Requirement Details
Electron Ion Collider
F-ESR-RF.1
Requirement details, history, relationships and interfaces associated with requirement F-ESR-RF.1
- CURRENT RECORD
- ARCHIVE RECORDS
- RELATIONSHIPS
- INTERFACES
Record Date: 10/10/2024 14:48 | |||
Identifier: | F-ESR-RF.1 | WBS: | 6.04 |
Date Modified: | TBD: | FALSE | |
Status Date: | Status: | In Process | |
Description: | Provision shall be made at IR10 to accommodate RF systems. | ||
Comments: |
No archive versions
Parents | |
G-ESR.3 | The ESR shall provide electron bunches having the bunch parameters specified in [10]Â |
Children | |
P-ESR-RF-MAIN_RF-FUNDAMENTAL_MODE.1 | The Type of system shall be SRF |
P-ESR-RF-MAIN_RF-FUNDAMENTAL_MODE.2 | The RF Harmonic Number shall be 7560 |
P-ESR-RF-MAIN_RF-FUNDAMENTAL_MODE.3 | The Nomin.a.l RF Frequency shall be 591 MHz |
P-ESR-RF-MAIN_RF-FUNDAMENTAL_MODE.4 | The Cavity Tuning Range shall be 0.22 +-, MHz |
P-ESR-RF-MAIN_RF-FUNDAMENTAL_MODE.5 | The RF Wavelength shall be 0.507263042301184 m |
P-ESR-RF-MAIN_RF-FUNDAMENTAL_MODE.6 | The Required Voltage per Turn [Max, 18 GeV] shall be 61.5 MV |
P-ESR-RF-MAIN_RF-FUNDAMENTAL_MODE.7 | The Requirement shall be 10.1 MV |
P-ESR-RF-MAIN_RF-FUNDAMENTAL_MODE.8 | The Installed Voltage per Turn shall be 68 MV |
P-ESR-RF-MAIN_RF-FUNDAMENTAL_MODE.9 | The RF System Impedance Budget (L) shall be 26 Kohm GHz Mohm |
P-ESR-RF-MAIN_RF-FUNDAMENTAL_MODE.10 | The RF System Impedance Budget (H) shall be 12 Mohm/m |
P-ESR-RF-MAIN_RF-FUNDAMENTAL_MODE.11 | The RF System Impedance Budget (V) shall be 12 Mohm/m |
P-ESR-RF-MAIN_RF-FUNDAMENTAL_MODE.12 | The Maximum Dipole content shall be TBD |
P-ESR-RF-MAIN_RF-FUNDAMENTAL_MODE.13 | The Maximum Quadrupole content shall be TBD |
P-ESR-RF-MAIN_RF-FUNDAMENTAL_MODE.14 | The Maximum Sextupole content shall be TBD |
P-ESR-RF-MAIN_RF-FUNDAMENTAL_MODE.15 | The Maximum Octupole content shall be TBD |
P-ESR-RF-MAIN_RF-FUNDAMENTAL_MODE.16 | The Amplitude Stability (Noise, df > 1Hz) shall be TBD 1E-4 (rms) |
P-ESR-RF-MAIN_RF-FUNDAMENTAL_MODE.17 | The Phase Stability (Noise, df > 1Hz) shall be TBD deg (rms) |
P-ESR-RF-MAIN_RF-FUNDAMENTAL_MODE.18 | The Amplitude Stability (Drift, df < 1Hz) shall be TBD 1E-4 (rms) |
P-ESR-RF-MAIN_RF-FUNDAMENTAL_MODE.19 | The Phase Stability (Drift, df < 1Hz) shall be TBD deg (rms) |
P-ESR-RF-MAIN_RF-FUNDAMENTAL_MODE.20 | The Cavity Minimum Aperture Radius shall be 30 mm |
P-ESR-RF-MAIN_RF-FUNDAMENTAL_MODE.21 | The Maximum Beam Offset at Cavities (H) shall be <1mm mm |
P-ESR-RF-MAIN_RF-FUNDAMENTAL_MODE.22 | The Maximum Beam Offset at Cavities (V) shall be <1mm mm |
P-ESR-RF-MAIN_RF-FUNDAMENTAL_MODE.23 | The EM Center Alignment Tolerance in X shall be few 100 um mm |
P-ESR-RF-MAIN_RF-FUNDAMENTAL_MODE.24 | The EM Center Alignment Tolerance in y shall be few 100 um mm |
