Y/N11/13/2023PENDINGTRUE
- 6.05.03.02The warmup heater power rating shall be TBD W11/13/2023PENDINGTRUE
- 6.05.03.02The current required to be shunted through the magnet shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The magnet turns ratio shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The terminal voltage shall be TBD V11/13/2023PENDINGTRUE
- 6.05.03.02The design shall have thermal switches TBD11/13/2023PENDINGTRUE
- 6.05.03.02The thermal switch connection numbers shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The design shall have water flow switches TBD11/13/2023PENDINGTRUE
- 6.05.03.02The water flow switch connections numbers shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The design shall have access controls interlocks TBD11/13/2023PENDINGTRUE
- 6.05.03.02The main terminals lug details shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The lead end indications shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The lugs details for thermal switch and water switches shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The lug details for the auxiliary windings shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The A/B terminal labeling details shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The magnet drawing with terminations details shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The magnet polarity connections shall be TBD11/13/2023PENDINGTRUE
- HSR-ATR-PS-SEPT1 : HSR ATR Magnet Power Supply 45170 (WBS 6.05.03.02)
- 6.05.03.02The number of Independent functions on the magnets being powered shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The maximum magnet string resistance to be powered shall be TBD ohm11/13/2023PENDINGTRUE
- 6.05.03.02The maximum magnet string inductance to be powered shall be TBD H11/13/2023PENDINGTRUE
- 6.05.03.02The magnets being powered shall be saturated TBD Y/N11/13/2023PENDINGTRUE
- 6.05.03.02The miits rating of the magnet being powred shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The voltage to ground of the magnet being powered shall be TBD V11/13/2023PENDINGTRUE
- 6.05.03.02The nominal current of the magnets being powered shall be TBD A11/13/2023PENDINGTRUE
- 6.05.03.02The minmum current the PS must operate at shall be TBD A11/13/2023PENDINGTRUE
- 6.05.03.02The maximum current the PS must operate at shall be TBD A11/13/2023PENDINGTRUE
- 6.05.03.02The PS current type DC or AC shall be TBD DC\AC11/13/2023PENDINGTRUE
- 6.05.03.02The PS AC waveshape required shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The peak waveshape di/dt during ramping shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The full power bandwidth required shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The ppm of full scale current (peak to peak) shall be TBD %11/13/2023PENDINGTRUE
- 6.05.03.02The time period for specified stability shall be TBD s11/13/2023PENDINGTRUE
- 6.05.03.02The short term stability shall be TBD A/s11/13/2023PENDINGTRUE
- 6.05.03.02The long term stability shall be TBD A/s11/13/2023PENDINGTRUE
- 6.05.03.02The current setpoint resolution (min size in bits) shall be TBD bits11/13/2023PENDINGTRUE
- 6.05.03.02The synchronization required between PS's shall be TBD s11/13/2023PENDINGTRUE
- 6.05.03.02The synchronization timing of synchronization shall be TBD s11/13/2023PENDINGTRUE
- 6.05.03.02The max allowable current ripple (peak to peak) TBD A11/13/2023PENDINGTRUE
- 6.05.03.02The max current ripple frequency range (Hz) TBD Hz11/13/2023PENDINGTRUE
- 6.05.03.02WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz11/13/2023PENDINGTRUE
- 6.05.03.02The max voltage ripple (peak to peak) shall be TBD V11/13/2023PENDINGTRUE
- 6.05.03.02An NMR shall be required to measure the field TBD A/s11/13/2023PENDINGTRUE
- 6.05.03.02The voltage tap configuration shall be TBD -11/13/2023PENDINGTRUE
- 6.05.03.02The threshold levels shall be TBD V11/13/2023PENDINGTRUE
- 6.05.03.02The peak di/dt without inducing a quench shall be TBD A/S11/13/2023PENDINGTRUE
- 6.05.03.02The design shall have quench heaters TBD Y/N11/13/2023PENDINGTRUE
- 6.05.03.02The quench heater power rating shall be TBD W11/13/2023PENDINGTRUE
- 6.05.03.02The design shall have warm up heaters TBD Y/N11/13/2023PENDINGTRUE
- 6.05.03.02The warmup heater power rating shall be TBD W11/13/2023PENDINGTRUE
- 6.05.03.02The current required to be shunted through the magnet shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The magnet turns ratio shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The terminal voltage shall be TBD V11/13/2023PENDINGTRUE
- 6.05.03.02The design shall have thermal switches TBD11/13/2023PENDINGTRUE
- 6.05.03.02The thermal switch connection numbers shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The design shall have water flow switches TBD11/13/2023PENDINGTRUE
- 6.05.03.02The water flow switch connections numbers shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The design shall have access controls interlocks TBD11/13/2023PENDINGTRUE
- 6.05.03.02The main terminals lug details shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The lead end indications shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The lugs details for thermal switch and water switches shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The lug details for the auxiliary windings shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The A/B terminal labeling details shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The magnet drawing with terminations details shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The magnet polarity connections shall be TBD11/13/2023PENDINGTRUE
- HSR-ATR-PS-SEPT2 : HSR ATR Magnet Power Supply 45171 (WBS 6.05.03.02)
- 6.05.03.02The number of Independent functions on the magnets being powered shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The maximum magnet string resistance to be powered shall be TBD ohm11/13/2023PENDINGTRUE
- 6.05.03.02The maximum magnet string inductance to be powered shall be TBD H11/13/2023PENDINGTRUE
- 6.05.03.02The magnets being powered shall be saturated TBD Y/N11/13/2023PENDINGTRUE
- 6.05.03.02The miits rating of the magnet being powred shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The voltage to ground of the magnet being powered shall be TBD V11/13/2023PENDINGTRUE
- 6.05.03.02The nominal current of the magnets being powered shall be TBD A11/13/2023PENDINGTRUE
- 6.05.03.02The minmum current the PS must operate at shall be TBD A11/13/2023PENDINGTRUE
- 6.05.03.02The maximum current the PS must operate at shall be TBD A11/13/2023PENDINGTRUE
- 6.05.03.02The PS current type DC or AC shall be TBD DC\AC11/13/2023PENDINGTRUE
- 6.05.03.02The PS AC waveshape required shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The peak waveshape di/dt during ramping shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The full power bandwidth required shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The ppm of full scale current (peak to peak) shall be TBD %11/13/2023PENDINGTRUE
- 6.05.03.02The time period for specified stability shall be TBD s11/13/2023PENDINGTRUE
- 6.05.03.02The short term stability shall be TBD A/s11/13/2023PENDINGTRUE
- 6.05.03.02The long term stability shall be TBD A/s11/13/2023PENDINGTRUE
- 6.05.03.02The current setpoint resolution (min size in bits) shall be TBD bits11/13/2023PENDINGTRUE
- 6.05.03.02The synchronization required between PS's shall be TBD s11/13/2023PENDINGTRUE
- 6.05.03.02The synchronization timing of synchronization shall be TBD s11/13/2023PENDINGTRUE
- 6.05.03.02The max allowable current ripple (peak to peak) TBD A11/13/2023PENDINGTRUE
- 6.05.03.02The max current ripple frequency range (Hz) TBD Hz11/13/2023PENDINGTRUE
- 6.05.03.02WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz11/13/2023PENDINGTRUE
- 6.05.03.02The max voltage ripple (peak to peak) shall be TBD V11/13/2023PENDINGTRUE
- 6.05.03.02An NMR shall be required to measure the field TBD A/s11/13/2023PENDINGTRUE
- 6.05.03.02The voltage tap configuration shall be TBD -11/13/2023PENDINGTRUE
- 6.05.03.02The threshold levels shall be TBD V11/13/2023PENDINGTRUE
- 6.05.03.02The peak di/dt without inducing a quench shall be TBD A/S11/13/2023PENDINGTRUE
- 6.05.03.02The design shall have quench heaters TBD Y/N11/13/2023PENDINGTRUE
- 6.05.03.02The quench heater power rating shall be TBD W11/13/2023PENDINGTRUE
- 6.05.03.02The design shall have warm up heaters TBD Y/N11/13/2023PENDINGTRUE
- 6.05.03.02The warmup heater power rating shall be TBD W11/13/2023PENDINGTRUE
- 6.05.03.02The current required to be shunted through the magnet shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The magnet turns ratio shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The terminal voltage shall be TBD V11/13/2023PENDINGTRUE
- 6.05.03.02The design shall have thermal switches TBD11/13/2023PENDINGTRUE
- 6.05.03.02The thermal switch connection numbers shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The design shall have water flow switches TBD11/13/2023PENDINGTRUE
- 6.05.03.02The water flow switch connections numbers shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The design shall have access controls interlocks TBD11/13/2023PENDINGTRUE
- 6.05.03.02The main terminals lug details shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The lead end indications shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The lugs details for thermal switch and water switches shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The lug details for the auxiliary windings shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The A/B terminal labeling details shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The magnet drawing with terminations details shall be TBD11/13/2023PENDINGTRUE
- 6.05.03.02The magnet polarity connections shall be TBD11/13/2023PENDINGTRUE
- HSR-COLL : HSR Momentum Collimator System (WBS 6.06.03.02)
- HSR-COLL-1ST_SECDRY : HSR Momentum First Set of Secondary Collimators (WBS 6.06.03.02)
- 6.06.03.02The HSR secondary vertical collimator shall be placed at Sector 1211/13/2023APPROVEDFALSE
- 6.06.03.02The HSR secondary horizontal collimator shall be placed at Sector 1211/13/2023APPROVEDFALSE
- 6.06.03.02The vertical aperture shall range from 2 to 25 mm11/13/2023APPROVEDFALSE
- 6.06.03.02vertical stepsize (resolution) 10 um11/13/2023APPROVEDFALSE
- 6.06.03.02The horizontal aperture shall range from 12.5 to 45 mm11/13/2023APPROVEDFALSE
- 6.06.03.02The horizontal stepsize (resolution) shall be 10 um11/13/2023APPROVEDFALSE
- 6.06.03.02The secondary HSR collimators shall have dual jaws.11/13/2023APPROVEDFALSE
- 6.06.03.02The aperture shall be centered on the beam axis.11/13/2023APPROVEDFALSE
- 6.06.03.02The duty cycle shall be steady state.11/13/2023APPROVEDFALSE
- 6.06.03.02The tapered jaw slope shall be 1\1011/13/2023APPROVEDFALSE
- 6.06.03.02The jaw tip length shall be 50 cm11/13/2023APPROVEDFALSE
- 6.06.03.02The jaw material shall be C11/13/2023APPROVEDFALSE
- 6.06.03.02The total length shall be tbd cm11/13/2023APPROVEDTRUE
- 6.06.03.02The beam energy deposition shall be tbd W11/13/2023APPROVEDTRUE
- 6.06.03.02The beam failure energy deposition shall be tbd J11/13/2023APPROVEDTRUE
- HSR-COLL-2ND_SECDRY : HSR Momentum Second Set of Secondary Collimators (WBS 6.06.03.02)
- 6.06.03.02The HSR secondary vertical collimator shall be placed at Sector 1111/13/2023APPROVEDFALSE
- 6.06.03.02The HSR secondary horizontal collimator shall be placed at Sector 1111/13/2023APPROVEDFALSE
- 6.06.03.02The vertical aperture shall range from 4 to 50 mm11/13/2023APPROVEDFALSE
- 6.06.03.02The vertical stepsize (resolution) shall be 10 um11/13/2023APPROVEDFALSE
- 6.06.03.02The horizontal aperture shall range from 8 to 30 mm11/13/2023APPROVEDFALSE
- 6.06.03.02The horizontal stepsize (resolution) shall be 10 um11/13/2023APPROVEDFALSE
- 6.06.03.02The secondary HSR collimators shall have dual jaws.11/13/2023APPROVEDFALSE
- 6.06.03.02The aperture shall be centered on the beam axis.11/13/2023APPROVEDFALSE
- 6.06.03.02The duty cycle shall be steady state.11/13/2023APPROVEDFALSE
- 6.06.03.02The tapered jaw slope shall be 1\1011/13/2023APPROVEDFALSE
- 6.06.03.02The jaw tip length shall be 50 cm11/13/2023APPROVEDFALSE
- 6.06.03.02The jaw material shall be C11/13/2023APPROVEDFALSE
- 6.06.03.02The total length shall be tbd cm11/13/2023APPROVEDTRUE
- 6.06.03.02The beam energy deposition shall be tbd W11/13/2023APPROVEDTRUE
- 6.06.03.02The beam failure energy deposition shall be tbd J11/13/2023APPROVEDTRUE
- HSR-COLL-ABS : HSR Momentum Injection Absorbers (WBS 6.06.03.02)
- 6.06.03.02The HSR Injection absorber shall be placed in Sector 411/13/2023APPROVEDFALSE
- 6.06.03.02The HSR Injection absorber shall be horizontal11/13/2023APPROVEDFALSE
- 6.06.03.02The horizontal aperture shall be tbd mm11/13/2023APPROVEDTRUE
- 6.06.03.02The horizontal aperture shall be fixed.11/13/2023APPROVEDFALSE
- 6.06.03.02The HSR injection absorber should be one-sided.11/13/2023APPROVEDFALSE
- 6.06.03.02The aperture shall be centered on the beam axis.11/13/2023APPROVEDFALSE
- 6.06.03.02The beam energy deposition shall be intermittent (injection failures)11/13/2023APPROVEDFALSE
- 6.06.03.02The energy deposition from synchrotron radiation shall be negligible.11/13/2023APPROVEDFALSE
- 6.06.03.02The tapered jaw slope shall be 1\1011/13/2023APPROVEDFALSE
- 6.06.03.02The jaw tip length shall be 100 cm11/13/2023APPROVEDFALSE
- 6.06.03.02The jaw material shall be tbd11/13/2023APPROVEDTRUE
- 6.06.03.02The total length shall be tbd cm11/13/2023APPROVEDTRUE
- HSR-COLL-MOM : HSR Momentum Collimator (WBS 6.06.03.02)
- 6.06.03.02The HSR momentum collimator shall be horizontal.11/13/2023APPROVEDFALSE
- 6.06.03.02The horizontal aperture shall have a half gap of 40 mm11/13/2023APPROVEDFALSE
- 6.06.03.02The horizontal aperture shall cover a range of gap sizes min=TBD to a max=TBD mm11/13/2023APPROVEDTRUE
- 6.06.03.02The horizontal stepsize (resolution) shall be 10 um11/13/2023APPROVEDFALSE
- 6.06.03.02The HSR momentum collimator shall have dual jaws.11/13/2023APPROVEDFALSE
- 6.06.03.02The aperture shall be centered on the beam axis.11/13/2023APPROVEDFALSE
- 6.06.03.02The beam energy deposition shall be tbd W11/13/2023APPROVEDTRUE
- 6.06.03.02The beam energy deposition shall be continuous11/13/2023APPROVEDFALSE
- 6.06.03.02The impedance shall be less than the Impedance budget of tbd kV/pc11/13/2023APPROVEDTRUE
- 6.06.03.02The tapered jaw slope shall be tbd11/13/2023APPROVEDTRUE
- 6.06.03.02The beam failure energy deposition shall be 1 J11/13/2023APPROVEDFALSE
- 6.06.03.02The failure thermal duty cycle shall be intermittent.11/13/2023APPROVEDFALSE
- 6.06.03.02The jaw tip length shall be 100 cm11/13/2023APPROVEDFALSE
- 6.06.03.02The jaw taper shall be 1\1011/13/2023APPROVEDFALSE
- 6.06.03.02The jaw material shall be tbd11/13/2023APPROVEDTRUE
- 6.06.03.02The total length shall be tbd cm11/13/2023APPROVEDTRUE
- HSR-COLL-PRIM : HSR Momentum Primary Collimators (WBS 6.06.03.02)
- 6.06.03.02The HSR primary vertical collimator shall be placed at Sector 1211/13/2023APPROVEDFALSE
- 6.06.03.02The HSR primary horizontal collimator shall be placed at Sector 1211/13/2023APPROVEDFALSE
- 6.06.03.02The vertical aperture shall range from 0.9 to 20 mm11/13/2023APPROVEDFALSE
- 6.06.03.02The vertical stepsize (resolution) shall be 10 um11/13/2023APPROVEDFALSE
- 6.06.03.02The horizontal aperture shall range from 7 to 28 mm11/13/2023APPROVEDFALSE
- 6.06.03.02The horizontal stepsize (resolution) shall be 10 um11/13/2023APPROVEDFALSE
- 6.06.03.02The aperture shall be centered on the beam axis.11/13/2023APPROVEDFALSE
- 6.06.03.02The duty cycle shall be steady state.11/13/2023APPROVEDFALSE
- 6.06.03.02The energy deposition from synchrotron radiation shall be negligible.11/13/2023APPROVEDFALSE
- 6.06.03.02The tapered jaw slope shall be 1\1011/13/2023APPROVEDFALSE
- 6.06.03.02The jaw tip length shall be 50 cm11/13/2023APPROVEDFALSE
- 6.06.03.02The jaw material shall be CU11/13/2023APPROVEDFALSE
- 6.06.03.02The total length shall be tbd cm11/13/2023APPROVEDTRUE
- 6.06.03.02The beam energy deposition shall be tbd W11/13/2023APPROVEDTRUE
- 6.06.03.02The beam failure energy deposition shall be tbd J11/13/2023APPROVEDTRUE
- HSR-CONT : HSR Controls System (WBS 6.07.02)
- HSR-CONT-FEEDBACK : HSR Controls System Feedback (WBS 6.07.02)
- 6.07.02The Slow Orbit Feedback, BPM data averaging period shall be tbd sec11/13/2023APPROVEDTRUE
- 6.07.02The Slow Orbit Feedback, correction output rate shall be 1 Hz11/13/2023APPROVEDFALSE
- 6.07.02The Fast Orbit Feedback, correction output rate shall be 10 Hz11/13/2023APPROVEDFALSE
- 6.07.02The Tune Feedback, measurement sample rate shall be tbd Hz11/13/2023APPROVEDTRUE
- 6.07.02The Tune Feedback, correction rate shall be tbd Hz11/13/2023APPROVEDTRUE
- 6.07.02The Chrom Feedback, measurement sample rate shall be tbd Hz11/13/2023APPROVEDTRUE
- HSR-CONT-SPIN : HSR Controls System Spin Pattern (WBS 6.07.02)
- 6.07.02The Capable to produce arbitrary spin pattern at injection shall be tbd11/13/2023APPROVEDTRUE
- 6.07.02The The injection application can request the source to provide any spin pattern as required up to 290 bunches shall be tbd11/13/2023APPROVEDTRUE
- HSR-INST : HSR Instrumentation System (WBS 6.05.05)
- HSR-INST-BBLM : HSR Instrumentation Bunch-by-Bunch Loss Monitors (WBS 6.05.05.03)
- 6.05.05.03The BBLM monitors shall have a response time better than 10 ns11/13/2023APPROVEDFALSE
- 6.05.05.03The BBLM shall be present at the primary collimators and at the injection region.11/13/2023APPROVEDFALSE
- HSR-INST-BBTM : HSR Instrumentation Base-band Tune Meter System (WBS 6.05.05.03)
- 6.05.05.03Tune measurement resolution of the BBTM shall be tbd11/13/2023APPROVEDTRUE
- 6.05.05.03Location of BBTM shall be in sector 211/13/2023APPROVEDFALSE
- 6.05.05.03Impedance requirements of BBTM shall be approved by Beam Physics tbd11/13/2023APPROVEDTRUE
- 6.05.05.03The BBTM shall be mounted on an X-Y translation stage, having the same capability as the RHIC unit or better yes11/13/2023APPROVEDFALSE
- HSR-INST-BLM : HSR Instrumentation Beam Loss Monitors (WBS 6.05.05.03)
- 6.05.05.03HSR BLMs shall be placed in the following locations tbd11/13/2023APPROVEDTRUE
- 6.05.05.03The BLM for the MPS shall have the same capabilities as the existing RHIC BLM's11/13/2023APPROVEDFALSE
- 6.05.05.03The BLMS shall be compatible with Beam loss detection to abort time of tbd11/13/2023APPROVEDTRUE
- 6.05.05.03The BLM shall be capable of detecting slow quench detection limit shall be 8 mW/g11/13/2023APPROVEDFALSE
- 6.05.05.03The BLM shall be capable of detecting fast quench detection limit shall be 2 mJ/g11/13/2023APPROVEDFALSE
- 6.05.05.03The BLM shall be capable of detecting the slow energy losses present during injection energy of 0.25 rad/s11/13/2023APPROVEDFALSE
- 6.05.05.03The BLM shall be capable of detecting the uniform energy loss per turn, at injection of 78.3 krad/s11/13/2023APPROVEDFALSE
- HSR-INST-BPM : HSR Instrumentation Beam Position Monitor System (WBS 6.05.05.01)
- HSR-INST-BPM-CRYO_Cables : HSR Instrumentation Cryogenic Cables (WBS 6.05.05.01)
- 6.05.05.01New cryo-cables shall connect new button BPMs (at 4.2K) with cryostat cryo-to-air feedthroughs (at ambient temperature)11/13/2023APPROVEDFALSE
- 6.05.05.01Cryo-cables shall be capable of working in the environment defined by cryostat insulating vacuum11/13/2023APPROVEDFALSE
- 6.05.05.01Cryo-cables shall be capable to withstand cryostat thermocycles without affecting integrity of connections11/13/2023APPROVEDFALSE
- 6.05.05.01Cryo-cables shall be flexible enough to be bent in the required form and pass through cryostat heat shield openings11/13/2023APPROVEDFALSE
- 6.05.05.01Cryo-cables for the same BPM assembly shall have a matched length, to provide equivalent transport of electric signals from BPM buttons +/- 5 mm11/13/2023APPROVEDFALSE
- HSR-INST-BPM-CRYO_ELEC : HSR Instrumentation Cryogenic Beam Position Monitor (WBS 6.05.05.01)
- 6.05.05.01The BPM electronics for the cryogenic pick-ups located in the HSR arcs (defined in this case as from-Q5-to-Q5) shall be able to provide measurements during the store with a considerably shifted beam radial orbit, having a maximum radial orbit shift range from +\- 21 mm11/13/2023APPROVEDFALSE
- 6.05.05.01There shall be no requirement on BPMs to perform individual measurements for each bunch, when more than one bunch is present.11/13/2023APPROVEDFALSE
- 6.05.05.01For a 5 nC bunch at injection parameters the BPM resolution when measuring one turn orbit shall not be larger than 2 mm RMS11/13/2023APPROVEDFALSE
- 6.05.05.01For a 44 nC bunch at injection parameters the BPM resolution when measuring one turn orbit shall not be larger than 0.2 mm RMS11/13/2023APPROVEDFALSE
- 6.05.05.01The BPM system shall be capable of delivering an array of at least 1024 consecutive single-turn position measurements at a rate of 1 array per second11/13/2023APPROVEDFALSE
- 6.05.05.01The BPM system shall be capable of delivering average orbit measurements at a continuous rate of 1 Hz11/13/2023APPROVEDFALSE
- 6.05.05.01For 5 nC single bunch at injection parameters, when averaged over a 1 second period the resolution for measuring the average orbit shall not be larger than 200 μm RMS11/13/2023APPROVEDFALSE
- 6.05.05.01For 44 nC bunch at acceleration ramp parameters, when averaged over a 1 second period, the resolution for measuring the average orbit shall not be larger than 20 μm RMS11/13/2023APPROVEDFALSE
- 6.05.05.01For bunch charge of 5 nC and above at collision energies, when averaged over a 1 second period. The resolution for measuring the average orbit shall not be larger than 20 μm RMS11/13/2023PENDINGFALSE
- 6.05.05.01For bunch charge below 5 nC at collision energies, when averaged over a 1 second period. The resolution for measuring the average orbit shall not be larger than 100 μm RMS11/13/2023PENDINGFALSE
- 6.05.05.01The BPM system shall require a subset of BPMs that operate the fast orbit feedback system having at least bandwidth of 1 kHz11/13/2023APPROVEDFALSE
- 6.05.05.01The BPM system shall be able to provide average orbit measurements to the orbit feedback system11/13/2023PENDINGFALSE
- 6.05.05.01The BPM pick-up operational tolerance on drifts due to thermal variations shall be <50 um11/13/2023PENDINGFALSE
- HSR-INST-BPM-CRYO_PU : HSR Instrumentation Cryogenic Beam Position Monitor Pick-ups (WBS 6.05.05.01)
- 6.05.05.01Existing RHIC stripline BPMs shall be shielded as they will no longer be needed in the HSR.11/13/2023APPROVEDFALSE
- 6.05.05.01New BPMs shall be placed in available locations as close as possible to the existing RHIC stripline BPMs.11/13/2023APPROVEDFALSE
- 6.05.05.01New BPMs shall be placed in new, additional locations in the straight sections approved by physics.11/13/2023APPROVEDFALSE
- 6.05.05.01New BPMs shall be able to operate at cold temperatures (~4.2K) with minimal load on the cryogenic system.11/13/2023APPROVEDFALSE
- 6.05.05.01The new and existing BPMs shall compatibly interface with the new coated sleeves that are being added to the HSR cold vacuum pipe.11/13/2023APPROVEDFALSE
- 6.05.05.01New BPMs shall have the same measurement plane(s) as the closest existing RHIC stripline BPM.11/13/2023APPROVEDFALSE
- 6.05.05.01The difference between the BPM electrical center vertical position and quadrupole magnetic center shall be known to less than +/-0.300 mm11/13/2023APPROVEDFALSE
- 6.05.05.01The difference between the BPM electrical center horizontal position and quadrupole magnetic center shall be known to less than +/-0.600 mm11/13/2023APPROVEDFALSE
- 6.05.05.01For all beam operational modes [see MPT], the BPMs at the arc focusing quads shall be capable to provide reliable measurement of the horizontal orbit position in the range of +/- 23 mm11/13/2023APPROVEDFALSE
- 6.05.05.01For all beam operational modes [see MPT], the BPMs at the arc defocusing quads shall be capable to provide reliable measurement of the horizontal orbit position in the range of +/-12 mm11/13/2023APPROVEDFALSE
- 6.05.05.01For all beam operational modes [see MPT], the BPMs at the all quads shall be capable to provide reliable measurement of the vertical orbit position in the range of +/-2 mm11/13/2023APPROVEDFALSE
- HSR-INST-BPM-SNAKE&SPINR_PU : HSR Instrumentation Cryogenic Snake & Rotator Beam Position Monitor Pick-ups (WBS 6.05.05.01)
- 6.05.05.01Existing RHIC stripline BPMs in center of Snakes and Rotators shall be replaced with new button BPMs11/13/2023PENDINGFALSE
- 6.05.05.01The BPMs shall be able to operate at cold temperatures (~4.2K) with minimal load on the cryogenic system.11/13/2023PENDINGFALSE
- 6.05.05.01The BPMs shall compatibly interface with the new coated cold vacuum pipe of Snake and Rotators11/13/2023PENDINGFALSE
- 6.05.05.01The BPMs shall be able to measure both horizontal and vertical beam positions11/13/2023PENDINGFALSE
- 6.05.05.01The BPM mechanical centers shall be aligned relative to the magnetic centers of nearby helical magnets within at least 0.5 mm11/13/2023PENDINGFALSE
- 6.05.05.01For injection operational mode [see MPT], the BPMs shall be capable of providing reliable measurement of the horizontal orbit position in the range of +/-10 mm11/13/2023PENDINGFALSE
- 6.05.05.01For injection operational mode [see MPT], the BPMs shall be capable of providing reliable measurement of the vertical orbit position in the range of +/-30 mm11/13/2023PENDINGFALSE
- 6.05.05.01For store beam operational modes [see MPT], the BPMs shall be capable of providing reliable measurement of the horizontal orbit position in the range of +/-15 mm11/13/2023PENDINGFALSE
- 6.05.05.01For store beam operational modes [see MPT], the BPMs shall be capable of providing reliable measurement of the vertical orbit position in the range of +/-10 mm11/13/2023PENDINGFALSE
- HSR-INST-BPM-WARM_ELEC : HSR Instrumentation Warm Beam Position Monitor (WBS 6.05.05.01)
- 6.05.05.01The warm BPMs and the electronics shall only be required to provide precision measurements in the range from -3 mm to 3 mm. +\- 3 mm11/13/2023APPROVEDFALSE
- 6.05.05.01There shall be no requirement on warm BPMs to perform individual measurements for each bunch, when more than one bunch is present.11/13/2023APPROVEDFALSE
- 6.05.05.01For a 5 nC bunch at injection parameters the BPM resolution for measuring one turn orbit shall not be larger than 2 mm RMS11/13/2023APPROVEDFALSE
- 6.05.05.01For a 44 nC bunch at injection parameters, the BPM resolution for measuring one turn orbit shall not be larger than 0.2 mm RMS11/13/2023APPROVEDFALSE
- 6.05.05.01The BPM system shall be capable of delivering an array of at least 1024 consecutive single-turn position measurements at a rate of 1 array per second11/13/2023APPROVEDFALSE
- 6.05.05.01The BPM system shall be capable of delivering average orbit measurements at a continuous rate of 1 Hz11/13/2023APPROVEDFALSE
- 6.05.05.01For 5 nC bunch at injection parameters, when averaged over a 1 second period. The resolution for measuring the average orbit shall not be larger than 200 μm RMS11/13/2023APPROVEDFALSE
- 6.05.05.01For a 44 nC bunch at acceleration ramp parameters, when averaged over a 1 second period the resolution for measuring the average orbit shall not be larger than 20 μm RMS11/13/2023APPROVEDFALSE
- 6.05.05.01For bunch charge of 5 nC and above at collision energies, when averaged over a 1 second period. The resolution for measuring the average orbit shall not be larger than 20 μm RMS11/13/2023APPROVEDFALSE
- 6.05.05.01For bunch charge below 5 nC at collision energies, when averaged over a 1 second period. The resolution for measuring the average orbit shall not be larger than 100 μm RMS11/13/2023PENDINGFALSE
- 6.05.05.01As part of the fast orbit feedback the warm Q1 and Q3 BPMs shall deliver data at rate to be 10 kHz11/13/2023APPROVEDFALSE
- 6.05.05.01The warm BPM system shall be able to provide average orbit measurements to an orbit feedback system having a bandwidth of at least 1 Hz11/13/2023PENDINGFALSE
- HSR-INST-BPM-WARM_PU : HSR Instrumentation Warm Beam Position Monitor Pick-ups (WBS 6.05.05.01)
- 6.05.05.01New warm BPMs shall be added on both sides of the triplets to replace the Q1 and Q3 BPMs11/13/2023APPROVEDFALSE
- 6.05.05.01New warm BPMs shall be added in IR4 injection area for adequate measurement of both injected and circulating beam11/13/2023APPROVEDFALSE
- 6.05.05.01New warm BPMs shall be added in IR2 cooling section for reliable alignment of hadron and electron beam11/13/2023APPROVEDFALSE
- 6.05.05.01The Q1 and Q3 cryogenic BPM pickups shall be shielded by beam screens for the triplets11/13/2023APPROVEDFALSE
- 6.05.05.01All warm BPMs shall provide position measurements in both planes11/13/2023APPROVEDFALSE
- 6.05.05.01The warm BPM mechanical centers shall be aligned with nearby beam element center within at least 0.15 mm11/13/2023APPROVEDFALSE
- 6.05.05.01The relative shift induced by cryogenic cooling between BPM mechanical centers and the quadrupole centers shall not exceed tbd mm11/13/2023APPROVEDTRUE
- 6.05.05.01With bunch charges of 5nC the warm BPMs shall be capable to provide reliable measurement of the orbit position in the range +\- 5 mm11/13/2023APPROVEDFALSE
- HSR-INST-DCCT : HSR Instrumentation Current and Charge Monitor (WBS 6.05.05.03)
- 6.05.05.03The DCCT shall have an average current measurement resolution of <5 μA11/13/2023APPROVEDFALSE
- 6.05.05.03The DCCT shall be Located at tbd11/13/2023APPROVEDTRUE
- 6.05.05.03The DCCT shall have a measurement drift tolerance (thermal effects) of ≤10-3 units?11/13/2023APPROVEDFALSE
- 6.05.05.03The DCCT shall have teh ability to to measure the average beam current over a range of 0.390 to 1 mA11/13/2023APPROVEDFALSE
- 6.05.05.03The DCCT system shall have a self calibration system11/13/2023APPROVEDFALSE
- 6.05.05.03The DCCT system shall provide measurements with absolute accuracy of better than 0.2 %11/13/2023APPROVEDFALSE
- 6.05.05.03The measured average current shall be provided to users at a rate of 10 Hz with an RMS noise of less than 0.1 %11/13/2023APPROVEDFALSE
- 6.05.05.03The measured average current shall be archived at a rate of 1 Hz11/13/2023APPROVEDFALSE
- 6.05.05.03The DCCT sensor shall be radiation resistant11/13/2023APPROVEDFALSE
- 6.05.05.03The DCCT shall be able to operate in the temperature range 15-35 °C11/13/2023APPROVEDFALSE
- 6.05.05.03The DCCT sensor shall be abl eto operate in a field of Less than <.01 Gauss11/13/2023APPROVEDFALSE
- 6.05.05.03The impedance of DCCT sensor shall be approved by beam physics11/13/2023APPROVEDFALSE
- 6.05.05.03The DCCT shall be capable of measuring the beam lifetime11/13/2023APPROVEDFALSE
- HSR-INST-FBSYS : HSR Instrumentation Global Orbit Feedback System (WBS 6.05.05.03)
- 6.05.05.03The global slow orbit FBSYS shall provide the data required by the global orbit correction system in HSR at a rate of 1 Hz11/13/2023APPROVEDFALSE
- 6.05.05.03The FBSYS shall be compatible with the existing Dipole correctors in the HSR arcs11/13/2023APPROVEDFALSE
- 6.05.05.03The FBSYS shall add new dipole correctors in the interaction region and some straight sections as needed11/13/2023APPROVEDFALSE
- 6.05.05.03The 10 Hz GFBS shall be able to suppress orbit oscillation at frequencies around 10 Hz11/13/2023APPROVEDFALSE
- 6.05.05.03New air-core correctors shall be added in the interaction region as needed to make the global orbit corrector system operational11/13/2023APPROVEDFALSE
- HSR-INST-GAPCL : HSR Instrumentation Gap Cleaner (WBS 6.05.05.03)
- 6.05.05.03The kicker stripline and HV PS shall be able to porvide a kick strength for x(seconds)?? see above tbd urad11/13/2023APPROVEDTRUE
- 6.05.05.03The location of the GAPCL shall any where on the HSR no constraints11/13/2023APPROVEDFALSE
- 6.05.05.03Impedance values of the GAPCL shall be approved by accelerator physics.11/13/2023APPROVEDFALSE
- 6.05.05.03The GAPCL assembly shall be capable of being baked for a period of (TBD) hours to 250 deg C11/13/2023APPROVEDTRUE
- 6.05.05.03The GAPCL shall be able to be combined with other similar kickers tbd11/13/2023APPROVEDTRUE
- HSR-INST-HTPU : HSR Instrumentation Head-tail Pick-up (WBS 6.05.05.03)
- 6.05.05.03The HTPU shall have a resolution of tbd tbd11/13/2023APPROVEDTRUE
- 6.05.05.03The HTPU shall have a X-Y translation stage to center the detector tbd tbd11/13/2023APPROVEDTRUE
- 6.05.05.03The HTPU shall have a time constant compatible with the time constant of RF fields in crab cavities tbd tbd11/13/2023APPROVEDTRUE
- HSR-INST-INJDAMP : HSR Instrumentation Injection Damper (WBS 6.05.05.03)
- 6.05.05.03The IDAMP design shall have a kick strength of 10 urad11/13/2023APPROVEDFALSE
- 6.05.05.03The IDAMP shall be located at tbd11/13/2023APPROVEDTRUE
- 6.05.05.03The Impedance of the IDAMP shall be approved by beam Physics. tbd11/13/2023APPROVEDTRUE
- 6.05.05.03The IDAMP assembly shall be capable of being baked for a period of (TBD) hours to 250 deg C11/13/2023APPROVEDTRUE
- HSR-INST-LBBD : HSR Instrumentation Longitudinal Bunch-by-Bunch Damper (WBS 6.05.05.03)
- 6.05.05.03The HSR shall have longitudinal bunch damper LBBD. tbd11/13/2023APPROVEDTRUE
- 6.05.05.03The LBBD shall be able to damp an instability with an e-folding time = 1 ms. 1 ms11/13/2023APPROVEDFALSE
- 6.05.05.03The LBBD damping rate shall be tbd11/13/2023APPROVEDTRUE
- HSR-INST-LPM : HSR Instrumentation Longitudinal Profile Monitors (WBS 6.05.05.03)
- 6.05.05.03The LPM shall be able to measure single bunch profiles averaged over 1000 turns with resolution of. 50 ps11/13/2023PENDINGFALSE
- 6.05.05.03The LPM shall have the same capability as in RHIC to measure a sequence of averaged single bunch profiles on the scale of several seconds during the bunch splitting and bunch compression process to provide mountain range displays.11/13/2023APPROVEDFALSE
- 6.05.05.03The LPM shall be able to measure the integrated charge of a single bunch averaged over 1000 turns with of resolution. 0.5 nC11/13/2023APPROVEDFALSE
- 6.05.05.03The LPM shall be able to make simultaneous measurement of integrated charge of each bunch circulating in the HSR, thus providing bunch pattern data.11/13/2023APPROVEDFALSE
- 6.05.05.03The LPM shall be able to accommodate all bunch parameters in set forth in the MPT.11/13/2023APPROVEDFALSE
- HSR-INST-SLK : HSR Instrumentation Stripline Kicker (WBS 6.05.05.03)
- 6.05.05.03The location of SLK shall be close to the RF system.11/13/2023APPROVEDFALSE
- 6.05.05.03The Impedance of the SLK shall not exceed tbd Ohms?11/13/2023APPROVEDTRUE
- 6.05.05.03The SLK shall be able to deflection capability of tbd (mrad kick)11/13/2023APPROVEDTRUE
- 6.05.05.03The SLK assembly shall be capable of being baked for a period of (TBD) hours to 250 deg C11/13/2023APPROVEDTRUE
- 6.05.05.03The SLK shall be able to be combined with other similar kickers tbd11/13/2023APPROVEDTRUE
- HSR-INST-TBBD : HSR Instrumentation Transverse Bunch-by-Bunch Damper (WBS 6.05.05.03)
- 6.05.05.03The TBBD design shall have a kick strength of tbd11/13/2023APPROVEDTRUE
- 6.05.05.03The TBBD shall be located at tbd11/13/2023APPROVEDTRUE
- 6.05.05.03The Impedance requirements of kicker tbd11/13/2023APPROVEDTRUE
- 6.05.05.03The TBBD assembly shall be capable of being baked for a period of (TBD) hours to 250 deg C11/13/2023APPROVEDTRUE
- 6.05.05.03The TBBD shall be able to be combined with other similar kickers tbd11/13/2023APPROVEDTRUE
- HSR-INST-TMK : HSR Instrumentation Horizontal and Vertical Tune Meter Kicker (WBS 6.05.05.03)
- 6.05.05.03The TMK design shall have a kick strength of 10 urad11/13/2023APPROVEDFALSE
- 6.05.05.03The TMK shall be located at11/13/2023APPROVEDFALSE
- 6.05.05.03The TMK Impedance values shall be approved by accelerator physics.11/13/2023APPROVEDFALSE
- 6.05.05.03The TMK assembly shall be capable of being baked for a period of (TBD) hours to 250 deg C11/13/2023APPROVEDTRUE
- 6.05.05.03The TMK shall be able to be combined with other similar kickers tbd11/13/2023APPROVEDTRUE
- HSR-INST-TPM : HSR Instrumentation Transverse Profile Monitors (WBS 6.05.05.03)
- 6.05.05.03The transverse profile monitors shall have the capability to produce profiles of an individual proton bunch over a bunch charge range from 5 to 44 nC.11/13/2023APPROVEDFALSE
- 6.05.05.03The transverse profile monitors shall have the capability to measure profiles of bunch trains separated by 1/3 of the HSR circumference.11/13/2023APPROVEDFALSE
- 6.05.05.03The transverse profile monitors shall provide continuous measurements with an intervals of 30 s11/13/2023APPROVEDFALSE
- 6.05.05.03The transverse profile monitors shall have the capability to measure turn-by-turn profiles of a single bunch of protons for at least 100 turns11/13/2023APPROVEDFALSE
- 6.05.05.03For horizontal plane profile measurement from 44nC bunches to 5nC bunches, the transverse profile monitors shall have a respective resolution range of 0.5 to 1.5 mm11/13/2023APPROVEDFALSE
- 6.05.05.03For vertical plane profile measurement from 44nC bunches to 5nC bunches, the transverse profile monitors shall have a respective resolution range of 0.15 to 0.5 mm11/13/2023APPROVEDFALSE
- 6.05.05.03The horizonal transverse profile monitor, transverse measurement range shall be +/- 12 mm11/13/2023APPROVEDFALSE
- 6.05.05.03The vertical transverse profile monitor, transverse measurement range shall be +/- 12 mm11/13/2023APPROVEDFALSE
- HSR-MAG : HSR Magnet (WBS 6.05.02.01)
- HSR-MAG- D0 : HSR Magnet D0 (WBS 6.05.02.01)
- 6.05.02.01The number of magnet functions shall be 111/13/2023APPROVEDFALSE
- 6.05.02.01The field type shall be D11/13/2023APPROVEDFALSE
- 6.05.02.01The field dir (ver or hor) shall be V11/13/2023APPROVEDFALSE
- 6.05.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.02.01The min coil inner rad shall be 0.05 m11/13/2023APPROVEDFALSE
- 6.05.02.01The min gap shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The mag length shall be 3.6 m11/13/2023APPROVEDFALSE
- 6.05.02.01The eff Length shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The dipole field B shall be 3.52 T11/13/2023APPROVEDFALSE
- 6.05.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.02.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.05.02.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.05.02.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.05.02.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 1st order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 2nd order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 3rd order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 4th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 5th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 6th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 7th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 8th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 9th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 10th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 11th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 12th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 13th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 14th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 15th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 16th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The magnet shall be designed to limit Xtalk Requirements TBD11/13/2023APPROVEDTRUE
- 6.05.02.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.05.02.01The radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The analysis radius fro xtalk content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The X-talk multipole content shall have TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 1st order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 2nd order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 3rd order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 4th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 5th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 6th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 7th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 8th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 9th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 10th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 11th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 12th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 13th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 14th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 15th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 16th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- HSR-MAG-CORR : HSR Magnet CORR (WBS 6.05.02.01)
- 6.05.02.01The magnet function shall be 111/13/2023APPROVEDFALSE
- 6.05.02.01The field type shall be Decapole11/13/2023APPROVEDFALSE
- 6.05.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.02.01The field rotation (norm or skew) shall be N11/13/2023APPROVEDFALSE
- 6.05.02.01The min coil inner rad shall be 0.04 m11/13/2023APPROVEDFALSE
- 6.05.02.01The min gap shall be - m11/13/2023APPROVEDFALSE
- 6.05.02.01The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The mag length shall be 0.575 m11/13/2023APPROVEDFALSE
- 6.05.02.01The eff Length shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.02.01The grad field G shall be 1150 0.59611/13/2023APPROVEDFALSE
- 6.05.02.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.05.02.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.05.02.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.05.02.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 1st order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 2nd order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 3rd order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 4th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 5th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 6th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 7th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 8th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 9th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 10th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 11th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 12th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 13th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 14th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 15th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 16th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The magnet shall be designed to limit Xtalk Requirements TBD11/13/2023APPROVEDTRUE
- 6.05.02.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.05.02.01The radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The analysis radius fro xtalk content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The X-talk multipole content shall have TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 1st order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 2nd order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 3rd order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 4th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 5th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 6th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 7th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 8th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 9th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 10th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 11th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 12th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 13th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 14th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 15th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 16th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- HSR-MAG-D5I : HSR Magnet D5I (WBS 6.05.02.01)
- 6.05.02.01The number of magnet functions shall be 111/13/2023APPROVEDFALSE
- 6.05.02.01The field type shall be D11/13/2023APPROVEDFALSE
- 6.05.02.01The field dir (ver or hor) shall be V11/13/2023APPROVEDFALSE
- 6.05.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.02.01The min coil inner rad shall be 0.04 m11/13/2023APPROVEDFALSE
- 6.05.02.01The min gap shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The mag length shall be 6.92 m11/13/2023APPROVEDFALSE
- 6.05.02.01The eff Length shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The dipole field B shall be 3.45 T11/13/2023APPROVEDFALSE
- 6.05.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.02.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.05.02.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.05.02.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.05.02.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 1st order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 2nd order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 3rd order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 4th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 5th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 6th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 7th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 8th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 9th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 10th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 11th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 12th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 13th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 14th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 15th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 16th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The magnet shall be designed to limit Xtalk Requirements TBD11/13/2023APPROVEDTRUE
- 6.05.02.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.05.02.01The radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The analysis radius fro xtalk content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The X-talk multipole content shall have TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 1st order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 2nd order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 3rd order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 4th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 5th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 6th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 7th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 8th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 9th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 10th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 11th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 12th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 13th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 14th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 15th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 16th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- HSR-MAG-D5O : HSR Magnet D5O (WBS 6.05.02.01)
- 6.05.02.01The number of magnet functions shall be 111/13/2023APPROVEDFALSE
- 6.05.02.01The field type shall be D11/13/2023APPROVEDFALSE
- 6.05.02.01The field dir (ver or hor) shall be V11/13/2023APPROVEDFALSE
- 6.05.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.02.01The min coil inner rad shall be 0.04 m11/13/2023APPROVEDFALSE
- 6.05.02.01The min gap shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The mag length shall be 8.71 m11/13/2023APPROVEDFALSE
- 6.05.02.01The eff Length shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The dipole field B shall be 3.45 T11/13/2023APPROVEDFALSE
- 6.05.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.02.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.05.02.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.05.02.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.05.02.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 1st order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 2nd order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 3rd order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 4th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 5th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 6th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 7th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 8th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 9th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 10th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 11th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 12th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 13th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 14th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 15th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 16th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The magnet shall be designed to limit Xtalk Requirements TBD11/13/2023APPROVEDTRUE
- 6.05.02.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.05.02.01The radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The analysis radius fro xtalk content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The X-talk multipole content shall have TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 1st order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 2nd order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 3rd order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 4th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 5th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 6th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 7th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 8th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 9th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 10th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 11th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 12th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 13th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 14th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 15th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 16th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- HSR-MAG-D6 : HSR Magnet D6 (WBS 6.05.02.01)
- 6.05.02.01The number of magnet functions shall be 111/13/2023APPROVEDFALSE
- 6.05.02.01The field type shall be D11/13/2023APPROVEDFALSE
- 6.05.02.01The field dir (ver or hor) shall be V11/13/2023APPROVEDFALSE
- 6.05.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.02.01The min coil inner rad shall be 0.04 m11/13/2023APPROVEDFALSE
- 6.05.02.01The min gap shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The mag length shall be 2.95 m11/13/2023APPROVEDFALSE
- 6.05.02.01The eff Length shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The dipole field B shall be 3.45 T11/13/2023APPROVEDFALSE
- 6.05.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.02.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.05.02.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.05.02.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.05.02.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 1st order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 2nd order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 3rd order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 4th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 5th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 6th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 7th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 8th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 9th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 10th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 11th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 12th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 13th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 14th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 15th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 16th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The magnet shall be designed to limit Xtalk Requirements TBD11/13/2023APPROVEDTRUE
- 6.05.02.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.05.02.01The radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The analysis radius fro xtalk content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The X-talk multipole content shall have TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 1st order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 2nd order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 3rd order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 4th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 5th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 6th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 7th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 8th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 9th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 10th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 11th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 12th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 13th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 14th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 15th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 16th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- HSR-MAG-D8 : HSR Magnet D8 (WBS 6.05.02.01)
- 6.05.02.01The number of magnet functions shall be 111/13/2023APPROVEDFALSE
- 6.05.02.01The field type shall be Q11/13/2023APPROVEDFALSE
- 6.05.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.02.01The field rotation (norm or skew) shall be N11/13/2023APPROVEDFALSE
- 6.05.02.01The min coil inner rad shall be 0.04 m11/13/2023APPROVEDFALSE
- 6.05.02.01The min gap shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The mag length shall be 9.45 m11/13/2023APPROVEDFALSE
- 6.05.02.01The eff Length shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The dipole field B shall be 3.458 T11/13/2023APPROVEDFALSE
- 6.05.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.02.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.05.02.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.05.02.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.05.02.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 1st order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 2nd order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 3rd order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 4th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 5th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 6th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 7th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 8th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 9th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 10th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 11th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 12th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 13th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 14th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 15th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 16th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The magnet shall be designed to limit Xtalk Requirements TBD11/13/2023APPROVEDTRUE
