Requirement Details
Electron Ion Collider
F-EIS-RCS-RF.4
Requirement details, history, relationships and interfaces associated with requirement F-EIS-RCS-RF.4
CURRENT RECORD- ARCHIVE RECORDS
- RELATIONSHIPS
- INTERFACES
| Record Date: 12/06/2024 11:10 | |||
| Identifier: | F-EIS-RCS-RF.4 | WBS: | 6.03 |
| Date Modified: | TBD: | FALSE | |
| Status Date: | Status: | In Process | |
| Description: | The RF system shall be able to accommodate 4 circulating bunches in one trains of 4 bunches. | ||
| Comments: | |||
No archive versions
| Parents | |
| G-EIS.2 | The EIS shall provide an electron beam having sufficient energy to meet the ESR beam requirements as set forth in [5.9]. |
| G-EIS.3 | The EIS shall provide an electron beam with the RMS bunch momentum spreads at extraction which meet the ESR beam requirements as set forth in [5.9]. |
| G-EIS.4 | The EIS pre-injector shall provide an electron beam to the ESR having a horizontal beam emittance which is compatible with operation of the ESR. |
| G-EIS.5 | The EIS pre-injector shall provide an electron beam to the ESR having a vertical beam emittance which is compatible with operation of the ESR. |
| G-EIS.6 | The EIS shall inject into the ESR at a rate of 1[Hz]. |
| G-EIS.7 | The EIS shall inject one bunch into the ESR whilst being able to provide 2 bunches per injection cycle. |
| G-EIS.9 | The EIS shall provide an electron beam to the ESR having the bunch charge at extraction to meet the beam requirements as set forth in [5.9]. |
| G-EIS.8 | The EIS shall provide an electron beam to the ESR having RMS Bunch lengths at extraction to meet beam requirements as set forth in [5.9]. |
| G-EIS.10 | The ESR bunch replacement pattern will be defined by 1.the required polarization pattern to be provided to the experiments, 2.decay rates and 3. The RF cogging limitations of the beam transfer between RCS and ESR. |
| Children | |
| P-EIS-RCS-RF-MAIN_RF-CAPTURE&ACCEL_MODE.1 | The Type of system shall be SRF |
| P-EIS-RCS-RF-MAIN_RF-CAPTURE&ACCEL_MODE.2 | The RF Harmonic Number shall be 7584 |
| P-EIS-RCS-RF-MAIN_RF-CAPTURE&ACCEL_MODE.3 | The RF Drive Frequency shall be 591 MHz |
| P-EIS-RCS-RF-MAIN_RF-CAPTURE&ACCEL_MODE.4 | The RF Wavelength shall be 0 m |
| P-EIS-RCS-RF-MAIN_RF-CAPTURE&ACCEL_MODE.5 | The Required Voltage per Turn shall be 60 MV |
| P-EIS-RCS-RF-MAIN_RF-CAPTURE&ACCEL_MODE.6 | The Installed Voltage per Turn shall be 60 MV |
| P-EIS-RCS-RF-MAIN_RF-CAPTURE&ACCEL_MODE.7 | The Fundamental Mode Damper shall not be required |
| P-EIS-RCS-RF-MAIN_RF-CAPTURE&ACCEL_MODE.8 | The RF System Impedance Budget (Single bunch microwave instability) (L) shall be TBD |
| P-EIS-RCS-RF-MAIN_RF-CAPTURE&ACCEL_MODE.9 | The RF System Impedance Budget (H) shall be TBD Mohm/m |
| P-EIS-RCS-RF-MAIN_RF-CAPTURE&ACCEL_MODE.10 | The RF System Impedance Budget (V) shall be TBD Mohm/m |
| P-EIS-RCS-RF-MAIN_RF-CAPTURE&ACCEL_MODE.11 | The Impedance budget coupled bunch instability (L) shall be TBD MohmGHz |
| P-EIS-RCS-RF-MAIN_RF-CAPTURE&ACCEL_MODE.12 | The RF System Impedance Budget (H) shall be TBD Mohm/m |
| P-EIS-RCS-RF-MAIN_RF-CAPTURE&ACCEL_MODE.13 | The RF System Impedance Budget (V) shall be TBD Mohm/m |
| P-EIS-RCS-RF-MAIN_RF-CAPTURE&ACCEL_MODE.14 | The RF System Same Passband Impedance Budget (L) shall be TBD Mohm |
| P-EIS-RCS-RF-MAIN_RF-CAPTURE&ACCEL_MODE.15 | The Maximum Dipole content shall be TBD |