P-ESR-RF-MAIN_RF-FUNDAMENTAL_MODE.25 | The EM Center Alignment Tolerance in Z shall be several millimeters mm |
P-ESR-RF-MAIN_RF-FUNDAMENTAL_MODE.26 | < blank > |
P-ESR-RF-MAIN_RF-FUNDAMENTAL_MODE.27 | The EM Center Alignment Tolerance Pitch shall be TBD deg |
P-ESR-RF-MAIN_RF-FUNDAMENTAL_MODE.28 | The EM Center Alignment Tolerance Yaw shall be TBD deg |
P-ESR-RF-MAIN_RF-FUNDAMENTAL_MODE.29 | The Beamline Space Allocation shall be 8.7 m |
P-ESR-RF-MAIN_RF-FUNDAMENTAL_MODE.30 | The Beamline Space Allocation (Width) shall be TBD m |
P-ESR-RF-MAIN_RF-FUNDAMENTAL_MODE.31 | The Beamline Space Allocation (Height) shall be TBD m |
P-ESR-RF-MAIN_RF-FUNDAMENTAL_MODE.32 | The Distance Beamline Center to Ceiling shall be TBD m |
P-ESR-RF-MAIN_RF-FUNDAMENTAL_MODE.33 | The Distance Beamline Center to Floor shall be TBD m |
P-ESR-RF-MAIN_RF-FUNDAMENTAL_MODE.34 | < blank > |
P-ESR-RF-MAIN_RF-FUNDAMENTAL_MODE.35 | < blank > |
P-ESR-RF-MAIN_RF-FUNDAMENTAL_MODE.36 | The provided detailed bunch pattern shall be met 10 |
P-ESR-RF-MAIN_RF-FUNDAMENTAL_MODE.37 | The following fill sequence shall be met TBD |
P-ESR-RF-MAIN_RF-FUNDAMENTAL_MODE.38 | The describe bunch replacement sequence shall be met |
P-ESR-RF-MAIN_RF-FUNDAMENTAL_MODE.39 | The following synchronization and cogging requirements shall be met TBD |
P-ESR-RF-MAIN_RF-FUNDAMENTAL_MODE.40 | < blank > |
P-ESR-RF-MAIN_RF-FUNDAMENTAL_MODE.41 | The following specific control requirements from beam dynamics shall be met TBD |
P-ESR-RF-MAIN_RF-FUNDAMENTAL_MODE.42 | The Max HOM RF power is allowed to leak down the beam pipe shall be TBD |
P-ESR-RF-MAIN_RF-FUNDAMENTAL_MODE.43 | The Sum total non-RF parasitic losses in the ring shall be TBD |
P-ESR-RF-MAIN_RF-FUNDAMENTAL_MODE.44 | The Shadow Synchrotron radiation capability shall be TBD |
P-ESR-RF-MAIN_RF-FUNDAMENTAL_MODE.45 | The following tuning Range shall be met 0.6 MHz |
P-ESR-RF-MAIN_RF-FUNDAMENTAL_MODE.46 | The Tuner type shall be Tension/strech |
P-ESR-RF-MAIN_RF_SRFCM-FUNDAMENTAL_MODE.15 | The Radius (from beam center)(<6 in) shall be 400000000 RADS |
P-ESR-RF-MAIN_RF_SRFCM-FUNDAMENTAL_MODE.16 | The Radius (from beam center)(<12 in) shall be 120000000 RADS |
P-ESR-RF-MAIN_RF_SRFCM-FUNDAMENTAL_MODE.17 | The Radius (from beam center)(< 18 in) shall be 30000000 RADS |
P-ESR-RF-MAIN_RF_SRFCM-FUNDAMENTAL_MODE.18 | The Radius (from beam center)(< 21 in) shall be 12000000 RADS |
P-ESR-RF-MAIN_RF_SRFCM-FUNDAMENTAL_MODE.19 | The Radius (from beam center)(< 50 in) shall be 4000000 RADS |
P-ESR-RF-MAIN_RF_SRFCM-FUNDAMENTAL_MODE.20 | The Beamline Components (Outside VV) shall be 11 Intern.a.l 15 Extern.a.l PSID |
P-ESR-RF-MAIN_RF_SRFCM-FUNDAMENTAL_MODE.21 | The Beamline Components (Inside VV/Outside HV) shall be 26 Intern.a.l 30 Extern.a.l PSID |
