Requirement Details
Electron Ion Collider
F-EIS-RCS-MAG.3
Requirement details, history, relationships and interfaces associated with requirement F-EIS-RCS-MAG.3
- CURRENT RECORD
- ARCHIVE RECORDS
- RELATIONSHIPS
Record Date: 12/06/2024 11:10 | |||
Identifier: | F-EIS-RCS-MAG.3 | WBS: | 6.03 |
Date Modified: | TBD: | FALSE | |
Status Date: | Status: | In Process | |
Description: | The aperture of all magnets shall be large enough to accommodate the beamline vacuum chamber. | ||
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.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. |
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.14 | The EIS shall be designed to meet all its requirements whilst fitting into the existing RHIS complex and accommodate all other required EIC systems along with their installation and maintenance needs. |
Children | |
P-EIS-HETL-MAG-D1.1 | The number of magnet functions shall be 1 |
P-EIS-HETL-MAG-D1.2 | The field type shall be Di (Di,Qu,Sx,Oc,De,Do,Sol,Ki,Hk,Vk,Se) |
P-EIS-HETL-MAG-D1.3 | The field direction shall be V (V=vertical,H=horizontal,Z=beam direction ) |
P-EIS-HETL-MAG-D1.4 | < blank > |
P-EIS-HETL-MAG-D1.5 | < blank > |
P-EIS-HETL-MAG-D1.6 | The min gap shall be 32 m |
P-EIS-HETL-MAG-D1.7 | The good field aperture drx required shall be TBD m |
P-EIS-HETL-MAG-D1.8 | The good field aperture dry required shall be TBD m |
P-EIS-HETL-MAG-D1.9 | The mag length shall be <1 m |
P-EIS-HETL-MAG-D1.10 | The eff Length shall be 1 m |
P-EIS-HETL-MAG-D1.11 | The dipole field B shall be 1.512 T |
P-EIS-HETL-MAG-D1.12 | < blank > |
P-EIS-HETL-MAG-D1.13 | < blank > |
P-EIS-HETL-MAG-D1.14 | The field stability shall be TBD T/s |
P-EIS-HETL-MAG-D1.15 | The harmonic reference Radius and current shall be Ir=TBD[A]\Rr=16[mm] (mm,A) |
P-EIS-HETL-MAG-D1.16 | The Field at the reference radius and current shall be Bref=TBD (T) |
P-EIS-HETL-MAG-D1.17 | |
P-EIS-HETL-MAG-D1.18 | The Bore multipole content shall have a 1st order of TBD (10^-4) |
P-EIS-HETL-MAG-D1.19 | The Bore multipole content shall have a 2nd order of TBD (10^-4) |
P-EIS-HETL-MAG-D1.20 | The Bore multipole content shall have a 3rd order of TBD (10^-4) |
P-EIS-HETL-MAG-D1.21 | The Bore multipole content shall have a 4th order of TBD (10^-4) |
P-EIS-HETL-MAG-D1.22 | The Bore multipole content shall have a 5th order of TBD (10^-4) |
P-EIS-HETL-MAG-D1.23 | The Bore multipole content shall have a 6th order of TBD (10^-4) |
P-EIS-HETL-MAG-D1.24 | The Bore multipole content shall have a 7th order of TBD (10^-4) |
P-EIS-HETL-MAG-D1.25 | The Bore multipole content shall have a 8th order of TBD (10^-4) |
P-EIS-HETL-MAG-D1.26 | The Bore multipole content shall have a 9th order of TBD (10^-4) |
P-EIS-HETL-MAG-D1.27 | The Bore multipole content shall have a 10th order of TBD (10^-4) |
P-EIS-HETL-MAG-D1.28 | The Bore multipole content shall have a 11th order of TBD (10^-4) |
P-EIS-HETL-MAG-D1.29 | The Bore multipole content shall have a 12th order of TBD (10^-4) |