- 6.05.02.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.05.02.01The radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The analysis radius fro xtalk content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The X-talk multipole content shall have TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 1st order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 2nd order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 3rd order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 4th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 5th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 6th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 7th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 8th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 9th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 10th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 11th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 12th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 13th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 14th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 15th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 16th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- HSR-MAG-D9 : HSR Magnet D9 (WBS 6.05.02.01)
- 6.05.02.01The number of magnet functions shall be 111/13/2023PENDINGFALSE
- 6.05.02.01The field type shall be Q11/13/2023PENDINGFALSE
- 6.05.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.02.01The field rotation (norm or skew) shall be N11/13/2023PENDINGFALSE
- 6.05.02.01The min coil inner rad shall be 0.04 m11/13/2023PENDINGFALSE
- 6.05.02.01The min gap shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The mag length shall be 2.95 m11/13/2023PENDINGFALSE
- 6.05.02.01The eff Length shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The dipole field B shall be 3.45 T11/13/2023PENDINGFALSE
- 6.05.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.02.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.05.02.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.05.02.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.05.02.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 1st order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 2nd order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 3rd order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 4th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 5th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 6th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 7th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 8th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 9th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 10th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 11th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 12th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 13th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 14th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 15th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 16th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The magnet shall be designed to limit Xtalk Requirements TBD11/13/2023APPROVEDTRUE
- 6.05.02.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.05.02.01The radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The analysis radius fro xtalk content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The X-talk multipole content shall have TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 1st order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 2nd order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 3rd order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 4th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 5th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 6th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 7th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 8th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 9th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 10th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 11th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 12th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 13th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 14th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 15th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 16th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- HSR-MAG-DSW : HSR Magnet DSW (WBS 6.05.02.01)
- 6.05.02.01The number of magnet functions shall be 111/13/2023APPROVEDFALSE
- 6.05.02.01The field type shall be Q11/13/2023APPROVEDFALSE
- 6.05.02.01The field dir (ver or hor) shall be ver11/13/2023APPROVEDFALSE
- 6.05.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.02.01The min coil inner rad shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The min gap shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The mag length shall be 5 m11/13/2023APPROVEDFALSE
- 6.05.02.01The eff Length shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.02.01The grad field G shall be TBD T/m(n-1)11/13/2023APPROVEDTRUE
- 6.05.02.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.05.02.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.05.02.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.05.02.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 1st order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 2nd order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 3rd order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 4th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 5th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 6th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 7th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 8th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 9th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 10th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 11th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 12th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 13th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 14th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 15th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 16th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The magnet shall be designed to limit Xtalk Requirements TBD11/13/2023APPROVEDTRUE
- 6.05.02.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.05.02.01The radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The analysis radius fro xtalk content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The X-talk multipole content shall have TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 1st order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 2nd order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 3rd order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 4th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 5th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 6th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 7th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 8th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 9th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 10th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 11th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 12th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 13th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 14th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 15th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 16th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- HSR-MAG-DX : HSR Magnet DX (WBS 6.05.02.01)
- 6.05.02.01The number of magnet functions shall be 111/13/2023APPROVEDFALSE
- 6.05.02.01The field type shall be D11/13/2023APPROVEDFALSE
- 6.05.02.01The field dir (ver or hor) shall be V11/13/2023APPROVEDFALSE
- 6.05.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.02.01The min coil inner rad shall be 0.09 m11/13/2023APPROVEDFALSE
- 6.05.02.01The min gap shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The mag length shall be 3.7 m11/13/2023APPROVEDFALSE
- 6.05.02.01The eff Length shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The dipole field B shall be 3.45 T11/13/2023APPROVEDFALSE
- 6.05.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.02.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.05.02.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.05.02.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.05.02.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 1st order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 2nd order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 3rd order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 4th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 5th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 6th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 7th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 8th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 9th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 10th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 11th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 12th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 13th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 14th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 15th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 16th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The magnet shall be designed to limit Xtalk Requirements TBD11/13/2023APPROVEDTRUE
- 6.05.02.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.05.02.01The radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The analysis radius fro xtalk content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The X-talk multipole content shall have TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 1st order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 2nd order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 3rd order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 4th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 5th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 6th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 7th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 8th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 9th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 10th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 11th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 12th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 13th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 14th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 15th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 16th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- HSR-MAG-HKICK : HSR Magnet HKICK (WBS 6.05.02.01)
- 6.05.02.01The magnet function shall be 111/13/2023APPROVEDFALSE
- 6.05.02.01The field type shall be D11/13/2023APPROVEDFALSE
- 6.05.02.01The field dir (ver or hor) shall be V11/13/2023APPROVEDFALSE
- 6.05.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.02.01The min coil inner rad shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The min gap shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The mag length shall be 0.5 m11/13/2023APPROVEDFALSE
- 6.05.02.01The eff Length shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The dipole field B shall be TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The grad field G shall be TBD T/m(n-1)11/13/2023APPROVEDTRUE
- 6.05.02.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.05.02.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.05.02.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.05.02.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 1st order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 2nd order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 3rd order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 4th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 5th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 6th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 7th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 8th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 9th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 10th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 11th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 12th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 13th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 14th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 15th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 16th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The magnet shall be designed to limit Xtalk Requirements TBD11/13/2023APPROVEDTRUE
- 6.05.02.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.05.02.01The radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The analysis radius fro xtalk content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The X-talk multipole content shall have TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 1st order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 2nd order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 3rd order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 4th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 5th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 6th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 7th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 8th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 9th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 10th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 11th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 12th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 13th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 14th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 15th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 16th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- HSR-MAG-Q : HSR Magnet Q (WBS 6.05.02.01)
- 6.05.02.01The number of magnet functions shall be 111/13/2023APPROVEDFALSE
- 6.05.02.01The field type shall be Q11/13/2023APPROVEDFALSE
- 6.05.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.02.01The field rotation (norm or skew) shall be N11/13/2023APPROVEDFALSE
- 6.05.02.01The min coil inner rad shall be 0.04 m11/13/2023APPROVEDFALSE
- 6.05.02.01The min gap shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The mag length shall be 1.24 m11/13/2023APPROVEDFALSE
- 6.05.02.01The eff Length shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.02.01The grad field G shall be 71.8 (top energy) T/m(n-1)11/13/2023APPROVEDFALSE
- 6.05.02.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.05.02.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.05.02.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.05.02.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 1st order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 2nd order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 3rd order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 4th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 5th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 6th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 7th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 8th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 9th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 10th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 11th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 12th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 13th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 14th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 15th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 16th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The magnet shall be designed to limit Xtalk Requirements TBD11/13/2023APPROVEDTRUE
- 6.05.02.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.05.02.01The radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The analysis radius fro xtalk content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The X-talk multipole content shall have TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 1st order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 2nd order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 3rd order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 4th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 5th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 6th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 7th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 8th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 9th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 10th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 11th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 12th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 13th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 14th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 15th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 16th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- HSR-MAG-Q1 : HSR Magnet Q1 (WBS 6.05.02.01)
- 6.05.02.01The magnet function shall be 111/13/2023APPROVEDFALSE
- 6.05.02.01The field type shall be Q11/13/2023APPROVEDFALSE
- 6.05.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.02.01The field rotation (norm or skew) shall be N11/13/2023APPROVEDFALSE
- 6.05.02.01The min coil inner rad shall be 0.04 m11/13/2023APPROVEDFALSE
- 6.05.02.01The min gap shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The mag length shall be 1.44 m11/13/2023APPROVEDFALSE
- 6.05.02.01The eff Length shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.02.01The grad field G shall be 48.1 T/m(n-1)11/13/2023APPROVEDFALSE
- 6.05.02.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.05.02.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.05.02.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.05.02.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 1st order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 2nd order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 3rd order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 4th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 5th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 6th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 7th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 8th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 9th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 10th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 11th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 12th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 13th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 14th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 15th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 16th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The magnet shall be designed to limit Xtalk Requirements TBD11/13/2023APPROVEDTRUE
- 6.05.02.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.05.02.01The radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The analysis radius fro xtalk content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The X-talk multipole content shall have TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 1st order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 2nd order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 3rd order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 4th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 5th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 6th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 7th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 8th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 9th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 10th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 11th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 12th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 13th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 14th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 15th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 16th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- HSR-MAG-Q2 : HSR Magnet Q2 (WBS 6.05.02.01)
- 6.05.02.01The magnet function shall be 111/13/2023APPROVEDFALSE
- 6.05.02.01The field type shall be Q11/13/2023APPROVEDFALSE
- 6.05.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.02.01The field rotation (norm or skew) shall be N11/13/2023APPROVEDFALSE
- 6.05.02.01The min coil inner rad shall be 0.04 m11/13/2023APPROVEDFALSE
- 6.05.02.01The min gap shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The mag length shall be 3.4 m11/13/2023APPROVEDFALSE
- 6.05.02.01The eff Length shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.02.01The grad field G shall be 47.1 T/m(n-1)11/13/2023APPROVEDFALSE
- 6.05.02.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.05.02.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.05.02.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.05.02.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 1st order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 2nd order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 3rd order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 4th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 5th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 6th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 7th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 8th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 9th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 10th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 11th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 12th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 13th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 14th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 15th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 16th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The magnet shall be designed to limit Xtalk Requirements TBD11/13/2023APPROVEDTRUE
- 6.05.02.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.05.02.01The radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The analysis radius fro xtalk content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The X-talk multipole content shall have TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 1st order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 2nd order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 3rd order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 4th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 5th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 6th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 7th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 8th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 9th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 10th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 11th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 12th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 13th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 14th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 15th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 16th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- HSR-MAG-Q3 : HSR Magnet Q3 (WBS 6.05.02.01)
- 6.05.02.01The magnet function shall be 111/13/2023APPROVEDFALSE
- 6.05.02.01The field type shall be Q11/13/2023APPROVEDFALSE
- 6.05.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.02.01The field rotation (norm or skew) shall be N11/13/2023APPROVEDFALSE
- 6.05.02.01The min coil inner rad shall be 0.04 m11/13/2023APPROVEDFALSE
- 6.05.02.01The min gap shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The mag length shall be 2.1 m11/13/2023APPROVEDFALSE
- 6.05.02.01The eff Length shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.02.01The grad field G shall be 47.3 T/m(n-1)11/13/2023APPROVEDFALSE
- 6.05.02.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.05.02.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.05.02.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.05.02.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 1st order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 2nd order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 3rd order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 4th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 5th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 6th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 7th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 8th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 9th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 10th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 11th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 12th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 13th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 14th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 15th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 16th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The magnet shall be designed to limit Xtalk Requirements TBD11/13/2023APPROVEDTRUE
- 6.05.02.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.05.02.01The radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The analysis radius fro xtalk content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The X-talk multipole content shall have TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 1st order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 2nd order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 3rd order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 4th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 5th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 6th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 7th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 8th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 9th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 10th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 11th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 12th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 13th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 14th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 15th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 16th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- HSR-MAG-Q4 : HSR Magnet Q4 (WBS 6.05.02.01)
- 6.05.02.01The number of magnet functions shall be 111/13/2023APPROVEDFALSE
- 6.05.02.01The field type shall be Q11/13/2023APPROVEDFALSE
- 6.05.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.02.01The field rotation (norm or skew) shall be N11/13/2023APPROVEDFALSE
- 6.05.02.01The min coil inner rad shall be 0.04 m11/13/2023APPROVEDFALSE
- 6.05.02.01The min gap shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The mag length shall be 1.81 m11/13/2023APPROVEDFALSE
- 6.05.02.01The eff Length shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.02.01The grad field G shall be 75.5 T/m(n-1)11/13/2023APPROVEDFALSE
- 6.05.02.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.05.02.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.05.02.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.05.02.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 1st order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 2nd order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 3rd order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 4th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 5th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 6th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 7th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 8th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 9th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 10th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 11th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 12th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 13th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 14th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 15th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 16th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The magnet shall be designed to limit Xtalk Requirements TBD11/13/2023APPROVEDTRUE
- 6.05.02.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.05.02.01The radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The analysis radius fro xtalk content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The X-talk multipole content shall have TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 1st order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 2nd order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 3rd order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 4th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 5th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 6th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 7th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 8th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 9th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 10th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 11th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 12th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 13th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 14th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 15th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 16th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- HSR-MAG-Q5 : HSR Magnet Q5 (WBS 6.05.02.01)
- 6.05.02.01The number of magnet functions shall be 111/13/2023APPROVEDFALSE
- 6.05.02.01The field type shall be Q11/13/2023APPROVEDFALSE
- 6.05.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.02.01The field rotation (norm or skew) shall be N11/13/2023APPROVEDFALSE
- 6.05.02.01The min coil inner rad shall be 0.04 m11/13/2023APPROVEDFALSE
- 6.05.02.01The min gap shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The mag length shall be 1.1 m11/13/2023APPROVEDFALSE
- 6.05.02.01The eff Length shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.02.01The grad field G shall be 75.5 T/m(n-1)11/13/2023APPROVEDFALSE
- 6.05.02.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.05.02.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.05.02.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.05.02.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 1st order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 2nd order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 3rd order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 4th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 5th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 6th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 7th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 8th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 9th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 10th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 11th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 12th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 13th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 14th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 15th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 16th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The magnet shall be designed to limit Xtalk Requirements TBD11/13/2023APPROVEDTRUE
- 6.05.02.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.05.02.01The radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The analysis radius fro xtalk content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The X-talk multipole content shall have TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 1st order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 2nd order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 3rd order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 4th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 5th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 6th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 7th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 8th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 9th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 10th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 11th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 12th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 13th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 14th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 15th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 16th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- HSR-MAG-Q6 : HSR Magnet Q6 (WBS 6.05.02.01)
- 6.05.02.01The number of magnet functions shall be 111/13/2023APPROVEDFALSE
- 6.05.02.01The field type shall be Q11/13/2023APPROVEDFALSE
- 6.05.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.02.01The field rotation (norm or skew) shall be N11/13/2023APPROVEDFALSE
- 6.05.02.01The min coil inner rad shall be 0.04 m11/13/2023APPROVEDFALSE
- 6.05.02.01The min gap shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The mag length shall be 1.1 m11/13/2023APPROVEDFALSE
- 6.05.02.01The eff Length shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.02.01The grad field G shall be 75.5 T/m(n-1)11/13/2023APPROVEDFALSE
- 6.05.02.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.05.02.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.05.02.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.05.02.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 1st order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 2nd order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 3rd order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 4th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 5th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 6th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 7th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 8th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 9th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 10th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 11th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 12th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 13th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 14th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 15th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 16th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The magnet shall be designed to limit Xtalk Requirements TBD11/13/2023APPROVEDTRUE
- 6.05.02.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.05.02.01The radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The analysis radius fro xtalk content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The X-talk multipole content shall have TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 1st order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 2nd order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 3rd order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 4th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 5th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 6th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 7th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 8th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 9th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 10th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 11th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 12th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 13th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 14th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 15th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 16th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- HSR-MAG-Q7 : HSR Magnet Q7 (WBS 6.05.02.01)
- 6.05.02.01The number of magnet functions shall be 111/13/2023APPROVEDFALSE
- 6.05.02.01The field type shall be Q11/13/2023APPROVEDFALSE
- 6.05.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.02.01The field rotation (norm or skew) shall be N11/13/2023APPROVEDFALSE
- 6.05.02.01The min coil inner rad shall be 0.04 m11/13/2023APPROVEDFALSE
- 6.05.02.01The min gap shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The mag length shall be 0.93 m11/13/2023APPROVEDFALSE
- 6.05.02.01The eff Length shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.02.01The grad field G shall be 76.3 T/m(n-1)11/13/2023APPROVEDFALSE
- 6.05.02.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.05.02.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.05.02.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.05.02.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 1st order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 2nd order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 3rd order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 4th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 5th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 6th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 7th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 8th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 9th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 10th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 11th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 12th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 13th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 14th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 15th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 16th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The magnet shall be designed to limit Xtalk Requirements TBD11/13/2023APPROVEDTRUE
- 6.05.02.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.05.02.01The radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The analysis radius fro xtalk content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The X-talk multipole content shall have TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 1st order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 2nd order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 3rd order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 4th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 5th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 6th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 7th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 8th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 9th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 10th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 11th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 12th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 13th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 14th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 15th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 16th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- HSR-MAG-Q8 : HSR Magnet Q8 (WBS 6.05.02.01)
- 6.05.02.01The number of magnet functions shall be 111/13/2023APPROVEDFALSE
- 6.05.02.01The field type shall be Q11/13/2023APPROVEDFALSE
- 6.05.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.02.01The field rotation (norm or skew) shall be N11/13/2023APPROVEDFALSE
- 6.05.02.01The min coil inner rad shall be 0.04 m11/13/2023APPROVEDFALSE
- 6.05.02.01The min gap shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The mag length shall be 1.1 m11/13/2023APPROVEDFALSE
- 6.05.02.01The eff Length shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.02.01The grad field G shall be 74.6 T/m(n-1)11/13/2023APPROVEDFALSE
- 6.05.02.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.05.02.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.05.02.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.05.02.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 1st order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 2nd order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 3rd order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 4th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 5th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 6th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 7th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 8th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 9th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 10th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 11th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 12th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 13th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 14th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 15th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 16th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The magnet shall be designed to limit Xtalk Requirements TBD11/13/2023APPROVEDTRUE
- 6.05.02.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.05.02.01The radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The analysis radius fro xtalk content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The X-talk multipole content shall have TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 1st order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 2nd order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 3rd order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 4th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 5th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 6th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 7th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 8th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 9th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 10th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 11th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 12th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 13th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 14th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 15th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 16th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- HSR-MAG-Q9 : HSR Magnet Q9 (WBS 6.05.02.01)
- 6.05.02.01The number of magnet functions shall be 111/13/2023APPROVEDFALSE
- 6.05.02.01The field type shall be Q11/13/2023APPROVEDFALSE
- 6.05.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.02.01The field rotation (norm or skew) shall be N11/13/2023APPROVEDFALSE
- 6.05.02.01The min coil inner rad shall be 0.04 m11/13/2023APPROVEDFALSE
- 6.05.02.01The min gap shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The mag length shall be 1.1 m11/13/2023APPROVEDFALSE
- 6.05.02.01The eff Length shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.02.01The grad field G shall be 74.6 T/m(n-1)11/13/2023APPROVEDFALSE
- 6.05.02.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.05.02.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.05.02.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.05.02.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 1st order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 2nd order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 3rd order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 4th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 5th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 6th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 7th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 8th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 9th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 10th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 11th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 12th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 13th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 14th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 15th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 16th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The magnet shall be designed to limit Xtalk Requirements TBD11/13/2023APPROVEDTRUE
- 6.05.02.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.05.02.01The radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The analysis radius fro xtalk content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The X-talk multipole content shall have TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 1st order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 2nd order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 3rd order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 4th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 5th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 6th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 7th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 8th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 9th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 10th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 11th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 12th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 13th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 14th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 15th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 16th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- HSR-MAG-QT : HSR Magnet QT (WBS 6.05.02.01)
- 6.05.02.01The magnet function shall be 111/13/2023APPROVEDFALSE
- 6.05.02.01The field type shall be Q11/13/2023APPROVEDFALSE
- 6.05.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.02.01The field rotation (norm or skew) shall be N11/13/2023APPROVEDFALSE
- 6.05.02.01The min coil inner rad shall be 0.04 m11/13/2023APPROVEDFALSE
- 6.05.02.01The min gap shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The mag length shall be 0.75 m11/13/2023APPROVEDFALSE
- 6.05.02.01The eff Length shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.02.01The grad field G shall be 29.4 T/m(n-1)11/13/2023APPROVEDFALSE
- 6.05.02.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.05.02.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.05.02.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.05.02.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 1st order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 2nd order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 3rd order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 4th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 5th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 6th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 7th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 8th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 9th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 10th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 11th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 12th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 13th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 14th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 15th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 16th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The magnet shall be designed to limit Xtalk Requirements TBD11/13/2023APPROVEDTRUE
- 6.05.02.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.05.02.01The radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The analysis radius fro xtalk content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The X-talk multipole content shall have TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 1st order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 2nd order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 3rd order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 4th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 5th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 6th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 7th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 8th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 9th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 10th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 11th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 12th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 13th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 14th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 15th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 16th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- HSR-MAG-QW : HSR Magnet QW (WBS 6.05.02.01)
- 6.05.02.01The number of magnet functions shall be 111/13/2023APPROVEDFALSE
- 6.05.02.01The field type shall be Q11/13/2023APPROVEDFALSE
- 6.05.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.02.01The field rotation (norm or skew) shall be N11/13/2023APPROVEDFALSE
- 6.05.02.01The min coil inner rad shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The min gap shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The mag length shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The eff Length shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.02.01The grad field G shall be TBD T/m(n-1)11/13/2023APPROVEDTRUE
- 6.05.02.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.05.02.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.05.02.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.05.02.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 1st order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 2nd order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 3rd order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 4th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 5th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 6th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 7th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 8th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 9th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 10th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 11th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 12th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 13th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 14th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 15th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 16th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The magnet shall be designed to limit Xtalk Requirements TBD11/13/2023APPROVEDTRUE
- 6.05.02.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.05.02.01The radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The analysis radius fro xtalk content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The X-talk multipole content shall have TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 1st order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 2nd order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 3rd order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 4th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 5th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 6th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 7th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 8th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 9th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 10th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 11th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 12th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 13th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 14th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 15th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 16th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- HSR-MAG-SEXT : HSR Magnet SEXT (WBS 6.05.02.01)
- 6.05.02.01The magnet function shall be 111/13/2023APPROVEDFALSE
- 6.05.02.01The field type shall be Sext11/13/2023APPROVEDFALSE
- 6.05.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.02.01The field rotation (norm or skew) shall be N11/13/2023APPROVEDFALSE
- 6.05.02.01The min coil inner rad shall be 0.04 m11/13/2023APPROVEDFALSE
- 6.05.02.01The min gap shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The mag length shall be 0.75 m11/13/2023APPROVEDFALSE
- 6.05.02.01The eff Length shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.02.01The grad field G shall be 1150 T/m(2)11/13/2023APPROVEDFALSE
- 6.05.02.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.05.02.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.05.02.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.05.02.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 1st order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 2nd order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 3rd order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 4th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 5th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 6th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 7th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 8th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 9th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 10th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 11th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 12th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 13th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 14th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 15th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 16th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The magnet shall be designed to limit Xtalk Requirements TBD11/13/2023APPROVEDTRUE
- 6.05.02.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.05.02.01The radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The analysis radius fro xtalk content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The X-talk multipole content shall have TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 1st order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 2nd order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 3rd order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 4th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 5th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 6th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 7th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 8th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 9th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 10th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 11th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 12th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 13th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 14th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 15th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 16th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- HSR-MAG-SNAKE : HSR Magnet SNAKE (WBS 6.05.02.01)
- 6.05.02.01The magnet function shall be 111/13/2023APPROVEDFALSE
- 6.05.02.01The field type shall be Helical dipole11/13/2023APPROVEDFALSE
- 6.05.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.02.01The min coil inner rad shall be 0.05 m11/13/2023APPROVEDFALSE
- 6.05.02.01The min gap shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The mag length shall be 2.4? m11/13/2023APPROVEDFALSE
- 6.05.02.01The eff Length shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The dipole field B shall be 4? T11/13/2023APPROVEDFALSE
- 6.05.02.01The grad field G shall be TBD T/m(n-1)11/13/2023APPROVEDTRUE