| P-EIS-RCS-RF-MAIN_RF-CAPTURE&ACCEL_MODE.16 | The Maximum Quadrupole content shall be TBD |
| P-EIS-RCS-RF-MAIN_RF-CAPTURE&ACCEL_MODE.17 | The Maximum Sextupole content shall be TBD |
| P-EIS-RCS-RF-MAIN_RF-CAPTURE&ACCEL_MODE.18 | The Maximum Octupole content shall be TBD |
| P-EIS-RCS-RF-MAIN_RF-CAPTURE&ACCEL_MODE.19 | The Amplitude Stability (Noise, df > 1Hz) shall be TBD 1E-4 (rms) |
| P-EIS-RCS-RF-MAIN_RF-CAPTURE&ACCEL_MODE.20 | The Phase Stability (Noise, df > 1Hz) shall be TBD deg (rms) |
| P-EIS-RCS-RF-MAIN_RF-CAPTURE&ACCEL_MODE.21 | The Amplitude Stability (Drift, df < 1Hz) shall be TBD 1E-4 (rms) |
| P-EIS-RCS-RF-MAIN_RF-CAPTURE&ACCEL_MODE.22 | The Phase Stability (Drift, df < 1Hz) shall be TBD deg (rms) |
| P-EIS-RCS-RF-MAIN_RF-CAPTURE&ACCEL_MODE.23 | The Cavity Minimum Aperture (diameter) shall be 32.9 mm |
| P-EIS-RCS-RF-MAIN_RF-CAPTURE&ACCEL_MODE.24 | The Maximum Beam Offset at Cavities (H) shall be TBD mm |
| P-EIS-RCS-RF-MAIN_RF-CAPTURE&ACCEL_MODE.25 | The Maximum Beam Offset at Cavities (V) shall be TBD mm |
| P-EIS-RCS-RF-MAIN_RF-CAPTURE&ACCEL_MODE.26 | The EM Center Alignment Tolerance in X shall be TBD mm |
| P-EIS-RCS-RF-MAIN_RF-CAPTURE&ACCEL_MODE.27 | The EM Center Alignment Tolerance in y shall be TBD mm |
| P-EIS-RCS-RF-MAIN_RF-CAPTURE&ACCEL_MODE.28 | The EM Center Alignment Tolerance in Z shall be TBD mm |
| P-EIS-RCS-RF-MAIN_RF-CAPTURE&ACCEL_MODE.29 | The EM Center Alignment Tolerance Roll shall be TBD deg |
| P-EIS-RCS-RF-MAIN_RF-CAPTURE&ACCEL_MODE.30 | The EM Center Alignment Tolerance Pitch shall be TBD deg |
| P-EIS-RCS-RF-MAIN_RF-CAPTURE&ACCEL_MODE.31 | The EM Center Alignment Tolerance Yaw shall be TBD deg |
| P-EIS-RCS-RF-MAIN_RF-CAPTURE&ACCEL_MODE.32 | The Beamline Space Allocation (Beamline Length) shall be 8.8 m |
| P-EIS-RCS-RF-MAIN_RF-CAPTURE&ACCEL_MODE.33 | The Beamline Space Allocation (Width) shall be TBD m |
| P-EIS-RCS-RF-MAIN_RF-CAPTURE&ACCEL_MODE.34 | The Beamline Space Allocation (Height) shall be TBD m |
| P-EIS-RCS-RF-MAIN_RF-CAPTURE&ACCEL_MODE.35 | The Distance Beamline Center to Ceiling shall be TBD m |
| P-EIS-RCS-RF-MAIN_RF-CAPTURE&ACCEL_MODE.36 | The Distance Beamline Center to Floor shall be TBD m |
| P-EIS-RCS-RF-MAIN_RF-CAPTURE&ACCEL_MODE.37 | The following nominal and worst case B(t), V(t) plots shall be met TBD |
| P-EIS-RCS-RF-MAIN_RF-CAPTURE&ACCEL_MODE.38 | The provided detailed bunch pattern shall be met TBD |
| P-EIS-RCS-RF-MAIN_RF-CAPTURE&ACCEL_MODE.39 | The following fill sequence shall be met TBD |
| P-EIS-RCS-RF-MAIN_RF-CAPTURE&ACCEL_MODE.40 | The following synchronization requirements shall be met TBD |
| P-EIS-RCS-RF-MAIN_RF-CAPTURE&ACCEL_MODE.41 | The following RF gymnastics (like bunch merge, split,etc ) shall be met TBD |
| P-EIS-RCS-RF-MAIN_RF-CAPTURE&ACCEL_MODE.42 | The following specific control requirements from beam dynamics shall be met TBD |
| P-EIS-RCS-RF-MAIN_RF-CAPTURE&ACCEL_MODE.43 | The following tuning Range shall be met TBD KHz |
| P-EIS-RCS-RF-MAIN_RF-MERGE1_MODE.1 | The Type of system shall be NC RF |
| P-EIS-RCS-RF-MAIN_RF-MERGE1_MODE.2 | The RF Harmonic Number shall be 3792 |
| P-EIS-RCS-RF-MAIN_RF-MERGE1_MODE.3 | The RF Drive Frequency shall be 295.5 MHz |
| P-EIS-RCS-RF-MAIN_RF-MERGE1_MODE.4 | The RF Wavelength shall be 0 m |
| P-EIS-RCS-RF-MAIN_RF-MERGE1_MODE.5 | The Required Voltage per Turn shall be 1.3 MV |
| P-EIS-RCS-RF-MAIN_RF-MERGE1_MODE.6 | The Installed Voltage per Turn shall be 1.3 MV |