P-EIS-HETL-MAG-D1.30 | The Bore multipole content shall have a 13th order of TBD (10^-4) |
P-EIS-HETL-MAG-D1.31 | The Bore multipole content shall have a 14th order of TBD (10^-4) |
P-EIS-HETL-MAG-D1.32 | The Bore multipole content shall have a 15th order of TBD (10^-4) |
P-EIS-HETL-MAG-D1.33 | The Bore multipole content shall have a 16th order of TBD (10^-4) |
P-EIS-HETL-MAG-D1.34 | The magnet shall not be designed to limit Xtalk Requirements |
P-EIS-HETL-MAG-D1.35 | < blank > |
P-EIS-HETL-MAG-D1.36 | < blank > |
P-EIS-HETL-MAG-D1.37 | < blank > |
P-EIS-HETL-MAG-D1.38 | < blank > |
P-EIS-HETL-MAG-D1.39 | < blank > |
P-EIS-HETL-MAG-D1.40 | < blank > |
P-EIS-HETL-MAG-D1.41 | < blank > |
P-EIS-HETL-MAG-D1.42 | < blank > |
P-EIS-HETL-MAG-D1.43 | < blank > |
P-EIS-HETL-MAG-D1.44 | < blank > |
P-EIS-HETL-MAG-D1.45 | < blank > |
P-EIS-HETL-MAG-D1.46 | < blank > |
P-EIS-HETL-MAG-D1.47 | < blank > |
P-EIS-HETL-MAG-D1.48 | < blank > |
P-EIS-HETL-MAG-D1.49 | < blank > |
P-EIS-HETL-MAG-D1.50 | < blank > |
P-EIS-HETL-MAG-D1.51 | < blank > |
P-EIS-HETL-MAG-D1.52 | < blank > |
P-EIS-HETL-MAG-D1.53 | < blank > |
P-EIS-HETL-MAG-D1.54 | < blank > |
P-EIS-HETL-MAG-D1.55 | The magnet design shall not be constrain the ext. fringe field |
P-EIS-HETL-MAG-D1.56 | < blank > |
P-EIS-HETL-MAG-D2.1 | The number of magnet functions shall be 1 |
P-EIS-HETL-MAG-D2.2 | The field type shall be Di (Di,Qu,Sx,Oc,De,Do,Sol,Ki,Hk,Vk,Se) |
P-EIS-HETL-MAG-D2.3 | The field direction shall be V (V=vertical,H=horizontal,Z=beam direction ) |
P-EIS-HETL-MAG-D2.4 | < blank > |
P-EIS-HETL-MAG-D2.5 | < blank > |
P-EIS-HETL-MAG-D2.6 | The min gap shall be 32 m |
P-EIS-HETL-MAG-D2.7 | The good field aperture drx required shall be TBD m |
P-EIS-HETL-MAG-D2.8 | The good field aperture dry required shall be TBD m |
P-EIS-HETL-MAG-D2.9 | The mag length shall be <2.99 m |
P-EIS-HETL-MAG-D2.10 | The eff Length shall be 2.99 m |
P-EIS-HETL-MAG-D2.11 | The dipole field B shall be 0.193 T |
P-EIS-HETL-MAG-D2.12 | < blank > |
P-EIS-HETL-MAG-D2.13 | < blank > |
P-EIS-HETL-MAG-D2.14 | The field stability shall be TBD T/s |
P-EIS-HETL-MAG-D2.15 | The harmonic reference Radius and current shall be Ir=TBD[A]\Rr=16[mm] (mm,A) |
P-EIS-HETL-MAG-D2.16 | The Field at the reference radius and current shall be Bref=TBD (T) |
P-EIS-HETL-MAG-D2.17 | |
P-EIS-HETL-MAG-D2.18 | The Bore multipole content shall have a 1st order of TBD (10^-4) |
P-EIS-HETL-MAG-D2.19 | The Bore multipole content shall have a 2nd order of TBD (10^-4) |
P-EIS-HETL-MAG-D2.20 | The Bore multipole content shall have a 3rd order of TBD (10^-4) |
P-EIS-HETL-MAG-D2.21 | The Bore multipole content shall have a 4th order of TBD (10^-4) |
P-EIS-HETL-MAG-D2.22 | The Bore multipole content shall have a 5th order of TBD (10^-4) |
P-EIS-HETL-MAG-D2.23 | The Bore multipole content shall have a 6th order of TBD (10^-4) |
P-EIS-HETL-MAG-D2.24 | The Bore multipole content shall have a 7th order of TBD (10^-4) |
P-EIS-HETL-MAG-D2.25 | The Bore multipole content shall have a 8th order of TBD (10^-4) |