- 6.05.02.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.05.02.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.05.02.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.05.02.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 1st order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 2nd order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 3rd order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 4th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 5th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 6th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 7th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 8th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 9th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 10th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 11th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 12th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 13th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 14th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 15th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 16th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The magnet shall be designed to limit Xtalk Requirements TBD11/13/2023APPROVEDTRUE
- 6.05.02.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.05.02.01The radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The analysis radius fro xtalk content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The X-talk multipole content shall have TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 1st order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 2nd order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 3rd order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 4th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 5th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 6th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 7th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 8th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 9th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 10th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 11th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 12th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 13th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 14th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 15th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 16th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- HSR-MAG-SPINR : HSR Magnet SPINR (WBS 6.05.02.01)
- 6.05.02.01The magnet function shall be 111/13/2023PENDINGFALSE
- 6.05.02.01The field type shall be Helical dipole11/13/2023PENDINGFALSE
- 6.05.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.02.01The min coil inner rad shall be 0.05 m11/13/2023PENDINGFALSE
- 6.05.02.01The min gap shall be TBD m11/13/2023PENDINGTRUE
- 6.05.02.01The good field aperture drx required shall be TBD m11/13/2023PENDINGTRUE
- 6.05.02.01The good field aperture dry required shall be TBD m11/13/2023PENDINGTRUE
- 6.05.02.01The mag length shall be 2.4? m11/13/2023PENDINGFALSE
- 6.05.02.01The eff Length shall be TBD m11/13/2023PENDINGTRUE
- 6.05.02.01The dipole field B shall be 4? T11/13/2023PENDINGFALSE
- 6.05.02.01The grad field G shall be TBD T/m(n-1)11/13/2023PENDINGTRUE
- 6.05.02.01The ramp rate shall be TBD T/s11/13/2023PENDINGTRUE
- 6.05.02.01The field stability shall be TBD T/s11/13/2023PENDINGTRUE
- 6.05.02.01The good field region requirements shall be TBD ppm11/13/2023PENDINGTRUE
- 6.05.02.01The harmonic reference radius shall be TBD mm11/13/2023PENDINGTRUE
- 6.05.02.01The Bore multipole content shall have a 1st order of TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.02.01The Bore multipole content shall have a 2nd order of TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.02.01The Bore multipole content shall have a 3rd order of TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.02.01The Bore multipole content shall have a 4th order of TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.02.01The Bore multipole content shall have a 5th order of TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.02.01The Bore multipole content shall have a 6th order of TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.02.01The Bore multipole content shall have a 7th order of TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.02.01The Bore multipole content shall have a 8th order of TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.02.01The Bore multipole content shall have a 9th order of TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.02.01The Bore multipole content shall have a 10th order of TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.02.01The Bore multipole content shall have a 11th order of TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.02.01The Bore multipole content shall have a 12th order of TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.02.01The Bore multipole content shall have a 13th order of TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.02.01The Bore multipole content shall have a 14th order of TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.02.01The Bore multipole content shall have a 15th order of TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.02.01The Bore multipole content shall have a 16th order of TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.02.01The magnet shall be designed to limit Xtalk Requirements TBD11/13/2023PENDINGTRUE
- 6.05.02.01The X-talk shall be controlled at the following location TBD11/13/2023PENDINGTRUE
- 6.05.02.01The radial distance to X-talk location content shall be TBD mm11/13/2023PENDINGTRUE
- 6.05.02.01The analysis radius fro xtalk content shall be TBD mm11/13/2023PENDINGTRUE
- 6.05.02.01The X-talk multipole content shall have TBD (10^-4)11/13/2023PENDINGTRUE
- 6.05.02.01The Xtalk multipole content shall have a 1st order of TBD T11/13/2023PENDINGTRUE
- 6.05.02.01The Xtalk multipole content shall have a 2nd order of TBD T11/13/2023PENDINGTRUE
- 6.05.02.01The Xtalk multipole content shall have a 3rd order of TBD T11/13/2023PENDINGTRUE
- 6.05.02.01The Xtalk multipole content shall have a 4th order of TBD T11/13/2023PENDINGTRUE
- 6.05.02.01The Xtalk multipole content shall have a 5th order of TBD T11/13/2023PENDINGTRUE
- 6.05.02.01The Xtalk multipole content shall have a 6th order of TBD T11/13/2023PENDINGTRUE
- 6.05.02.01The Xtalk multipole content shall have a 7th order of TBD T11/13/2023PENDINGTRUE
- 6.05.02.01The Xtalk multipole content shall have a 8th order of TBD T11/13/2023PENDINGTRUE
- 6.05.02.01The Xtalk multipole content shall have a 9th order of TBD T11/13/2023PENDINGTRUE
- 6.05.02.01The Xtalk multipole content shall have a 10th order of TBD T11/13/2023PENDINGTRUE
- 6.05.02.01The Xtalk multipole content shall have a 11th order of TBD T11/13/2023PENDINGTRUE
- 6.05.02.01The Xtalk multipole content shall have a 12th order of TBD T11/13/2023PENDINGTRUE
- 6.05.02.01The Xtalk multipole content shall have a 13th order of TBD T11/13/2023PENDINGTRUE
- 6.05.02.01The Xtalk multipole content shall have a 14th order of TBD T11/13/2023PENDINGTRUE
- 6.05.02.01The Xtalk multipole content shall have a 15th order of TBD T11/13/2023PENDINGTRUE
- 6.05.02.01The Xtalk multipole content shall have a 16th order of TBD T11/13/2023PENDINGTRUE
- 6.05.02.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023PENDINGTRUE
- 6.05.02.01The fringe field shall be constrained at the following location TBD mm11/13/2023PENDINGTRUE
- 6.05.02.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023PENDINGTRUE
- HSR-MAG-VKICK : HSR Magnet VKICK (WBS 6.05.02.01)
- 6.05.02.01The magnet function shall be 111/13/2023APPROVEDFALSE
- 6.05.02.01The field type shall be D11/13/2023APPROVEDFALSE
- 6.05.02.01The field dir (ver or hor) shall be H11/13/2023APPROVEDFALSE
- 6.05.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.02.01The min coil inner rad shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The min gap shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The mag length shall be 0.5 m11/13/2023APPROVEDFALSE
- 6.05.02.01The eff Length shall be TBD m11/13/2023APPROVEDTRUE
- 6.05.02.01The dipole field B shall be TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The grad field G shall be TBD T/m(n-1)11/13/2023APPROVEDTRUE
- 6.05.02.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.05.02.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.05.02.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.05.02.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 1st order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 2nd order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 3rd order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 4th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 5th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 6th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 7th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 8th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 9th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 10th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 11th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 12th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 13th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 14th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 15th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Bore multipole content shall have a 16th order of TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The magnet shall be designed to limit Xtalk Requirements TBD11/13/2023APPROVEDTRUE
- 6.05.02.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.05.02.01The radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The analysis radius fro xtalk content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01The X-talk multipole content shall have TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 1st order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 2nd order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 3rd order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 4th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 5th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 6th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 7th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 8th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 9th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 10th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 11th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 12th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 13th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 14th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 15th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The Xtalk multipole content shall have a 16th order of TBD T11/13/2023APPROVEDTRUE
- 6.05.02.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.05.02.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- HSR-MPS : HSR Machine Protection System (WBS 6.06.03.01)
- HSR-MPS-ABORT_BUMP : HSR Machine Protection System Bump (WBS 6.06.03.01)
- 6.06.03.01The location (Section) shall be tbd11/13/2023APPROVEDTRUE
- 6.06.03.01The dimension in W shall be tbd (ft)11/13/2023APPROVEDTRUE
- 6.06.03.01The dimension in L shall be tbd (ft)11/13/2023APPROVEDTRUE
- 6.06.03.01The dimension in H shall be tbd (ft)11/13/2023APPROVEDTRUE
- 6.06.03.01The num magnets shall be tbd11/13/2023APPROVEDTRUE
- 6.06.03.01The mag gap shall be tbd (cm)11/13/2023APPROVEDTRUE
- 6.06.03.01The rise time shall be tbd11/13/2023APPROVEDTRUE
- 6.06.03.01The fall time shall be tbd11/13/2023APPROVEDTRUE
- 6.06.03.01The flat top time shall be tbd (sq ft)11/13/2023APPROVEDTRUE
- 6.06.03.01The waveshape shall be tbd (sq ft)11/13/2023APPROVEDTRUE
- 6.06.03.01The flat top repeatability shall be tbd (sec)11/13/2023APPROVEDTRUE
- 6.06.03.01The uniformity of the flattop shall be tbd (sec)11/13/2023APPROVEDTRUE
- 6.06.03.01The deflecting Angle shall be tbd (sec)11/13/2023APPROVEDTRUE
- 6.06.03.01The rep rate spec shall be tbd11/13/2023APPROVEDTRUE
- 6.06.03.01The output voltage Spec shall be tbd (Hz)11/13/2023APPROVEDTRUE
- 6.06.03.01The output current spec shall be tbd (Volts)11/13/2023APPROVEDTRUE
- 6.06.03.01The inductance with cable shall be tbd (Amps)11/13/2023APPROVEDTRUE
- 6.06.03.01The cooling type shall be tbd (uH)11/13/2023APPROVEDTRUE
- HSR-MPS-ABORT_KICK : HSR Machine Protection System Kicker (WBS 6.06.03.01)
- 6.06.03.01The number of kickers shall be 511/13/2023APPROVEDFALSE
- 6.06.03.01The Rise time shall be 900 ns11/13/2023APPROVEDFALSE
- 6.06.03.01The Fall time shall be NA sec11/13/2023APPROVEDFALSE
- 6.06.03.01The flat top time shall be 13 us11/13/2023APPROVEDFALSE
- 6.06.03.01The waveshape shall be trap11/13/2023APPROVEDFALSE
- 6.06.03.01The painting shall be horizontal11/13/2023APPROVEDFALSE
- 6.06.03.01The maximum field shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.03.01The total deflection shall be TBD mrad11/13/2023APPROVEDTRUE
- 6.06.03.01The maximum current shall be 20 kA11/13/2023APPROVEDFALSE
- 6.06.03.01The maximum voltage shall be 33.3 kV11/13/2023APPROVEDFALSE
- 6.06.03.01The inductance with cable shall be TBD (uH)11/13/2023APPROVEDTRUE
- 6.06.03.01The Max rep rate shall be 1 pulse per minut11/13/2023APPROVEDFALSE
- 6.06.03.01The flat top repeatability shall be +10 / -20 %11/13/2023APPROVEDFALSE
- 6.06.03.01The flatness of flat top/pulse form shall be 0.45 mod11/13/2023APPROVEDFALSE
- 6.06.03.01Beam abort kicker tbd11/13/2023APPROVEDTRUE
- 6.06.03.01The cooling type shall be w (W,A)11/13/2023APPROVEDFALSE
- HSR-MPS-DUMP_BLK : HSR Machine Protection System Dump Block (WBS 6.06.03.01)
- 6.06.03.01The dimensions shall be 40 x 10 mm11/13/2023APPROVEDFALSE
- 6.06.03.01The length shall be 0.5 / 2.6 / 2 m11/13/2023APPROVEDFALSE
- 6.06.03.01The materials shall be C-C / Gr/ SS11/13/2023APPROVEDFALSE
- 6.06.03.01The energy deposited during abort shall be 3.5 MJ11/13/2023APPROVEDFALSE
- 6.06.03.01The frequency of thermal cycle shall be 1 hour11/13/2023APPROVEDFALSE
- 6.06.03.01The window thickness shall be tbd mm11/13/2023APPROVEDTRUE
- 6.06.03.01The window material shall be tbd tbd11/13/2023APPROVEDTRUE
- HSR-PPD : HSR Pulsed Power Devices System (WBS 6.05.03.04)
- HSR-PPD-INJ_STRIPLINE_KICK : HSR Pulsed Power Stripline Kicker System (WBS 6.05.03.04)
- 6.05.03.04The location (Section) shall be 4 straight11/13/2023PENDINGFALSE
- 6.05.03.04The dimension in W shall be 5 (ft)11/13/2023PENDINGFALSE
- 6.05.03.04The dimension in L shall be 10 (ft)11/13/2023PENDINGFALSE
- 6.05.03.04The dimension in H shall be 7 (ft)11/13/2023PENDINGFALSE
- 6.05.03.04The num magnets shall be 2011/13/2023PENDINGFALSE
- 6.05.03.04The mag gap shall be 5.9 (cm)11/13/2023PENDINGFALSE
- 6.05.03.04The rise time shall be 7 (nS)11/13/2023PENDINGFALSE
- 6.05.03.04The fall time shall be N/C (sec)11/13/2023PENDINGFALSE
- 6.05.03.04The flat top time shall be 35 (nS)11/13/2023PENDINGFALSE
- 6.05.03.04The waveshape shall be trap11/13/2023PENDINGFALSE
- 6.05.03.04The flat top repeatability shall be tbd %11/13/2023PENDINGTRUE
- 6.05.03.04The uniformity of the flattop shall be tbd (V)11/13/2023PENDINGTRUE
- 6.05.03.04The deflecting Angle shall be 1 (mRad)11/13/2023PENDINGFALSE
- 6.05.03.04The rep rate spec shall be tbd (Hz)11/13/2023PENDINGTRUE
- 6.05.03.04The output voltage Spec shall be 22000 (Volts)11/13/2023PENDINGFALSE
- 6.05.03.04The output current spec shall be 335 (Amps)11/13/2023PENDINGFALSE
- 6.05.03.04The inductance with cable shall be 0 (uH)11/13/2023PENDINGFALSE
- 6.05.03.04The cooling type shall be water11/13/2023PENDINGFALSE
- HSR-PS : HSR Magnet Power Supply (WBS 6.05.02.02)
- HSR-PS- D0 : HSR Magnet Power Supply D0 (WBS 6.05.02.02)
- 6.05.02.02The number of Independent functions on the magnets being powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum magnet string resistance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum magnet string inductance to be powered shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.02The magnets being powered shall be saturated TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The miits rating of the magnet being powred shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The voltage to ground of the magnet being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.05.02.02The nominal current of the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum current the PS must operate at shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.05.02.02The PS current type DC or AC shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The ppm of full scale current (peak to peak) shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The time period for specified stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02The long term stability shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The current setpoint resolution (min size in bits) shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The synchronization timing of synchronization shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The max allowable current ripple (peak to peak) TBD Hz11/13/2023APPROVEDTRUE
- 6.05.02.02The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.05.02.02WRT the ripple frequency the following resonant frequencies shall be avoided TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The max voltage ripple (peak to peak) shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02An NMR shall be required to measure the field TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The voltage tap configuration shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The threshold levels shall be TBD A/S11/13/2023APPROVEDTRUE
- 6.05.02.02The peak di/dt without inducing a quench shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have quench heaters TBD W11/13/2023APPROVEDTRUE
- 6.05.02.02The quench heater power rating shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have warm up heaters TBD W11/13/2023APPROVEDTRUE
- 6.05.02.02The warmup heater power rating shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet turns ratio shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The terminal voltage shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- HSR-PS-CORR : HSR Magnet Power Supply CORR (WBS 6.05.02.02)
- 6.05.02.02The number of Independent functions on the magnets being powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum magnet string resistance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum magnet string inductance to be powered shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.02The magnets being powered shall be saturated TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The miits rating of the magnet being powred shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The voltage to ground of the magnet being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.05.02.02The nominal current of the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum current the PS must operate at shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.05.02.02The PS current type DC or AC shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The ppm of full scale current (peak to peak) shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The time period for specified stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02The long term stability shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The current setpoint resolution (min size in bits) shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The synchronization timing of synchronization shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The max allowable current ripple (peak to peak) TBD Hz11/13/2023APPROVEDTRUE
- 6.05.02.02The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.05.02.02WRT the ripple frequency the following resonant frequencies shall be avoided TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The max voltage ripple (peak to peak) shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02An NMR shall be required to measure the field TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The voltage tap configuration shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The threshold levels shall be TBD A/S11/13/2023APPROVEDTRUE
- 6.05.02.02The peak di/dt without inducing a quench shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have quench heaters TBD W11/13/2023APPROVEDTRUE
- 6.05.02.02The quench heater power rating shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have warm up heaters TBD W11/13/2023APPROVEDTRUE
- 6.05.02.02The warmup heater power rating shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet turns ratio shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The terminal voltage shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- HSR-PS-D5I : HSR Magnet Power Supply D5I (WBS 6.05.02.02)
- 6.05.02.02The number of Independent functions on the magnets being powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum magnet string resistance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum magnet string inductance to be powered shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.02The magnets being powered shall be saturated TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The miits rating of the magnet being powred shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The voltage to ground of the magnet being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.05.02.02The nominal current of the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum current the PS must operate at shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.05.02.02The PS current type DC or AC shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The ppm of full scale current (peak to peak) shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The time period for specified stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02The long term stability shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The current setpoint resolution (min size in bits) shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The synchronization timing of synchronization shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The max allowable current ripple (peak to peak) TBD Hz11/13/2023APPROVEDTRUE
- 6.05.02.02The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.05.02.02WRT the ripple frequency the following resonant frequencies shall be avoided TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The max voltage ripple (peak to peak) shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02An NMR shall be required to measure the field TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The voltage tap configuration shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The threshold levels shall be TBD A/S11/13/2023APPROVEDTRUE
- 6.05.02.02The peak di/dt without inducing a quench shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have quench heaters TBD W11/13/2023APPROVEDTRUE
- 6.05.02.02The quench heater power rating shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have warm up heaters TBD W11/13/2023APPROVEDTRUE
- 6.05.02.02The warmup heater power rating shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet turns ratio shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The terminal voltage shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- HSR-PS-D5O : HSR Magnet Power Supply D5O (WBS 6.05.02.02)
- 6.05.02.02The number of Independent functions on the magnets being powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum magnet string resistance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum magnet string inductance to be powered shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.02The magnets being powered shall be saturated TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The miits rating of the magnet being powred shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The voltage to ground of the magnet being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.05.02.02The nominal current of the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum current the PS must operate at shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.05.02.02The PS current type DC or AC shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The ppm of full scale current (peak to peak) shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The time period for specified stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02The long term stability shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The current setpoint resolution (min size in bits) shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The synchronization timing of synchronization shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The max allowable current ripple (peak to peak) TBD Hz11/13/2023APPROVEDTRUE
- 6.05.02.02The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.05.02.02WRT the ripple frequency the following resonant frequencies shall be avoided TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The max voltage ripple (peak to peak) shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02An NMR shall be required to measure the field TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The voltage tap configuration shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The threshold levels shall be TBD A/S11/13/2023APPROVEDTRUE
- 6.05.02.02The peak di/dt without inducing a quench shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have quench heaters TBD W11/13/2023APPROVEDTRUE
- 6.05.02.02The quench heater power rating shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have warm up heaters TBD W11/13/2023APPROVEDTRUE
- 6.05.02.02The warmup heater power rating shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet turns ratio shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The terminal voltage shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- HSR-PS-D6 : HSR Magnet Power Supply D6 (WBS 6.05.02.02)
- 6.05.02.02The number of Independent functions on the magnets being powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum magnet string resistance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum magnet string inductance to be powered shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.02The magnets being powered shall be saturated TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The miits rating of the magnet being powred shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The voltage to ground of the magnet being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.05.02.02The nominal current of the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum current the PS must operate at shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.05.02.02The PS current type DC or AC shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The ppm of full scale current (peak to peak) shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The time period for specified stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02The long term stability shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The current setpoint resolution (min size in bits) shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The synchronization timing of synchronization shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The max allowable current ripple (peak to peak) TBD Hz11/13/2023APPROVEDTRUE
- 6.05.02.02The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.05.02.02WRT the ripple frequency the following resonant frequencies shall be avoided TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The max voltage ripple (peak to peak) shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02An NMR shall be required to measure the field TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The voltage tap configuration shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The threshold levels shall be TBD A/S11/13/2023APPROVEDTRUE
- 6.05.02.02The peak di/dt without inducing a quench shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have quench heaters TBD W11/13/2023APPROVEDTRUE
- 6.05.02.02The quench heater power rating shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have warm up heaters TBD W11/13/2023APPROVEDTRUE
- 6.05.02.02The warmup heater power rating shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet turns ratio shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The terminal voltage shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- HSR-PS-D8 : HSR Magnet Power Supply D8 (WBS 6.05.02.02)
- 6.05.02.02The number of Independent functions on the magnets being powered shall be RHIC PS TBC ohm11/13/2023PENDINGFALSE
- 6.05.02.02The maximum magnet string resistance to be powered shall be RHIC PS TBC H11/13/2023PENDINGFALSE
- 6.05.02.02The maximum magnet string inductance to be powered shall be RHIC PS TBC Y/N11/13/2023PENDINGFALSE
- 6.05.02.02The magnets being powered shall be saturated RHIC PS TBC11/13/2023PENDINGFALSE
- 6.05.02.02The miits rating of the magnet being powred shall be RHIC PS TBC V11/13/2023PENDINGFALSE
- 6.05.02.02The voltage to ground of the magnet being powered shall be RHIC PS TBC A11/13/2023PENDINGFALSE
- 6.05.02.02The nominal current of the magnets being powered shall be RHIC PS TBC11/13/2023PENDINGFALSE
- 6.05.02.02The minmum current the PS must operate at shall be RHIC PS TBC A11/13/2023PENDINGFALSE
- 6.05.02.02The maximum current the PS must operate at shall be RHIC PS TBC DC\AC11/13/2023PENDINGFALSE
- 6.05.02.02The PS current type DC or AC shall be RHIC PS TBC11/13/2023PENDINGFALSE
- 6.05.02.02The PS AC waveshape required shall be RHIC PS TBC11/13/2023PENDINGFALSE
- 6.05.02.02The peak waveshape di/dt during ramping shall be RHIC PS TBC11/13/2023PENDINGFALSE
- 6.05.02.02The full power bandwidth required shall be RHIC PS TBC11/13/2023PENDINGFALSE
- 6.05.02.02The ppm of full scale current (peak to peak) shall be RHIC PS TBC s11/13/2023PENDINGFALSE
- 6.05.02.02The time period for specified stability shall be RHIC PS TBC A/s11/13/2023PENDINGFALSE
- 6.05.02.02The short term stability shall be RHIC PS TBC A/s11/13/2023PENDINGFALSE
- 6.05.02.02The long term stability shall be RHIC PS TBC11/13/2023PENDINGFALSE
- 6.05.02.02The current setpoint resolution (min size in bits) shall be RHIC PS TBC s11/13/2023PENDINGFALSE
- 6.05.02.02The synchronization required between PS's shall be RHIC PS TBC s11/13/2023PENDINGFALSE
- 6.05.02.02The synchronization timing of synchronization shall be RHIC PS TBC11/13/2023PENDINGFALSE
- 6.05.02.02The max allowable current ripple (peak to peak) RHIC PS TBC Hz11/13/2023PENDINGFALSE
- 6.05.02.02The max current ripple frequency range (Hz) RHIC PS TBC Hz11/13/2023PENDINGFALSE
- 6.05.02.02WRT the ripple frequency the following resonant frequencies shall be avoided RHIC PS TBC V11/13/2023PENDINGFALSE
- 6.05.02.02The max voltage ripple (peak to peak) shall be RHIC PS TBC A/s11/13/2023PENDINGFALSE
- 6.05.02.02An NMR shall be required to measure the field RHIC PS TBC11/13/2023PENDINGFALSE
- 6.05.02.02The voltage tap configuration shall be RHIC PS TBC V11/13/2023PENDINGFALSE
- 6.05.02.02The threshold levels shall be RHIC PS TBC A/S11/13/2023PENDINGFALSE
- 6.05.02.02The peak di/dt without inducing a quench shall be RHIC PS TBC Y/N11/13/2023PENDINGFALSE
- 6.05.02.02The design shall have quench heaters RHIC PS TBC W11/13/2023PENDINGFALSE
- 6.05.02.02The quench heater power rating shall be RHIC PS TBC Y/N11/13/2023PENDINGFALSE
- 6.05.02.02The design shall have warm up heaters RHIC PS TBC W11/13/2023PENDINGFALSE
- 6.05.02.02The warmup heater power rating shall be RHIC PS TBC11/13/2023PENDINGFALSE
- 6.05.02.02The current required to be shunted through the magnet shall be RHIC PS TBC11/13/2023PENDINGFALSE
- 6.05.02.02The magnet turns ratio shall be RHIC PS TBC V11/13/2023PENDINGFALSE
- 6.05.02.02The terminal voltage shall be RHIC PS TBC11/13/2023PENDINGFALSE
- 6.05.02.02The design shall have thermal switches RHIC PS TBC11/13/2023PENDINGFALSE
- 6.05.02.02The thermal switch connection numbers shall be RHIC PS TBC11/13/2023PENDINGFALSE
- 6.05.02.02The design shall have water flow switches RHIC PS TBC11/13/2023PENDINGFALSE
- 6.05.02.02The water flow switch connections numbers shall be RHIC PS TBC11/13/2023PENDINGFALSE
- 6.05.02.02The design shall have access controls interlocks RHIC PS TBC11/13/2023PENDINGFALSE
- 6.05.02.02The main terminals lug details shall be RHIC PS TBC11/13/2023PENDINGFALSE
- 6.05.02.02The lead end indications shall be RHIC PS TBC11/13/2023PENDINGFALSE
- 6.05.02.02The lugs details for thermal switch and water switches shall be RHIC PS TBC11/13/2023PENDINGFALSE
- 6.05.02.02The lug details for the auxiliary windings shall be RHIC PS TBC11/13/2023PENDINGFALSE
- 6.05.02.02The A/B terminal labeling details shall be RHIC PS TBC11/13/2023PENDINGFALSE
- 6.05.02.02The magnet drawing with terminations details shall be RHIC PS TBC11/13/2023PENDINGFALSE
- 6.05.02.02The magnet polarity connections shall be RHIC PS TBC11/13/2023PENDINGFALSE
- HSR-PS-D9 : HSR Magnet Power Supply D9 (WBS 6.05.02.02)
- 6.05.02.02The number of Independent functions on the magnets being powered shall be RHIC PS TBC ohm11/13/2023PENDINGFALSE
- 6.05.02.02The maximum magnet string resistance to be powered shall be RHIC PS TBC H11/13/2023PENDINGFALSE
- 6.05.02.02The maximum magnet string inductance to be powered shall be RHIC PS TBC Y/N11/13/2023PENDINGFALSE
- 6.05.02.02The magnets being powered shall be saturated RHIC PS TBC11/13/2023PENDINGFALSE
- 6.05.02.02The miits rating of the magnet being powred shall be RHIC PS TBC V11/13/2023PENDINGFALSE
- 6.05.02.02The voltage to ground of the magnet being powered shall be RHIC PS TBC A11/13/2023PENDINGFALSE
- 6.05.02.02The nominal current of the magnets being powered shall be RHIC PS TBC11/13/2023PENDINGFALSE
- 6.05.02.02The minmum current the PS must operate at shall be RHIC PS TBC A11/13/2023PENDINGFALSE
- 6.05.02.02The maximum current the PS must operate at shall be RHIC PS TBC DC\AC11/13/2023PENDINGFALSE
- 6.05.02.02The PS current type DC or AC shall be RHIC PS TBC11/13/2023PENDINGFALSE
- 6.05.02.02The PS AC waveshape required shall be RHIC PS TBC11/13/2023PENDINGFALSE
- 6.05.02.02The peak waveshape di/dt during ramping shall be RHIC PS TBC11/13/2023PENDINGFALSE
- 6.05.02.02The full power bandwidth required shall be RHIC PS TBC11/13/2023PENDINGFALSE
- 6.05.02.02The ppm of full scale current (peak to peak) shall be RHIC PS TBC s11/13/2023PENDINGFALSE
- 6.05.02.02The time period for specified stability shall be RHIC PS TBC A/s11/13/2023PENDINGFALSE
- 6.05.02.02The short term stability shall be RHIC PS TBC A/s11/13/2023PENDINGFALSE
- 6.05.02.02The long term stability shall be RHIC PS TBC11/13/2023PENDINGFALSE
- 6.05.02.02The current setpoint resolution (min size in bits) shall be RHIC PS TBC s11/13/2023PENDINGFALSE
- 6.05.02.02The synchronization required between PS's shall be RHIC PS TBC s11/13/2023PENDINGFALSE
- 6.05.02.02The synchronization timing of synchronization shall be RHIC PS TBC11/13/2023PENDINGFALSE
- 6.05.02.02The max allowable current ripple (peak to peak) RHIC PS TBC Hz11/13/2023PENDINGFALSE
- 6.05.02.02The max current ripple frequency range (Hz) RHIC PS TBC Hz11/13/2023PENDINGFALSE
- 6.05.02.02WRT the ripple frequency the following resonant frequencies shall be avoided RHIC PS TBC V11/13/2023PENDINGFALSE
- 6.05.02.02The max voltage ripple (peak to peak) shall be RHIC PS TBC A/s11/13/2023PENDINGFALSE
- 6.05.02.02An NMR shall be required to measure the field RHIC PS TBC11/13/2023PENDINGFALSE
- 6.05.02.02The voltage tap configuration shall be RHIC PS TBC V11/13/2023PENDINGFALSE
- 6.05.02.02The threshold levels shall be RHIC PS TBC A/S11/13/2023PENDINGFALSE
- 6.05.02.02The peak di/dt without inducing a quench shall be RHIC PS TBC Y/N11/13/2023PENDINGFALSE
- 6.05.02.02The design shall have quench heaters RHIC PS TBC W11/13/2023PENDINGFALSE
- 6.05.02.02The quench heater power rating shall be RHIC PS TBC Y/N11/13/2023PENDINGFALSE
- 6.05.02.02The design shall have warm up heaters RHIC PS TBC W11/13/2023PENDINGFALSE
- 6.05.02.02The warmup heater power rating shall be RHIC PS TBC11/13/2023PENDINGFALSE
- 6.05.02.02The current required to be shunted through the magnet shall be RHIC PS TBC11/13/2023PENDINGFALSE
- 6.05.02.02The magnet turns ratio shall be RHIC PS TBC V11/13/2023PENDINGFALSE
- 6.05.02.02The terminal voltage shall be RHIC PS TBC11/13/2023PENDINGFALSE
- 6.05.02.02The design shall have thermal switches RHIC PS TBC11/13/2023PENDINGFALSE
- 6.05.02.02The thermal switch connection numbers shall be RHIC PS TBC11/13/2023PENDINGFALSE
- 6.05.02.02The design shall have water flow switches RHIC PS TBC11/13/2023PENDINGFALSE
- 6.05.02.02The water flow switch connections numbers shall be RHIC PS TBC11/13/2023PENDINGFALSE
- 6.05.02.02The design shall have access controls interlocks RHIC PS TBC11/13/2023PENDINGFALSE
- 6.05.02.02The main terminals lug details shall be RHIC PS TBC11/13/2023PENDINGFALSE
- 6.05.02.02The lead end indications shall be RHIC PS TBC11/13/2023PENDINGFALSE
- 6.05.02.02The lugs details for thermal switch and water switches shall be RHIC PS TBC11/13/2023PENDINGFALSE
- 6.05.02.02The lug details for the auxiliary windings shall be RHIC PS TBC11/13/2023PENDINGFALSE
- 6.05.02.02The A/B terminal labeling details shall be RHIC PS TBC11/13/2023PENDINGFALSE
- 6.05.02.02The magnet drawing with terminations details shall be RHIC PS TBC11/13/2023PENDINGFALSE
- 6.05.02.02The magnet polarity connections shall be RHIC PS TBC11/13/2023PENDINGFALSE
- HSR-PS-DSW : HSR Magnet Power Supply DSW (WBS 6.05.02.02)
- 6.05.02.02The number of Independent functions on the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum magnet string resistance to be powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum magnet string inductance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.05.02.02The magnets being powered shall be saturated TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.02The miits rating of the magnet being powred shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The voltage to ground of the magnet being powered shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The nominal current of the magnets being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.05.02.02The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.05.02.02The PS current type DC or AC shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.05.02.02The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The full power bandwidth required shall be TBD Units11/13/2023APPROVEDTRUE
- 6.05.02.02The ppm of full scale current (peak to peak) shall be TBD %11/13/2023APPROVEDTRUE
- 6.05.02.02The time period for specified stability shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02The long term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02The current setpoint resolution (min size in bits) shall be TBD bits11/13/2023APPROVEDTRUE
- 6.05.02.02The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The synchronization timing of synchronization shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The max allowable current ripple (peak to peak) TBD A11/13/2023APPROVEDTRUE
- 6.05.02.02The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.05.02.02WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz11/13/2023APPROVEDTRUE
- 6.05.02.02The max voltage ripple (peak to peak) shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02An NMR shall be required to measure the field TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.02.02The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet turns ratio shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The terminal voltage shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The A/B terminal labeling details shall be TBD Draw id11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- HSR-PS-DX : HSR Magnet Power Supply DX (WBS 6.05.02.02)
- 6.05.02.02The number of Independent functions on the magnets being powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum magnet string resistance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum magnet string inductance to be powered shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.02The magnets being powered shall be saturated TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The miits rating of the magnet being powred shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The voltage to ground of the magnet being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.05.02.02The nominal current of the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum current the PS must operate at shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.05.02.02The PS current type DC or AC shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The ppm of full scale current (peak to peak) shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The time period for specified stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02The long term stability shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The current setpoint resolution (min size in bits) shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The synchronization timing of synchronization shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The max allowable current ripple (peak to peak) TBD Hz11/13/2023APPROVEDTRUE
- 6.05.02.02The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.05.02.02WRT the ripple frequency the following resonant frequencies shall be avoided TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The max voltage ripple (peak to peak) shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02An NMR shall be required to measure the field TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The voltage tap configuration shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The threshold levels shall be TBD A/S11/13/2023APPROVEDTRUE
- 6.05.02.02The peak di/dt without inducing a quench shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have quench heaters TBD W11/13/2023APPROVEDTRUE
- 6.05.02.02The quench heater power rating shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have warm up heaters TBD W11/13/2023APPROVEDTRUE
- 6.05.02.02The warmup heater power rating shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet turns ratio shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The terminal voltage shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- HSR-PS-HKICK : HSR Magnet Power Supply HKICK (WBS 6.05.02.02)
- 6.05.02.02The number of Independent functions on the magnets being powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum magnet string resistance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum magnet string inductance to be powered shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.02The magnets being powered shall be saturated TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The miits rating of the magnet being powred shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The voltage to ground of the magnet being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.05.02.02The nominal current of the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum current the PS must operate at shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.05.02.02The PS current type DC or AC shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The ppm of full scale current (peak to peak) shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The time period for specified stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02The long term stability shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The current setpoint resolution (min size in bits) shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The synchronization timing of synchronization shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The max allowable current ripple (peak to peak) TBD Hz11/13/2023APPROVEDTRUE
- 6.05.02.02The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.05.02.02WRT the ripple frequency the following resonant frequencies shall be avoided TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The max voltage ripple (peak to peak) shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02An NMR shall be required to measure the field TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The voltage tap configuration shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The threshold levels shall be TBD A/S11/13/2023APPROVEDTRUE
- 6.05.02.02The peak di/dt without inducing a quench shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have quench heaters TBD W11/13/2023APPROVEDTRUE
- 6.05.02.02The quench heater power rating shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have warm up heaters TBD W11/13/2023APPROVEDTRUE
- 6.05.02.02The warmup heater power rating shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet turns ratio shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The terminal voltage shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- HSR-PS-Q : HSR Magnet Power Supply Q (WBS 6.05.02.02)
- 6.05.02.02The number of Independent functions on the magnets being powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum magnet string resistance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum magnet string inductance to be powered shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.02The magnets being powered shall be saturated TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The miits rating of the magnet being powred shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The voltage to ground of the magnet being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.05.02.02The nominal current of the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum current the PS must operate at shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.05.02.02The PS current type DC or AC shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The ppm of full scale current (peak to peak) shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The time period for specified stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02The long term stability shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The current setpoint resolution (min size in bits) shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The synchronization timing of synchronization shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The max allowable current ripple (peak to peak) TBD Hz11/13/2023APPROVEDTRUE
- 6.05.02.02The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.05.02.02WRT the ripple frequency the following resonant frequencies shall be avoided TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The max voltage ripple (peak to peak) shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02An NMR shall be required to measure the field TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The voltage tap configuration shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The threshold levels shall be TBD A/S11/13/2023APPROVEDTRUE
- 6.05.02.02The peak di/dt without inducing a quench shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have quench heaters TBD W11/13/2023APPROVEDTRUE
- 6.05.02.02The quench heater power rating shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have warm up heaters TBD W11/13/2023APPROVEDTRUE
- 6.05.02.02The warmup heater power rating shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet turns ratio shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The terminal voltage shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- HSR-PS-Q1 : HSR Magnet Power Supply Q1 (WBS 6.05.02.02)
- 6.05.02.02The number of Independent functions on the magnets being powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum magnet string resistance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum magnet string inductance to be powered shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.02The magnets being powered shall be saturated TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The miits rating of the magnet being powred shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The voltage to ground of the magnet being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.05.02.02The nominal current of the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum current the PS must operate at shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.05.02.02The PS current type DC or AC shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The ppm of full scale current (peak to peak) shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The time period for specified stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02The long term stability shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The current setpoint resolution (min size in bits) shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The synchronization timing of synchronization shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The max allowable current ripple (peak to peak) TBD Hz11/13/2023APPROVEDTRUE
- 6.05.02.02The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.05.02.02WRT the ripple frequency the following resonant frequencies shall be avoided TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The max voltage ripple (peak to peak) shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02An NMR shall be required to measure the field TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The voltage tap configuration shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The threshold levels shall be TBD A/S11/13/2023APPROVEDTRUE
- 6.05.02.02The peak di/dt without inducing a quench shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have quench heaters TBD W11/13/2023APPROVEDTRUE
- 6.05.02.02The quench heater power rating shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have warm up heaters TBD W11/13/2023APPROVEDTRUE
- 6.05.02.02The warmup heater power rating shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet turns ratio shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The terminal voltage shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- HSR-PS-Q2 : HSR Magnet Power Supply Q2 (WBS 6.05.02.02)
- 6.05.02.02The number of Independent functions on the magnets being powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum magnet string resistance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum magnet string inductance to be powered shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.02The magnets being powered shall be saturated TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The miits rating of the magnet being powred shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The voltage to ground of the magnet being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.05.02.02The nominal current of the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum current the PS must operate at shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.05.02.02The PS current type DC or AC shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The ppm of full scale current (peak to peak) shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The time period for specified stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02The long term stability shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The current setpoint resolution (min size in bits) shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The synchronization timing of synchronization shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The max allowable current ripple (peak to peak) TBD Hz11/13/2023APPROVEDTRUE
- 6.05.02.02The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.05.02.02WRT the ripple frequency the following resonant frequencies shall be avoided TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The max voltage ripple (peak to peak) shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02An NMR shall be required to measure the field TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The voltage tap configuration shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The threshold levels shall be TBD A/S11/13/2023APPROVEDTRUE
- 6.05.02.02The peak di/dt without inducing a quench shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have quench heaters TBD W11/13/2023APPROVEDTRUE
- 6.05.02.02The quench heater power rating shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have warm up heaters TBD W11/13/2023APPROVEDTRUE
- 6.05.02.02The warmup heater power rating shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet turns ratio shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The terminal voltage shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- HSR-PS-Q3 : HSR Magnet Power Supply Q3 (WBS 6.05.02.02)
- 6.05.02.02The number of Independent functions on the magnets being powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum magnet string resistance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum magnet string inductance to be powered shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.02The magnets being powered shall be saturated TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The miits rating of the magnet being powred shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The voltage to ground of the magnet being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.05.02.02The nominal current of the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum current the PS must operate at shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.05.02.02The PS current type DC or AC shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The ppm of full scale current (peak to peak) shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The time period for specified stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02The long term stability shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The current setpoint resolution (min size in bits) shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The synchronization timing of synchronization shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The max allowable current ripple (peak to peak) TBD Hz11/13/2023APPROVEDTRUE
- 6.05.02.02The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.05.02.02WRT the ripple frequency the following resonant frequencies shall be avoided TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The max voltage ripple (peak to peak) shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02An NMR shall be required to measure the field TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The voltage tap configuration shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The threshold levels shall be TBD A/S11/13/2023APPROVEDTRUE
- 6.05.02.02The peak di/dt without inducing a quench shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have quench heaters TBD W11/13/2023APPROVEDTRUE
- 6.05.02.02The quench heater power rating shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have warm up heaters TBD W11/13/2023APPROVEDTRUE
- 6.05.02.02The warmup heater power rating shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet turns ratio shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The terminal voltage shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- HSR-PS-Q4 : HSR Magnet Power Supply Q4 (WBS 6.05.02.02)