| P-EIS-RCS-RF-MAIN_RF-MERGE1_MODE.7 | The Fundamental Mode Damper shall not be required |
| P-EIS-RCS-RF-MAIN_RF-MERGE1_MODE.8 | The RF System Impedance Budget (Single bunch microwave instability) (L) shall be TBD |
| P-EIS-RCS-RF-MAIN_RF-MERGE1_MODE.9 | The RF System Impedance Budget (H) shall be TBD Mohm/m |
| P-EIS-RCS-RF-MAIN_RF-MERGE1_MODE.10 | The RF System Impedance Budget (V) shall be TBD Mohm/m |
| P-EIS-RCS-RF-MAIN_RF-MERGE1_MODE.11 | The Impedance budget coupled bunch instability (L) shall be 1.59MOhm (<1GHz), 1.59MOhm-GHz (>1GHz) MohmGHz |
| P-EIS-RCS-RF-MAIN_RF-MERGE1_MODE.12 | The RF System Impedance Budget (H) shall be 12 Mohm/m |
| P-EIS-RCS-RF-MAIN_RF-MERGE1_MODE.13 | The RF System Impedance Budget (V) shall be 12 Mohm/m |
| P-EIS-RCS-RF-MAIN_RF-MERGE1_MODE.14 | The RF System Same Passband Impedance Budget (L) shall be TBD Mohm |
| P-EIS-RCS-RF-MAIN_RF-MERGE1_MODE.15 | The Maximum Dipole content shall be TBD |
| P-EIS-RCS-RF-MAIN_RF-MERGE1_MODE.16 | The Maximum Quadrupole content shall be TBD |
| P-EIS-RCS-RF-MAIN_RF-MERGE1_MODE.17 | The Maximum Sextupole content shall be TBD |
| P-EIS-RCS-RF-MAIN_RF-MERGE1_MODE.18 | The Maximum Octupole content shall be TBD |
| P-EIS-RCS-RF-MAIN_RF-MERGE1_MODE.19 | The Amplitude Stability (Noise, df > 1Hz) shall be TBD 1E-4 (rms) |
| P-EIS-RCS-RF-MAIN_RF-MERGE1_MODE.20 | The Phase Stability (Noise, df > 1Hz) shall be TBD deg (rms) |
| P-EIS-RCS-RF-MAIN_RF-MERGE1_MODE.21 | The Amplitude Stability (Drift, df < 1Hz) shall be TBD 1E-4 (rms) |
| P-EIS-RCS-RF-MAIN_RF-MERGE1_MODE.22 | The Phase Stability (Drift, df < 1Hz) shall be TBD deg (rms) |
| P-EIS-RCS-RF-MAIN_RF-MERGE1_MODE.23 | The Cavity Minimum Aperture (diameter) shall be 32.9 mm |
| P-EIS-RCS-RF-MAIN_RF-MERGE1_MODE.24 | The Maximum Beam Offset at Cavities (H) shall be TBD mm |
| P-EIS-RCS-RF-MAIN_RF-MERGE1_MODE.25 | The Maximum Beam Offset at Cavities (V) shall be TBD mm |
| P-EIS-RCS-RF-MAIN_RF-MERGE1_MODE.26 | The EM Center Alignment Tolerance in X shall be TBD mm |
| P-EIS-RCS-RF-MAIN_RF-MERGE1_MODE.27 | The EM Center Alignment Tolerance in y shall be TBD mm |
| P-EIS-RCS-RF-MAIN_RF-MERGE1_MODE.28 | The EM Center Alignment Tolerance in Z shall be TBD mm |
| P-EIS-RCS-RF-MAIN_RF-MERGE1_MODE.29 | The EM Center Alignment Tolerance Roll shall be TBD deg |
| P-EIS-RCS-RF-MAIN_RF-MERGE1_MODE.30 | The EM Center Alignment Tolerance Pitch shall be TBD deg |
| P-EIS-RCS-RF-MAIN_RF-MERGE1_MODE.31 | The EM Center Alignment Tolerance Yaw shall be TBD deg |
| P-EIS-RCS-RF-MAIN_RF-MERGE1_MODE.32 | The Beamline Space Allocation (Beamline Length) shall be TBD m |
| P-EIS-RCS-RF-MAIN_RF-MERGE1_MODE.33 | The Beamline Space Allocation (Width) shall be TBD m |
| P-EIS-RCS-RF-MAIN_RF-MERGE1_MODE.34 | The Beamline Space Allocation (Height) shall be TBD m |
| P-EIS-RCS-RF-MAIN_RF-MERGE1_MODE.35 | The Distance Beamline Center to Ceiling shall be TBD m |
| P-EIS-RCS-RF-MAIN_RF-MERGE1_MODE.36 | The Distance Beamline Center to Floor shall be TBD m |
| P-EIS-RCS-RF-MAIN_RF-MERGE1_MODE.37 | The following nominal and worst case B(t), V(t) plots shall be met TBD |
| P-EIS-RCS-RF-MAIN_RF-MERGE1_MODE.38 | The provided detailed bunch pattern shall be met TBD |
| P-EIS-RCS-RF-MAIN_RF-MERGE1_MODE.39 | The following fill sequence shall be met TBD |
| P-EIS-RCS-RF-MAIN_RF-MERGE1_MODE.40 | The following synchronization requirements shall be met TBD |