P-EIS-HETL-MAG-D2.26 | The Bore multipole content shall have a 9th order of TBD (10^-4) |
P-EIS-HETL-MAG-D2.27 | The Bore multipole content shall have a 10th order of TBD (10^-4) |
P-EIS-HETL-MAG-D2.28 | The Bore multipole content shall have a 11th order of TBD (10^-4) |
P-EIS-HETL-MAG-D2.29 | The Bore multipole content shall have a 12th order of TBD (10^-4) |
P-EIS-HETL-MAG-D2.30 | The Bore multipole content shall have a 13th order of TBD (10^-4) |
P-EIS-HETL-MAG-D2.31 | The Bore multipole content shall have a 14th order of TBD (10^-4) |
P-EIS-HETL-MAG-D2.32 | The Bore multipole content shall have a 15th order of TBD (10^-4) |
P-EIS-HETL-MAG-D2.33 | The Bore multipole content shall have a 16th order of TBD (10^-4) |
P-EIS-HETL-MAG-D2.34 | The magnet shall not be designed to limit Xtalk Requirements |
P-EIS-HETL-MAG-D2.35 | < blank > |
P-EIS-HETL-MAG-D2.36 | < blank > |
P-EIS-HETL-MAG-D2.37 | < blank > |
P-EIS-HETL-MAG-D2.38 | < blank > |
P-EIS-HETL-MAG-D2.39 | < blank > |
P-EIS-HETL-MAG-D2.40 | < blank > |
P-EIS-HETL-MAG-D2.41 | < blank > |
P-EIS-HETL-MAG-D2.42 | < blank > |
P-EIS-HETL-MAG-D2.43 | < blank > |
P-EIS-HETL-MAG-D2.44 | < blank > |
P-EIS-HETL-MAG-D2.45 | < blank > |
P-EIS-HETL-MAG-D2.46 | < blank > |
P-EIS-HETL-MAG-D2.47 | < blank > |
P-EIS-HETL-MAG-D2.48 | < blank > |
P-EIS-HETL-MAG-D2.49 | < blank > |
P-EIS-HETL-MAG-D2.50 | < blank > |
P-EIS-HETL-MAG-D2.51 | < blank > |
P-EIS-HETL-MAG-D2.52 | < blank > |
P-EIS-HETL-MAG-D2.53 | < blank > |
P-EIS-HETL-MAG-D2.54 | < blank > |
P-EIS-HETL-MAG-D2.55 | The magnet design shall not be constrain the ext. fringe field |
P-EIS-HETL-MAG-D2.56 | < blank > |
P-EIS-HETL-MAG-D3.1 | The number of magnet functions shall be 1 |
P-EIS-HETL-MAG-D3.2 | The field type shall be Di (Di,Qu,Sx,Oc,De,Do,Sol,Ki,Hk,Vk,Se) |
P-EIS-HETL-MAG-D3.3 | The field direction shall be V (V=vertical,H=horizontal,Z=beam direction ) |
P-EIS-HETL-MAG-D3.4 | < blank > |
P-EIS-HETL-MAG-D3.5 | < blank > |
P-EIS-HETL-MAG-D3.6 | The min gap shall be 32 m |
P-EIS-HETL-MAG-D3.7 | The good field aperture drx required shall be TBD m |
P-EIS-HETL-MAG-D3.8 | The good field aperture dry required shall be TBD m |
P-EIS-HETL-MAG-D3.9 | The mag length shall be <2 m |
P-EIS-HETL-MAG-D3.10 | The eff Length shall be 2 m |
P-EIS-HETL-MAG-D3.11 | The dipole field B shall be 0.525 T |
P-EIS-HETL-MAG-D3.12 | < blank > |
P-EIS-HETL-MAG-D3.13 | < blank > |
P-EIS-HETL-MAG-D3.14 | The field stability shall be TBD T/s |
P-EIS-HETL-MAG-D3.15 | The harmonic reference Radius and current shall be Ir=TBD[A]\Rr=16[mm] (mm,A) |
P-EIS-HETL-MAG-D3.16 | The Field at the reference radius and current shall be Bref=TBD (T) |
P-EIS-HETL-MAG-D3.17 | |
P-EIS-HETL-MAG-D3.18 | The Bore multipole content shall have a 1st order of TBD (10^-4) |
P-EIS-HETL-MAG-D3.19 | The Bore multipole content shall have a 2nd order of TBD (10^-4) |
P-EIS-HETL-MAG-D3.20 | The Bore multipole content shall have a 3rd order of TBD (10^-4) |