- 6.05.02.02The number of Independent functions on the magnets being powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum magnet string resistance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum magnet string inductance to be powered shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.02The magnets being powered shall be saturated TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The miits rating of the magnet being powred shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The voltage to ground of the magnet being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.05.02.02The nominal current of the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum current the PS must operate at shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.05.02.02The PS current type DC or AC shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The ppm of full scale current (peak to peak) shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The time period for specified stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02The long term stability shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The current setpoint resolution (min size in bits) shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The synchronization timing of synchronization shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The max allowable current ripple (peak to peak) TBD Hz11/13/2023APPROVEDTRUE
- 6.05.02.02The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.05.02.02WRT the ripple frequency the following resonant frequencies shall be avoided TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The max voltage ripple (peak to peak) shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02An NMR shall be required to measure the field TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The voltage tap configuration shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The threshold levels shall be TBD A/S11/13/2023APPROVEDTRUE
- 6.05.02.02The peak di/dt without inducing a quench shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have quench heaters TBD W11/13/2023APPROVEDTRUE
- 6.05.02.02The quench heater power rating shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have warm up heaters TBD W11/13/2023APPROVEDTRUE
- 6.05.02.02The warmup heater power rating shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet turns ratio shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The terminal voltage shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- HSR-PS-Q5 : HSR Magnet Power Supply Q5 (WBS 6.05.02.02)
- 6.05.02.02The number of Independent functions on the magnets being powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum magnet string resistance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum magnet string inductance to be powered shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.02The magnets being powered shall be saturated TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The miits rating of the magnet being powred shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The voltage to ground of the magnet being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.05.02.02The nominal current of the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum current the PS must operate at shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.05.02.02The PS current type DC or AC shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The ppm of full scale current (peak to peak) shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The time period for specified stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02The long term stability shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The current setpoint resolution (min size in bits) shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The synchronization timing of synchronization shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The max allowable current ripple (peak to peak) TBD Hz11/13/2023APPROVEDTRUE
- 6.05.02.02The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.05.02.02WRT the ripple frequency the following resonant frequencies shall be avoided TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The max voltage ripple (peak to peak) shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02An NMR shall be required to measure the field TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The voltage tap configuration shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The threshold levels shall be TBD A/S11/13/2023APPROVEDTRUE
- 6.05.02.02The peak di/dt without inducing a quench shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have quench heaters TBD W11/13/2023APPROVEDTRUE
- 6.05.02.02The quench heater power rating shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have warm up heaters TBD W11/13/2023APPROVEDTRUE
- 6.05.02.02The warmup heater power rating shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet turns ratio shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The terminal voltage shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- HSR-PS-Q6 : HSR Magnet Power Supply Q6 (WBS 6.05.02.02)
- 6.05.02.02The number of Independent functions on the magnets being powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum magnet string resistance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum magnet string inductance to be powered shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.02The magnets being powered shall be saturated TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The miits rating of the magnet being powred shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The voltage to ground of the magnet being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.05.02.02The nominal current of the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum current the PS must operate at shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.05.02.02The PS current type DC or AC shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The ppm of full scale current (peak to peak) shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The time period for specified stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02The long term stability shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The current setpoint resolution (min size in bits) shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The synchronization timing of synchronization shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The max allowable current ripple (peak to peak) TBD Hz11/13/2023APPROVEDTRUE
- 6.05.02.02The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.05.02.02WRT the ripple frequency the following resonant frequencies shall be avoided TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The max voltage ripple (peak to peak) shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02An NMR shall be required to measure the field TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The voltage tap configuration shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The threshold levels shall be TBD A/S11/13/2023APPROVEDTRUE
- 6.05.02.02The peak di/dt without inducing a quench shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have quench heaters TBD W11/13/2023APPROVEDTRUE
- 6.05.02.02The quench heater power rating shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have warm up heaters TBD W11/13/2023APPROVEDTRUE
- 6.05.02.02The warmup heater power rating shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet turns ratio shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The terminal voltage shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- HSR-PS-Q7 : HSR Magnet Power Supply Q7 (WBS 6.05.02.02)
- 6.05.02.02The number of Independent functions on the magnets being powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum magnet string resistance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum magnet string inductance to be powered shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.02The magnets being powered shall be saturated TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The miits rating of the magnet being powred shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The voltage to ground of the magnet being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.05.02.02The nominal current of the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum current the PS must operate at shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.05.02.02The PS current type DC or AC shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The ppm of full scale current (peak to peak) shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The time period for specified stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02The long term stability shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The current setpoint resolution (min size in bits) shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The synchronization timing of synchronization shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The max allowable current ripple (peak to peak) TBD Hz11/13/2023APPROVEDTRUE
- 6.05.02.02The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.05.02.02WRT the ripple frequency the following resonant frequencies shall be avoided TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The max voltage ripple (peak to peak) shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02An NMR shall be required to measure the field TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The voltage tap configuration shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The threshold levels shall be TBD A/S11/13/2023APPROVEDTRUE
- 6.05.02.02The peak di/dt without inducing a quench shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have quench heaters TBD W11/13/2023APPROVEDTRUE
- 6.05.02.02The quench heater power rating shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have warm up heaters TBD W11/13/2023APPROVEDTRUE
- 6.05.02.02The warmup heater power rating shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet turns ratio shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The terminal voltage shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- HSR-PS-Q8 : HSR Magnet Power Supply Q8 (WBS 6.05.02.02)
- 6.05.02.02The number of Independent functions on the magnets being powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum magnet string resistance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum magnet string inductance to be powered shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.02The magnets being powered shall be saturated TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The miits rating of the magnet being powred shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The voltage to ground of the magnet being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.05.02.02The nominal current of the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum current the PS must operate at shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.05.02.02The PS current type DC or AC shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The ppm of full scale current (peak to peak) shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The time period for specified stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02The long term stability shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The current setpoint resolution (min size in bits) shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The synchronization timing of synchronization shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The max allowable current ripple (peak to peak) TBD Hz11/13/2023APPROVEDTRUE
- 6.05.02.02The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.05.02.02WRT the ripple frequency the following resonant frequencies shall be avoided TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The max voltage ripple (peak to peak) shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02An NMR shall be required to measure the field TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The voltage tap configuration shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The threshold levels shall be TBD A/S11/13/2023APPROVEDTRUE
- 6.05.02.02The peak di/dt without inducing a quench shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have quench heaters TBD W11/13/2023APPROVEDTRUE
- 6.05.02.02The quench heater power rating shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have warm up heaters TBD W11/13/2023APPROVEDTRUE
- 6.05.02.02The warmup heater power rating shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet turns ratio shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The terminal voltage shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- HSR-PS-Q9 : HSR Magnet Power Supply Q9 (WBS 6.05.02.02)
- 6.05.02.02The number of Independent functions on the magnets being powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum magnet string resistance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum magnet string inductance to be powered shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.02The magnets being powered shall be saturated TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The miits rating of the magnet being powred shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The voltage to ground of the magnet being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.05.02.02The nominal current of the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum current the PS must operate at shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.05.02.02The PS current type DC or AC shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The ppm of full scale current (peak to peak) shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The time period for specified stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02The long term stability shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The current setpoint resolution (min size in bits) shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The synchronization timing of synchronization shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The max allowable current ripple (peak to peak) TBD Hz11/13/2023APPROVEDTRUE
- 6.05.02.02The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.05.02.02WRT the ripple frequency the following resonant frequencies shall be avoided TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The max voltage ripple (peak to peak) shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02An NMR shall be required to measure the field TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The voltage tap configuration shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The threshold levels shall be TBD A/S11/13/2023APPROVEDTRUE
- 6.05.02.02The peak di/dt without inducing a quench shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have quench heaters TBD W11/13/2023APPROVEDTRUE
- 6.05.02.02The quench heater power rating shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have warm up heaters TBD W11/13/2023APPROVEDTRUE
- 6.05.02.02The warmup heater power rating shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet turns ratio shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The terminal voltage shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- HSR-PS-QT : HSR Magnet Power Supply QT (WBS 6.05.02.02)
- 6.05.02.02The number of Independent functions on the magnets being powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum magnet string resistance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum magnet string inductance to be powered shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.02The magnets being powered shall be saturated TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The miits rating of the magnet being powred shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The voltage to ground of the magnet being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.05.02.02The nominal current of the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum current the PS must operate at shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.05.02.02The PS current type DC or AC shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The ppm of full scale current (peak to peak) shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The time period for specified stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02The long term stability shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The current setpoint resolution (min size in bits) shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The synchronization timing of synchronization shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The max allowable current ripple (peak to peak) TBD Hz11/13/2023APPROVEDTRUE
- 6.05.02.02The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.05.02.02WRT the ripple frequency the following resonant frequencies shall be avoided TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The max voltage ripple (peak to peak) shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02An NMR shall be required to measure the field TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The voltage tap configuration shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The threshold levels shall be TBD A/S11/13/2023APPROVEDTRUE
- 6.05.02.02The peak di/dt without inducing a quench shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have quench heaters TBD W11/13/2023APPROVEDTRUE
- 6.05.02.02The quench heater power rating shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have warm up heaters TBD W11/13/2023APPROVEDTRUE
- 6.05.02.02The warmup heater power rating shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet turns ratio shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The terminal voltage shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- HSR-PS-QW : HSR Magnet Power Supply QW (WBS 6.05.02.02)
- 6.05.02.02The number of Independent functions on the magnets being powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum magnet string resistance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum magnet string inductance to be powered shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.02The magnets being powered shall be saturated TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The miits rating of the magnet being powred shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The voltage to ground of the magnet being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.05.02.02The nominal current of the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum current the PS must operate at shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.05.02.02The PS current type DC or AC shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The ppm of full scale current (peak to peak) shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The time period for specified stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02The long term stability shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The current setpoint resolution (min size in bits) shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The synchronization timing of synchronization shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The max allowable current ripple (peak to peak) TBD Hz11/13/2023APPROVEDTRUE
- 6.05.02.02The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.05.02.02WRT the ripple frequency the following resonant frequencies shall be avoided TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The max voltage ripple (peak to peak) shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02An NMR shall be required to measure the field TBD11/13/2023APPROVEDTRUE
- 6.05.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.05.02.02The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet turns ratio shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The terminal voltage shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- HSR-PS-SEXT : HSR Magnet Power Supply SEXT (WBS 6.05.02.02)
- 6.05.02.02The number of Independent functions on the magnets being powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum magnet string resistance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum magnet string inductance to be powered shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.02The magnets being powered shall be saturated TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The miits rating of the magnet being powred shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The voltage to ground of the magnet being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.05.02.02The nominal current of the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum current the PS must operate at shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.05.02.02The PS current type DC or AC shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The ppm of full scale current (peak to peak) shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The time period for specified stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02The long term stability shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The current setpoint resolution (min size in bits) shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The synchronization timing of synchronization shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The max allowable current ripple (peak to peak) TBD Hz11/13/2023APPROVEDTRUE
- 6.05.02.02The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.05.02.02WRT the ripple frequency the following resonant frequencies shall be avoided TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The max voltage ripple (peak to peak) shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02An NMR shall be required to measure the field TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The voltage tap configuration shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The threshold levels shall be TBD A/S11/13/2023APPROVEDTRUE
- 6.05.02.02The peak di/dt without inducing a quench shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have quench heaters TBD W11/13/2023APPROVEDTRUE
- 6.05.02.02The quench heater power rating shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have warm up heaters TBD W11/13/2023APPROVEDTRUE
- 6.05.02.02The warmup heater power rating shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet turns ratio shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The terminal voltage shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- HSR-PS-SNAKE : HSR Magnet Power Supply SNAKE (WBS 6.05.02.02)
- 6.05.02.02The number of Independent functions on the magnets being powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum magnet string resistance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum magnet string inductance to be powered shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.02The magnets being powered shall be saturated TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The miits rating of the magnet being powred shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The voltage to ground of the magnet being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.05.02.02The nominal current of the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum current the PS must operate at shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.05.02.02The PS current type DC or AC shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The ppm of full scale current (peak to peak) shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The time period for specified stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02The long term stability shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The current setpoint resolution (min size in bits) shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The synchronization timing of synchronization shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The max allowable current ripple (peak to peak) TBD Hz11/13/2023APPROVEDTRUE
- 6.05.02.02The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.05.02.02WRT the ripple frequency the following resonant frequencies shall be avoided TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The max voltage ripple (peak to peak) shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02An NMR shall be required to measure the field TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The voltage tap configuration shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The threshold levels shall be TBD A/S11/13/2023APPROVEDTRUE
- 6.05.02.02The peak di/dt without inducing a quench shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have quench heaters TBD W11/13/2023APPROVEDTRUE
- 6.05.02.02The quench heater power rating shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have warm up heaters TBD W11/13/2023APPROVEDTRUE
- 6.05.02.02The warmup heater power rating shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet turns ratio shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The terminal voltage shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- HSR-PS-SPINR : HSR Magnet Power Supply SPINR (WBS 6.05.02.02)
- 6.05.02.02The number of Independent functions on the magnets being powered shall be TBD ohm11/13/2023PENDINGTRUE
- 6.05.02.02The maximum magnet string resistance to be powered shall be TBD H11/13/2023PENDINGTRUE
- 6.05.02.02The maximum magnet string inductance to be powered shall be TBD Y/N11/13/2023PENDINGTRUE
- 6.05.02.02The magnets being powered shall be saturated TBD11/13/2023PENDINGTRUE
- 6.05.02.02The miits rating of the magnet being powred shall be TBD V11/13/2023PENDINGTRUE
- 6.05.02.02The voltage to ground of the magnet being powered shall be TBD A11/13/2023PENDINGTRUE
- 6.05.02.02The nominal current of the magnets being powered shall be TBD11/13/2023PENDINGTRUE
- 6.05.02.02The minmum current the PS must operate at shall be TBD A11/13/2023PENDINGTRUE
- 6.05.02.02The maximum current the PS must operate at shall be TBD DC\AC11/13/2023PENDINGTRUE
- 6.05.02.02The PS current type DC or AC shall be TBD11/13/2023PENDINGTRUE
- 6.05.02.02The PS AC waveshape required shall be TBD11/13/2023PENDINGTRUE
- 6.05.02.02The peak waveshape di/dt during ramping shall be TBD11/13/2023PENDINGTRUE
- 6.05.02.02The full power bandwidth required shall be TBD11/13/2023PENDINGTRUE
- 6.05.02.02The ppm of full scale current (peak to peak) shall be TBD s11/13/2023PENDINGTRUE
- 6.05.02.02The time period for specified stability shall be TBD A/s11/13/2023PENDINGTRUE
- 6.05.02.02The short term stability shall be TBD A/s11/13/2023PENDINGTRUE
- 6.05.02.02The long term stability shall be TBD11/13/2023PENDINGTRUE
- 6.05.02.02The current setpoint resolution (min size in bits) shall be TBD s11/13/2023PENDINGTRUE
- 6.05.02.02The synchronization required between PS's shall be TBD s11/13/2023PENDINGTRUE
- 6.05.02.02The synchronization timing of synchronization shall be TBD11/13/2023PENDINGTRUE
- 6.05.02.02The max allowable current ripple (peak to peak) TBD Hz11/13/2023PENDINGTRUE
- 6.05.02.02The max current ripple frequency range (Hz) TBD Hz11/13/2023PENDINGTRUE
- 6.05.02.02WRT the ripple frequency the following resonant frequencies shall be avoided TBD V11/13/2023PENDINGTRUE
- 6.05.02.02The max voltage ripple (peak to peak) shall be TBD A/s11/13/2023PENDINGTRUE
- 6.05.02.02An NMR shall be required to measure the field TBD11/13/2023PENDINGTRUE
- 6.05.02.02The voltage tap configuration shall be TBD V11/13/2023PENDINGTRUE
- 6.05.02.02The threshold levels shall be TBD A/S11/13/2023PENDINGTRUE
- 6.05.02.02The peak di/dt without inducing a quench shall be TBD Y/N11/13/2023PENDINGTRUE
- 6.05.02.02The design shall have quench heaters TBD W11/13/2023PENDINGTRUE
- 6.05.02.02The quench heater power rating shall be TBD Y/N11/13/2023PENDINGTRUE
- 6.05.02.02The design shall have warm up heaters TBD W11/13/2023PENDINGTRUE
- 6.05.02.02The warmup heater power rating shall be TBD11/13/2023PENDINGTRUE
- 6.05.02.02The current required to be shunted through the magnet shall be TBD11/13/2023PENDINGTRUE
- 6.05.02.02The magnet turns ratio shall be TBD V11/13/2023PENDINGTRUE
- 6.05.02.02The terminal voltage shall be TBD11/13/2023PENDINGTRUE
- 6.05.02.02The design shall have thermal switches TBD11/13/2023PENDINGTRUE
- 6.05.02.02The thermal switch connection numbers shall be TBD11/13/2023PENDINGTRUE
- 6.05.02.02The design shall have water flow switches TBD11/13/2023PENDINGTRUE
- 6.05.02.02The water flow switch connections numbers shall be TBD11/13/2023PENDINGTRUE
- 6.05.02.02The design shall have access controls interlocks TBD11/13/2023PENDINGTRUE
- 6.05.02.02The main terminals lug details shall be TBD11/13/2023PENDINGTRUE
- 6.05.02.02The lead end indications shall be TBD11/13/2023PENDINGTRUE
- 6.05.02.02The lugs details for thermal switch and water switches shall be TBD11/13/2023PENDINGTRUE
- 6.05.02.02The lug details for the auxiliary windings shall be TBD11/13/2023PENDINGTRUE
- 6.05.02.02The A/B terminal labeling details shall be TBD11/13/2023PENDINGTRUE
- 6.05.02.02The magnet drawing with terminations details shall be TBD11/13/2023PENDINGTRUE
- 6.05.02.02The magnet polarity connections shall be TBD11/13/2023PENDINGTRUE
- HSR-PS-VKICK : HSR Magnet Power Supply VKICK (WBS 6.05.02.02)
- 6.05.02.02The number of Independent functions on the magnets being powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum magnet string resistance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum magnet string inductance to be powered shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.02The magnets being powered shall be saturated TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The miits rating of the magnet being powred shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The voltage to ground of the magnet being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.05.02.02The nominal current of the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.05.02.02The maximum current the PS must operate at shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.05.02.02The PS current type DC or AC shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The ppm of full scale current (peak to peak) shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The time period for specified stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02The long term stability shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The current setpoint resolution (min size in bits) shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.05.02.02The synchronization timing of synchronization shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The max allowable current ripple (peak to peak) TBD Hz11/13/2023APPROVEDTRUE
- 6.05.02.02The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.05.02.02WRT the ripple frequency the following resonant frequencies shall be avoided TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The max voltage ripple (peak to peak) shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.05.02.02An NMR shall be required to measure the field TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The voltage tap configuration shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The threshold levels shall be TBD A/S11/13/2023APPROVEDTRUE
- 6.05.02.02The peak di/dt without inducing a quench shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have quench heaters TBD W11/13/2023APPROVEDTRUE
- 6.05.02.02The quench heater power rating shall be TBD Y/N11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have warm up heaters TBD W11/13/2023APPROVEDTRUE
- 6.05.02.02The warmup heater power rating shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet turns ratio shall be TBD V11/13/2023APPROVEDTRUE
- 6.05.02.02The terminal voltage shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.05.02.02The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- HSR-RF : HSR RF System (WBS 6.08)
- HSR-RF-MAIN_RF : HSR Main RF System (WBS 6.08.05)
- HSR-RF-MAIN_RF-CAPTURE&ACCEL_MODE : HSR Main RF Capture & Accel Mode (WBS 6.08.05.04)
- 6.08.05.04The Type of system shall be NRF11/13/2023PENDINGFALSE
- 6.08.05.04The RF Harmonic Number shall be 31511/13/2023PENDINGFALSE
- 6.08.05.04The RF drive Frequency [Max] shall be 0.09135 MHz11/13/2023PENDINGFALSE
- 6.08.05.04The RF drive Frequency [Min] shall be 0.009639 MHz11/13/2023PENDINGFALSE
- 6.08.05.04The RF Wavelength shall be 3281.80030651341 m11/13/2023PENDINGFALSE
- 6.08.05.04The Required Voltage per Turn shall be 0.6 MV11/13/2023PENDINGFALSE
- 6.08.05.04The Installed Voltage per Turn shall be 0.6 MV11/13/2023PENDINGFALSE
- 6.08.05.04The Fundamental Mode Damper shall not be required11/13/2023PENDINGFALSE
- 6.08.05.04The Tuning on Energy Ramp shall be required11/13/2023PENDINGFALSE
- 6.08.05.04The Cavity Active or Transparent at Injection shall be Active11/13/2023PENDINGFALSE
- 6.08.05.04The Cavity Active or Transparent on Energy Ramp shall be Active11/13/2023PENDINGFALSE
- 6.08.05.04The Cavity Active or Transparent at Store shall be Active11/13/2023PENDINGFALSE
- 6.08.05.04The RF System HOM Impedance Budget (L) shall be 90 Kohm-GHz11/13/2023PENDINGFALSE
- 6.08.05.04The RF System HOM Impedance Budget (H) shall be 2.5 Mohm/m11/13/2023PENDINGFALSE
- 6.08.05.04The RF System HOM Impedance Budget (V) shall be 2.5 Mohm/m11/13/2023PENDINGFALSE
- 6.08.05.04The RF System Same Passband Impedance Budget (L) shall be TBD Mohm11/13/2023PENDINGTRUE
- 6.08.05.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.04< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.04The Amplitude Stability (Noise, df > 1Hz) shall be TBD 1E-4 (rms)11/13/2023PENDINGTRUE
- 6.08.05.04The Phase Stability (Noise, df > 1Hz) shall be TBD deg (rms)11/13/2023PENDINGTRUE
- 6.08.05.04The Amplitude Stability (Drift, df < 1Hz) shall be TBD 1E-4 (rms)11/13/2023PENDINGTRUE
- 6.08.05.04The Phase Stability (Drift, df < 1Hz) shall be TBD deg (rms)11/13/2023PENDINGTRUE
- 6.08.05.04The Cavity Minimum Aperture shall be TBD mm11/13/2023PENDINGTRUE
- 6.08.05.04The Maximum Beam Offset at Cavities (H) shall be TBD mm11/13/2023PENDINGTRUE
- 6.08.05.04The Maximum Beam Offset at Cavities (V) shall be TBD mm11/13/2023PENDINGTRUE
- 6.08.05.04The EM Center Alignment Tolerance in X shall be TBD mm11/13/2023PENDINGTRUE
- 6.08.05.04The EM Center Alignment Tolerance in Y shall be TBD mm11/13/2023PENDINGTRUE
- 6.08.05.04The EM Center Alignment Tolerance in Z shall be TBD mm11/13/2023PENDINGTRUE
- 6.08.05.04The EM Center Alignment Tolerance Roll shall be TBD deg11/13/2023PENDINGTRUE
- 6.08.05.04The EM Center Alignment Tolerance Pitch shall be TBD deg11/13/2023PENDINGTRUE
- 6.08.05.04The EM Center Alignment Tolerance Yaw shall be TBD deg11/13/2023PENDINGTRUE
- 6.08.05.04The Beamline Space Allocation (Beamline Length) shall be TBD m11/13/2023PENDINGTRUE
- 6.08.05.04The Beamline Space Allocation (Width) shall be TBD m11/13/2023PENDINGTRUE
- 6.08.05.04The Beamline Space Allocation (Height) shall be TBD m11/13/2023PENDINGTRUE
- 6.08.05.04The Distance Beamline Center to Ceiling shall be TBD m11/13/2023PENDINGTRUE
- 6.08.05.04The Distance Beamline Center to Floor shall be TBD m11/13/2023PENDINGTRUE
- 6.08.05.04The following nominal and worst case B(t), V(t) plots shall be met TBD11/13/2023PENDINGTRUE
- 6.08.05.04The provided detailed bunch pattern shall be met TBD11/13/2023PENDINGTRUE
- 6.08.05.04The following fill sequence shall be met TBD11/13/2023PENDINGTRUE
- 6.08.05.04The following synchronization requirements shall be met TBD11/13/2023PENDINGTRUE
- 6.08.05.04The following RF gymnastics (like bunch merge, split,etc ) shall be met TBD11/13/2023PENDINGTRUE
- 6.08.05.04The following specific control requirements from beam dynamics shall be met TBD11/13/2023PENDINGTRUE
- 6.08.05.04The following tuning Range shall be met TBD11/13/2023PENDINGTRUE
- HSR-RF-MAIN_RF-SPLIT1_MODE : HSR Main RF Split2 Mode (WBS 6.08.05.05)
- 6.08.05.05The Type of system shall be NRF11/13/2023PENDINGFALSE
- 6.08.05.05The RF Harmonic Number shall be 63011/13/2023PENDINGFALSE
- 6.08.05.05The RF drive Frequency [Max] shall be 0.1827 MHz11/13/2023PENDINGFALSE
- 6.08.05.05The RF drive Frequency [Min] shall be 0.019278 MHz11/13/2023PENDINGFALSE
- 6.08.05.05The RF Wavelength shall be 1640.90015325671 m11/13/2023PENDINGFALSE
- 6.08.05.05The Required Voltage per Turn shall be 0.5 MV11/13/2023PENDINGFALSE
- 6.08.05.05The Installed Voltage per Turn shall be 0.5 MV11/13/2023PENDINGFALSE
- 6.08.05.05The Fundamental Mode Damper shall be required11/13/2023PENDINGFALSE
- 6.08.05.05The Tuning on Energy Ramp shall not be required11/13/2023PENDINGFALSE
- 6.08.05.05The Cavity Active or Transparent at Injection shall be Active11/13/2023PENDINGFALSE
- 6.08.05.05The Cavity Active or Transparent on Energy Ramp shall be Active11/13/2023PENDINGFALSE
- 6.08.05.05The Cavity Active or Transparent at Store shall be Active11/13/2023PENDINGFALSE
- 6.08.05.05The RF System HOM Impedance Budget (L) shall be 90 Kohm-GHz11/13/2023PENDINGFALSE
- 6.08.05.05The RF System HOM Impedance Budget (H) shall be 2.5 Mohm/m11/13/2023PENDINGFALSE
- 6.08.05.05The RF System HOM Impedance Budget (V) shall be 2.5 Mohm/m11/13/2023PENDINGFALSE
- 6.08.05.05The RF System Same Passband Impedance Budget (L) shall be TBD Mohm11/13/2023PENDINGTRUE
- 6.08.05.05< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.05< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.05< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.05< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.05The Amplitude Stability (Noise, df > 1Hz) shall be TBD 1E-4 (rms)11/13/2023PENDINGTRUE
- 6.08.05.05The Phase Stability (Noise, df > 1Hz) shall be TBD deg (rms)11/13/2023PENDINGTRUE
- 6.08.05.05The Amplitude Stability (Drift, df < 1Hz) shall be TBD 1E-4 (rms)11/13/2023PENDINGTRUE
- 6.08.05.05The Phase Stability (Drift, df < 1Hz) shall be TBD deg (rms)11/13/2023PENDINGTRUE
- 6.08.05.05The Cavity Minimum Aperture shall be TBD mm11/13/2023PENDINGTRUE
- 6.08.05.05The Maximum Beam Offset at Cavities (H) shall be TBD mm11/13/2023PENDINGTRUE
- 6.08.05.05The Maximum Beam Offset at Cavities (V) shall be TBD mm11/13/2023PENDINGTRUE
- 6.08.05.05The EM Center Alignment Tolerance in X shall be TBD mm11/13/2023PENDINGTRUE
- 6.08.05.05The EM Center Alignment Tolerance in Y shall be TBD mm11/13/2023PENDINGTRUE
- 6.08.05.05The EM Center Alignment Tolerance in Z shall be TBD mm11/13/2023PENDINGTRUE
- 6.08.05.05The EM Center Alignment Tolerance Roll shall be TBD deg11/13/2023PENDINGTRUE
- 6.08.05.05The EM Center Alignment Tolerance Pitch shall be TBD deg11/13/2023PENDINGTRUE
- 6.08.05.05The EM Center Alignment Tolerance Yaw shall be TBD deg11/13/2023PENDINGTRUE
- 6.08.05.05The Beamline Space Allocation (Beamline Length) shall be TBD m11/13/2023PENDINGTRUE
- 6.08.05.05The Beamline Space Allocation (Width) shall be TBD m11/13/2023PENDINGTRUE
- 6.08.05.05The Beamline Space Allocation (Height) shall be TBD m11/13/2023PENDINGTRUE
- 6.08.05.05The Distance Beamline Center to Ceiling shall be TBD m11/13/2023PENDINGTRUE
- 6.08.05.05The Distance Beamline Center to Floor shall be TBD m11/13/2023PENDINGTRUE
- 6.08.05.05The following nominal and worst case B(t), V(t) plots shall be met TBD11/13/2023PENDINGTRUE
- 6.08.05.05The provided detailed bunch pattern shall be met TBD11/13/2023PENDINGTRUE
- 6.08.05.05The following fill sequence shall be met TBD11/13/2023PENDINGTRUE
- 6.08.05.05The following synchronization requirements shall be met TBD11/13/2023PENDINGTRUE
- 6.08.05.05The following RF gymnastics (like bunch merge, split,etc ) shall be met TBD11/13/2023PENDINGTRUE
- 6.08.05.05The following specific control requirements from beam dynamics shall be met TBD11/13/2023PENDINGTRUE
- 6.08.05.05The following tuning Range shall be met TBD11/13/2023PENDINGTRUE
- HSR-RF-MAIN_RF-SPLIT2_MODE : HSR Main RF Split1 Mode (WBS 6.08.05.06)
- 6.08.05.06The Type of system shall be NRF11/13/2023PENDINGFALSE
- 6.08.05.06The RF Harmonic Number shall be 126011/13/2023PENDINGFALSE
- 6.08.05.06The RF drive Frequency [Max] shall be 1.4616 MHz11/13/2023PENDINGFALSE
- 6.08.05.06The RF drive Frequency [Min] shall be 0.038556 MHz11/13/2023PENDINGFALSE
- 6.08.05.06The RF Wavelength shall be 205.112519157088 m11/13/2023PENDINGFALSE
- 6.08.05.06The Required Voltage per Turn shall be 0.6 MV11/13/2023PENDINGFALSE
- 6.08.05.06The Installed Voltage per Turn shall be 0.6 MV11/13/2023PENDINGFALSE
- 6.08.05.06The Fundamental Mode Damper shall be required11/13/2023PENDINGFALSE
- 6.08.05.06The Tuning on Energy Ramp shall not be required11/13/2023PENDINGFALSE
- 6.08.05.06The Cavity Active or Transparent at Injection shall be Transparent11/13/2023PENDINGFALSE
- 6.08.05.06The Cavity Active or Transparent on Energy Ramp shall be Transparent11/13/2023PENDINGFALSE
- 6.08.05.06The Cavity Active or Transparent at Store shall be Active11/13/2023PENDINGFALSE
- 6.08.05.06The RF System HOM Impedance Budget (L) shall be 90 Kohm-GHz11/13/2023PENDINGFALSE
- 6.08.05.06The RF System HOM Impedance Budget (H) shall be 2.5 Mohm/m11/13/2023PENDINGFALSE
- 6.08.05.06The RF System HOM Impedance Budget (V) shall be 2.5 Mohm/m11/13/2023PENDINGFALSE
- 6.08.05.06The RF System Same Passband Impedance Budget (L) shall be TBD Mohm11/13/2023PENDINGTRUE
- 6.08.05.06< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.06< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.06< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.06< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.06The Amplitude Stability (Noise, df > 1Hz) shall be TBD 1E-4 (rms)11/13/2023PENDINGTRUE
- 6.08.05.06The Phase Stability (Noise, df > 1Hz) shall be TBD deg (rms)11/13/2023PENDINGTRUE
- 6.08.05.06The Amplitude Stability (Drift, df < 1Hz) shall be TBD 1E-4 (rms)11/13/2023PENDINGTRUE
- 6.08.05.06The Phase Stability (Drift, df < 1Hz) shall be TBD deg (rms)11/13/2023PENDINGTRUE
- 6.08.05.06The Cavity Minimum Aperture shall be TBD mm11/13/2023PENDINGTRUE
- 6.08.05.06The Maximum Beam Offset at Cavities (H) shall be TBD mm11/13/2023PENDINGTRUE
- 6.08.05.06The Maximum Beam Offset at Cavities (V) shall be TBD mm11/13/2023PENDINGTRUE
- 6.08.05.06The EM Center Alignment Tolerance in X shall be few 100 um mm11/13/2023PENDINGFALSE
- 6.08.05.06The EM Center Alignment Tolerance in Y shall be few 100 um mm11/13/2023PENDINGFALSE
- 6.08.05.06The EM Center Alignment Tolerance in Z shall be several millimeters mm11/13/2023PENDINGFALSE
- 6.08.05.06The EM Center Alignment Tolerance Roll shall be TBD deg11/13/2023PENDINGTRUE
- 6.08.05.06The EM Center Alignment Tolerance Pitch shall be TBD deg11/13/2023PENDINGTRUE
- 6.08.05.06The EM Center Alignment Tolerance Yaw shall be TBD deg11/13/2023PENDINGTRUE
- 6.08.05.06The Beamline Space Allocation (Beamline Length) shall be TBD m11/13/2023PENDINGTRUE
- 6.08.05.06The Beamline Space Allocation (Width) shall be TBD m11/13/2023PENDINGTRUE
- 6.08.05.06The Beamline Space Allocation (Height) shall be TBD m11/13/2023PENDINGTRUE
- 6.08.05.06The Distance Beamline Center to Ceiling shall be TBD m11/13/2023PENDINGTRUE
- 6.08.05.06The Distance Beamline Center to Floor shall be TBD m11/13/2023PENDINGTRUE
- 6.08.05.06The following nominal and worst case B(t), V(t) plots shall be met TBD11/13/2023PENDINGTRUE
- 6.08.05.06The provided detailed bunch pattern shall be met TBD11/13/2023PENDINGTRUE
- 6.08.05.06The following fill sequence shall be met TBD11/13/2023PENDINGTRUE
- 6.08.05.06The following synchronization requirements shall be met TBD11/13/2023PENDINGTRUE
- 6.08.05.06The following RF gymnastics (like bunch merge, split,etc ) shall be met TBD11/13/2023PENDINGTRUE
- 6.08.05.06The following specific control requirements from beam dynamics shall be met TBD11/13/2023PENDINGTRUE
- 6.08.05.06The following tuning Range shall be met TBD11/13/2023PENDINGTRUE
- HSR-RF-MAIN_RF-STORE1_MODE : HSR Main RF Store1 Mode (WBS 6.08.05.07)
- 6.08.05.07The Type of system shall be NRF11/13/2023PENDINGFALSE
- 6.08.05.07The RF Harmonic Number shall be 252011/13/2023PENDINGFALSE
- 6.08.05.07The RF drive Frequency [Max] shall be 2.9232 MHz11/13/2023PENDINGFALSE
- 6.08.05.07The RF drive Frequency [Min] shall be 0.077112 MHz11/13/2023PENDINGFALSE
- 6.08.05.07The RF Wavelength shall be 102.556259578544 m11/13/2023PENDINGFALSE
- 6.08.05.07The Required Voltage per Turn shall be 7 MV11/13/2023PENDINGFALSE
- 6.08.05.07The Installed Voltage per Turn shall be 7 MV11/13/2023PENDINGFALSE
- 6.08.05.07The Fundamental Mode Damper shall be required11/13/2023PENDINGFALSE
- 6.08.05.07The Tuning on Energy Ramp shall not be required11/13/2023PENDINGFALSE
- 6.08.05.07The Cavity Active or Transparent at Injection shall be Transparent11/13/2023PENDINGFALSE
- 6.08.05.07The Cavity Active or Transparent on Energy Ramp shall be Transparent11/13/2023PENDINGFALSE
- 6.08.05.07The Cavity Active or Transparent at Store shall be Active11/13/2023PENDINGFALSE
- 6.08.05.07The RF System HOM Impedance Budget (L) shall be 90 Kohm-GHz11/13/2023PENDINGFALSE
- 6.08.05.07The RF System HOM Impedance Budget (H) shall be 2.5 Mohm/m11/13/2023PENDINGFALSE
- 6.08.05.07The RF System HOM Impedance Budget (V) shall be 2.5 Mohm/m11/13/2023PENDINGFALSE
- 6.08.05.07The RF System Same Passband Impedance Budget (L) shall be TBD Mohm11/13/2023PENDINGTRUE
- 6.08.05.07< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.07< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.07< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.07< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.05.07The Amplitude Stability (Noise, df > 1Hz) shall be TBD 1E-4 (rms)11/13/2023PENDINGTRUE
- 6.08.05.07The Phase Stability (Noise, df > 1Hz) shall be TBD deg (rms)11/13/2023PENDINGTRUE
- 6.08.05.07The Amplitude Stability (Drift, df < 1Hz) shall be TBD 1E-4 (rms)11/13/2023PENDINGTRUE
- 6.08.05.07The Phase Stability (Drift, df < 1Hz) shall be TBD deg (rms)11/13/2023PENDINGTRUE
- 6.08.05.07The Cavity Minimum Aperture shall be TBD mm11/13/2023PENDINGTRUE
- 6.08.05.07The Maximum Beam Offset at Cavities (H) shall be TBD mm11/13/2023PENDINGTRUE
- 6.08.05.07The Maximum Beam Offset at Cavities (V) shall be TBD mm11/13/2023PENDINGTRUE
- 6.08.05.07The EM Center Alignment Tolerance in X shall be TBD mm11/13/2023PENDINGTRUE
- 6.08.05.07The EM Center Alignment Tolerance in Y shall be TBD mm11/13/2023PENDINGTRUE
- 6.08.05.07The EM Center Alignment Tolerance in Z shall be TBD mm11/13/2023PENDINGTRUE
- 6.08.05.07The EM Center Alignment Tolerance Roll shall be TBD deg11/13/2023PENDINGTRUE
- 6.08.05.07The EM Center Alignment Tolerance Pitch shall be TBD deg11/13/2023PENDINGTRUE
- 6.08.05.07The EM Center Alignment Tolerance Yaw shall be TBD deg11/13/2023PENDINGTRUE
- 6.08.05.07The Beamline Space Allocation (Beamline Length) shall be TBD m11/13/2023PENDINGTRUE
- 6.08.05.07The Beamline Space Allocation (Width) shall be TBD m11/13/2023PENDINGTRUE
- 6.08.05.07The Beamline Space Allocation (Height) shall be TBD m11/13/2023PENDINGTRUE
- 6.08.05.07The Distance Beamline Center to Ceiling shall be TBD m11/13/2023PENDINGTRUE
- 6.08.05.07The Distance Beamline Center to Floor shall be TBD m11/13/2023PENDINGTRUE
- 6.08.05.07The following nominal and worst case B(t), V(t) plots shall be met TBD11/13/2023PENDINGTRUE
- 6.08.05.07The provided detailed bunch pattern shall be met TBD11/13/2023PENDINGTRUE
- 6.08.05.07The following fill sequence shall be met TBD11/13/2023PENDINGTRUE
- 6.08.05.07The following synchronization requirements shall be met TBD11/13/2023PENDINGTRUE
- 6.08.05.07The following RF gymnastics (like bunch merge, split,etc ) shall be met TBD11/13/2023PENDINGTRUE
- 6.08.05.07The following specific control requirements from beam dynamics shall be met TBD11/13/2023PENDINGTRUE
- 6.08.05.07The following tuning Range shall be met TBD11/13/2023PENDINGTRUE
- HSR-RF-MAIN_RF-STORE2_MODE : HSR Main RF Store2 Mode (WBS 6.08.04.02)
- 6.08.04.02The Type of system shall be SRF11/13/2023APPROVEDFALSE
- 6.08.04.02The RF Harmonic Number shall be 756011/13/2023APPROVEDFALSE
- 6.08.04.02The RF drive Frequency [Max] shall be 8.7696 MHz11/13/2023PENDINGFALSE
- 6.08.04.02The RF drive Frequency [Min] shall be 0.231336 MHz11/13/2023PENDINGFALSE
- 6.08.04.02The RF Wavelength shall be 34.1854198595147 m11/13/2023PENDINGFALSE
- 6.08.04.02The Required Voltage per Turn shall be 20 MV11/13/2023APPROVEDFALSE
- 6.08.04.02The Installed Voltage per Turn shall be 20 MV11/13/2023APPROVEDFALSE
- 6.08.04.02The Fundamental Mode Damper shall not be required11/13/2023APPROVEDFALSE
- 6.08.04.02The Tuning on Energy Ramp shall not be required11/13/2023APPROVEDFALSE
- 6.08.04.02The Cavity Active or Transparent at Injection shall be Transparent11/13/2023APPROVEDFALSE
- 6.08.04.02The Cavity Active or Transparent on Energy Ramp shall be Transparent11/13/2023APPROVEDFALSE
- 6.08.04.02The Cavity Active or Transparent at Store shall be Active11/13/2023APPROVEDFALSE
- 6.08.04.02The RF System HOM Impedance Budget (L) shall be TBD Kohm-GHz11/13/2023APPROVEDTRUE
- 6.08.04.02The RF System HOM Impedance Budget (H) shall be TBD Mohm/m11/13/2023APPROVEDTRUE
- 6.08.04.02The RF System HOM Impedance Budget (V) shall be TBD Mohm/m11/13/2023APPROVEDTRUE
- 6.08.04.02The RF System Same Passband Impedance Budget (L) shall be TBD Mohm11/13/2023APPROVEDTRUE
- 6.08.04.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.04.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.04.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.04.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.04.02The Amplitude Stability (Noise, df > 1Hz) shall be TBD 1E-4 (rms)11/13/2023APPROVEDTRUE
- 6.08.04.02The Phase Stability (Noise, df > 1Hz) shall be TBD deg (rms)11/13/2023APPROVEDTRUE
- 6.08.04.02The Amplitude Stability (Drift, df < 1Hz) shall be TBD 1E-4 (rms)11/13/2023APPROVEDTRUE
- 6.08.04.02The Phase Stability (Drift, df < 1Hz) shall be TBD deg (rms)11/13/2023APPROVEDTRUE
- 6.08.04.02The Cavity Minimum Aperture shall be TBD mm11/13/2023APPROVEDTRUE
- 6.08.04.02The Maximum Beam Offset at Cavities (H) shall be TBD mm11/13/2023APPROVEDTRUE
- 6.08.04.02The Maximum Beam Offset at Cavities (V) shall be TBD mm11/13/2023APPROVEDTRUE
- 6.08.04.02The EM Center Alignment Tolerance in X shall be TBD mm11/13/2023APPROVEDTRUE
- 6.08.04.02The EM Center Alignment Tolerance in Y shall be TBD mm11/13/2023APPROVEDTRUE
- 6.08.04.02The EM Center Alignment Tolerance in Z shall be TBD mm11/13/2023APPROVEDTRUE
- 6.08.04.02The EM Center Alignment Tolerance Roll shall be TBD deg11/13/2023APPROVEDTRUE
- 6.08.04.02The EM Center Alignment Tolerance Pitch shall be TBD deg11/13/2023APPROVEDTRUE
- 6.08.04.02The EM Center Alignment Tolerance Yaw shall be TBD deg11/13/2023APPROVEDTRUE
- 6.08.04.02The Beamline Space Allocation (Beamline Length) shall be TBD m11/13/2023APPROVEDTRUE
- 6.08.04.02The Beamline Space Allocation (Width) shall be TBD m11/13/2023PENDINGTRUE
- 6.08.04.02The Beamline Space Allocation (Height) shall be TBD m11/13/2023PENDINGTRUE
- 6.08.04.02The Distance Beamline Center to Ceiling shall be TBD m11/13/2023PENDINGTRUE
- 6.08.04.02The Distance Beamline Center to Floor shall be TBD m11/13/2023PENDINGTRUE
- 6.08.04.02The following nominal and worst case B(t), V(t) plots shall be met TBD11/13/2023PENDINGTRUE
- 6.08.04.02The provided detailed bunch pattern shall be met TBD11/13/2023PENDINGTRUE
- 6.08.04.02The following fill sequence shall be met TBD11/13/2023PENDINGTRUE
- 6.08.04.02The following synchronization requirements shall be met TBD11/13/2023PENDINGTRUE
- 6.08.04.02The following RF gymnastics (like bunch merge, split,etc ) shall be met TBD11/13/2023PENDINGTRUE
- 6.08.04.02The following specific control requirements from beam dynamics shall be met TBD11/13/2023PENDINGTRUE
- 6.08.04.02The following tuning Range shall be met TBD11/13/2023PENDINGTRUE
- HSR-RF-MAIN_RF_SRFCM : HSR Main RF Super Conducting Cryogenic Module (SCFCM) (WBS 6.08.04.01)
- HSR-RF-MAIN_RF_SRFCM-STORE2_MODE : HSR Main RF SCFCM Store2 Mode (WBS 6.08.04.01)
- 6.08.04.01The Slow Tuner Range (frequency) shall be TBD KHz11/13/2023PENDINGTRUE
- 6.08.04.01The Slow Tuner Backlash shall be TBD Hz11/13/2023PENDINGTRUE
- 6.08.04.01The Slow Tuning Rate shall be TBD Hz/s11/13/2023PENDINGTRUE
- 6.08.04.01The Fast Tuner Range (frequency) shall be TBD Khz11/13/2023PENDINGTRUE
- 6.08.04.01The Fast Tuner Backlash shall be TBD Hz11/13/2023PENDINGTRUE
- 6.08.04.01The Fast Tuning Rate shall be TBD Hz/s11/13/2023PENDINGTRUE
- 6.08.04.01The Operational Cavity Gradient shall be TBD MV/m11/13/2023PENDINGTRUE
- 6.08.04.01The Operational Cavity Qo shall be TBD Unit11/13/2023PENDINGTRUE
- 6.08.04.01The Operational Field emission onset shall be TBD MV/m11/13/2023PENDINGTRUE
- 6.08.04.01The Operational FPC Qext. shall be TBD Unit11/13/2023PENDINGTRUE
- 6.08.04.01The Operational Field Probe Qext. shall be TBD Unit11/13/2023PENDINGTRUE
- 6.08.04.01The Cavity Frequency (Resonant Operational) shall be TBD MHz11/13/2023PENDINGTRUE
- 6.08.04.01The Cavity Frequency (Drive Operational) shall be TBD MHz11/13/2023PENDINGTRUE
- 6.08.04.01The Microphonics (cold) shall be TBD Hz11/13/2023PENDINGTRUE
- 6.08.04.01The Radius (from beam center)(<6 in) shall be TBD RADS11/13/2023PENDINGTRUE
- 6.08.04.01The Radius (from beam center)(<12 in) shall be TBD RADS11/13/2023PENDINGTRUE
- 6.08.04.01The Radius (from beam center)(< 18 in) shall be TBD RADS11/13/2023PENDINGTRUE
- 6.08.04.01The Radius (from beam center)(< 21 in) shall be TBD RADS11/13/2023PENDINGTRUE
- 6.08.04.01The Radius (from beam center)(< 50 in) shall be TBD RADS11/13/2023PENDINGTRUE
- 6.08.04.01The Beamline Components (Outside VV) shall be TBD PSID11/13/2023PENDINGTRUE
- 6.08.04.01The Beamline Components (Inside VV/Outside HV) shall be TBD PSID11/13/2023PENDINGTRUE
- 6.08.04.01The Beamline Components (Inside VV/Inside HV) shall be TBD PSID11/13/2023PENDINGTRUE
- 6.08.04.01The Beamline Components (Inside VV/Tracecooled) shall be TBD PSID11/13/2023PENDINGTRUE
- 6.08.04.01The Inner Coupler (Inside VV) shall be TBD PSID11/13/2023PENDINGTRUE
- 6.08.04.01The Inner Coupler (Outside VV) shall be TBD PSID11/13/2023PENDINGTRUE
- 6.08.04.01The Supply Circuit shall be TBD PSID11/13/2023PENDINGTRUE
- 6.08.04.01The Primary Return Circuit shall be TBD PSID11/13/2023PENDINGTRUE
- 6.08.04.01The Trace Cooling shall be TBD PSID11/13/2023PENDINGTRUE
- 6.08.04.01The Trace Cooling (around beamline) shall be TBD PSID11/13/2023PENDINGTRUE
- 6.08.04.01The Coupler Trace Cooling shall be TBD PSID11/13/2023PENDINGTRUE
- 6.08.04.01The Coupler Trace Cooling (Around Coupler) shall be TBD PSID11/13/2023PENDINGTRUE
- 6.08.04.01The Shield Circuit shall be TBD PSID11/13/2023PENDINGTRUE
- 6.08.04.01The Vacuum Vessel shall be TBD PSID11/13/2023PENDINGTRUE
- 6.08.04.01The Cooling Water Operating Temperature shall be TBD K11/13/2023PENDINGTRUE
- 6.08.04.01The Primary Supply Piping Operating Temperature shall be TBD K11/13/2023PENDINGTRUE
- 6.08.04.01The Cavity Trace Cooling Operating Temperature shall be TBD K11/13/2023PENDINGTRUE
- 6.08.04.01The Shield Circuit Operating Temperature shall be TBD K11/13/2023PENDINGTRUE
- 6.08.04.01The Coupler Trace Cooling Operating Temperature shall be TBD K11/13/2023PENDINGTRUE
- 6.08.04.01The Primary Return Circuit Operating Temperature shall be TBD K11/13/2023PENDINGTRUE
- 6.08.04.01The Cooling Water Operating Pressure shall be TBD ATM11/13/2023PENDINGTRUE
- 6.08.04.01The Primary Supply Piping Operating Pressure shall be TBD ATM11/13/2023PENDINGTRUE
- 6.08.04.01The Cavity Trace Cooling Operating Pressure shall be TBD ATM11/13/2023PENDINGTRUE
- 6.08.04.01The Shield Circuit Operating Pressure shall be TBD ATM11/13/2023PENDINGTRUE
- 6.08.04.01The Coupler Trace Cooling Operating Pressure shall be TBD ATM11/13/2023PENDINGTRUE
- 6.08.04.01The Primary Return Circuit Temperature shall be TBD ATM11/13/2023PENDINGTRUE
- 6.08.04.01The Beamline Vacuum (Warm) shall be TBD Torr11/13/2023PENDINGTRUE
- 6.08.04.01The Insulating Vacuum (Warm) shall be TBD Torr11/13/2023PENDINGTRUE
- 6.08.04.01The Beamline Vacuum (Cold) shall be TBD Torr11/13/2023PENDINGTRUE
- 6.08.04.01The Insulating Vacuum (Cold) shall be TBD Torr11/13/2023PENDINGTRUE
- 6.08.04.01The Maximum Leak Rate shall be TBD torr L/s11/13/2023PENDINGTRUE
- 6.08.04.01The Efficiency shall be TBD Value11/13/2023PENDINGTRUE
- 6.08.04.01The Inlet Temperature (High Pressure) shall be TBD K11/13/2023PENDINGTRUE
- 6.08.04.01The Outlet Temperature (High Pressure) shall be TBD K11/13/2023PENDINGTRUE