| P-EIS-RCS-RF-MAIN_RF-MERGE1_MODE.41 | The following RF gymnastics (like bunch merge, split,etc ) shall be met TBD |
| P-EIS-RCS-RF-MAIN_RF-MERGE1_MODE.42 | The following specific control requirements from beam dynamics shall be met TBD |
| P-EIS-RCS-RF-MAIN_RF-MERGE1_MODE.43 | The following tuning Range shall be met 100 KHz |
| P-EIS-RCS-RF-MAIN_RF-MERGE2_MODE.1 | The Type of system shall be NC RF |
| P-EIS-RCS-RF-MAIN_RF-MERGE2_MODE.2 | The RF Harmonic Number shall be 1896 |
| P-EIS-RCS-RF-MAIN_RF-MERGE2_MODE.3 | The RF Drive Frequency shall be 147.75 MHz |
| P-EIS-RCS-RF-MAIN_RF-MERGE2_MODE.4 | The RF Wavelength shall be 0 m |
| P-EIS-RCS-RF-MAIN_RF-MERGE2_MODE.5 | The Required Voltage per Turn shall be 0.7 MV |
| P-EIS-RCS-RF-MAIN_RF-MERGE2_MODE.6 | The Installed Voltage per Turn shall be 0.7 MV |
| P-EIS-RCS-RF-MAIN_RF-MERGE2_MODE.7 | The Fundamental Mode Damper shall not be required |
| P-EIS-RCS-RF-MAIN_RF-MERGE2_MODE.8 | The RF System Impedance Budget (Single bunch microwave instability) (L) shall be TBD |
| P-EIS-RCS-RF-MAIN_RF-MERGE2_MODE.9 | The RF System Impedance Budget (H) shall be TBD Mohm/m |
| P-EIS-RCS-RF-MAIN_RF-MERGE2_MODE.10 | The RF System Impedance Budget (V) shall be TBD Mohm/m |
| P-EIS-RCS-RF-MAIN_RF-MERGE2_MODE.11 | The Impedance budget coupled bunch instability (L) shall be 1.59MOhm (<1GHz), 1.59MOhm-GHz (>1GHz) MohmGHz |
| P-EIS-RCS-RF-MAIN_RF-MERGE2_MODE.12 | The RF System Impedance Budget (H) shall be 12 Mohm/m |
| P-EIS-RCS-RF-MAIN_RF-MERGE2_MODE.13 | The RF System Impedance Budget (V) shall be 12 Mohm/m |
| P-EIS-RCS-RF-MAIN_RF-MERGE2_MODE.14 | The RF System Same Passband Impedance Budget (L) shall be TBD Mohm |
| P-EIS-RCS-RF-MAIN_RF-MERGE2_MODE.15 | The Maximum Dipole content shall be TBD |
| P-EIS-RCS-RF-MAIN_RF-MERGE2_MODE.16 | The Maximum Quadrupole content shall be TBD |
| P-EIS-RCS-RF-MAIN_RF-MERGE2_MODE.17 | The Maximum Sextupole content shall be TBD |
| P-EIS-RCS-RF-MAIN_RF-MERGE2_MODE.18 | The Maximum Octupole content shall be TBD |
| P-EIS-RCS-RF-MAIN_RF-MERGE2_MODE.19 | The Amplitude Stability (Noise, df > 1Hz) shall be TBD 1E-4 (rms) |
| P-EIS-RCS-RF-MAIN_RF-MERGE2_MODE.20 | The Phase Stability (Noise, df > 1Hz) shall be TBD deg (rms) |
| P-EIS-RCS-RF-MAIN_RF-MERGE2_MODE.21 | The Amplitude Stability (Drift, df < 1Hz) shall be TBD 1E-4 (rms) |
| P-EIS-RCS-RF-MAIN_RF-MERGE2_MODE.22 | The Phase Stability (Drift, df < 1Hz) shall be TBD deg (rms) |
| P-EIS-RCS-RF-MAIN_RF-MERGE2_MODE.23 | The Cavity Minimum Aperture (diameter) shall be 32.9 mm |
| P-EIS-RCS-RF-MAIN_RF-MERGE2_MODE.24 | The Maximum Beam Offset at Cavities (H) shall be TBD mm |
| P-EIS-RCS-RF-MAIN_RF-MERGE2_MODE.25 | The Maximum Beam Offset at Cavities (V) shall be TBD mm |
| P-EIS-RCS-RF-MAIN_RF-MERGE2_MODE.26 | The EM Center Alignment Tolerance in X shall be TBD mm |
| P-EIS-RCS-RF-MAIN_RF-MERGE2_MODE.27 | The EM Center Alignment Tolerance in y shall be TBD mm |
| P-EIS-RCS-RF-MAIN_RF-MERGE2_MODE.28 | The EM Center Alignment Tolerance in Z shall be TBD mm |
| P-EIS-RCS-RF-MAIN_RF-MERGE2_MODE.29 | The EM Center Alignment Tolerance Roll shall be TBD deg |
| P-EIS-RCS-RF-MAIN_RF-MERGE2_MODE.30 | The EM Center Alignment Tolerance Pitch shall be TBD deg |
| P-EIS-RCS-RF-MAIN_RF-MERGE2_MODE.31 | The EM Center Alignment Tolerance Yaw shall be TBD deg |
| P-EIS-RCS-RF-MAIN_RF-MERGE2_MODE.32 | The Beamline Space Allocation (Beamline Length) shall be TBD m |