P-EIS-HETL-MAG-D3.21 | The Bore multipole content shall have a 4th order of TBD (10^-4) |
P-EIS-HETL-MAG-D3.22 | The Bore multipole content shall have a 5th order of TBD (10^-4) |
P-EIS-HETL-MAG-D3.23 | The Bore multipole content shall have a 6th order of TBD (10^-4) |
P-EIS-HETL-MAG-D3.24 | The Bore multipole content shall have a 7th order of TBD (10^-4) |
P-EIS-HETL-MAG-D3.25 | The Bore multipole content shall have a 8th order of TBD (10^-4) |
P-EIS-HETL-MAG-D3.26 | The Bore multipole content shall have a 9th order of TBD (10^-4) |
P-EIS-HETL-MAG-D3.27 | The Bore multipole content shall have a 10th order of TBD (10^-4) |
P-EIS-HETL-MAG-D3.28 | The Bore multipole content shall have a 11th order of TBD (10^-4) |
P-EIS-HETL-MAG-D3.29 | The Bore multipole content shall have a 12th order of TBD (10^-4) |
P-EIS-HETL-MAG-D3.30 | The Bore multipole content shall have a 13th order of TBD (10^-4) |
P-EIS-HETL-MAG-D3.31 | The Bore multipole content shall have a 14th order of TBD (10^-4) |
P-EIS-HETL-MAG-D3.32 | The Bore multipole content shall have a 15th order of TBD (10^-4) |
P-EIS-HETL-MAG-D3.33 | The Bore multipole content shall have a 16th order of TBD (10^-4) |
P-EIS-HETL-MAG-D3.34 | The magnet shall not be designed to limit Xtalk Requirements |
P-EIS-HETL-MAG-D3.35 | < blank > |
P-EIS-HETL-MAG-D3.36 | < blank > |
P-EIS-HETL-MAG-D3.37 | < blank > |
P-EIS-HETL-MAG-D3.38 | < blank > |
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P-EIS-HETL-MAG-D3.44 | < blank > |
P-EIS-HETL-MAG-D3.45 | < blank > |
P-EIS-HETL-MAG-D3.46 | < blank > |
P-EIS-HETL-MAG-D3.47 | < blank > |
P-EIS-HETL-MAG-D3.48 | < blank > |
P-EIS-HETL-MAG-D3.49 | < blank > |
P-EIS-HETL-MAG-D3.50 | < blank > |
P-EIS-HETL-MAG-D3.51 | < blank > |
P-EIS-HETL-MAG-D3.52 | < blank > |
P-EIS-HETL-MAG-D3.53 | < blank > |
P-EIS-HETL-MAG-D3.54 | < blank > |
P-EIS-HETL-MAG-D3.55 | The magnet design shall not be constrain the ext. fringe field |
P-EIS-HETL-MAG-D3.56 | < blank > |
P-EIS-HETL-MAG-ESR_INJ_BMP.1 | The number of magnet functions shall be 1 |
P-EIS-HETL-MAG-ESR_INJ_BMP.2 | The magnet field type shall be Di (Di,Qu,Sx,Oc,De,Do,Sol,Ki,Hk,Vk,Se) |
P-EIS-HETL-MAG-ESR_INJ_BMP.3 | The field direction shall be V (V=vertical,H=horizontal,Z=beam direction ) |
P-EIS-HETL-MAG-ESR_INJ_BMP.4 | < blank > |
P-EIS-HETL-MAG-ESR_INJ_BMP.5 | < blank > |
P-EIS-HETL-MAG-ESR_INJ_BMP.6 | The magnet minimal gap shall be 32 m |
P-EIS-HETL-MAG-ESR_INJ_BMP.7 | The magnet good field aperture drx shall be TBD m |
P-EIS-HETL-MAG-ESR_INJ_BMP.8 | The magnet good field aperture dry shall be TBD m |
P-EIS-HETL-MAG-ESR_INJ_BMP.9 | The magnet length shall be <0.1 m |
P-EIS-HETL-MAG-ESR_INJ_BMP.10 | The magnet slot length shall be 0.1 m |
P-EIS-HETL-MAG-ESR_INJ_BMP.11 | The magnets dipole field B shall be 0.06 T |
P-EIS-HETL-MAG-ESR_INJ_BMP.12 | < blank > |
P-EIS-HETL-MAG-ESR_INJ_BMP.13 | < blank > |
P-EIS-HETL-MAG-ESR_INJ_BMP.14 | The magnets field stability shall be TBD T/s |