- 6.08.04.01The Pressure Drop (High Pressure) shall be TBD ATM11/13/2023PENDINGTRUE
- 6.08.04.01The Inlet Temperature (Low Pressure) shall be TBD K11/13/2023PENDINGTRUE
- 6.08.04.01The Outlet Temperature (Low Pressure) shall be TBD K11/13/2023PENDINGTRUE
- 6.08.04.01The Pressure Drop (Low Pressure) shall be TBD ATM11/13/2023PENDINGTRUE
- 6.08.04.01The Shield Circuit Heat Load (Static) shall be TBD W11/13/2023PENDINGTRUE
- 6.08.04.01The Coupler Circuit Heat Load (Static) shall be TBD W11/13/2023PENDINGTRUE
- 6.08.04.01The Primary Circuit Heat Load (Static) shall be TBD W11/13/2023PENDINGTRUE
- 6.08.04.01The Shield Circuit Heat Load (Dynamic) shall be TBD W11/13/2023PENDINGTRUE
- 6.08.04.01The Coupler Circuit Heat Load (Dynamic) shall be TBD W11/13/2023PENDINGTRUE
- 6.08.04.01The Primary Circuit Heat Load (Dynamic) shall be TBD W11/13/2023PENDINGTRUE
- 6.08.04.01The Cooling Water Flow (Large BLA) shall be TBD gpm11/13/2023PENDINGTRUE
- 6.08.04.01The Cooling Water Flow (Small BLA) shall be TBD gpm11/13/2023PENDINGTRUE
- 6.08.04.01The Cooling Water Flow (FPC Window Outer Diameter) shall be TBD gpm11/13/2023PENDINGTRUE
- 6.08.04.01The Cooling Water Flow (FPC Window Antenna) shall be TBD gpm11/13/2023PENDINGTRUE
- 6.08.04.01The Beamline Space Allocation (Beamline Length gate valve to gate valve per cavity pair) shall be TBD m11/13/2023PENDINGTRUE
- 6.08.04.01The Beamline Space Allocation (Width) shall be TBD m11/13/2023PENDINGTRUE
- 6.08.04.01The Beamline Space Allocation (Height) shall be TBD m11/13/2023PENDINGTRUE
- 6.08.04.01The Distance Beamline Center to Floor shall be TBD m11/13/2023PENDINGTRUE
- 6.08.04.01The X-axis CM alignment tolerance shall be TBD mm11/13/2023PENDINGTRUE
- 6.08.04.01The Y-axis CM alignment tolerance shall be TBD mm11/13/2023PENDINGTRUE
- 6.08.04.01The Z-axis CM alignment tolerance shall be TBD mm11/13/2023PENDINGTRUE
- 6.08.04.01The Roll CM alignment tolerance shall be TBD deg11/13/2023PENDINGTRUE
- 6.08.04.01The Pitch CM alignment tolerance shall be TBD deg11/13/2023PENDINGTRUE
- 6.08.04.01The Yaw CM alignment tolerance shall be TBD deg11/13/2023PENDINGTRUE
- 6.08.04.01The Maximum Vertical Shock Acceleration shall be TBD g11/13/2023PENDINGTRUE
- 6.08.04.01The Maximum Lateral Shock Acceleration shall be TBD g11/13/2023PENDINGTRUE
- 6.08.04.01The Maximum Shock Acceleration along Beamline shall be TBD g11/13/2023PENDINGTRUE
- HSR-VAC : HSR Vacuum System (WBS 6.05.02.03)
- 6.05.02.03Impedance values shall be approved by accelerator physics.11/13/2023APPROVEDFALSE
- 6.05.02.03The vacuum system global impedance shall be less than the global impedance budget.11/13/2023APPROVEDFALSE
- 6.05.02.03The magnetic permeability for vacuum equipment shall be approved by beam a physicist.11/13/2023APPROVEDFALSE
- 6.05.02.03All HSR vacuumn components which have magnetic fringe fields within a radius 16mm of the electron Beam centre shall be <0.4 Gauss11/13/2023APPROVEDFALSE
- 6.05.02.03On 15 m on each side (or one vacuum section) of the SRF cavities shall be processed to class ISO 5.11/13/2023APPROVEDFALSE
- 6.05.02.03The beam current shall be used as an input for the interlocks.11/13/2023APPROVEDFALSE
- 6.05.02.03Fast valve protection shall be provided as required by the machine protection and control systems11/13/2023APPROVEDFALSE
- HSR-VAC-ARC : HSR Vacuum Arc Section (WBS 6.05.02.03)
- 6.05.02.03The average vacuum level after conditioning shall be less than 10-10 Torr11/13/2023APPROVEDFALSE
- 6.05.02.03The vacuum stability (upper pressure limit excursions) shall be less than tbd Torr11/13/2023APPROVEDTRUE
- 6.05.02.03The siberian snakes shall be equipt with new beam tubes.11/13/2023APPROVEDFALSE
- 6.05.02.03The new Siberian Snake beam tubes shall be Cu / aC coated.11/13/2023APPROVEDFALSE
- HSR-VAC-BLW : HSR Vacuum RF Finger Bellows (WBS 6.05.04.02)
- 6.05.04.02There shall be no restriction on magnetic permeability for the RF finger bellows. As long as the bellows are external to the magnets.11/13/2023PENDINGFALSE
- 6.05.04.02The minimum aperture for arc sections from (Q4 to Q4) vertical direction shall be mm 47.311/13/2023PENDINGFALSE
- 6.05.04.02The minimum aperture for arc sections from (Q4 to Q4) horizontal direction shall be mm 62.711/13/2023PENDINGFALSE
- 6.05.04.02minimum aperture for the section from (between Q1 & Q2 and Q2 & Q3) shall be mm TBD11/13/2023PENDINGTRUE
- 6.05.04.02The tapered aperture for arc sections from (i.e.. warm to cold interconnect transition to beam pipe) shall be mm 6911/13/2023APPROVEDFALSE
- 6.05.04.02The tapered aperture for arc sections from (warm to cold interconnect transition to beam pipe) shall be mm 112.7511/13/2023APPROVEDFALSE
- 6.05.04.02An AC coating shall be provided on the innermost surface of the RF finger bellows to maintain electron secondary emission yield (SEY) below11/13/2023PENDINGFALSE
- 6.05.04.02The RF finger bellows shall be designed to allow 20mm of compression and 37mm of extension from the nominal installation position.11/13/2023PENDINGFALSE
- 6.05.04.02The RF finger bellows shall be designed to allow a 3mm radial offset from the nominal installation position.11/13/2023APPROVEDFALSE
- HSR-VAC-SCREENS : HSR Vacuum Beam Screen (WBS 6.05.04.01)
- 6.05.04.01The inner layer of copper shall have a RRR>50 after installation.11/13/2023APPROVEDFALSE
- 6.05.04.01An act coating shall be provided on the innermost surface of the beam screen to maintain electron secondary emission yield (SEY) below TBD at the arc CQS (after conditioning). [5.9]11/13/2023APPROVEDTRUE
- 6.05.04.01An AC coating shall be provided on the innermost surface of the beam screen to maintain a electron secondary emission yield (SEY) below TBD at the Arc dipoles.11/13/2023APPROVEDTRUE
- 6.05.04.01The beam screen impedance shall be approved by accelerator physics.11/13/2023APPROVEDFALSE
- 6.05.04.01The HE cooling capacity shall be W 32011/13/2023PENDINGFALSE
- 6.05.04.01The beam screen shall be designed to fit in a beam pipe diameter of mm 6811/13/2023PENDINGFALSE
- 6.05.04.01The vertical aperture for the arc section beam screens shall have a minimum gap of . mm 47.311/13/2023PENDINGFALSE
- 6.05.04.01The horizontal aperture for the arc section beam screens shall have a minimum gap of . mm 62.711/13/2023PENDINGFALSE
- 6.05.04.01The minimum aperture for triplet beam pipe shall be mm TBD11/13/2023PENDINGTRUE
- 6.05.04.01The minimum vertical aperture for the triplet beam screens shall be mm 9511/13/2023PENDINGFALSE
- 6.05.04.01The minimum horizontal aperture for the triplet beam screens shall be mm 9511/13/2023PENDINGFALSE
- 6.05.04.01The magnetic permeability of the beam screen at 300 °k @ 500 Oe magnetization shall be11/13/2023APPROVEDFALSE
- 6.05.04.01The magnetic permeability of the beam screen at 4 °k @ 500 Oe magnetization shall be11/13/2023APPROVEDFALSE
- 6.05.04.01The copper layer of screens of the gamma-transition jump quadrupoles shall a triple R of 50 to 60 after installation mm -11/13/2023PENDINGFALSE
- 6.05.04.01The Beam screen/vacuum chamber shall be capable of being degassed below 80 k.11/13/2023APPROVEDFALSE
- 6.05.04.01Beam screen shall allow for vacuum pumping between the inside of the beam screen and the cold bore of the magnet.11/13/2023APPROVEDFALSE
- HSR-VAC-STRAIGHT : HSR Vacuum Straight Section (WBS 6.05.02.03)
- 6.05.02.03The average vacuum level, after conditioning shall be less than 10-10 Torr11/13/2023APPROVEDFALSE
- 6.05.02.03The allowable Local vacuum shall have pressure excursions which are less than tbd Torr11/13/2023APPROVEDTRUE
- 6.05.02.03All chamber wall coatings and thicknesses shall be specified by or approved by physics.11/13/2023APPROVEDFALSE
- 6.05.02.03The vacuumn tube shall have the capability to add solenoids later, if required11/13/2023APPROVEDFALSE
- 6.05.02.03The typical vacuum chamber aperture shall have a dia of 100 mm11/13/2023APPROVEDFALSE
- 6.05.02.03Special aperture requirements and/or aperture file shall be provided and approved by physics.11/13/2023APPROVEDFALSE
- 6.05.02.03The maximum beam pipe temperature of all components included during bakeout shall be 250 C11/13/2023APPROVEDFALSE
- 6.05.02.03There shall be a NEG coating on all nominal RHIC beam tubes11/13/2023APPROVEDFALSE
- 6.05.02.03The Maximum allowable SEY for the nominal RHIC beam tube shall be <1.1511/13/2023PENDINGFALSE
- IR : Interaction Region (IR) System (WBS 6.06.02)
- IR-CONT : IR Controls System (WBS 6.07.02)
- IR-CONT-ALGNMNT : IR Controls Crab Alignment (WBS 6.07.02)
- 6.07.02The Provide mechanism to visualize crab alignment signals shall be tbd tbd11/13/2023APPROVEDTRUE
- 6.07.02The Crab, data update rate shall be 1 Hz11/13/2023APPROVEDFALSE
- 6.07.02The Crab, correction update rate shall be 1 Hz11/13/2023APPROVEDFALSE
- IR-CONT-FEEDBACK : IR Controls Fast Orbit Feedback (WBS 6.07.02)
- 6.07.02The Fast Orbit Feedback, per BPM sampling rate shall be 10 kHz11/13/2023APPROVEDFALSE
- 6.07.02The Fast Orbit Feedback, correction output rate shall be 100 Hz11/13/2023APPROVEDFALSE
- IR-CONT-ORBIT : IR Controls Transverse IR Orbit Optimization (WBS 6.07.02)
- 6.07.02The IR Orbit, average orbit data sample and correction update rate shall be 1 Hz11/13/2023APPROVEDFALSE
- IR-INST : IR Instrumentation System (WBS 6.06.02.05)
- IR-INST-ESR_BPM : ESR BPM Pickups in the IR (WBS 6.06.02.05)
- 6.06.02.05The total number of ESR BPM pickups in the IR shall be 2411/13/2023APPROVEDFALSE
- 6.06.02.05For the 2nC pilot bunch, PM pickups shall be designed to provide the required measurement resolution over the range of H=+/-50, V=+/-10 um11/13/2023APPROVEDFALSE
- 6.06.02.05For the design bunch, BPM pickups shall be designed to provide the required measurement resolution over the range of H=+/-20, V=+/-5 um11/13/2023APPROVEDFALSE
- 6.06.02.05BPM pickup shall be designed so to ensure the maximim temperatures of the components (due to heating by the beam) are acceptable for reliability and operations11/13/2023APPROVEDFALSE
- 6.06.02.05BPM pickups Shall be designed to be baked to 200 C for large number of thermal cycles (list locations where applicable)11/13/2023APPROVEDFALSE
- 6.06.02.05BPM pickup installation misalignment tolerance shall be for warm BPM=50 & cold BPM=500 um11/13/2023APPROVEDFALSE
- 6.06.02.05BPM pickup misalignement variance tolerance (upper limit) due to thermal cycling of the ESR BPMs in the IR shall be 20 um11/13/2023APPROVEDFALSE
- 6.06.02.05The ESR shall have the slow global orbit correction BPM pickups at the specified locations within +162m to -162m of IP6 ESR_IR_BPM_corrector-10-20-2023.docx11/13/2023PENDINGFALSE
- 6.06.02.05Beam position monitor electronics shall have a turnbyturn capability Y11/13/2023APPROVEDFALSE
- 6.06.02.05For 2 nC pilot bunches, single turn measurement the resolution shall be Hmax=Vmax<100
Hdrift=Vdrift<50 um11/13/2023APPROVEDFALSE - 6.06.02.05For 2 nC pilot bunches, 1,000 turns average measurement resolution shall be Hmax=Vmax<30
Hdrift=Vdrift<30 um11/13/2023APPROVEDFALSE - 6.06.02.05For stored beam, turnbyturn low charge, 2 nC bunches, measurement resolution shall be Hmax=Vmax<30
Hdrift=Vdrift<30 um11/13/2023APPROVEDFALSE - 6.06.02.05For stored beam, turnbyturn high charge, 728 nC bunch range, measurement resolution shall be Hmax=Vmax<10
Hdrift=Vdrift<10 um11/13/2023APPROVEDFALSE - 6.06.02.05For stored beam, 1,000 turns average, high charge, 728 nC bunch range, measurement resolution shall be Hmax=Vmax<5
Hdrift=Vdrift<5 um11/13/2023APPROVEDFALSE - 6.06.02.05For stored beam, 1 second average, high charge, 728 nC bunch range, measurement resolution shall be Hmax=Vmax<1
Hdrift=Vdrift<1 um11/13/2023APPROVEDFALSE - IR-INST-ESR_FEEDBACK : ESR Transverse Orbit Feedback near the IR (WBS 6.06.02.05)
- 6.06.02.05The requirements for electron transverse orbit feedback at the IP shall be tbd11/13/2023APPROVEDTRUE
- 6.06.02.05The BPMs that shall provide the electron beam position data to the IR feedback system are tbd11/13/2023APPROVEDTRUE
- 6.06.02.05The location and quantity of the corrector magnets for the IR transverse orbit feedback shall be tbd11/13/2023APPROVEDTRUE
- 6.06.02.05The type of the corrector magnets for the IR transverse orbit feedback shall be (fast) air-core correctors11/13/2023APPROVEDFALSE
- 6.06.02.05The bandwidth of corrector system of magnets and their power supplies for the IR transverse orbit feedback shall be >30 Hz11/13/2023APPROVEDFALSE
- 6.06.02.05The electron beam position stability provided by the IR feedback system at the IP shall be tbd11/13/2023APPROVEDTRUE
- IR-INST-ESR_LM : ESR Beam Loss Monitors in the IR (WBS 6.06.02.05)
- 6.06.02.05Electron beam losses shall be measured at the following locations in the IR tbd11/13/2023APPROVEDTRUE
- 6.06.02.05Beam losses at the location of primary collimators shall be measurable bunchbybunch yes11/13/2023APPROVEDFALSE
- 6.06.02.05The sensitivity of the BLM detectors shall be 100000 e11/13/2023APPROVEDFALSE
- 6.06.02.05The response time from loss detection to abort shall be .01/20 ms11/13/2023APPROVEDFALSE
- IR-INST-HSR_BPM : HSR BPM Pickups in the IR (WBS 6.06.02.05)
- 6.06.02.05Existing RHIC stripline BPMs that are reused in the IR shall be shielded (sleeved) to avoid overheating the BPMs and their cables in the RHIC cryostats .11/13/2023APPROVEDFALSE
- 6.06.02.05New hadron cryobutton BPMs shall be placed in available locations as close as possible to the existing RHIC stripline BPMs inside RHIC cryostats which are being reused.11/13/2023APPROVEDFALSE
- 6.06.02.05New hadron BPMs shall be placed in new, additional locations as required HSR_IR_BPM_cor_location-10-20-2023.xlsx11/13/2023APPROVEDFALSE
- 6.06.02.05New hadron cryobutton BPMs shall be able to operate a with minimal load on the cryogenic system at temperatures of 2 K11/13/2023APPROVEDFALSE
- 6.06.02.05The new and existing BPMs shall compatibly interface with the new coated sleeves that are being added to the HSR cold vacuum pipe.11/13/2023APPROVEDFALSE
- 6.06.02.05Each new cryobutton BPM shall have the same measurement plane(s) as the closest existing RHIC stripline BPM or be upgraded to dual plane11/13/2023APPROVEDFALSE
- 6.06.02.05The BPM mechanical centers shall be aligned with nearby quadrupole magnetic center within at least 0.15 mm11/13/2023APPROVEDFALSE
- 6.06.02.05The BPMs at the arc focusing quads shall be capable of providing a reliable measurement of the horizontal orbit position of +/-21 mm11/13/2023APPROVEDFALSE
- 6.06.02.05The BPMs at the arc defocusing quads shall be capable of providing a reliable measurement of the horizontal orbit position of +/-10 mm11/13/2023APPROVEDFALSE
- 6.06.02.05The BPMs at the arc focusing quads for measurements of the orbit position at a bunch charge of 5nC. [5.9] shall be capable to provide reliable measurements in a range of +/ 21 mm11/13/2023APPROVEDFALSE
- 6.06.02.05The BPMs at the arc defocusing quads shall be capable to provide reliable measurement of the orbit position in the range +/ 10 mm at a bunch charge of 5nC. [5.9] 10 mm11/13/2023APPROVEDFALSE
- 6.06.02.05A number of BPMs shall sighted on either side of IP6 where there is a different (nontraditional) beam pipe aperture. These BPM will not be the standard HSR cryoBPM. The number of non standard BPMs in this region shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.05The nonstandard HSR BPM's in this region shall be compatible with the non standard beam pipe aperture.11/13/2023APPROVEDFALSE
- 6.06.02.05The locations of the non standard HSR BPM's in the nonstandard beam pipe aperture shall be. TBD11/13/2023APPROVEDTRUE
- 6.06.02.05The non standard HSR BPM's shall have a measurement resolution of TBD units11/13/2023APPROVEDTRUE
- 6.06.02.05The expected radial offset at each of the non standard HSR BPMs in the IR, for each of the various HSR running modes shall be 0 mm11/13/2023APPROVEDFALSE
- 6.06.02.05There shall be warm HSR button BPM pickups at the following locations WBS 6.04.06.0511/13/2023APPROVEDFALSE
- 6.06.02.05There shall be warm HSR button BPM pickups shall have a measurement resolution of TBD11/13/2023APPROVEDTRUE
- 6.06.02.05The warm HSR button BPM pickups at the following locations Dimensions and performance requirements are TBD11/13/2023APPROVEDTRUE
- 6.06.02.05A hadron BPM shall be installed between B0pF and B0ApF with the dedicated purpose of measuring the hadron crabbing angle of 12.5 mrad11/13/2023APPROVEDFALSE
- 6.06.02.05The BPM electronics for the pickups located in the HSR arcs (defined in this case as fromQ5toQ5) need to be able to provide measurements during the store with an considerably shifted beam radial orbit. The BPMs here shall be able to measure a maximum radial orbit shift range of +\- 21 mm11/13/2023APPROVEDFALSE
- 6.06.02.05There shall be no requirement on BPMs to perform individual measurements for each bunch, when more than one bunch is present. One position measurement per turn which includes all bunches combined will be the narrowest (turnbyturn) mode of sampling.11/13/2023APPROVEDFALSE
- 6.06.02.05The BPM RMS resolution for measuring one turn orbit for a 5 nC bunch at injection parameters shall not be larger than 2 mm11/13/2023APPROVEDFALSE
- 6.06.02.05BPM RMS resolution for a 44 nC bunch at injection parameters for measuring one turn orbit shall not be larger than 0.2 mm11/13/2023APPROVEDFALSE
- 6.06.02.05The BPM system shall be capable of delivering an array of consecutive single turn position measurements at a rate of 1 array per second with 1024 turns11/13/2023APPROVEDFALSE
- 6.06.02.05The BPM system shall be capable of delivering average orbit measurements at a continuous rate of 1 Hz11/13/2023APPROVEDFALSE
- 6.06.02.05The RMS resolution, averaged over a 1 second period, for a 5 nC bunch at injection parameters for measuring the average orbit shall not be larger than 0.2 mm11/13/2023APPROVEDFALSE
- 6.06.02.05The RMS resolution , averaged over a 1 second period, for a 44 nC bunch at acceleration ramp parameters for measuring the average orbit shall not be larger than 20 um11/13/2023APPROVEDFALSE
- 6.06.02.05The resolution, averaged over a 1 second period, at highest average current parameters for measuring the average orbit shall not be larger than 20 um11/13/2023APPROVEDFALSE
- 6.06.02.05The BPM system shall require a subset of BPMs that operate the fast orbit feedback having a bandwidth of at least 1 kHz11/13/2023APPROVEDFALSE
- 6.06.02.05The BPM system shall be able to provide average orbit measurements to an orbit feedback system having a bandwidth of at least 1 Hz11/13/2023APPROVEDFALSE
- 6.06.02.05The electronics associated with the hadron BPM pickup installed between B0pF and B0ApF, used for measuring the hadron crabbing angle, shall have the necessary bandwidth and characteristics to measure a crabbing angle of: 12.5 mrad11/13/2023APPROVEDFALSE
- IR-INST-HSR_FEEDBACK : HSR Transverse Orbit Feedback near the IR (WBS 6.06.02.05)
- 6.06.02.05The requirements for hadron transverse orbit feedback at the IP shall be tbd -11/13/2023APPROVEDTRUE
- 6.06.02.05The BPMs that will provide hadron beam position data to the IR feedback system shall be tbd11/13/2023APPROVEDTRUE
- 6.06.02.05The location and quantity of the corrector magnets for the IR transverse orbit feedback shall be tbd11/13/2023APPROVEDTRUE
- 6.06.02.05The type of the corrector magnets for the IR transverse orbit feedback shall be tbd11/13/2023APPROVEDTRUE
- 6.06.02.05The bandwidth of corrector system of magnets and their power supplies for the IR transverse orbit feedback shall be >10 Hz11/13/2023APPROVEDFALSE
- 6.06.02.05The hadron beam position stability provided by the IR feedback system at the IP shall be tbd mm11/13/2023APPROVEDTRUE
- IR-INST-HSR_LM : HSR Beam Loss Monitors in the IR (WBS 6.06.02.05)
- 6.06.02.05Hadron beam losses shall be measured at the following locations in the IR: TBD11/13/2023APPROVEDTRUE
- 6.06.02.05Beam losses at the location of primary collimators shall be measurable bunchbybunch11/13/2023APPROVEDFALSE
- 6.06.02.05The type of hadron BLM detectors shall be ion chambers (RHIC style)11/13/2023APPROVEDFALSE
- 6.06.02.05The sensitivity of the BLM detectors shall be 0.1 rad11/13/2023APPROVEDFALSE
- 6.06.02.05The response time from loss detection to abort shall be .01/20 ms11/13/2023APPROVEDFALSE
- IR-MAG : IR Magnet (WBS 6.06.02.01)
- IR-MAG-B0APF : IR Magnet B0APF (WBS 6.06.02.01.01)
- 6.06.02.01.01The number of magnet functions shall be 311/13/2023APPROVEDFALSE
- 6.06.02.01.01The field type shall be D\Q\Vcor11/13/2023APPROVEDFALSE
- 6.06.02.01.01The field direction shall be V\-\H11/13/2023APPROVEDFALSE
- 6.06.02.01.01The field rotation shall be -\Sk\-11/13/2023APPROVEDFALSE
- 6.06.02.01.01The min coil inner rad shall be 0.043 m11/13/2023APPROVEDFALSE
- 6.06.02.01.01The min gap shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.01.01The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.01.01The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.01.01The mag length shall be <0.6 m11/13/2023APPROVEDFALSE
- 6.06.02.01.01The eff Length shall be 0.599999999999999 m11/13/2023APPROVEDFALSE
- 6.06.02.01.01The dipole field B shall be -3.3\-\TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The grad field G shall be -\0.6\- T/m(n-1)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.06.02.01.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.06.02.01.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.06.02.01.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max b1 content shall be 10000 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b2 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b3 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b4 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b5 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b6 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b7 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b8 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b9 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b10 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b11 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b12 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b13 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b14 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b15 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b16 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The magnet shall be designed to limit Xtalk Requirements TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max analysis radius content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max X-talk multipoles content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B1 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B2 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B3 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B4 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B5 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B6 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B7 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B8 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B9 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B10 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B11 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B12 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B13 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B14 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B15 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B16 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- IR-MAG-B0PF : IR Magnet B0PF (WBS 6.06.02.01.01)
- 6.06.02.01.01The number of magnet functions shall be 111/13/2023APPROVEDFALSE
- 6.06.02.01.01The field type shall be D11/13/2023APPROVEDFALSE
- 6.06.02.01.01The field direction shall be V11/13/2023APPROVEDFALSE
- 6.06.02.01.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.01.01The min coil inner rad shall be 0.17 m11/13/2023APPROVEDFALSE
- 6.06.02.01.01The min gap shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.01.01The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.01.01The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.01.01The mag length shall be <1.2 m11/13/2023APPROVEDFALSE
- 6.06.02.01.01The eff Length shall be 1.19999999999999 m11/13/2023APPROVEDFALSE
- 6.06.02.01.01The dipole field B shall be -1.1800006963706 T11/13/2023APPROVEDFALSE
- 6.06.02.01.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.01.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.06.02.01.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.06.02.01.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.06.02.01.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max b1 content shall be 10000 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b2 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b3 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b4 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b5 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b6 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b7 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b8 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b9 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b10 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b11 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b12 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b13 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b14 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b15 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b16 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The magnet shall be designed to limit Xtalk Requirements TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max analysis radius content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max X-talk multipoles content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B1 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B2 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B3 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B4 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B5 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B6 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B7 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B8 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B9 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B10 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B11 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B12 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B13 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B14 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B15 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B16 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- IR-MAG-B1APF : IR Magnet B1APF (WBS 6.06.02.01.02)
- 6.06.02.01.02The number of magnet functions shall be 111/13/2023APPROVEDFALSE
- 6.06.02.01.02The field type shall be D11/13/2023APPROVEDFALSE
- 6.06.02.01.02The field direction shall be V11/13/2023APPROVEDFALSE
- 6.06.02.01.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.01.02The min coil inner rad shall be 0.185\200.1 m11/13/2023APPROVEDFALSE
- 6.06.02.01.02The min gap shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.01.02The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.01.02The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.01.02The mag length shall be 1.478 m11/13/2023APPROVEDFALSE
- 6.06.02.01.02The eff Length shall be 1.5 m11/13/2023APPROVEDFALSE
- 6.06.02.01.02The dipole field B shall be -4.228 T11/13/2023APPROVEDFALSE
- 6.06.02.01.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.01.02The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.06.02.01.02The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.06.02.01.02The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.06.02.01.02The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max b1 content shall be 10000 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b2 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b3 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b4 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b5 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b6 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b7 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b8 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b9 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b10 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b11 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b12 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b13 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b14 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b15 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b16 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The magnet shall be designed to limit Xtalk Requirements TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01.02The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max analysis radius content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max X-talk multipoles content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B1 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B2 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B3 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B4 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B5 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B6 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B7 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B8 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B9 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B10 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B11 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B12 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B13 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B14 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B15 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B16 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01.02The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.02At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- IR-MAG-B1PF : IR Magnet B1PF (WBS 6.06.02.01.02)
- 6.06.02.01.02The number of magnet functions shall be 111/13/2023APPROVEDFALSE
- 6.06.02.01.02The field type shall be D11/13/2023APPROVEDFALSE
- 6.06.02.01.02The field direction shall be V11/13/2023APPROVEDFALSE
- 6.06.02.01.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.01.02The min coil inner rad shall be 0.135 m11/13/2023APPROVEDFALSE
- 6.06.02.01.02The min gap shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.01.02The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.01.02The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.01.02The mag length shall be <3 m11/13/2023APPROVEDFALSE
- 6.06.02.01.02The eff Length shall be 3 m11/13/2023APPROVEDFALSE
- 6.06.02.01.02The dipole field B shall be -3.38836118562776 T11/13/2023APPROVEDFALSE
- 6.06.02.01.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.01.02The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.06.02.01.02The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.06.02.01.02The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.06.02.01.02The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max b1 content shall be 10000 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b2 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b3 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b4 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b5 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b6 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b7 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b8 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b9 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b10 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b11 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b12 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b13 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b14 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b15 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b16 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The magnet shall be designed to limit Xtalk Requirements TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01.02The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max analysis radius content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max X-talk multipoles content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B1 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B2 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B3 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B4 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B5 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B6 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B7 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B8 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B9 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B10 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B11 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B12 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B13 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B14 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B15 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B16 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01.02The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.02At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- IR-MAG-B1PR : IR Magnet B1PR (WBS 6.06.02.01)
- 6.06.02.01The number of magnet functions shall be 111/13/2023APPROVEDFALSE
- 6.06.02.01The field type shall be D11/13/2023APPROVEDFALSE
- 6.06.02.01The field direction shall be V11/13/2023APPROVEDFALSE
- 6.06.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.01The min coil inner rad shall be 0.09 m11/13/2023APPROVEDFALSE
- 6.06.02.01The min gap shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.01The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.01The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.01The mag length shall be <3.7 m11/13/2023APPROVEDFALSE
- 6.06.02.01The eff Length shall be 3.70004455454222 m11/13/2023APPROVEDFALSE
- 6.06.02.01The dipole field B shall be -4.20012496345457 T11/13/2023APPROVEDFALSE
- 6.06.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.06.02.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.06.02.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.06.02.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01The max b1 content shall be 10000 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b2 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b3 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b4 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b5 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b6 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b7 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b8 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b9 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b10 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b11 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b12 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b13 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b14 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b15 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b16 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The magnet shall be designed to limit Xtalk Requirements TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The max radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01The max analysis radius content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01The max X-talk multipoles content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.06.02.01The max B1 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B2 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B3 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B4 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B5 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B6 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B7 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B8 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B9 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B10 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B11 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B12 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B13 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B14 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B15 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B16 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- IR-MAG-B2aER : IR Magnet B2aER (WBS 6.06.02.01.01)
- 6.06.02.01.01The magnet function shall be 111/13/2023APPROVEDFALSE
- 6.06.02.01.01The field type shall be D11/13/2023APPROVEDFALSE
- 6.06.02.01.01The field direction shall be V11/13/2023APPROVEDFALSE
- 6.06.02.01.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.01.01The min coil inner rad shall be 0.9045\0.9045 m11/13/2023APPROVEDFALSE
- 6.06.02.01.01The min gap shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.01.01The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.01.01The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.01.01The mag length shall be <2 m11/13/2023APPROVEDFALSE
- 6.06.02.01.01The eff Length shall be 2 m11/13/2023APPROVEDFALSE
- 6.06.02.01.01The dipole field B shall be 0.192 T11/13/2023APPROVEDFALSE
- 6.06.02.01.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.01.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.06.02.01.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.06.02.01.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.06.02.01.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max b1 content shall be 10000 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b2 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b3 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b4 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b5 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b6 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b7 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b8 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b9 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b10 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b11 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b12 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b13 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b14 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b15 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b16 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The magnet shall be designed to limit Xtalk Requirements TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max analysis radius content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max X-talk multipoles content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B1 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B2 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B3 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B4 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B5 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B6 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B7 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B8 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B9 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B10 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B11 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B12 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B13 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B14 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B15 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B16 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- IR-MAG-B2Ber : IR Magnet B2Ber (WBS 6.06.02.01.01)
- 6.06.02.01.01The magnet function shall be 111/13/2023APPROVEDFALSE
- 6.06.02.01.01The field type shall be D11/13/2023APPROVEDFALSE
- 6.06.02.01.01The field direction shall be V11/13/2023APPROVEDFALSE
- 6.06.02.01.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.01.01The min coil inner rad shall be 1.1145\1.1145 m11/13/2023APPROVEDFALSE
- 6.06.02.01.01The min gap shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.01.01The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.01.01The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.01.01The mag length shall be <3.45 m11/13/2023APPROVEDFALSE
- 6.06.02.01.01The eff Length shall be 3.45 m11/13/2023APPROVEDFALSE
- 6.06.02.01.01The dipole field B shall be 0.238 T11/13/2023APPROVEDFALSE
- 6.06.02.01.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.01.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.06.02.01.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.06.02.01.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.06.02.01.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max b1 content shall be 10000 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b2 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b3 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b4 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b5 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b6 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b7 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b8 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b9 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b10 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b11 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b12 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b13 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b14 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b15 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b16 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The magnet shall be designed to limit Xtalk Requirements TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max analysis radius content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max X-talk multipoles content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B1 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B2 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B3 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B4 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B5 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B6 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B7 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B8 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B9 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B10 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B11 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B12 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B13 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B14 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B15 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B16 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- IR-MAG-B2PF : IR Magnet B2PF (WBS 6.06.02.06)
- 6.06.02.06The number of magnet functions shall be 111/13/2023APPROVEDFALSE
- 6.06.02.06The field type shall be D11/13/2023APPROVEDFALSE
- 6.06.02.06The field direction shall be V11/13/2023APPROVEDFALSE
- 6.06.02.06< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.06The min coil inner rad shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.06The min gap shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.06The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.06The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.06The mag length shall be <3.077 m11/13/2023APPROVEDFALSE
- 6.06.02.06The eff Length shall be 3.07743504983506 m11/13/2023APPROVEDFALSE
- 6.06.02.06The dipole field B shall be 4.98288409651142 T11/13/2023APPROVEDFALSE
- 6.06.02.06< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.06The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.06.02.06The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.06.02.06The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.06.02.06The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.06The max b1 content shall be 10000 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.06The max b2 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.06The max b3 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.06The max b4 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.06The max b5 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.06The max b6 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.06The max b7 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.06The max b8 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.06The max b9 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.06The max b10 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.06The max b11 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.06The max b12 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.06The max b13 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.06The max b14 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.06The max b15 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.06The max b16 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.06The magnet shall be designed to limit Xtalk Requirements TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.06The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.06.02.06The max radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.06The max analysis radius content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.06The max X-talk multipoles content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.06.02.06The max B1 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.06The max B2 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.06The max B3 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.06The max B4 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.06The max B5 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.06The max B6 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.06The max B7 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.06The max B8 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.06The max B9 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.06The max B10 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.06The max B11 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.06The max B12 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.06The max B13 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.06The max B14 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.06The max B15 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.06The max B16 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.06The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.06The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.06At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- IR-MAG-B2PR : IR Magnet B2PR (WBS 6.06.02.01)
- 6.06.02.01The number of magnet functions shall be 111/13/2023APPROVEDFALSE
- 6.06.02.01The field type shall be D11/13/2023APPROVEDFALSE
- 6.06.02.01The field direction shall be V11/13/2023APPROVEDFALSE
- 6.06.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.01The min coil inner rad shall be 0.09 m11/13/2023APPROVEDFALSE
- 6.06.02.01The min gap shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.01The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.01The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.01The mag length shall be <3.7 m11/13/2023APPROVEDFALSE
- 6.06.02.01The eff Length shall be 3.70000208159534 m11/13/2023APPROVEDFALSE
- 6.06.02.01The dipole field B shall be 0.907864642876773 T11/13/2023APPROVEDFALSE
- 6.06.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.06.02.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.06.02.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.06.02.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01The max b1 content shall be 10000 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b2 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b3 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b4 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b5 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b6 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b7 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b8 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b9 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b10 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b11 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b12 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b13 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b14 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b15 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b16 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The magnet shall be designed to limit Xtalk Requirements TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The max radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01The max analysis radius content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01The max X-talk multipoles content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.06.02.01The max B1 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B2 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B3 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B4 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B5 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B6 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B7 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B8 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B9 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B10 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B11 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B12 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B13 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B14 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B15 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B16 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- IR-MAG-D1EF : IR Magnet D1EF (WBS 6.06.02.01.03)
- 6.06.02.01.03The magnet function shall be 111/13/2023APPROVEDFALSE
- 6.06.02.01.03The field type shall be D11/13/2023APPROVEDFALSE
- 6.06.02.01.03The field direction shall be V11/13/2023APPROVEDFALSE
- 6.06.02.01.03< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.01.03The min coil inner rad shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.01.03The min gap shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.01.03The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.01.03The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.01.03The mag length shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.01.03The eff Length shall be 3.8 m11/13/2023APPROVEDFALSE
- 6.06.02.01.03The dipole field B shall be -0.313 T11/13/2023APPROVEDFALSE
- 6.06.02.01.03< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.01.03The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.06.02.01.03The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.06.02.01.03The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.06.02.01.03The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max b1 content shall be 10000 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.03The max b2 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.03The max b3 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.03The max b4 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.03The max b5 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.03The max b6 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.03The max b7 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.03The max b8 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.03The max b9 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.03The max b10 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.03The max b11 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.03The max b12 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.03The max b13 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.03The max b14 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.03The max b15 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.03The max b16 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.03The magnet shall be designed to limit Xtalk Requirements TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01.03The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max analysis radius content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max X-talk multipoles content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max B1 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max B2 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max B3 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max B4 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max B5 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max B6 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max B7 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max B8 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max B9 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max B10 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max B11 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max B12 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max B13 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max B14 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max B15 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max B16 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.03The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01.03The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.03At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- IR-MAG-H5_QS3 : IR Magnet H5_QS3 (WBS 6.06.02.01.03)
- 6.06.02.01.03The number of magnet functions shall be 111/13/2023APPROVEDFALSE
- 6.06.02.01.03The field type shall be Q11/13/2023APPROVEDFALSE
- 6.06.02.01.03< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.01.03The field rotation shall be N11/13/2023APPROVEDFALSE
- 6.06.02.01.03The min coil inner rad shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.01.03< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.01.03The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.01.03The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.01.03The mag length shall be <0.25 m11/13/2023APPROVEDFALSE
- 6.06.02.01.03The eff Length shall be 0.25 m11/13/2023APPROVEDFALSE
- 6.06.02.01.03< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.01.03The grad field G shall be TBD T/m(n-1)11/13/2023APPROVEDTRUE