P-ESR-RF-MAIN_RF_SRFCM-FUNDAMENTAL_MODE.22 | The Beamline Components (Inside VV/Inside HV) shall be 26 Intern.a.l 33 Extern.a.l Warm 75 Extern.a.l Cold PSID |
P-ESR-RF-MAIN_RF_SRFCM-FUNDAMENTAL_MODE.23 | The Beamline Components (Inside VV/Tracecooled) shall be 26 Intern.a.l 165 Extern.a.l PSID |
P-ESR-RF-MAIN_RF_SRFCM-FUNDAMENTAL_MODE.24 | The Inner Coupler (Inside VV) shall be 85 Intern.a.l 26 Extern.a.l PSID |
P-ESR-RF-MAIN_RF_SRFCM-FUNDAMENTAL_MODE.25 | The Inner Coupler (Outside VV) shall be 70 Intern.a.l 15 Extern.a.l PSID |
P-ESR-RF-MAIN_RF_SRFCM-FUNDAMENTAL_MODE.26 | The Supply Circuit shall be 165 Intern.a.l 30 Extern.a.l PSID |
P-ESR-RF-MAIN_RF_SRFCM-FUNDAMENTAL_MODE.27 | The Primary Return Circuit shall be 33 Intern.a.l Warm 75 Intern.a.l Cold 30 Extern.a.l PSID |
P-ESR-RF-MAIN_RF_SRFCM-FUNDAMENTAL_MODE.28 | The Trace Cooling shall be 165 Intern.a.l 30 Extern.a.l PSID |
P-ESR-RF-MAIN_RF_SRFCM-FUNDAMENTAL_MODE.29 | The Trace Cooling (around beamline) shall be 165 Intern.a.l 30 Extern.a.l Towards IV 26 Extern.a.l Towards Beamline PSID |
P-ESR-RF-MAIN_RF_SRFCM-FUNDAMENTAL_MODE.30 | The Coupler Trace Cooling shall be 165 Intern.a.l 30 Extern.a.l PSID |
P-ESR-RF-MAIN_RF_SRFCM-FUNDAMENTAL_MODE.31 | The Coupler Trace Cooling (Around Coupler) shall be 165 Intern.a.l 30 Extern.a.l Towards IV 26 Extern.a.l Towards Beamline PSID |
P-ESR-RF-MAIN_RF_SRFCM-FUNDAMENTAL_MODE.32 | The Shield Circuit shall be 165 Intern.a.l 30 Extern.a.l PSID |
P-ESR-RF-MAIN_RF_SRFCM-FUNDAMENTAL_MODE.33 | The Vacuum Vessel shall be 15 Intern.a.l 15 Extern.a.l PSID |
P-ESR-RF-MAIN_RF_SRFCM-FUNDAMENTAL_MODE.34 | The Cooling Water Operating Temperature shall be 303 K |
P-ESR-RF-MAIN_RF_SRFCM-FUNDAMENTAL_MODE.35 | The Primary Supply Piping Operating Temperature shall be 4.9 K |
P-ESR-RF-MAIN_RF_SRFCM-FUNDAMENTAL_MODE.36 | The Cavity Trace Cooling Operating Temperature shall be 4.9 K |
P-ESR-RF-MAIN_RF_SRFCM-FUNDAMENTAL_MODE.37 | The Shield Circuit Operating Temperature shall be 4.9 K |
P-ESR-RF-MAIN_RF_SRFCM-FUNDAMENTAL_MODE.38 | The Coupler Trace Cooling Operating Temperature shall be 4.9 K |
P-ESR-RF-MAIN_RF_SRFCM-FUNDAMENTAL_MODE.39 | The Primary Return Circuit Operating Temperature shall be 2 K |
P-ESR-RF-MAIN_RF_SRFCM-FUNDAMENTAL_MODE.40 | The Cooling Water Operating Pressure shall be 3.4 ATM |
P-ESR-RF-MAIN_RF_SRFCM-FUNDAMENTAL_MODE.41 | The Primary Supply Piping Operating Pressure shall be 3.3 ATM |
P-ESR-RF-MAIN_RF_SRFCM-FUNDAMENTAL_MODE.42 | The Cavity Trace Cooling Operating Pressure shall be 3.3 ATM |
P-ESR-RF-MAIN_RF_SRFCM-FUNDAMENTAL_MODE.43 | The Shield Circuit Operating Pressure shall be 3.3 ATM |
P-ESR-RF-MAIN_RF_SRFCM-FUNDAMENTAL_MODE.44 | The Coupler Trace Cooling Operating Pressure shall be 3.3 ATM |
P-ESR-RF-MAIN_RF_SRFCM-FUNDAMENTAL_MODE.45 | The Primary Return Circuit Temperature shall be 0.03 ATM |