| P-EIS-RCS-RF-MAIN_RF-MERGE2_MODE.33 | The Beamline Space Allocation (Width) shall be TBD m |
| P-EIS-RCS-RF-MAIN_RF-MERGE2_MODE.34 | The Beamline Space Allocation (Height) shall be TBD m |
| P-EIS-RCS-RF-MAIN_RF-MERGE2_MODE.35 | The Distance Beamline Center to Ceiling shall be TBD m |
| P-EIS-RCS-RF-MAIN_RF-MERGE2_MODE.36 | The Distance Beamline Center to Floor shall be TBD m |
| P-EIS-RCS-RF-MAIN_RF-MERGE2_MODE.37 | The following nominal and worst case B(t), V(t) plots shall be met TBD |
| P-EIS-RCS-RF-MAIN_RF-MERGE2_MODE.38 | The provided detailed bunch pattern shall be met TBD |
| P-EIS-RCS-RF-MAIN_RF-MERGE2_MODE.39 | The following fill sequence shall be met TBD |
| P-EIS-RCS-RF-MAIN_RF-MERGE2_MODE.40 | The following synchronization requirements shall be met TBD |
| P-EIS-RCS-RF-MAIN_RF-MERGE2_MODE.41 | The following RF gymnastics (like bunch merge, split,etc ) shall be met TBD |
| P-EIS-RCS-RF-MAIN_RF-MERGE2_MODE.42 | The following specific control requirements from beam dynamics shall be met TBD |
| P-EIS-RCS-RF-MAIN_RF-MERGE2_MODE.43 | The following tuning Range shall be met 100 KHz |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.1 | The Slow Tuner Range (frequency) shall be TBD KHz |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.2 | The Slow Tuner Backlash shall be TBD Hz |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.3 | The Slow Tuning Rate shall be TBD Hz/s |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.4 | The Fast Tuner Range (frequency) shall be TBD Khz |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.5 | The Fast Tuner Backlash shall be TBD Hz |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.6 | The Fast Tuning Rate shall be TBD Hz/s |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.7 | The Operation.a.l Cavity Gradient shall be TBD MV/m |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.8 | The Operation.a.l Cavity Qo shall be TBD Unit |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.9 | The Operation.a.l Field emission onset shall be TBD MV/m |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.10 | The Operation.a.l FPC Qext. shall be TBD Unit |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.11 | The Operation.a.l Field Probe Qext. shall be TBD Unit |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.12 | The Cavity Frequency (Reson.a.nt Operation.a.l) shall be TBD MHz |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.13 | The Cavity Frequency (Drive Operation.a.l) shall be TBD MHz |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.14 | The Microphonics (cold) shall be TBD Hz |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.15 | The Radius (from beam center)(<6 in) shall be TBD RADS |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.16 | The Radius (from beam center)(<12 in) shall be TBD RADS |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.17 | The Radius (from beam center)(< 18 in) shall be TBD RADS |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.18 | The Radius (from beam center)(< 21 in) shall be TBD RADS |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.19 | The Radius (from beam center)(< 50 in) shall be TBD RADS |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.20 | The Beamline Components (Outside VV) shall be TBD PSID |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.21 | The Beamline Components (Inside VV/Outside HV) shall be TBD PSID |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.22 | The Beamline Components (Inside VV/Inside HV) shall be TBD PSID |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.23 | The Beamline Components (Inside VV/Tracecooled) shall be TBD PSID |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.24 | The Inner Coupler (Inside VV) shall be TBD PSID |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.25 | The Inner Coupler (Outside VV) shall be TBD PSID |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.26 | The Supply Circuit shall be TBD PSID |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.27 | The Primary Return Circuit shall be TBD PSID |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.28 | The Trace Cooling shall be TBD PSID |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.29 | The Trace Cooling (around beamline) shall be TBD PSID |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.30 | The Coupler Trace Cooling shall be TBD PSID |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.31 | The Coupler Trace Cooling (Around Coupler) shall be TBD PSID |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.32 | The Shield Circuit shall be TBD PSID |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.33 | The Vacuum Vessel shall be TBD PSID |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.34 | The Cooling Water Operating Temperature shall be TBD K |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.35 | The Primary Supply Piping Operating Temperature shall be TBD K |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.36 | The Cavity Trace Cooling Operating Temperature shall be TBD K |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.37 | The Shield Circuit Operating Temperature shall be TBD K |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.38 | The Coupler Trace Cooling Operating Temperature shall be TBD K |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.39 | The Primary Return Circuit Operating Temperature shall be TBD K |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.40 | The Cooling Water Operating Pressure shall be TBD ATM |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.41 | The Primary Supply Piping Operating Pressure shall be TBD ATM |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.42 | The Cavity Trace Cooling Operating Pressure shall be TBD ATM |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.43 | The Shield Circuit Operating Pressure shall be TBD ATM |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.44 | The Coupler Trace Cooling Operating Pressure shall be TBD ATM |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.45 | The Primary Return Circuit Temperature shall be TBD ATM |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.46 | The Beamline Vacuum (Warm) shall be TBD Torr |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.47 | The Insulating Vacuum (Warm) shall be TBD Torr |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.48 | The Beamline Vacuum (Cold) shall be TBD Torr |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.49 | The Insulating Vacuum (Cold) shall be TBD Torr |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.50 | The Maximum Leak Rate shall be TBD torr L/s |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.51 | The Efficiency