- 6.06.02.01.03The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.06.02.01.03The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.06.02.01.03The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.06.02.01.03The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max b1 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.03The max b2 content shall be 10000 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.03The max b3 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.03The max b4 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.03The max b5 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.03The max b6 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.03The max b7 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.03The max b8 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.03The max b9 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.03The max b10 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.03The max b11 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.03The max b12 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.03The max b13 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.03The max b14 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.03The max b15 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.03The max b16 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.03The magnet shall be designed to limit Xtalk Requirements TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01.03The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max analysis radius content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max X-talk multipoles content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max B1 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max B2 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max B3 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max B4 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max B5 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max B6 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max B7 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max B8 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max B9 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max B10 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max B11 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max B12 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max B13 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max B14 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max B15 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max B16 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.03The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01.03The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.03At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- IR-MAG-H5_TV3 : IR Magnet H5_TV3 (WBS 6.06.02.01.03)
- 6.06.02.01.03The number of magnet functions shall be 111/13/2023APPROVEDFALSE
- 6.06.02.01.03The field type shall be D11/13/2023APPROVEDFALSE
- 6.06.02.01.03The field direction shall be V11/13/2023APPROVEDFALSE
- 6.06.02.01.03< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.01.03The min coil inner rad shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.01.03The min gap shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.01.03The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.01.03The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.01.03The mag length shall be <0.25 m11/13/2023APPROVEDFALSE
- 6.06.02.01.03The eff Length shall be 0.25 m11/13/2023APPROVEDFALSE
- 6.06.02.01.03The dipole field B shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.03< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.01.03The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.06.02.01.03The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.06.02.01.03The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.06.02.01.03The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max b1 content shall be 10000 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.03The max b2 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.03The max b3 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.03The max b4 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.03The max b5 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.03The max b6 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.03The max b7 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.03The max b8 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.03The max b9 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.03The max b10 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.03The max b11 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.03The max b12 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.03The max b13 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.03The max b14 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.03The max b15 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.03The max b16 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.03The magnet shall be designed to limit Xtalk Requirements TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01.03The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max analysis radius content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max X-talk multipoles content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max B1 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max B2 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max B3 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max B4 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max B5 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max B6 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max B7 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max B8 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max B9 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max B10 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max B11 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max B12 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max B13 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max B14 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max B15 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max B16 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.03The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01.03The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.03At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- IR-MAG-LONG_S : IR Magnet LONG_S (WBS 6.06.02.02)
- 6.06.02.02The magnet function shall be 111/13/2023APPROVEDFALSE
- 6.06.02.02The field type shall be Sol11/13/2023APPROVEDFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02The min coil inner rad shall be 0.043 m11/13/2023APPROVEDFALSE
- 6.06.02.02The min gap shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.02The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.02The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.02The mag length shall be < 1.8 m11/13/2023APPROVEDFALSE
- 6.06.02.02The eff Length shall be 1.8 m11/13/2023APPROVEDFALSE
- 6.06.02.02The dipole field B shall be 8.5 T11/13/2023APPROVEDFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.06.02.02The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.06.02.02The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.06.02.02The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02The magnet shall be designed to limit Xtalk Requirements TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.02The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.06.02.02The max radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.02The max analysis radius content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.02The max X-talk multipoles content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.06.02.02The max B1 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.02The max B2 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.02The max B3 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.02The max B4 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.02The max B5 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.02The max B6 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.02The max B7 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.02The max B8 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.02The max B9 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.02The max B10 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.02The max B11 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.02The max B12 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.02The max B13 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.02The max B14 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.02The max B15 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.02The max B16 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.02The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.02The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.02At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- IR-MAG-Q0EF : IR Magnet Q0EF (WBS 6.06.02.01.01)
- 6.06.02.01.01The magnet function shall be 111/13/2023APPROVEDFALSE
- 6.06.02.01.01The field type shall be Q11/13/2023APPROVEDFALSE
- 6.06.02.01.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.01.01The field rotation shall be N11/13/2023APPROVEDFALSE
- 6.06.02.01.01The min coil inner rad shall be 0.025\0.025 m11/13/2023APPROVEDFALSE
- 6.06.02.01.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.01.01The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.01.01The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.01.01The mag length shall be <1.2 m11/13/2023APPROVEDFALSE
- 6.06.02.01.01The eff Length shall be 1.2 m11/13/2023APPROVEDFALSE
- 6.06.02.01.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.01.01The grad field G shall be -12.989 T/m(n-1)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.06.02.01.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.06.02.01.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.06.02.01.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max b1 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b2 content shall be 10000 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b3 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b4 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b5 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b6 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b7 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b8 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b9 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b10 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b11 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b12 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b13 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b14 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b15 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b16 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The magnet shall be designed to limit Xtalk Requirements TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max analysis radius content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max X-talk multipoles content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B1 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B2 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B3 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B4 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B5 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B6 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B7 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B8 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B9 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B10 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B11 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B12 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B13 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B14 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B15 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B16 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- IR-MAG-Q1APF : IR Magnet Q1APF (WBS 6.06.02.01.02)
- 6.06.02.01.02The number of magnet functions shall be 111/13/2023APPROVEDFALSE
- 6.06.02.01.02The field type shall be Q11/13/2023APPROVEDFALSE
- 6.06.02.01.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.01.02The field rotation shall be N11/13/2023APPROVEDFALSE
- 6.06.02.01.02The min coil inner rad shall be 0.056 m11/13/2023APPROVEDFALSE
- 6.06.02.01.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.01.02The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.01.02The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.01.02The mag length shall be <1.46 m11/13/2023APPROVEDFALSE
- 6.06.02.01.02The eff Length shall be 1.46 m11/13/2023APPROVEDFALSE
- 6.06.02.01.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.01.02The grad field G shall be -82.87966053502 T/m(n-1)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.06.02.01.02The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.06.02.01.02The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.06.02.01.02The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max b1 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b2 content shall be 10000 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b3 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b4 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b5 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b6 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b7 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b8 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b9 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b10 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b11 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b12 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b13 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b14 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b15 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b16 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The magnet shall be designed to limit Xtalk Requirements TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01.02The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max analysis radius content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max X-talk multipoles content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B1 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B2 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B3 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B4 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B5 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B6 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B7 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B8 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B9 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B10 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B11 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B12 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B13 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B14 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B15 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B16 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01.02The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.02At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- IR-MAG-Q1APR : IR Magnet Q1APR (WBS 6.06.02.01.01)
- 6.06.02.01.01The number of magnet functions shall be 211/13/2023APPROVEDFALSE
- 6.06.02.01.01The field type shall be Q\Q11/13/2023APPROVEDFALSE
- 6.06.02.01.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.01.01The field rotation shall be N\Sk11/13/2023APPROVEDFALSE
- 6.06.02.01.01The min coil inner rad shall be 0.02\0.0256 m11/13/2023APPROVEDFALSE
- 6.06.02.01.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.01.01The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.01.01The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.01.01The mag length shall be <1.8 m11/13/2023APPROVEDFALSE
- 6.06.02.01.01The eff Length shall be 1.8 m11/13/2023APPROVEDFALSE
- 6.06.02.01.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.01.01The grad field G shall be -78.1\0.6 T/m(n-1)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.06.02.01.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.06.02.01.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.06.02.01.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max b1 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b2 content shall be 10000 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b3 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b4 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b5 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b6 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b7 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b8 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b9 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b10 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b11 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b12 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b13 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b14 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b15 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b16 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The magnet shall be designed to limit Xtalk Requirements TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max analysis radius content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max X-talk multipoles content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B1 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B2 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B3 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B4 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B5 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B6 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B7 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B8 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B9 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B10 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B11 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B12 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B13 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B14 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B15 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B16 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- IR-MAG-Q1BPF : IR Magnet Q1BPF (WBS 6.06.02.01.02)
- 6.06.02.01.02The number of magnet functions shall be 111/13/2023APPROVEDFALSE
- 6.06.02.01.02The field type shall be Q11/13/2023APPROVEDFALSE
- 6.06.02.01.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.01.02The field rotation shall be N11/13/2023APPROVEDFALSE
- 6.06.02.01.02The min coil inner rad shall be 0.078 m11/13/2023APPROVEDFALSE
- 6.06.02.01.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.01.02The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.01.02The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.01.02The mag length shall be <1.61 m11/13/2023APPROVEDFALSE
- 6.06.02.01.02The eff Length shall be 1.61 m11/13/2023APPROVEDFALSE
- 6.06.02.01.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.01.02The grad field G shall be -47.9811668844321 T/m(n-1)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.06.02.01.02The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.06.02.01.02The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.06.02.01.02The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max b1 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b2 content shall be 10000 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b3 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b4 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b5 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b6 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b7 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b8 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b9 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b10 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b11 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b12 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b13 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b14 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b15 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b16 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The magnet shall be designed to limit Xtalk Requirements TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01.02The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max analysis radius content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max X-talk multipoles content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B1 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B2 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B3 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B4 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B5 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B6 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B7 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B8 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B9 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B10 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B11 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B12 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B13 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B14 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B15 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B16 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01.02The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.02At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- IR-MAG-Q1BPR : IR Magnet Q1BPR (WBS 6.06.02.01.01)
- 6.06.02.01.01The number of magnet functions shall be 111/13/2023APPROVEDFALSE
- 6.06.02.01.01The field type shall be Q11/13/2023APPROVEDFALSE
- 6.06.02.01.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.01.01The field rotation shall be N11/13/2023APPROVEDFALSE
- 6.06.02.01.01The min coil inner rad shall be 0.028\0.028 m11/13/2023APPROVEDFALSE
- 6.06.02.01.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.01.01The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.01.01The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.01.01The mag length shall be <1.4 m11/13/2023APPROVEDFALSE
- 6.06.02.01.01The eff Length shall be 1.4 m11/13/2023APPROVEDFALSE
- 6.06.02.01.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.01.01The grad field G shall be -71.9993725265581 T/m(n-1)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.06.02.01.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.06.02.01.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.06.02.01.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max b1 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b2 content shall be 10000 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b3 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b4 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b5 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b6 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b7 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b8 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b9 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b10 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b11 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b12 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b13 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b14 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b15 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b16 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The magnet shall be designed to limit Xtalk Requirements TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max analysis radius content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max X-talk multipoles content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B1 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B2 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B3 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B4 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B5 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B6 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B7 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B8 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B9 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B10 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B11 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B12 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B13 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B14 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B15 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B16 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- IR-MAG-Q1EF : IR Magnet Q1EF (WBS 6.06.02.01.01)
- 6.06.02.01.01The magnet function shall be 211/13/2023APPROVEDFALSE
- 6.06.02.01.01The field type shall be Q\Q11/13/2023APPROVEDFALSE
- 6.06.02.01.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.01.01The field rotation shall be N\Sk11/13/2023APPROVEDFALSE
- 6.06.02.01.01The min coil inner rad shall be 0.063\0.063 m11/13/2023APPROVEDFALSE
- 6.06.02.01.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.01.01The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.01.01The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.01.01The mag length shall be <1.61 m11/13/2023APPROVEDFALSE
- 6.06.02.01.01The eff Length shall be 1.61 m11/13/2023APPROVEDFALSE
- 6.06.02.01.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.01.01The grad field G shall be 6\0.6 T/m(n-1)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.06.02.01.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.06.02.01.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.06.02.01.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max b1 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b2 content shall be 10000 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b3 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b4 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b5 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b6 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b7 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b8 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b9 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b10 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b11 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b12 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b13 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b14 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b15 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b16 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The magnet shall be designed to limit Xtalk Requirements TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max analysis radius content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max X-talk multipoles content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B1 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B2 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B3 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B4 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B5 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B6 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B7 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B8 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B9 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B10 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B11 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B12 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B13 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B14 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B15 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B16 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- IR-MAG-Q1ER : IR Magnet Q1ER (WBS 6.06.02.01.01)
- 6.06.02.01.01The magnet function shall be 211/13/2023APPROVEDFALSE
- 6.06.02.01.01The field type shall be Q\Q11/13/2023APPROVEDFALSE
- 6.06.02.01.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.01.01The field rotation shall be N\Sk11/13/2023APPROVEDFALSE
- 6.06.02.01.01The min coil inner rad shall be 0.0476\0.0557 m11/13/2023APPROVEDFALSE
- 6.06.02.01.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.01.01The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.01.01The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.01.01The mag length shall be <1.8 m11/13/2023APPROVEDFALSE
- 6.06.02.01.01The eff Length shall be 1.8 m11/13/2023APPROVEDFALSE
- 6.06.02.01.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.01.01The grad field G shall be -13.6\0.6 T/m(n-1)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.06.02.01.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.06.02.01.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.06.02.01.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max b1 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b2 content shall be 10000 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b3 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b4 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b5 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b6 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b7 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b8 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b9 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b10 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b11 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b12 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b13 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b14 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b15 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b16 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The magnet shall be designed to limit Xtalk Requirements TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max analysis radius content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max X-talk multipoles content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B1 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B2 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B3 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B4 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B5 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B6 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B7 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B8 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B9 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B10 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B11 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B12 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B13 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B14 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B15 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B16 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- IR-MAG-Q2EF : IR Magnet Q2EF (WBS 6.06.02.01)
- 6.06.02.01The magnet function shall be 111/13/2023APPROVEDFALSE
- 6.06.02.01The field type shall be Q11/13/2023APPROVEDFALSE
- 6.06.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.01The field rotation shall be N11/13/2023APPROVEDFALSE
- 6.06.02.01The min coil inner rad shall be 0.08 m11/13/2023APPROVEDFALSE
- 6.06.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.01The good field aperture drx required shall be 35 m11/13/2023APPROVEDFALSE
- 6.06.02.01The good field aperture dry required shall be 20 m11/13/2023APPROVEDFALSE
- 6.06.02.01The mag length shall be <0.6 m11/13/2023APPROVEDFALSE
- 6.06.02.01The eff Length shall be 0.6 m11/13/2023APPROVEDFALSE
- 6.06.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.01The grad field G shall be -4.589 T/m(n-1)11/13/2023APPROVEDFALSE
- 6.06.02.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.06.02.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.06.02.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.06.02.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01The max b1 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b2 content shall be 10000 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b3 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b4 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b5 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b6 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b7 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b8 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b9 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b10 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b11 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b12 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b13 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b14 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b15 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b16 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The magnet shall be designed to limit Xtalk Requirements TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The max radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01The max analysis radius content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01The max X-talk multipoles content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.06.02.01The max B1 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B2 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B3 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B4 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B5 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B6 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B7 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B8 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B9 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B10 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B11 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B12 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B13 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B14 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B15 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B16 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- IR-MAG-Q2ER : IR Magnet Q2ER (WBS 6.06.02.01.01)
- 6.06.02.01.01The magnet function shall be 111/13/2023APPROVEDFALSE
- 6.06.02.01.01The field type shall be Q11/13/2023APPROVEDFALSE
- 6.06.02.01.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.01.01The field rotation shall be N11/13/2023APPROVEDFALSE
- 6.06.02.01.01The min coil inner rad shall be 0.0643\0.0643 m11/13/2023APPROVEDFALSE
- 6.06.02.01.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.01.01The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.01.01The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.01.01The mag length shall be <1.4 m11/13/2023APPROVEDFALSE
- 6.06.02.01.01The eff Length shall be 1.4 m11/13/2023APPROVEDFALSE
- 6.06.02.01.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.01.01The grad field G shall be 13.103 T/m(n-1)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.06.02.01.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.06.02.01.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.06.02.01.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max b1 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b2 content shall be 10000 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b3 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b4 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b5 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b6 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b7 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b8 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b9 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b10 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b11 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b12 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b13 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b14 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b15 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b16 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The magnet shall be designed to limit Xtalk Requirements TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max analysis radius content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max X-talk multipoles content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B1 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B2 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B3 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B4 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B5 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B6 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B7 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B8 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B9 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B10 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B11 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B12 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B13 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B14 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B15 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B16 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- IR-MAG-Q2PF : IR Magnet Q2PF (WBS 6.06.02.01.02)
- 6.06.02.01.02The number of magnet functions shall be 111/13/2023APPROVEDFALSE
- 6.06.02.01.02The field type shall be Q11/13/2023APPROVEDFALSE
- 6.06.02.01.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.01.02The field rotation shall be N11/13/2023APPROVEDFALSE
- 6.06.02.01.02The min coil inner rad shall be 0.113 m11/13/2023APPROVEDFALSE
- 6.06.02.01.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.01.02The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.01.02The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.01.02The mag length shall be <3.6 m11/13/2023APPROVEDFALSE
- 6.06.02.01.02The eff Length shall be 3.6 m11/13/2023APPROVEDFALSE
- 6.06.02.01.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.01.02The grad field G shall be 34.3976109021508 T/m(n-1)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.06.02.01.02The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.06.02.01.02The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.06.02.01.02The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max b1 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b2 content shall be 10000 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b3 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b4 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b5 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b6 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b7 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b8 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b9 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b10 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b11 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b12 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b13 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b14 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b15 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The max b16 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.02The magnet shall be designed to limit Xtalk Requirements TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01.02The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max analysis radius content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max X-talk multipoles content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B1 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B2 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B3 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B4 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B5 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B6 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B7 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B8 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B9 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B10 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B11 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B12 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B13 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B14 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B15 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The max B16 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.02The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01.02The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.02At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- IR-MAG-Q2PR : IR Magnet Q2PR (WBS 6.06.02.01.01)
- 6.06.02.01.01The number of magnet functions shall be 111/13/2023APPROVEDFALSE
- 6.06.02.01.01The field type shall be Q11/13/2023APPROVEDFALSE
- 6.06.02.01.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.01.01The field rotation shall be N11/13/2023APPROVEDFALSE
- 6.06.02.01.01The min coil inner rad shall be 0.054\0.054 m11/13/2023APPROVEDFALSE
- 6.06.02.01.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.01.01The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.01.01The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.01.01The mag length shall be <4.5 m11/13/2023APPROVEDFALSE
- 6.06.02.01.01The eff Length shall be 4.5 m11/13/2023APPROVEDFALSE
- 6.06.02.01.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.01.01The grad field G shall be 26.0716383573924 T/m(n-1)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.06.02.01.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.06.02.01.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.06.02.01.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max b1 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b2 content shall be 10000 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b3 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b4 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b5 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b6 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b7 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b8 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b9 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b10 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b11 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b12 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b13 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b14 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b15 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The max b16 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.01The magnet shall be designed to limit Xtalk Requirements TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max analysis radius content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max X-talk multipoles content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B1 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B2 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B3 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B4 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B5 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B6 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B7 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B8 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B9 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B10 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B11 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B12 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B13 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B14 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B15 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The max B16 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- IR-MAG-Q3EF : IR Magnet Q3EF (WBS 6.06.02.01)
- 6.06.02.01The magnet function shall be 111/13/2023APPROVEDFALSE
- 6.06.02.01The field type shall be Q11/13/2023APPROVEDFALSE
- 6.06.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.01The field rotation shall be N11/13/2023APPROVEDFALSE
- 6.06.02.01The min coil inner rad shall be 0.08 m11/13/2023APPROVEDFALSE
- 6.06.02.01The min gap shall be 0 m11/13/2023APPROVEDFALSE
- 6.06.02.01The good field aperture drx required shall be 35 m11/13/2023APPROVEDFALSE
- 6.06.02.01The good field aperture dry required shall be 20 m11/13/2023APPROVEDFALSE
- 6.06.02.01The mag length shall be <0.6 m11/13/2023APPROVEDFALSE
- 6.06.02.01The eff Length shall be 0.6 m11/13/2023APPROVEDFALSE
- 6.06.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.01The grad field G shall be 8.289 T/m(n-1)11/13/2023APPROVEDFALSE
- 6.06.02.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.06.02.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.06.02.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.06.02.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01The max b1 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b2 content shall be 10000 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b3 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b4 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b5 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b6 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b7 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b8 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b9 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b10 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b11 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b12 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b13 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b14 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b15 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b16 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The magnet shall be designed to limit Xtalk Requirements TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The max radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01The max analysis radius content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01The max X-talk multipoles content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.06.02.01The max B1 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B2 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B3 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B4 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B5 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B6 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B7 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B8 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B9 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B10 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B11 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B12 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B13 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B14 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B15 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B16 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- IR-MAG-Q3ER : IR Magnet Q3ER (WBS 6.06.02.01)
- 6.06.02.01The magnet function shall be 111/13/2023APPROVEDFALSE
- 6.06.02.01The field type shall be Q11/13/2023APPROVEDFALSE
- 6.06.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.01The field rotation shall be N11/13/2023APPROVEDFALSE
- 6.06.02.01The min coil inner rad shall be 0.08 m11/13/2023APPROVEDFALSE
- 6.06.02.01The min gap shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.01The good field aperture drx required shall be 35 m11/13/2023APPROVEDFALSE
- 6.06.02.01The good field aperture dry required shall be 20 m11/13/2023APPROVEDFALSE
- 6.06.02.01The mag length shall be <0.6 m11/13/2023APPROVEDFALSE
- 6.06.02.01The eff Length shall be 0.6 m11/13/2023APPROVEDFALSE
- 6.06.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.01The grad field G shall be 13.37 T/m(n-1)11/13/2023APPROVEDFALSE
- 6.06.02.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.06.02.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.06.02.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.06.02.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01The max b1 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b2 content shall be 10000 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b3 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b4 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b5 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b6 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b7 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b8 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b9 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b10 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b11 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b12 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b13 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b14 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b15 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b16 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The magnet shall be designed to limit Xtalk Requirements TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The max radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01The max analysis radius content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01The max X-talk multipoles content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.06.02.01The max B1 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B2 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B3 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B4 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B5 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B6 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B7 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B8 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B9 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B10 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B11 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B12 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B13 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B14 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B15 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B16 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- IR-MAG-Q3PF : IR Magnet Q3PF (WBS 6.06.02.01)
- 6.06.02.01The number of magnet functions shall be 111/13/2023APPROVEDFALSE
- 6.06.02.01The field type shall be Q11/13/2023APPROVEDFALSE
- 6.06.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.01The field rotation shall be N11/13/2023APPROVEDFALSE
- 6.06.02.01The min coil inner rad shall be 0.08 m11/13/2023APPROVEDFALSE
- 6.06.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.01The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.01The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.01The mag length shall be <0.75 m11/13/2023APPROVEDFALSE
- 6.06.02.01The eff Length shall be 0.75 m11/13/2023APPROVEDFALSE
- 6.06.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.01The grad field G shall be 9.61803534829747 T/m(n-1)11/13/2023APPROVEDFALSE
- 6.06.02.01The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.06.02.01The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.06.02.01The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.06.02.01The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01The max b1 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b2 content shall be 10000 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b3 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b4 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b5 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b6 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b7 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b8 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b9 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b10 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b11 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b12 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b13 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b14 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b15 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The max b16 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01The magnet shall be designed to limit Xtalk Requirements TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The max radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01The max analysis radius content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01The max X-talk multipoles content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.06.02.01The max B1 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B2 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B3 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B4 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B5 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B6 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B7 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B8 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B9 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B10 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B11 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B12 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B13 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B14 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B15 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The max B16 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- IR-MAG-Q3PR : IR Magnet Q3PR (WBS 6.06.02.01.03)
- 6.06.02.01.03The number of magnet functions shall be 111/13/2023APPROVEDFALSE
- 6.06.02.01.03The field type shall be Q11/13/2023APPROVEDFALSE
- 6.06.02.01.03< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.01.03The field rotation shall be N11/13/2023APPROVEDFALSE
- 6.06.02.01.03The min coil inner rad shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.01.03< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.01.03The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.01.03The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.01.03The mag length shall be <1.5 m11/13/2023APPROVEDFALSE
- 6.06.02.01.03The eff Length shall be 1.5 m11/13/2023APPROVEDFALSE
- 6.06.02.01.03< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.01.03The grad field G shall be 5.40302538113877 T/m(n-1)11/13/2023APPROVEDFALSE
- 6.06.02.01.03The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.06.02.01.03The field stability shall be 0 T/s11/13/2023APPROVEDFALSE
- 6.06.02.01.03The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.06.02.01.03The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max b1 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.03The max b2 content shall be 10000 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.03The max b3 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.03The max b4 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.03The max b5 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.03The max b6 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.03The max b7 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.03The max b8 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.03The max b9 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.03The max b10 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.03The max b11 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.03The max b12 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.03The max b13 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.03The max b14 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.03The max b15 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.03The max b16 content shall be <1 (10^-4)11/13/2023APPROVEDFALSE