P-ESR-RF-MAIN_RF_SRFCM-FUNDAMENTAL_MODE.46 | The Beamline Vacuum (Warm) shall be 0.0000005 Torr |
P-ESR-RF-MAIN_RF_SRFCM-FUNDAMENTAL_MODE.47 | The Insulating Vacuum (Warm) shall be 0.005 Torr |
P-ESR-RF-MAIN_RF_SRFCM-FUNDAMENTAL_MODE.48 | The Beamline Vacuum (Cold) shall be 0.000000005 Torr |
P-ESR-RF-MAIN_RF_SRFCM-FUNDAMENTAL_MODE.49 | The Insulating Vacuum (Cold) shall be 0.00005 Torr |
P-ESR-RF-MAIN_RF_SRFCM-FUNDAMENTAL_MODE.50 | The Maximum Leak Rate shall be N/A torr L/s |
P-ESR-RF-MAIN_RF_SRFCM-FUNDAMENTAL_MODE.51 | The Efficiency shall be 0.9655 Value |
P-ESR-RF-MAIN_RF_SRFCM-FUNDAMENTAL_MODE.52 | The Inlet Temperature (High Pressure) shall be 4.5 K |
P-ESR-RF-MAIN_RF_SRFCM-FUNDAMENTAL_MODE.53 | The Outlet Temperature (High Pressure) shall be 2.2 K |
P-ESR-RF-MAIN_RF_SRFCM-FUNDAMENTAL_MODE.54 | The Pressure Drop (High Pressure) shall be 0.02 ATM |
P-ESR-RF-MAIN_RF_SRFCM-FUNDAMENTAL_MODE.55 | The Inlet Temperature (Low Pressure) shall be 2 K |
P-ESR-RF-MAIN_RF_SRFCM-FUNDAMENTAL_MODE.56 | The Outlet Temperature (Low Pressure) shall be 3.96 K |
P-ESR-RF-MAIN_RF_SRFCM-FUNDAMENTAL_MODE.57 | The Pressure Drop (Low Pressure) shall be 0.001 ATM |
P-ESR-RF-MAIN_RF_SRFCM-FUNDAMENTAL_MODE.58 | The Shield Circuit Heat Load (Static) shall be 67.9 W |
P-ESR-RF-MAIN_RF_SRFCM-FUNDAMENTAL_MODE.59 | The Coupler Circuit Heat Load (Static) shall be 0 (no 5K intercept) W |
P-ESR-RF-MAIN_RF_SRFCM-FUNDAMENTAL_MODE.60 | The Primary Circuit Heat Load (Static) shall be 9.8 W |
P-ESR-RF-MAIN_RF_SRFCM-FUNDAMENTAL_MODE.61 | The Shield Circuit Heat Load (Dyn.a.mic) shall be 0 (no shield intercept) W |
P-ESR-RF-MAIN_RF_SRFCM-FUNDAMENTAL_MODE.62 | The Coupler Circuit Heat Load (Dyn.a.mic) shall be 0 (no 5K intercept) W |
P-ESR-RF-MAIN_RF_SRFCM-FUNDAMENTAL_MODE.63 | The Primary Circuit Heat Load (Dyn.a.mic) shall be 27.3 W |
P-ESR-RF-MAIN_RF_SRFCM-FUNDAMENTAL_MODE.64 | The Cooling Water Flow (Large BLA) shall be TBD gpm |
P-ESR-RF-MAIN_RF_SRFCM-FUNDAMENTAL_MODE.65 | The Cooling Water Flow (Small BLA) shall be TBD gpm |
P-ESR-RF-MAIN_RF_SRFCM-FUNDAMENTAL_MODE.68 | The Cooling Water Flow (FPC Window Outer Diameter) shall be 0.5 gpm |
P-ESR-RF-MAIN_RF_SRFCM-FUNDAMENTAL_MODE.69 | The Cooling Water Flow (FPC Window Antenn.a.) shall be 1.5 gpm |
P-ESR-RF-MAIN_RF_SRFCM-FUNDAMENTAL_MODE.70 | The Beamline Space Allocation (Beamline Length gate valve to gate valve per cavity pair) shall be 4 m |
P-ESR-RF-MAIN_RF_SRFCM-FUNDAMENTAL_MODE.71 | The Beamline Space Allocation (Width) shall be 1.8 m |
P-ESR-RF-MAIN_RF_SRFCM-FUNDAMENTAL_MODE.72 | The Beamline Space Allocation (Height) shall be 2 m |
P-ESR-RF-MAIN_RF_SRFCM-FUNDAMENTAL_MODE.73 | The Distance Beamline Center to Floor shall be 1.159-1.381 m |
This function not yet implemented.