shall be TBD Value |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.52 | The Inlet Temperature (High Pressure) shall be TBD K |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.53 | The Outlet Temperature (High Pressure) shall be TBD K |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.54 | The Pressure Drop (High Pressure) shall be TBD ATM |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.55 | The Inlet Temperature (Low Pressure) shall be TBD K |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.56 | The Outlet Temperature (Low Pressure) shall be TBD K |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.57 | The Pressure Drop (Low Pressure) shall be TBD ATM |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.58 | The Shield Circuit Heat Load (Static) shall be TBD W |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.59 | The Coupler Circuit Heat Load (Static) shall be TBD W |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.60 | The Primary Circuit Heat Load (Static) shall be TBD W |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.61 | The Shield Circuit Heat Load (Dyn.a.mic) shall be TBD W |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.62 | The Coupler Circuit Heat Load (Dyn.a.mic) shall be TBD W |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.63 | The Primary Circuit Heat Load (Dyn.a.mic) shall be TBD W |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.64 | The Cooling Water Flow (Large BLA) shall be TBD gpm |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.65 | The Cooling Water Flow (Small BLA) shall be TBD gpm |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.66 | The Cooling Water Flow (FPC Window Outer Diameter) shall be TBD gpm |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.67 | The Cooling Water Flow (FPC Window Antenn.a.) shall be TBD gpm |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.68 | The Beamline Space Allocation (Beamline Length gate valve to gate valve per cavity pair) shall be TBD m |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.69 | The Beamline Space Allocation (Width) shall be TBD m |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.70 | The Beamline Space Allocation (Height) shall be TBD m |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.71 | The Distance Beamline Center to Floor shall be TBD m |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.72 | The X-axis CM alignment tolerance shall be TBD mm |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.73 | The Y-axis CM alignment tolerance shall be TBD mm |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.74 | The Z-axis CM alignment tolerance shall be TBD mm |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.75 | The Roll CM alignment tolerance shall be TBD deg |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.76 | The Pitch CM alignment tolerance shall be TBD deg |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.77 | The Yaw CM alignment tolerance shall be TBD deg |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.78 | The Maximum Vertical Shock Acceleration shall be TBD g |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.79 | The Maximum Lateral Shock Acceleration shall be TBD g |
| P-EIS-RCS-RF-MAIN_RF_SRFCM-CAPTURE&ACCEL_MODE.80 | The Maximum Shock Acceleration along Beamline shall be TBD g |
This function not yet implemented.