- 6.06.02.01.03The magnet shall be designed to limit Xtalk Requirements TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01.03The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max analysis radius content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max X-talk multipoles content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max B1 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max B2 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max B3 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max B4 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max B5 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max B6 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max B7 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max B8 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max B9 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max B10 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max B11 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max B12 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max B13 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max B14 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max B15 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.03The max B16 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.01.03The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01.03The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.01.03At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- IR-MAG-SHORT_S : IR Magnet SHORT_S (WBS 6.06.02.02)
- 6.06.02.02The magnet function shall be 111/13/2023APPROVEDFALSE
- 6.06.02.02The field type shall be Sol11/13/2023APPROVEDFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02The min coil inner rad shall be 0.043 m11/13/2023APPROVEDFALSE
- 6.06.02.02The min gap shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.02The good field aperture drx required shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.02The good field aperture dry required shall be TBD m11/13/2023APPROVEDTRUE
- 6.06.02.02The mag length shall be < 5.5 m11/13/2023APPROVEDFALSE
- 6.06.02.02The eff Length shall be 5.5 m11/13/2023APPROVEDFALSE
- 6.06.02.02The dipole field B shall be 8.5 T11/13/2023APPROVEDFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02The ramp rate shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.06.02.02The field stability shall be TBD T/s11/13/2023APPROVEDTRUE
- 6.06.02.02The good field region requirements shall be TBD ppm11/13/2023APPROVEDTRUE
- 6.06.02.02The harmonic reference radius shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02< blank >11/13/2023NOT APPLICABLEFALSE
- 6.06.02.02The magnet shall be designed to limit Xtalk Requirements TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.02The X-talk shall be controlled at the following location TBD11/13/2023APPROVEDTRUE
- 6.06.02.02The max radial distance to X-talk location content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.02The max analysis radius content shall be TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.02The max X-talk multipoles content shall be TBD (10^-4)11/13/2023APPROVEDTRUE
- 6.06.02.02The max B1 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.02The max B2 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.02The max B3 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.02The max B4 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.02The max B5 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.02The max B6 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.02The max B7 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.02The max B8 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.02The max B9 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.02The max B10 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.02The max B11 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.02The max B12 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.02The max B13 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.02The max B14 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.02The max B15 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.02The max B16 content shall be TBD T11/13/2023APPROVEDTRUE
- 6.06.02.02The magnet design shall constrain the ext. fringe field TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.02The fringe field shall be constrained at the following location TBD mm11/13/2023APPROVEDTRUE
- 6.06.02.02At that location the magnitude of the fringe field shall be less than TBD T11/13/2023APPROVEDTRUE
- IR-PROT : IR Machine Protection System (WBS 6.06.03)
- Add requirement here if needed11/13/2023PENDINGFALSE
- IR-PS : IR Magnet Power Supply (WBS 6.06.02)
- IR-PS-B0APF : IR Magnet Power Supply B0APF (WBS 6.06.02.03)
- 6.06.02.03The number of Independent functions on the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The maximum magnet string resistance to be powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.06.02.03The maximum magnet string inductance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.06.02.03The magnets being powered shall be saturated TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.03The miits rating of the magnet being powred shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The voltage to ground of the magnet being powered shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.03The nominal current of the magnets being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.03The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.03The maximum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.03The PS current type DC or AC shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.06.02.03The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The ppm of full scale current (peak to peak) shall be TBD %11/13/2023APPROVEDTRUE
- 6.06.02.03The time period for specified stability shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.03The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.03The long term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.03The current setpoint resolution (min size in bits) shall be TBD bits11/13/2023APPROVEDTRUE
- 6.06.02.03The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.03The synchronization timing of synchronization shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.03The max allowable current ripple (peak to peak) TBD A11/13/2023APPROVEDTRUE
- 6.06.02.03The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.06.02.03WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz11/13/2023APPROVEDTRUE
- 6.06.02.03The max voltage ripple (peak to peak) shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.03An NMR shall be required to measure the field TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.03The voltage tap configuration shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The threshold levels shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.03The peak di/dt without inducing a quench shall be TBD A/S11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have quench heaters TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.03The quench heater power rating shall be TBD W11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have warm up heaters TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.03The warmup heater power rating shall be TBD W11/13/2023APPROVEDTRUE
- 6.06.02.03The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The magnet turns ratio shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The terminal voltage shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- IR-PS-B0PF : IR Magnet Power Supply B0PF (WBS 6.06.02.03)
- 6.06.02.03The number of Independent functions on the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The maximum magnet string resistance to be powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.06.02.03The maximum magnet string inductance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.06.02.03The magnets being powered shall be saturated TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.03The miits rating of the magnet being powred shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The voltage to ground of the magnet being powered shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.03The nominal current of the magnets being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.03The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.03The maximum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.03The PS current type DC or AC shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.06.02.03The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The ppm of full scale current (peak to peak) shall be TBD %11/13/2023APPROVEDTRUE
- 6.06.02.03The time period for specified stability shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.03The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.03The long term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.03The current setpoint resolution (min size in bits) shall be TBD bits11/13/2023APPROVEDTRUE
- 6.06.02.03The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.03The synchronization timing of synchronization shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.03The max allowable current ripple (peak to peak) TBD A11/13/2023APPROVEDTRUE
- 6.06.02.03The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.06.02.03WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz11/13/2023APPROVEDTRUE
- 6.06.02.03The max voltage ripple (peak to peak) shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.03An NMR shall be required to measure the field TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.03The voltage tap configuration shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The threshold levels shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.03The peak di/dt without inducing a quench shall be TBD A/S11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have quench heaters TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.03The quench heater power rating shall be TBD W11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have warm up heaters TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.03The warmup heater power rating shall be TBD W11/13/2023APPROVEDTRUE
- 6.06.02.03The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The magnet turns ratio shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The terminal voltage shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- IR-PS-B1APF : IR Magnet Power Supply B1APF (WBS 6.06.02.03)
- 6.06.02.03The number of Independent functions on the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The maximum magnet string resistance to be powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.06.02.03The maximum magnet string inductance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.06.02.03The magnets being powered shall be saturated TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.03The miits rating of the magnet being powred shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The voltage to ground of the magnet being powered shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.03The nominal current of the magnets being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.03The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.03The maximum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.03The PS current type DC or AC shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.06.02.03The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The ppm of full scale current (peak to peak) shall be TBD %11/13/2023APPROVEDTRUE
- 6.06.02.03The time period for specified stability shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.03The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.03The long term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.03The current setpoint resolution (min size in bits) shall be TBD bits11/13/2023APPROVEDTRUE
- 6.06.02.03The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.03The synchronization timing of synchronization shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.03The max allowable current ripple (peak to peak) TBD A11/13/2023APPROVEDTRUE
- 6.06.02.03The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.06.02.03WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz11/13/2023APPROVEDTRUE
- 6.06.02.03The max voltage ripple (peak to peak) shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.03An NMR shall be required to measure the field TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.03The voltage tap configuration shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The threshold levels shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.03The peak di/dt without inducing a quench shall be TBD A/S11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have quench heaters TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.03The quench heater power rating shall be TBD W11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have warm up heaters TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.03The warmup heater power rating shall be TBD W11/13/2023APPROVEDTRUE
- 6.06.02.03The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The magnet turns ratio shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The terminal voltage shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- IR-PS-B1PF : IR Magnet Power Supply B1PF (WBS 6.06.02.03)
- 6.06.02.03The number of Independent functions on the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The maximum magnet string resistance to be powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.06.02.03The maximum magnet string inductance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.06.02.03The magnets being powered shall be saturated TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.03The miits rating of the magnet being powred shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The voltage to ground of the magnet being powered shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.03The nominal current of the magnets being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.03The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.03The maximum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.03The PS current type DC or AC shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.06.02.03The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The ppm of full scale current (peak to peak) shall be TBD %11/13/2023APPROVEDTRUE
- 6.06.02.03The time period for specified stability shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.03The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.03The long term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.03The current setpoint resolution (min size in bits) shall be TBD bits11/13/2023APPROVEDTRUE
- 6.06.02.03The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.03The synchronization timing of synchronization shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.03The max allowable current ripple (peak to peak) TBD A11/13/2023APPROVEDTRUE
- 6.06.02.03The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.06.02.03WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz11/13/2023APPROVEDTRUE
- 6.06.02.03The max voltage ripple (peak to peak) shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.03An NMR shall be required to measure the field TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.03The voltage tap configuration shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The threshold levels shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.03The peak di/dt without inducing a quench shall be TBD A/S11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have quench heaters TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.03The quench heater power rating shall be TBD W11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have warm up heaters TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.03The warmup heater power rating shall be TBD W11/13/2023APPROVEDTRUE
- 6.06.02.03The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The magnet turns ratio shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The terminal voltage shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- IR-PS-B1PR : IR Magnet Power Supply B1PR (WBS 6.06.02.03)
- 6.06.02.03The number of Independent functions on the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The maximum magnet string resistance to be powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.06.02.03The maximum magnet string inductance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.06.02.03The magnets being powered shall be saturated TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.03The miits rating of the magnet being powred shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The voltage to ground of the magnet being powered shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.03The nominal current of the magnets being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.03The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.03The maximum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.03The PS current type DC or AC shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.06.02.03The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The ppm of full scale current (peak to peak) shall be TBD %11/13/2023APPROVEDTRUE
- 6.06.02.03The time period for specified stability shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.03The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.03The long term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.03The current setpoint resolution (min size in bits) shall be TBD bits11/13/2023APPROVEDTRUE
- 6.06.02.03The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.03The synchronization timing of synchronization shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.03The max allowable current ripple (peak to peak) TBD A11/13/2023APPROVEDTRUE
- 6.06.02.03The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.06.02.03WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz11/13/2023APPROVEDTRUE
- 6.06.02.03The max voltage ripple (peak to peak) shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.03An NMR shall be required to measure the field TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.03The voltage tap configuration shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The threshold levels shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.03The peak di/dt without inducing a quench shall be TBD A/S11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have quench heaters TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.03The quench heater power rating shall be TBD W11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have warm up heaters TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.03The warmup heater power rating shall be TBD W11/13/2023APPROVEDTRUE
- 6.06.02.03The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The magnet turns ratio shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The terminal voltage shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- IR-PS-B2aER : IR Magnet Power Supply B2aER (WBS 6.06.02.01)
- 6.06.02.01The number of Independent functions on the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The maximum magnet string resistance to be powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.06.02.01The maximum magnet string inductance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.06.02.01The magnets being powered shall be saturated TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01The miits rating of the magnet being powred shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The voltage to ground of the magnet being powered shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.01The nominal current of the magnets being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.01The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.01The maximum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.01The PS current type DC or AC shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.06.02.01The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The ppm of full scale current (peak to peak) shall be TBD %11/13/2023APPROVEDTRUE
- 6.06.02.01The time period for specified stability shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.01The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.01The long term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.01The current setpoint resolution (min size in bits) shall be TBD bits11/13/2023APPROVEDTRUE
- 6.06.02.01The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.01The synchronization timing of synchronization shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.01The max allowable current ripple (peak to peak) TBD A11/13/2023APPROVEDTRUE
- 6.06.02.01The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.06.02.01WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz11/13/2023APPROVEDTRUE
- 6.06.02.01The max voltage ripple (peak to peak) shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.01An NMR shall be required to measure the field TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.01The voltage tap configuration shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The threshold levels shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.01The peak di/dt without inducing a quench shall be TBD A/S11/13/2023APPROVEDTRUE
- 6.06.02.01The design shall have quench heaters TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01The quench heater power rating shall be TBD W11/13/2023APPROVEDTRUE
- 6.06.02.01The design shall have warm up heaters TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01The warmup heater power rating shall be TBD W11/13/2023APPROVEDTRUE
- 6.06.02.01The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The magnet turns ratio shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The terminal voltage shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.01The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- IR-PS-B2Ber : IR Magnet Power Supply B2Ber (WBS 6.06.02.01)
- 6.06.02.01The number of Independent functions on the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The maximum magnet string resistance to be powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.06.02.01The maximum magnet string inductance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.06.02.01The magnets being powered shall be saturated TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01The miits rating of the magnet being powred shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The voltage to ground of the magnet being powered shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.01The nominal current of the magnets being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.01The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.01The maximum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.01The PS current type DC or AC shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.06.02.01The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The ppm of full scale current (peak to peak) shall be TBD %11/13/2023APPROVEDTRUE
- 6.06.02.01The time period for specified stability shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.01The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.01The long term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.01The current setpoint resolution (min size in bits) shall be TBD bits11/13/2023APPROVEDTRUE
- 6.06.02.01The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.01The synchronization timing of synchronization shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.01The max allowable current ripple (peak to peak) TBD A11/13/2023APPROVEDTRUE
- 6.06.02.01The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.06.02.01WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz11/13/2023APPROVEDTRUE
- 6.06.02.01The max voltage ripple (peak to peak) shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.01An NMR shall be required to measure the field TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.01The voltage tap configuration shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The threshold levels shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.01The peak di/dt without inducing a quench shall be TBD A/S11/13/2023APPROVEDTRUE
- 6.06.02.01The design shall have quench heaters TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01The quench heater power rating shall be TBD W11/13/2023APPROVEDTRUE
- 6.06.02.01The design shall have warm up heaters TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01The warmup heater power rating shall be TBD W11/13/2023APPROVEDTRUE
- 6.06.02.01The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The magnet turns ratio shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The terminal voltage shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.01The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- IR-PS-B2PF : IR Magnet Power Supply B2PF (WBS 6.06.02.06)
- 6.06.02.06The number of Independent functions on the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.06The maximum magnet string resistance to be powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.06.02.06The maximum magnet string inductance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.06.02.06The magnets being powered shall be saturated TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.06The miits rating of the magnet being powred shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.06The voltage to ground of the magnet being powered shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.06The nominal current of the magnets being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.06The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.06The maximum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.06The PS current type DC or AC shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.06.02.06The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.06The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.06The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.06The ppm of full scale current (peak to peak) shall be TBD %11/13/2023APPROVEDTRUE
- 6.06.02.06The time period for specified stability shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.06The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.06The long term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.06The current setpoint resolution (min size in bits) shall be TBD bits11/13/2023APPROVEDTRUE
- 6.06.02.06The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.06The synchronization timing of synchronization shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.06The max allowable current ripple (peak to peak) TBD A11/13/2023APPROVEDTRUE
- 6.06.02.06The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.06.02.06WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz11/13/2023APPROVEDTRUE
- 6.06.02.06The max voltage ripple (peak to peak) shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.06An NMR shall be required to measure the field TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.06The voltage tap configuration shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.06The threshold levels shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.06The peak di/dt without inducing a quench shall be TBD A/S11/13/2023APPROVEDTRUE
- 6.06.02.06The design shall have quench heaters TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.06The quench heater power rating shall be TBD W11/13/2023APPROVEDTRUE
- 6.06.02.06The design shall have warm up heaters TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.06The warmup heater power rating shall be TBD W11/13/2023APPROVEDTRUE
- 6.06.02.06The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.06The magnet turns ratio shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.06The terminal voltage shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.06The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.06.02.06The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.06The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.06.02.06The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.06The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.06.02.06The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.06The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.06The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.06The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.06The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.06The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.06The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- IR-PS-B2PR : IR Magnet Power Supply B2PR (WBS 6.06.02.03)
- 6.06.02.03The number of Independent functions on the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The maximum magnet string resistance to be powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.06.02.03The maximum magnet string inductance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.06.02.03The magnets being powered shall be saturated TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.03The miits rating of the magnet being powred shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The voltage to ground of the magnet being powered shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.03The nominal current of the magnets being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.03The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.03The maximum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.03The PS current type DC or AC shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.06.02.03The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The ppm of full scale current (peak to peak) shall be TBD %11/13/2023APPROVEDTRUE
- 6.06.02.03The time period for specified stability shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.03The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.03The long term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.03The current setpoint resolution (min size in bits) shall be TBD bits11/13/2023APPROVEDTRUE
- 6.06.02.03The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.03The synchronization timing of synchronization shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.03The max allowable current ripple (peak to peak) TBD A11/13/2023APPROVEDTRUE
- 6.06.02.03The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.06.02.03WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz11/13/2023APPROVEDTRUE
- 6.06.02.03The max voltage ripple (peak to peak) shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.03An NMR shall be required to measure the field TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.03The voltage tap configuration shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The threshold levels shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.03The peak di/dt without inducing a quench shall be TBD A/S11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have quench heaters TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.03The quench heater power rating shall be TBD W11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have warm up heaters TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.03The warmup heater power rating shall be TBD W11/13/2023APPROVEDTRUE
- 6.06.02.03The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The magnet turns ratio shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The terminal voltage shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- IR-PS-D1EF : IR Magnet Power Supply D1EF (WBS 6.06.02.01)
- 6.06.02.01The number of Independent functions on the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The maximum magnet string resistance to be powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.06.02.01The maximum magnet string inductance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.06.02.01The magnets being powered shall be saturated TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01The miits rating of the magnet being powred shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The voltage to ground of the magnet being powered shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.01The nominal current of the magnets being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.01The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.01The maximum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.01The PS current type DC or AC shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.06.02.01The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The ppm of full scale current (peak to peak) shall be TBD %11/13/2023APPROVEDTRUE
- 6.06.02.01The time period for specified stability shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.01The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.01The long term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.01The current setpoint resolution (min size in bits) shall be TBD bits11/13/2023APPROVEDTRUE
- 6.06.02.01The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.01The synchronization timing of synchronization shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.01The max allowable current ripple (peak to peak) TBD A11/13/2023APPROVEDTRUE
- 6.06.02.01The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.06.02.01WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz11/13/2023APPROVEDTRUE
- 6.06.02.01The max voltage ripple (peak to peak) shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.01An NMR shall be required to measure the field TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.01The voltage tap configuration shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The threshold levels shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.01The peak di/dt without inducing a quench shall be TBD A/S11/13/2023APPROVEDTRUE
- 6.06.02.01The design shall have quench heaters TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01The quench heater power rating shall be TBD W11/13/2023APPROVEDTRUE
- 6.06.02.01The design shall have warm up heaters TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01The warmup heater power rating shall be TBD W11/13/2023APPROVEDTRUE
- 6.06.02.01The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The magnet turns ratio shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The terminal voltage shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.01The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- IR-PS-H5_QS3 : IR Magnet Power Supply H5_QS3 (WBS 6.06.02.03)
- 6.06.02.03The number of Independent functions on the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The maximum magnet string resistance to be powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.06.02.03The maximum magnet string inductance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.06.02.03The magnets being powered shall be saturated TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.03The miits rating of the magnet being powred shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The voltage to ground of the magnet being powered shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.03The nominal current of the magnets being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.03The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.03The maximum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.03The PS current type DC or AC shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.06.02.03The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The ppm of full scale current (peak to peak) shall be TBD %11/13/2023APPROVEDTRUE
- 6.06.02.03The time period for specified stability shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.03The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.03The long term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.03The current setpoint resolution (min size in bits) shall be TBD bits11/13/2023APPROVEDTRUE
- 6.06.02.03The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.03The synchronization timing of synchronization shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.03The max allowable current ripple (peak to peak) TBD A11/13/2023APPROVEDTRUE
- 6.06.02.03The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.06.02.03WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz11/13/2023APPROVEDTRUE
- 6.06.02.03The max voltage ripple (peak to peak) shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.03An NMR shall be required to measure the field TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.03The voltage tap configuration shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The threshold levels shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.03The peak di/dt without inducing a quench shall be TBD A/S11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have quench heaters TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.03The quench heater power rating shall be TBD W11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have warm up heaters TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.03The warmup heater power rating shall be TBD W11/13/2023APPROVEDTRUE
- 6.06.02.03The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The magnet turns ratio shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The terminal voltage shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- IR-PS-H5_TV3 : IR Magnet Power Supply H5_TV3 (WBS 6.06.02.03)
- 6.06.02.03The number of Independent functions on the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The maximum magnet string resistance to be powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.06.02.03The maximum magnet string inductance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.06.02.03The magnets being powered shall be saturated TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.03The miits rating of the magnet being powred shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The voltage to ground of the magnet being powered shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.03The nominal current of the magnets being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.03The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.03The maximum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.03The PS current type DC or AC shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.06.02.03The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The ppm of full scale current (peak to peak) shall be TBD %11/13/2023APPROVEDTRUE
- 6.06.02.03The time period for specified stability shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.03The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.03The long term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.03The current setpoint resolution (min size in bits) shall be TBD bits11/13/2023APPROVEDTRUE
- 6.06.02.03The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.03The synchronization timing of synchronization shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.03The max allowable current ripple (peak to peak) TBD A11/13/2023APPROVEDTRUE
- 6.06.02.03The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.06.02.03WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz11/13/2023APPROVEDTRUE
- 6.06.02.03The max voltage ripple (peak to peak) shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.03An NMR shall be required to measure the field TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.03The voltage tap configuration shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The threshold levels shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.03The peak di/dt without inducing a quench shall be TBD A/S11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have quench heaters TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.03The quench heater power rating shall be TBD W11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have warm up heaters TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.03The warmup heater power rating shall be TBD W11/13/2023APPROVEDTRUE
- 6.06.02.03The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The magnet turns ratio shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The terminal voltage shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- IR-PS-LONG_S : IR Magnet Power Supply LONG_S (WBS 6.06.02.02)
- 6.06.02.02The number of Independent functions on the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.02The maximum magnet string resistance to be powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.06.02.02The maximum magnet string inductance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.06.02.02The magnets being powered shall be saturated TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.02The miits rating of the magnet being powred shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.02The voltage to ground of the magnet being powered shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.02The nominal current of the magnets being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.02The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.02The maximum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.02The PS current type DC or AC shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.06.02.02The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.02The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.02The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.02The ppm of full scale current (peak to peak) shall be TBD %11/13/2023APPROVEDTRUE
- 6.06.02.02The time period for specified stability shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.02The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.02The long term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.02The current setpoint resolution (min size in bits) shall be TBD bits11/13/2023APPROVEDTRUE
- 6.06.02.02The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.02The synchronization timing of synchronization shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.02The max allowable current ripple (peak to peak) TBD A11/13/2023APPROVEDTRUE
- 6.06.02.02The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.06.02.02WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz11/13/2023APPROVEDTRUE
- 6.06.02.02The max voltage ripple (peak to peak) shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.02An NMR shall be required to measure the field TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.02The voltage tap configuration shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.02The threshold levels shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.02The peak di/dt without inducing a quench shall be TBD A/S11/13/2023APPROVEDTRUE
- 6.06.02.02The design shall have quench heaters TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.02The quench heater power rating shall be TBD W11/13/2023APPROVEDTRUE
- 6.06.02.02The design shall have warm up heaters TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.02The warmup heater power rating shall be TBD W11/13/2023APPROVEDTRUE
- 6.06.02.02The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.02The magnet turns ratio shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.02The terminal voltage shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.02The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.06.02.02The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.02The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.06.02.02The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.02The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.06.02.02The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.02The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.02The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.02The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.02The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.02The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.02The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- IR-PS-Q0EF : IR Magnet Power Supply Q0EF (WBS 6.06.02.01)
- 6.06.02.01The number of Independent functions on the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The maximum magnet string resistance to be powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.06.02.01The maximum magnet string inductance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.06.02.01The magnets being powered shall be saturated TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01The miits rating of the magnet being powred shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The voltage to ground of the magnet being powered shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.01The nominal current of the magnets being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.01The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.01The maximum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.01The PS current type DC or AC shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.06.02.01The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The ppm of full scale current (peak to peak) shall be TBD %11/13/2023APPROVEDTRUE
- 6.06.02.01The time period for specified stability shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.01The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.01The long term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.01The current setpoint resolution (min size in bits) shall be TBD bits11/13/2023APPROVEDTRUE
- 6.06.02.01The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.01The synchronization timing of synchronization shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.01The max allowable current ripple (peak to peak) TBD A11/13/2023APPROVEDTRUE
- 6.06.02.01The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.06.02.01WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz11/13/2023APPROVEDTRUE
- 6.06.02.01The max voltage ripple (peak to peak) shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.01An NMR shall be required to measure the field TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.01The voltage tap configuration shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The threshold levels shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.01The peak di/dt without inducing a quench shall be TBD A/S11/13/2023APPROVEDTRUE
- 6.06.02.01The design shall have quench heaters TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01The quench heater power rating shall be TBD W11/13/2023APPROVEDTRUE
- 6.06.02.01The design shall have warm up heaters TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01The warmup heater power rating shall be TBD W11/13/2023APPROVEDTRUE
- 6.06.02.01The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The magnet turns ratio shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The terminal voltage shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.01The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- IR-PS-Q1APF : IR Magnet Power Supply Q1APF (WBS 6.06.02.03)
- 6.06.02.03The number of Independent functions on the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The maximum magnet string resistance to be powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.06.02.03The maximum magnet string inductance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.06.02.03The magnets being powered shall be saturated TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.03The miits rating of the magnet being powred shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The voltage to ground of the magnet being powered shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.03The nominal current of the magnets being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.03The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.03The maximum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.03The PS current type DC or AC shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.06.02.03The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The ppm of full scale current (peak to peak) shall be TBD %11/13/2023APPROVEDTRUE
- 6.06.02.03The time period for specified stability shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.03The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.03The long term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.03The current setpoint resolution (min size in bits) shall be TBD bits11/13/2023APPROVEDTRUE
- 6.06.02.03The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.03The synchronization timing of synchronization shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.03The max allowable current ripple (peak to peak) TBD A11/13/2023APPROVEDTRUE
- 6.06.02.03The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.06.02.03WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz11/13/2023APPROVEDTRUE
- 6.06.02.03The max voltage ripple (peak to peak) shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.03An NMR shall be required to measure the field TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.03The voltage tap configuration shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The threshold levels shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.03The peak di/dt without inducing a quench shall be TBD A/S11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have quench heaters TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.03The quench heater power rating shall be TBD W11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have warm up heaters TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.03The warmup heater power rating shall be TBD W11/13/2023APPROVEDTRUE
- 6.06.02.03The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The magnet turns ratio shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The terminal voltage shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- IR-PS-Q1APR : IR Magnet Power Supply Q1APR (WBS 6.06.02.03)
- 6.06.02.03The number of Independent functions on the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The maximum magnet string resistance to be powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.06.02.03The maximum magnet string inductance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.06.02.03The magnets being powered shall be saturated TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.03The miits rating of the magnet being powred shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The voltage to ground of the magnet being powered shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.03The nominal current of the magnets being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.03The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.03The maximum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.03The PS current type DC or AC shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.06.02.03The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The ppm of full scale current (peak to peak) shall be TBD %11/13/2023APPROVEDTRUE
- 6.06.02.03The time period for specified stability shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.03The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.03The long term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.03The current setpoint resolution (min size in bits) shall be TBD bits11/13/2023APPROVEDTRUE
- 6.06.02.03The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.03The synchronization timing of synchronization shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.03The max allowable current ripple (peak to peak) TBD A11/13/2023APPROVEDTRUE
- 6.06.02.03The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.06.02.03WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz11/13/2023APPROVEDTRUE
- 6.06.02.03The max voltage ripple (peak to peak) shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.03An NMR shall be required to measure the field TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.03The voltage tap configuration shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The threshold levels shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.03The peak di/dt without inducing a quench shall be TBD A/S11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have quench heaters TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.03The quench heater power rating shall be TBD W11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have warm up heaters TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.03The warmup heater power rating shall be TBD W11/13/2023APPROVEDTRUE
- 6.06.02.03The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The magnet turns ratio shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The terminal voltage shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- IR-PS-Q1BPF : IR Magnet Power Supply Q1BPF (WBS 6.06.02.03)
- 6.06.02.03The number of Independent functions on the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The maximum magnet string resistance to be powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.06.02.03The maximum magnet string inductance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.06.02.03The magnets being powered shall be saturated TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.03The miits rating of the magnet being powred shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The voltage to ground of the magnet being powered shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.03The nominal current of the magnets being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.03The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.03The maximum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.03The PS current type DC or AC shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.06.02.03The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The ppm of full scale current (peak to peak) shall be TBD %11/13/2023APPROVEDTRUE
- 6.06.02.03The time period for specified stability shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.03The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.03The long term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.03The current setpoint resolution (min size in bits) shall be TBD bits11/13/2023APPROVEDTRUE
- 6.06.02.03The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.03The synchronization timing of synchronization shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.03The max allowable current ripple (peak to peak) TBD A11/13/2023APPROVEDTRUE
- 6.06.02.03The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.06.02.03WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz11/13/2023APPROVEDTRUE
- 6.06.02.03The max voltage ripple (peak to peak) shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.03An NMR shall be required to measure the field TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.03The voltage tap configuration shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The threshold levels shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.03The peak di/dt without inducing a quench shall be TBD A/S11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have quench heaters TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.03The quench heater power rating shall be TBD W11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have warm up heaters TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.03The warmup heater power rating shall be TBD W11/13/2023APPROVEDTRUE
- 6.06.02.03The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The magnet turns ratio shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The terminal voltage shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- IR-PS-Q1BPR : IR Magnet Power Supply Q1BPR (WBS 6.06.02.03)
- 6.06.02.03The number of Independent functions on the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The maximum magnet string resistance to be powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.06.02.03The maximum magnet string inductance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.06.02.03The magnets being powered shall be saturated TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.03The miits rating of the magnet being powred shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The voltage to ground of the magnet being powered shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.03The nominal current of the magnets being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.03The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.03The maximum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.03The PS current type DC or AC shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.06.02.03The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The ppm of full scale current (peak to peak) shall be TBD %11/13/2023APPROVEDTRUE
- 6.06.02.03The time period for specified stability shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.03The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.03The long term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.03The current setpoint resolution (min size in bits) shall be TBD bits11/13/2023APPROVEDTRUE
- 6.06.02.03The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.03The synchronization timing of synchronization shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.03The max allowable current ripple (peak to peak) TBD A11/13/2023APPROVEDTRUE
- 6.06.02.03The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.06.02.03WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz11/13/2023APPROVEDTRUE
- 6.06.02.03The max voltage ripple (peak to peak) shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.03An NMR shall be required to measure the field TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.03The voltage tap configuration shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The threshold levels shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.03The peak di/dt without inducing a quench shall be TBD A/S11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have quench heaters TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.03The quench heater power rating shall be TBD W11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have warm up heaters TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.03The warmup heater power rating shall be TBD W11/13/2023APPROVEDTRUE
- 6.06.02.03The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The magnet turns ratio shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The terminal voltage shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- IR-PS-Q1EF : IR Magnet Power Supply Q1EF (WBS 6.06.02.01)
- 6.06.02.01The number of Independent functions on the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The maximum magnet string resistance to be powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.06.02.01The maximum magnet string inductance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.06.02.01The magnets being powered shall be saturated TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01The miits rating of the magnet being powred shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The voltage to ground of the magnet being powered shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.01The nominal current of the magnets being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.01The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.01The maximum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.01The PS current type DC or AC shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.06.02.01The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The ppm of full scale current (peak to peak) shall be TBD %11/13/2023APPROVEDTRUE
- 6.06.02.01The time period for specified stability shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.01The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.01The long term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.01The current setpoint resolution (min size in bits) shall be TBD bits11/13/2023APPROVEDTRUE
- 6.06.02.01The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.01The synchronization timing of synchronization shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.01The max allowable current ripple (peak to peak) TBD A11/13/2023APPROVEDTRUE
- 6.06.02.01The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.06.02.01WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz11/13/2023APPROVEDTRUE
- 6.06.02.01The max voltage ripple (peak to peak) shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.01An NMR shall be required to measure the field TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.01The voltage tap configuration shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The threshold levels shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.01The peak di/dt without inducing a quench shall be TBD A/S11/13/2023APPROVEDTRUE
- 6.06.02.01The design shall have quench heaters TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01The quench heater power rating shall be TBD W11/13/2023APPROVEDTRUE
- 6.06.02.01The design shall have warm up heaters TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01The warmup heater power rating shall be TBD W11/13/2023APPROVEDTRUE
- 6.06.02.01The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The magnet turns ratio shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The terminal voltage shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.01The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- IR-PS-Q1ER : IR Magnet Power Supply Q1ER (WBS 6.06.02.01)
- 6.06.02.01The number of Independent functions on the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The maximum magnet string resistance to be powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.06.02.01The maximum magnet string inductance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.06.02.01The magnets being powered shall be saturated TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01The miits rating of the magnet being powred shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The voltage to ground of the magnet being powered shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.01The nominal current of the magnets being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.01The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.01The maximum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.01The PS current type DC or AC shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.06.02.01The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The ppm of full scale current (peak to peak) shall be TBD %11/13/2023APPROVEDTRUE
- 6.06.02.01The time period for specified stability shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.01The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.01The long term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.01The current setpoint resolution (min size in bits) shall be TBD bits11/13/2023APPROVEDTRUE
- 6.06.02.01The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.01The synchronization timing of synchronization shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.01The max allowable current ripple (peak to peak) TBD A11/13/2023APPROVEDTRUE
- 6.06.02.01The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.06.02.01WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz11/13/2023APPROVEDTRUE
- 6.06.02.01The max voltage ripple (peak to peak) shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.01An NMR shall be required to measure the field TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.01The voltage tap configuration shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The threshold levels shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.01The peak di/dt without inducing a quench shall be TBD A/S11/13/2023APPROVEDTRUE
- 6.06.02.01The design shall have quench heaters TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01The quench heater power rating shall be TBD W11/13/2023APPROVEDTRUE
- 6.06.02.01The design shall have warm up heaters TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01The warmup heater power rating shall be TBD W11/13/2023APPROVEDTRUE
- 6.06.02.01The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The magnet turns ratio shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The terminal voltage shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.01The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- IR-PS-Q2EF : IR Magnet Power Supply Q2EF (WBS 6.06.02.01)
- 6.06.02.01The number of Independent functions on the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The maximum magnet string resistance to be powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.06.02.01The maximum magnet string inductance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.06.02.01The magnets being powered shall be saturated TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01The miits rating of the magnet being powred shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The voltage to ground of the magnet being powered shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.01The nominal current of the magnets being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.01The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.01The maximum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.01The PS current type DC or AC shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.06.02.01The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The ppm of full scale current (peak to peak) shall be TBD %11/13/2023APPROVEDTRUE
- 6.06.02.01The time period for specified stability shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.01The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.01The long term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.01The current setpoint resolution (min size in bits) shall be TBD bits11/13/2023APPROVEDTRUE
- 6.06.02.01The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.01The synchronization timing of synchronization shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.01The max allowable current ripple (peak to peak) TBD A11/13/2023APPROVEDTRUE
- 6.06.02.01The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.06.02.01WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz11/13/2023APPROVEDTRUE
- 6.06.02.01The max voltage ripple (peak to peak) shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.01An NMR shall be required to measure the field TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.01The voltage tap configuration shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The threshold levels shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.01The peak di/dt without inducing a quench shall be TBD A/S11/13/2023APPROVEDTRUE
- 6.06.02.01The design shall have quench heaters TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01The quench heater power rating shall be TBD W11/13/2023APPROVEDTRUE
- 6.06.02.01The design shall have warm up heaters TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01The warmup heater power rating shall be TBD W11/13/2023APPROVEDTRUE
- 6.06.02.01The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The magnet turns ratio shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The terminal voltage shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.01The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- IR-PS-Q2ER : IR Magnet Power Supply Q2ER (WBS 6.06.02.01)
- 6.06.02.01The number of Independent functions on the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The maximum magnet string resistance to be powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.06.02.01The maximum magnet string inductance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.06.02.01The magnets being powered shall be saturated TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01The miits rating of the magnet being powred shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The voltage to ground of the magnet being powered shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.01The nominal current of the magnets being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.01The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.01The maximum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.01The PS current type DC or AC shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.06.02.01The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The ppm of full scale current (peak to peak) shall be TBD %11/13/2023APPROVEDTRUE
- 6.06.02.01The time period for specified stability shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.01The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.01The long term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.01The current setpoint resolution (min size in bits) shall be TBD bits11/13/2023APPROVEDTRUE
- 6.06.02.01The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.01The synchronization timing of synchronization shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.01The max allowable current ripple (peak to peak) TBD A11/13/2023APPROVEDTRUE
- 6.06.02.01The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.06.02.01WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz11/13/2023APPROVEDTRUE
- 6.06.02.01The max voltage ripple (peak to peak) shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.01An NMR shall be required to measure the field TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.01The voltage tap configuration shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The threshold levels shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.01The peak di/dt without inducing a quench shall be TBD A/S11/13/2023APPROVEDTRUE
- 6.06.02.01The design shall have quench heaters TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01The quench heater power rating shall be TBD W11/13/2023APPROVEDTRUE
- 6.06.02.01The design shall have warm up heaters TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01The warmup heater power rating shall be TBD W11/13/2023APPROVEDTRUE
- 6.06.02.01The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The magnet turns ratio shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The terminal voltage shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.01The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- IR-PS-Q2PF : IR Magnet Power Supply Q2PF (WBS 6.06.02.03)
- 6.06.02.03The number of Independent functions on the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The maximum magnet string resistance to be powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.06.02.03The maximum magnet string inductance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.06.02.03The magnets being powered shall be saturated TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.03The miits rating of the magnet being powred shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The voltage to ground of the magnet being powered shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.03The nominal current of the magnets being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.03The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.03The maximum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.03The PS current type DC or AC shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.06.02.03The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The ppm of full scale current (peak to peak) shall be TBD %11/13/2023APPROVEDTRUE
- 6.06.02.03The time period for specified stability shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.03The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.03The long term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.03The current setpoint resolution (min size in bits) shall be TBD bits11/13/2023APPROVEDTRUE
- 6.06.02.03The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.03The synchronization timing of synchronization shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.03The max allowable current ripple (peak to peak) TBD A11/13/2023APPROVEDTRUE
- 6.06.02.03The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.06.02.03WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz11/13/2023APPROVEDTRUE
- 6.06.02.03The max voltage ripple (peak to peak) shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.03An NMR shall be required to measure the field TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.03The voltage tap configuration shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The threshold levels shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.03The peak di/dt without inducing a quench shall be TBD A/S11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have quench heaters TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.03The quench heater power rating shall be TBD W11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have warm up heaters TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.03The warmup heater power rating shall be TBD W11/13/2023APPROVEDTRUE
- 6.06.02.03The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The magnet turns ratio shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The terminal voltage shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- IR-PS-Q2PR : IR Magnet Power Supply Q2PR (WBS 6.06.02.03)
- 6.06.02.03The number of Independent functions on the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The maximum magnet string resistance to be powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.06.02.03The maximum magnet string inductance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.06.02.03The magnets being powered shall be saturated TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.03The miits rating of the magnet being powred shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The voltage to ground of the magnet being powered shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.03The nominal current of the magnets being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.03The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.03The maximum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.03The PS current type DC or AC shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.06.02.03The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The ppm of full scale current (peak to peak) shall be TBD %11/13/2023APPROVEDTRUE
- 6.06.02.03The time period for specified stability shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.03The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.03The long term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.03The current setpoint resolution (min size in bits) shall be TBD bits11/13/2023APPROVEDTRUE
- 6.06.02.03The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.03The synchronization timing of synchronization shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.03The max allowable current ripple (peak to peak) TBD A11/13/2023APPROVEDTRUE
- 6.06.02.03The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.06.02.03WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz11/13/2023APPROVEDTRUE
- 6.06.02.03The max voltage ripple (peak to peak) shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.03An NMR shall be required to measure the field TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.03The voltage tap configuration shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The threshold levels shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.03The peak di/dt without inducing a quench shall be TBD A/S11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have quench heaters TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.03The quench heater power rating shall be TBD W11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have warm up heaters TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.03The warmup heater power rating shall be TBD W11/13/2023APPROVEDTRUE
- 6.06.02.03The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The magnet turns ratio shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The terminal voltage shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- IR-PS-Q3EF : IR Magnet Power Supply Q3EF (WBS 6.06.02.01)
- 6.06.02.01The number of Independent functions on the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The maximum magnet string resistance to be powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.06.02.01The maximum magnet string inductance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.06.02.01The magnets being powered shall be saturated TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01The miits rating of the magnet being powred shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The voltage to ground of the magnet being powered shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.01The nominal current of the magnets being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.01The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.01The maximum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.01The PS current type DC or AC shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.06.02.01The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The ppm of full scale current (peak to peak) shall be TBD %11/13/2023APPROVEDTRUE
- 6.06.02.01The time period for specified stability shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.01The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.01The long term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.01The current setpoint resolution (min size in bits) shall be TBD bits11/13/2023APPROVEDTRUE
- 6.06.02.01The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.01The synchronization timing of synchronization shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.01The max allowable current ripple (peak to peak) TBD A11/13/2023APPROVEDTRUE
- 6.06.02.01The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.06.02.01WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz11/13/2023APPROVEDTRUE
- 6.06.02.01The max voltage ripple (peak to peak) shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.01An NMR shall be required to measure the field TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.01The voltage tap configuration shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The threshold levels shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.01The peak di/dt without inducing a quench shall be TBD A/S11/13/2023APPROVEDTRUE
- 6.06.02.01The design shall have quench heaters TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01The quench heater power rating shall be TBD W11/13/2023APPROVEDTRUE
- 6.06.02.01The design shall have warm up heaters TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01The warmup heater power rating shall be TBD W11/13/2023APPROVEDTRUE
- 6.06.02.01The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The magnet turns ratio shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The terminal voltage shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.01The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- IR-PS-Q3ER : IR Magnet Power Supply Q3ER (WBS 6.06.02.01)
- 6.06.02.01The number of Independent functions on the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The maximum magnet string resistance to be powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.06.02.01The maximum magnet string inductance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.06.02.01The magnets being powered shall be saturated TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01The miits rating of the magnet being powred shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The voltage to ground of the magnet being powered shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.01The nominal current of the magnets being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.01The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.01The maximum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.01The PS current type DC or AC shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.06.02.01The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The ppm of full scale current (peak to peak) shall be TBD %11/13/2023APPROVEDTRUE
- 6.06.02.01The time period for specified stability shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.01The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.01The long term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.01The current setpoint resolution (min size in bits) shall be TBD bits11/13/2023APPROVEDTRUE
- 6.06.02.01The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.01The synchronization timing of synchronization shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.01The max allowable current ripple (peak to peak) TBD A11/13/2023APPROVEDTRUE
- 6.06.02.01The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.06.02.01WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz11/13/2023APPROVEDTRUE
- 6.06.02.01The max voltage ripple (peak to peak) shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.01An NMR shall be required to measure the field TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.01The voltage tap configuration shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The threshold levels shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.01The peak di/dt without inducing a quench shall be TBD A/S11/13/2023APPROVEDTRUE
- 6.06.02.01The design shall have quench heaters TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01The quench heater power rating shall be TBD W11/13/2023APPROVEDTRUE
- 6.06.02.01The design shall have warm up heaters TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.01The warmup heater power rating shall be TBD W11/13/2023APPROVEDTRUE
- 6.06.02.01The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The magnet turns ratio shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The terminal voltage shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.01The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.01The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- IR-PS-Q3PF : IR Magnet Power Supply Q3PF (WBS 6.06.02.03)
- 6.06.02.03The number of Independent functions on the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The maximum magnet string resistance to be powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.06.02.03The maximum magnet string inductance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.06.02.03The magnets being powered shall be saturated TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.03The miits rating of the magnet being powred shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The voltage to ground of the magnet being powered shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.03The nominal current of the magnets being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.03The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.03The maximum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.03The PS current type DC or AC shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.06.02.03The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The ppm of full scale current (peak to peak) shall be TBD %11/13/2023APPROVEDTRUE
- 6.06.02.03The time period for specified stability shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.03The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.03The long term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.03The current setpoint resolution (min size in bits) shall be TBD bits11/13/2023APPROVEDTRUE
- 6.06.02.03The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.03The synchronization timing of synchronization shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.03The max allowable current ripple (peak to peak) TBD A11/13/2023APPROVEDTRUE
- 6.06.02.03The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.06.02.03WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz11/13/2023APPROVEDTRUE
- 6.06.02.03The max voltage ripple (peak to peak) shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.03An NMR shall be required to measure the field TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.03The voltage tap configuration shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The threshold levels shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.03The peak di/dt without inducing a quench shall be TBD A/S11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have quench heaters TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.03The quench heater power rating shall be TBD W11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have warm up heaters TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.03The warmup heater power rating shall be TBD W11/13/2023APPROVEDTRUE
- 6.06.02.03The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The magnet turns ratio shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The terminal voltage shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- IR-PS-Q3PR : IR Magnet Power Supply Q3PR (WBS 6.06.02.03)
- 6.06.02.03The number of Independent functions on the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The maximum magnet string resistance to be powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.06.02.03The maximum magnet string inductance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.06.02.03The magnets being powered shall be saturated TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.03The miits rating of the magnet being powred shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The voltage to ground of the magnet being powered shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.03The nominal current of the magnets being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.03The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.03The maximum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.03The PS current type DC or AC shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.06.02.03The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The ppm of full scale current (peak to peak) shall be TBD %11/13/2023APPROVEDTRUE
- 6.06.02.03The time period for specified stability shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.03The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.03The long term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.03The current setpoint resolution (min size in bits) shall be TBD bits11/13/2023APPROVEDTRUE
- 6.06.02.03The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.03The synchronization timing of synchronization shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.03The max allowable current ripple (peak to peak) TBD A11/13/2023APPROVEDTRUE
- 6.06.02.03The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.06.02.03WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz11/13/2023APPROVEDTRUE
- 6.06.02.03The max voltage ripple (peak to peak) shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.03An NMR shall be required to measure the field TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.03The voltage tap configuration shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The threshold levels shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.03The peak di/dt without inducing a quench shall be TBD A/S11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have quench heaters TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.03The quench heater power rating shall be TBD W11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have warm up heaters TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.03The warmup heater power rating shall be TBD W11/13/2023APPROVEDTRUE
- 6.06.02.03The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The magnet turns ratio shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The terminal voltage shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.03The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- IR-PS-SHORT_S : IR Magnet Power Supply SHORT_S (WBS 6.06.02.02)
- 6.06.02.02The number of Independent functions on the magnets being powered shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.02The maximum magnet string resistance to be powered shall be TBD ohm11/13/2023APPROVEDTRUE
- 6.06.02.02The maximum magnet string inductance to be powered shall be TBD H11/13/2023APPROVEDTRUE
- 6.06.02.02The magnets being powered shall be saturated TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.02The miits rating of the magnet being powred shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.02The voltage to ground of the magnet being powered shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.02The nominal current of the magnets being powered shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.02The minmum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.02The maximum current the PS must operate at shall be TBD A11/13/2023APPROVEDTRUE
- 6.06.02.02The PS current type DC or AC shall be TBD DC\AC11/13/2023APPROVEDTRUE
- 6.06.02.02The PS AC waveshape required shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.02The peak waveshape di/dt during ramping shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.02The full power bandwidth required shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.02The ppm of full scale current (peak to peak) shall be TBD %11/13/2023APPROVEDTRUE
- 6.06.02.02The time period for specified stability shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.02The short term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.02The long term stability shall be TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.02The current setpoint resolution (min size in bits) shall be TBD bits11/13/2023APPROVEDTRUE
- 6.06.02.02The synchronization required between PS's shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.02The synchronization timing of synchronization shall be TBD s11/13/2023APPROVEDTRUE
- 6.06.02.02The max allowable current ripple (peak to peak) TBD A11/13/2023APPROVEDTRUE
- 6.06.02.02The max current ripple frequency range (Hz) TBD Hz11/13/2023APPROVEDTRUE
- 6.06.02.02WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz11/13/2023APPROVEDTRUE
- 6.06.02.02The max voltage ripple (peak to peak) shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.02An NMR shall be required to measure the field TBD A/s11/13/2023APPROVEDTRUE
- 6.06.02.02The voltage tap configuration shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.02The threshold levels shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.02The peak di/dt without inducing a quench shall be TBD A/S11/13/2023APPROVEDTRUE
- 6.06.02.02The design shall have quench heaters TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.02The quench heater power rating shall be TBD W11/13/2023APPROVEDTRUE
- 6.06.02.02The design shall have warm up heaters TBD Y/N11/13/2023APPROVEDTRUE
- 6.06.02.02The warmup heater power rating shall be TBD W11/13/2023APPROVEDTRUE
- 6.06.02.02The current required to be shunted through the magnet shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.02The magnet turns ratio shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.02The terminal voltage shall be TBD V11/13/2023APPROVEDTRUE
- 6.06.02.02The design shall have thermal switches TBD11/13/2023APPROVEDTRUE
- 6.06.02.02The thermal switch connection numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.02The design shall have water flow switches TBD11/13/2023APPROVEDTRUE
- 6.06.02.02The water flow switch connections numbers shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.02The design shall have access controls interlocks TBD11/13/2023APPROVEDTRUE
- 6.06.02.02The main terminals lug details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.02The lead end indications shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.02The lugs details for thermal switch and water switches shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.02The lug details for the auxiliary windings shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.02The A/B terminal labeling details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.02The magnet drawing with terminations details shall be TBD11/13/2023APPROVEDTRUE
- 6.06.02.02The magnet polarity connections shall be TBD11/13/2023APPROVEDTRUE
- IR-RF : IR RF System (WBS 6.08)
- IR-RF-CRAB_ESR : IR ESR CRAB RF System (WBS 6.08.04.05)
- IR-RF-CRAB_ESR-FUNDAMENTAL_MODE : IR ESR CRAB RF Fundamental Mode (WBS 6.08.02.01)
- 6.08.02.01Type of system shall be SRF11/13/2023PENDINGFALSE
- 6.08.02.01The RF Harmonic Number shall be 504011/13/2023PENDINGFALSE
- 6.08.02.01The RF Drive Frequency [Min] shall be 0.1386 MHz11/13/2023PENDINGFALSE
- 6.08.02.01The RF Drive Frequency [Max] shall be 0.049896 MHz11/13/2023PENDINGFALSE
- 6.08.02.01The RF Wavelength shall be 2163.00474747475 m11/13/2023PENDINGFALSE
- 6.08.02.01The Total Crabbing Kick shall be 12.5 mRadian11/13/2023PENDINGFALSE
- 6.08.02.01The Total Crabbing Voltage shall be 2.9 MV11/13/2023PENDINGFALSE
- 6.08.02.01The Fundamental Mode Damper shall be required11/13/2023PENDINGFALSE
- 6.08.02.01The Tuning on Energy Ramp shall not be required11/13/2023PENDINGFALSE
- 6.08.02.01The Cavity Active or Transparent at Injection shall be Transparent11/13/2023PENDINGFALSE
- 6.08.02.01The Cavity Active or Transparent on Energy Ramp shall be Transparent11/13/2023PENDINGFALSE
- 6.08.02.01The Cavity Active or Transparent at Store shall be Active11/13/2023PENDINGFALSE
- 6.08.02.01The RF System Impedance Budget (L) shall be TBD Mohm11/13/2023PENDINGTRUE
- 6.08.02.01The RF System Impedance Budget (H) shall be TBD Mohm/m11/13/2023PENDINGTRUE
- 6.08.02.01The RF System Impedance Budget (V) shall be TBD Mohm/m11/13/2023PENDINGTRUE
- 6.08.02.01The Maximum Dipole content shall be TBD units?11/13/2023PENDINGTRUE
- 6.08.02.01The Maximum Quadrupole content shall be TBD units?11/13/2023PENDINGTRUE
- 6.08.02.01The Maximum Sextupole content shall be TBD units?11/13/2023PENDINGTRUE
- 6.08.02.01The Maximum Octupole content shall be TBD units?11/13/2023PENDINGTRUE
- 6.08.02.01The Amplitude Stability (Noise, df > 1Hz) shall be TBD 1E-4 (rms)11/13/2023PENDINGTRUE
- 6.08.02.01The Phase Stability (Noise, df > 1Hz) shall be TBD deg (rms)11/13/2023PENDINGTRUE
- 6.08.02.01The Amplitude Stability (Drift, df < 1Hz) shall be TBD 1E-4 (rms)11/13/2023PENDINGTRUE
- 6.08.02.01The Phase Stability (Drift, df < 1Hz) shall be TBD deg (rms)11/13/2023PENDINGTRUE
- 6.08.02.01The Cavity Minimum Aperture Dia shall be TBD mm11/13/2023PENDINGTRUE
- 6.08.02.01The Maximum Beam Offset at Cavities (H) shall be TBD mm11/13/2023PENDINGTRUE
- 6.08.02.01The Maximum Beam Offset at Cavities (V) shall be TBD mm11/13/2023PENDINGTRUE
- 6.08.02.01The EM Center Alignment Tolerance in X shall be TBD mm11/13/2023PENDINGTRUE
- 6.08.02.01The EM Center Alignment Tolerance in y shall be TBD mm11/13/2023PENDINGTRUE
- 6.08.02.01The EM Center Alignment Tolerance in Z shall be TBD mm11/13/2023PENDINGTRUE
- 6.08.02.01The EM Center Alignment Tolerance Roll shall be TBD deg11/13/2023PENDINGTRUE
- 6.08.02.01The EM Center Alignment Tolerance Pitch shall be TBD deg11/13/2023PENDINGTRUE
- 6.08.02.01The EM Center Alignment Tolerance Yaw shall be TBD deg11/13/2023PENDINGTRUE
- 6.08.02.01The Beamline Space Allocation (Beamline Length) shall be TBD m11/13/2023PENDINGTRUE
- 6.08.02.01The Beamline Space Allocation (Width) shall be TBD m11/13/2023PENDINGTRUE
- 6.08.02.01The Beamline Space Allocation (Height) shall be TBD m11/13/2023PENDINGTRUE
- 6.08.02.01The Distance Beamline Center to Ceiling shall be TBD m11/13/2023PENDINGTRUE
- 6.08.02.01The Distance Beamline Center to Floor shall be TBD m11/13/2023PENDINGTRUE
- 6.08.02.01The following nominal and worst case B(t), V(t) plots shall be met TBD -11/13/2023PENDINGTRUE
- 6.08.02.01The provided detailed bunch pattern shall be met TBD -11/13/2023PENDINGTRUE
- 6.08.02.01The following fill sequence shall be met TBD -11/13/2023PENDINGTRUE
- 6.08.02.01The bunch replacement sequence shall be met TBD -11/13/2023PENDINGTRUE
- 6.08.02.01The following synchronization requirements shall be met TBD -11/13/2023PENDINGTRUE
- 6.08.02.01The following RF gymnastics (like bunch merge, split,etc ) shall be met TBD -11/13/2023PENDINGTRUE
- 6.08.02.01The following specific control requirements from beam dynamics shall be met TBD -11/13/2023PENDINGTRUE
- 6.08.02.01The following tuning Range shall be met TBD -11/13/2023PENDINGTRUE
- IR-RF-CRAB_ESR_SRFCM : IR ESR CRAB RF Super Conducting Cryogenic Module (SCFCM) (WBS 6.08.04.05)
- IR-RF-CRAB_ESR_SRFCM-FUNDAMENTAL_MODE : IR ESR CRAB RF SCFCM Fundamental Mode (WBS 6.08.04.05)
- 6.08.04.05The 2K Static Heat Load shall be TBD W11/13/2023PENDINGTRUE
- 6.08.04.05The 4.5K Static Heat Load shall be TBD W11/13/2023PENDINGTRUE
- 6.08.04.05The 45K Static Heat Load shall be TBD W11/13/2023PENDINGTRUE
- 6.08.04.05The 2K Dynamic Heat Load shall be TBD W11/13/2023PENDINGTRUE
- 6.08.04.05The Lorentz Coefficient shall be TBD Hz/(MV)^211/13/2023PENDINGTRUE
- 6.08.04.05The Cavity Pressure Sensitivity shall be TBD Hz/torr11/13/2023PENDINGTRUE
- 6.08.04.05The Slow Tuner Range (stroke) shall be TBD mm11/13/2023PENDINGTRUE
- 6.08.04.05The Slow Tuner Range (frequency) shall be TBD kHz11/13/2023PENDINGTRUE
- 6.08.04.05The Slow Tuner Backlash shall be TBD Hz11/13/2023PENDINGTRUE
- 6.08.04.05The Slow Tuning Rate shall be TBD Hz/s11/13/2023PENDINGTRUE
- 6.08.04.05The Fast Tuner Range (stroke) shall be TBD mm11/13/2023PENDINGTRUE
- 6.08.04.05The Fast Tuner Range (frequency) shall be TBD Hz11/13/2023PENDINGTRUE
- 6.08.04.05The Fast Tuner Backlash shall be TBD Hz11/13/2023PENDINGTRUE
- 6.08.04.05The Fast Tuning Rate shall be TBD Hz/s11/13/2023PENDINGTRUE
- 6.08.04.05The Beamline Vacuum (300K) shall be TBD Pa11/13/2023PENDINGTRUE
- 6.08.04.05The Coupler Line Vacuum (300K) shall be TBD torr11/13/2023PENDINGTRUE
- 6.08.04.05The Insulating Vacuum (300K) shall be TBD mBar11/13/2023PENDINGTRUE
- 6.08.04.05The Beamline Vacuum (2K) shall be TBD Pa11/13/2023PENDINGTRUE
- 6.08.04.05The Coupler Line Vacuum (2K) shall be TBD torr11/13/2023PENDINGTRUE
- 6.08.04.05The Insulating Vacuum (2K) shall be TBD mBar11/13/2023PENDINGTRUE
- 6.08.04.05The 2K Circuit Low-Pressure MAWP (cold) shall be TBD bar11/13/2023PENDINGTRUE
- 6.08.04.05The 2K Circuit Low-Pressure MAWP (warm) shall be TBD bar11/13/2023PENDINGTRUE
- 6.08.04.05The 2K Circuit High-Pressure MAWP (cold) shall be TBD bar11/13/2023PENDINGTRUE
- 6.08.04.05The 2K Circuit High-Pressure MAWP (warm) shall be TBD bar11/13/2023PENDINGTRUE
- 6.08.04.05The 4.5K Circuit MAWP (cold) shall be TBD bar11/13/2023PENDINGTRUE
- 6.08.04.05The 4.5K Circuit MAWP (warm) shall be TBD bar11/13/2023PENDINGTRUE
- 6.08.04.05The 45K Circuit MAWP (cold) shall be TBD bar11/13/2023PENDINGTRUE
- 6.08.04.05The 45K Circuit MAWP (warm) shall be TBD bar11/13/2023PENDINGTRUE
- 6.08.04.05The 2K Circuit Operating Temperature shall be TBD K11/13/2023PENDINGTRUE
- 6.08.04.05The 4.5K Circuit Operating Temperature shall be TBD K11/13/2023PENDINGTRUE
- 6.08.04.05The 45K Circuit Operating Temperature shall be TBD K11/13/2023PENDINGTRUE
- 6.08.04.05The 2K Circuit Operating Pressure shall be TBD Pa11/13/2023PENDINGTRUE
- 6.08.04.05The 4.5K Circuit Operating Pressure shall be TBD MPa11/13/2023PENDINGTRUE
- 6.08.04.05The 45K Circuit Operating Pressure shall be TBD Pa11/13/2023PENDINGTRUE
- IR-RF-CRAB_HSR : IR HSR CRAB RF System (WBS 6.08.02.01)
- IR-RF-CRAB_HSR-2ND_HARMONIC_MODE : IR HSR CRAB RF 2nd Harmonic Mode (WBS 6.08.02.01)
- 6.08.02.01Type of system shall be SRF11/13/2023PENDINGFALSE
- 6.08.02.01The RF Harmonic Number shall be 504011/13/2023PENDINGFALSE
- 6.08.02.01The RF Drive Frequency [Min] shall be 18543.1952250794 MHz11/13/2023PENDINGFALSE
- 6.08.02.01The RF Drive Frequency [Max] shall be 0.05544 MHz11/13/2023PENDINGFALSE
- 6.08.02.01The RF Wavelength shall be 0.0161672491909342 m11/13/2023PENDINGFALSE
- 6.08.02.01The Total Crabbing Kick shall be 12.5/17.5 mrad11/13/2023PENDINGFALSE
- 6.08.02.01The Total Crabbing Voltage shall be 4.75/6.65 MV11/13/2023PENDINGFALSE
- 6.08.02.01The Fundamental Mode Damper shall not be required11/13/2023PENDINGFALSE
- 6.08.02.01The Tuning on Energy Ramp shall not be required11/13/2023PENDINGFALSE
- 6.08.02.01The Cavity Active or Transparent at Injection shall be Transparent11/13/2023PENDINGFALSE
- 6.08.02.01The Cavity Active or Transparent on Energy Ramp shall be Transparent11/13/2023PENDINGFALSE
- 6.08.02.01The Cavity Active or Transparent at Store shall be Active11/13/2023PENDINGFALSE
- 6.08.02.01The RF System Impedance Budget (L) shall be 318 Kohm11/13/2023PENDINGFALSE
- 6.08.02.01The RF System Impedance Budget (H) shall be 2.64 Mohm/m11/13/2023PENDINGFALSE
- 6.08.02.01The RF System Impedance Budget (V) shall be 13.2 Mohm/m11/13/2023PENDINGFALSE
- 6.08.02.01The Maximum Quadrupole content shall be TBD T11/13/2023PENDINGTRUE
- 6.08.02.01The Maximum Sextupole content shall be TBD T/m11/13/2023PENDINGTRUE
- 6.08.02.01The Maximum Octupole content shall be TBD T/m^211/13/2023PENDINGTRUE
- 6.08.02.01The Maximum Decapole content shall be TBD T/m^311/13/2023PENDINGTRUE
- 6.08.02.01The Amplitude Stability (Noise, df > 1Hz) shall be TBD 1E-4 (rms)11/13/2023PENDINGTRUE
- 6.08.02.01The Phase Stability (Noise, df > 1Hz) shall be TBD deg (rms)11/13/2023PENDINGTRUE
- 6.08.02.01The Amplitude Stability (Drift, df < 1Hz) shall be TBD 1E-4 (rms)11/13/2023PENDINGTRUE
- 6.08.02.01The Phase Stability (Drift, df < 1Hz) shall be TBD deg (rms)11/13/2023PENDINGTRUE
- 6.08.02.01The Cavity Minimum Aperture Dia shall be 100 mm11/13/2023PENDINGFALSE
- 6.08.02.01The Maximum Beam Offset at Cavities (H) shall be 0.6 mm11/13/2023PENDINGFALSE
- 6.08.02.01The Maximum Beam Offset at Cavities (V) shall be 0.6 mm11/13/2023PENDINGFALSE
- 6.08.02.01The EM Center Alignment Tolerance in X shall be TBD mm11/13/2023PENDINGTRUE
- 6.08.02.01The EM Center Alignment Tolerance in y shall be TBD mm11/13/2023PENDINGTRUE
- 6.08.02.01The EM Center Alignment Tolerance in Z shall be TBD mm11/13/2023PENDINGTRUE
- 6.08.02.01The EM Center Alignment Tolerance Roll shall be TBD deg11/13/2023PENDINGTRUE
- 6.08.02.01The EM Center Alignment Tolerance Pitch shall be TBD deg11/13/2023PENDINGTRUE
- 6.08.02.01The EM Center Alignment Tolerance Yaw shall be TBD deg11/13/2023PENDINGTRUE
- 6.08.02.01The Beamline Space Allocation (Beamline Length) shall be 5/7.5 m11/13/2023PENDINGFALSE
- 6.08.02.01The Beamline Space Allocation (Width) shall be TBD m11/13/2023PENDINGTRUE
- 6.08.02.01The Beamline Space Allocation (Height) shall be TBD m11/13/2023PENDINGTRUE
- 6.08.02.01The Distance Beamline Center to Ceiling shall be TBD m11/13/2023PENDINGTRUE
- 6.08.02.01The Distance Beamline Center to Floor shall be TBD m11/13/2023PENDINGTRUE
- 6.08.02.01The following nominal and worst case B(t), V(t) plots shall be met TBD11/13/2023PENDINGTRUE
- 6.08.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.02.01The bunch replacement sequence shall be met TBD11/13/2023PENDINGTRUE
- 6.08.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.02.01The following RF gymnastics (like bunch merge, split,etc ) shall be met TBD11/13/2023PENDINGTRUE
- 6.08.02.01The following specific control requirements from beam dynamics shall be met TBD11/13/2023PENDINGTRUE
- 6.08.02.01The following tuning Range shall be met TBD11/13/2023PENDINGTRUE
- IR-RF-CRAB_HSR-FUNDAMENTAL_MODE : IR HSR CRAB RF Fundamental Mode (WBS 6.08.02.01)
- 6.08.02.01Type of system shall be SRF11/13/2023PENDINGFALSE
- 6.08.02.01The RF Harmonic Number shall be 252011/13/2023PENDINGFALSE
- 6.08.02.01The RF Drive Frequency [Min] shall be 9271.59761253968 MHz11/13/2023PENDINGFALSE
- 6.08.02.01The RF Drive Frequency [Max] shall be 0.02772 MHz11/13/2023PENDINGFALSE
- 6.08.02.01The RF Wavelength shall be 0.0323344983818685 m11/13/2023PENDINGFALSE
- 6.08.02.01The Total Crabbing Kick shall be 12.5/17.5 mrad11/13/2023PENDINGFALSE
- 6.08.02.01The Total Crabbing Voltage shall be 33.83/47.362 MV11/13/2023PENDINGFALSE
- 6.08.02.01The Fundamental Mode Damper shall not be required11/13/2023PENDINGFALSE
- 6.08.02.01The Tuning on Energy Ramp shall not be required11/13/2023PENDINGFALSE
- 6.08.02.01The Cavity Active or Transparent at Injection shall be Transparent11/13/2023PENDINGFALSE
- 6.08.02.01The Cavity Active or Transparent on Energy Ramp shall be Transparent11/13/2023PENDINGFALSE
- 6.08.02.01The Cavity Active or Transparent at Store shall be Active11/13/2023PENDINGFALSE
- 6.08.02.01The RF System Impedance Budget (L) shall be 318 Kohm11/13/2023PENDINGFALSE
- 6.08.02.01The RF System Impedance Budget (H) shall be 2.64 Mohm/m11/13/2023PENDINGFALSE
- 6.08.02.01The RF System Impedance Budget (V) shall be 13.2 Mohm/m11/13/2023PENDINGFALSE
- 6.08.02.01The Maximum Quadrupole content shall be 0.00205\TBD T11/13/2023PENDINGTRUE
- 6.08.02.01The Maximum Sextupole content shall be 0.0698\TBD T/m11/13/2023PENDINGTRUE
- 6.08.02.01The Maximum Octupole content shall be 1.36\TBD T/m^211/13/2023PENDINGTRUE
- 6.08.02.01The Maximum Decapole content shall be 85.3\TBD T/m^311/13/2023PENDINGTRUE
- 6.08.02.01The Amplitude Stability (Noise, df > 1Hz) shall be TBD 1E-4 (rms)11/13/2023PENDINGTRUE
- 6.08.02.01The Phase Stability (Noise, df > 1Hz) shall be TBD deg (rms)11/13/2023PENDINGTRUE
- 6.08.02.01The Amplitude Stability (Drift, df < 1Hz) shall be TBD 1E-4 (rms)11/13/2023PENDINGTRUE
- 6.08.02.01The Phase Stability (Drift, df < 1Hz) shall be TBD deg (rms)11/13/2023PENDINGTRUE
- 6.08.02.01The Cavity Minimum Aperture Dia shall be 100 mm11/13/2023PENDINGFALSE
- 6.08.02.01The Maximum Beam Offset at Cavities (H) shall be 0.6 mm11/13/2023PENDINGFALSE
- 6.08.02.01The Maximum Beam Offset at Cavities (V) shall be 0.6 mm11/13/2023PENDINGFALSE
- 6.08.02.01The EM Center Alignment Tolerance in X shall be TBD mm11/13/2023PENDINGTRUE
- 6.08.02.01The EM Center Alignment Tolerance in y shall be TBD mm11/13/2023PENDINGTRUE
- 6.08.02.01The EM Center Alignment Tolerance in Z shall be TBD mm11/13/2023PENDINGTRUE
- 6.08.02.01The EM Center Alignment Tolerance Roll shall be TBD deg11/13/2023PENDINGTRUE
- 6.08.02.01The EM Center Alignment Tolerance Pitch shall be TBD deg11/13/2023PENDINGTRUE
- 6.08.02.01The EM Center Alignment Tolerance Yaw shall be TBD deg11/13/2023PENDINGTRUE
- 6.08.02.01The Beamline Space Allocation (Beamline Length) shall be 10/15 m11/13/2023PENDINGFALSE
- 6.08.02.01The Beamline Space Allocation (Width) shall be 2 m11/13/2023PENDINGFALSE
- 6.08.02.01The Beamline Space Allocation (Height) shall be TBD m11/13/2023PENDINGTRUE
- 6.08.02.01The Distance Beamline Center to Ceiling shall be TBD m11/13/2023PENDINGTRUE
- 6.08.02.01The Distance Beamline Center to Floor shall be TBD m11/13/2023PENDINGTRUE
- 6.08.02.01The following nominal and worst case B(t), V(t) plots shall be met TBD11/13/2023PENDINGTRUE
- 6.08.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.02.01The bunch replacement sequence shall be met TBD11/13/2023PENDINGTRUE
- 6.08.02.01< blank >11/13/2023NOT APPLICABLEFALSE
- 6.08.02.01The following RF gymnastics (like bunch merge, split,etc ) shall be met TBD11/13/2023PENDINGTRUE
- 6.08.02.01The following specific control requirements from beam dynamics shall be met TBD11/13/2023PENDINGTRUE
- 6.08.02.01The following tuning Range shall be met TBD11/13/2023PENDINGTRUE
- IR-RF-CRAB_HSR_SRFCM : IR HSR CRAB RF Super Conducting Cryogenic Module (SCFCM) (WBS 6.08.04.04)
- IR-RF-CRAB_HSR_SRFCM-FUNDAMENTAL_MODE : IR HSR CRAB RF SCFCM Fundamental Mode (WBS 6.08.04.04)
- 6.08.04.042K Static Heat Load TBD W11/13/2023PENDINGTRUE
- 6.08.04.044.5K Static Heat Load TBD W11/13/2023PENDINGTRUE
- 6.08.04.0445K Static Heat Load TBD W11/13/2023PENDINGTRUE
- 6.08.04.042K Dynamic Heat Load TBD W11/13/2023PENDINGTRUE
- 6.08.04.04Lorentz Coefficient TBD Hz/(MV)^211/13/2023PENDINGTRUE
- 6.08.04.04Cavity Pressure Sensitivity TBD Hz/torr11/13/2023PENDINGTRUE
- 6.08.04.04Slow Tuner Range (stroke) TBD mm11/13/2023PENDINGTRUE
- 6.08.04.04Slow Tuner Range (frequency) ±472 kHz11/13/2023PENDINGFALSE
- 6.08.04.04Slow Tuner Backlash 10 Hz11/13/2023PENDINGFALSE
- 6.08.04.04Slow Tuning Rate 1 Hz/s11/13/2023PENDINGFALSE
- 6.08.04.04Fast Tuner Range (stroke) mm11/13/2023PENDINGFALSE
- 6.08.04.04Fast Tuner Range (frequency) 100 Hz11/13/2023PENDINGFALSE
- 6.08.04.04Fast Tuner Backlash 0.1 Hz11/13/2023PENDINGFALSE
- 6.08.04.04Fast Tuning Rate 100000 Hz/s11/13/2023PENDINGFALSE
- 6.08.04.04Beamline Vacuum (300K) 0.00001 Pa11/13/2023PENDINGFALSE
- 6.08.04.04Coupler Line Vacuum (300K) 0.00001 torr11/13/2023PENDINGFALSE
- 6.08.04.04Insulating Vacuum (300K) 0.00005 mBar11/13/2023PENDINGFALSE
- 6.08.04.04Beamline Vacuum (2K) 0.00000001 Pa11/13/2023PENDINGFALSE
- 6.08.04.04Coupler Line Vacuum (2K) 0.000001 torr11/13/2023PENDINGFALSE
- 6.08.04.04Insulating Vacuum (2K) 0.000005 mBar11/13/2023PENDINGFALSE
- 6.08.04.042K Circuit Low-Pressure MAWP (cold) 2 bar11/13/2023PENDINGFALSE
- 6.08.04.042K Circuit Low-Pressure MAWP (warm) 4 bar11/13/2023PENDINGFALSE
- 6.08.04.042K Circuit High-Pressure MAWP (cold) 20 bar11/13/2023PENDINGFALSE
- 6.08.04.042K Circuit High-Pressure MAWP (warm) 20 bar11/13/2023PENDINGFALSE
- 6.08.04.044.5K Circuit MAWP (cold) 20 bar11/13/2023PENDINGFALSE
- 6.08.04.044.5K Circuit MAWP (warm) 20 bar11/13/2023PENDINGFALSE
- 6.08.04.0445K Circuit MAWP (cold) 20 bar11/13/2023PENDINGFALSE
- 6.08.04.0445K Circuit MAWP (warm) 20 bar11/13/2023PENDINGFALSE
- 6.08.04.042K Circuit Operating Temperature 1.8 - 2.1 K11/13/2023PENDINGFALSE
- 6.08.04.044.5K Circuit Operating Temperature 4.5 - 8.5 K11/13/2023PENDINGFALSE
- 6.08.04.0445K Circuit Operating Temperature 25 - 85 K11/13/2023PENDINGFALSE
- 6.08.04.042K Circuit Operating Pressure > 1580 Pa11/13/2023PENDINGFALSE
- 6.08.04.044.5K Circuit Operating Pressure 0.3 - 1.8 MPa11/13/2023PENDINGFALSE
- 6.08.04.0445K Circuit Operating Pressure 0.27 - 1.8 Pa11/13/2023PENDINGFALSE
- IR-VAC : IR Vacuum System (WBS 6.06.02.04)
- 6.06.02.04Impedance values shall be approved by accelerator physics.11/13/2023APPROVEDFALSE
- 6.06.02.04Any special aperture requirements or aperture information shall be provided by or approved by physics.11/13/2023APPROVEDFALSE
- 6.06.02.04The acceptable magnetic field from vacuum equipment within a radius 16mm (wrt Beam center) shall be <0.4 Gauss11/13/2023APPROVEDFALSE
- 6.06.02.04The magnetic permeability for vacuum equipment shall be approved by beam physics.11/13/2023APPROVEDFALSE
- 6.06.02.04The average vacuum level within the IR shall be 5x10-10 Torr11/13/2023APPROVEDFALSE
- 6.06.02.04The vacuum stability (upper pressure limit) shall be TBD Torr11/13/2023APPROVEDTRUE
- 6.06.02.04On 15 m (or one vacuum section) on each side of the SRF cavities shall be processed to class ISO 5.11/13/2023APPROVEDFALSE
- 6.06.02.04Fast valve protection shall not be required in the IR.11/13/2023APPROVEDFALSE
- 6.06.02.04Beam current is an input for the interlock system. The threshold level shall be identified and adjusted during the system commisioning.11/13/2023APPROVEDFALSE
- 6.06.02.04The central beam pipe temperature limit (warm gas bakeout) shall be 110 C11/13/2023APPROVEDFALSE
- 6.06.02.04The central beam pipe pressure limit +/- 10m shall be <10-10 Torr11/13/2023APPROVEDFALSE
- 6.06.02.04The inner beam pipe ( +/- 1.5 m around IP) shall be with a gold coating of 5 um11/13/2023APPROVEDFALSE