P-EIS-HETL-MAG-ESR_INJ_BMP.15 | The magnet harmonic reference Radius and current shall be Ir=TBD[A]\Rr=16[mm] (mm,A) |
P-EIS-HETL-MAG-ESR_INJ_BMP.16 | The magnet Field at the reference radius and current shall be Bref=TBD (T) |
P-EIS-HETL-MAG-ESR_INJ_BMP.17 | < blank > |
P-EIS-HETL-MAG-ESR_INJ_BMP.18 | The Bore multipole content shall have a 1st order of TBD (10^-4) |
P-EIS-HETL-MAG-ESR_INJ_BMP.19 | The Bore multipole content shall have a 2nd order of TBD (10^-4) |
P-EIS-HETL-MAG-ESR_INJ_BMP.20 | The Bore multipole content shall have a 3rd order of TBD (10^-4) |
P-EIS-HETL-MAG-ESR_INJ_BMP.21 | The Bore multipole content shall have a 4th order of TBD (10^-4) |
P-EIS-HETL-MAG-ESR_INJ_BMP.22 | The Bore multipole content shall have a 5th order of TBD (10^-4) |
P-EIS-HETL-MAG-ESR_INJ_BMP.23 | The Bore multipole content shall have a 6th order of TBD (10^-4) |
P-EIS-HETL-MAG-ESR_INJ_BMP.24 | The Bore multipole content shall have a 7th order of TBD (10^-4) |
P-EIS-HETL-MAG-ESR_INJ_BMP.25 | The Bore multipole content shall have a 8th order of TBD (10^-4) |
P-EIS-HETL-MAG-ESR_INJ_BMP.26 | The Bore multipole content shall have a 9th order of TBD (10^-4) |
P-EIS-HETL-MAG-ESR_INJ_BMP.27 | The Bore multipole content shall have a 10th order of TBD (10^-4) |
P-EIS-HETL-MAG-ESR_INJ_BMP.28 | The Bore multipole content shall have a 11th order of TBD (10^-4) |
P-EIS-HETL-MAG-ESR_INJ_BMP.29 | The Bore multipole content shall have a 12th order of TBD (10^-4) |
P-EIS-HETL-MAG-ESR_INJ_BMP.30 | The Bore multipole content shall have a 13th order of TBD (10^-4) |
P-EIS-HETL-MAG-ESR_INJ_BMP.31 | The Bore multipole content shall have a 14th order of TBD (10^-4) |
P-EIS-HETL-MAG-ESR_INJ_BMP.32 | The Bore multipole content shall have a 15th order of TBD (10^-4) |
P-EIS-HETL-MAG-ESR_INJ_BMP.33 | The Bore multipole content shall have a 16th order of TBD (10^-4) |
P-EIS-HETL-MAG-ESR_INJ_BMP.34 | The magnet shall be designed to limit Xtalk Requirements N (Yes or No) |
P-EIS-HETL-MAG-ESR_INJ_BMP.35 | < blank > |
P-EIS-HETL-MAG-ESR_INJ_BMP.36 | < blank > |
P-EIS-HETL-MAG-ESR_INJ_BMP.37 | < blank > |
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P-EIS-HETL-MAG-ESR_INJ_BMP.42 | < blank > |
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P-EIS-HETL-MAG-ESR_INJ_BMP.50 | < blank > |
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P-EIS-HETL-MAG-ESR_INJ_BMP.52 | < blank > |
P-EIS-HETL-MAG-ESR_INJ_BMP.53 | < blank > |
P-EIS-HETL-MAG-ESR_INJ_BMP.54 | < blank > |
P-EIS-HETL-MAG-ESR_INJ_BMP.55 | The magnet design shall constrain the ext. fringe field N (Yes or No) |
P-EIS-HETL-MAG-ESR_INJ_BMP.56 | < blank > |
P-EIS-HETL-MAG-INDSEPT1.1 | The number of magnet functions shall be 1 |
P-EIS-HETL-MAG-INDSEPT1.2 | The field type shall be Di (Di,Qu,Sx,Oc,De,Do,Sol,Ki,Hk,Vk,Se) |
P-EIS-HETL-MAG-INDSEPT1.3 | The field direction shall be V (V=vertical,H=horizontal,Z=beam direction ) |
P-EIS-HETL-MAG-INDSEPT1.4 | < blank > |
P-EIS-HETL-MAG-INDSEPT1.5 | < blank > |
P-EIS-HETL-MAG-INDSEPT1.6 | The min gap shall be 32 m |
P-EIS-HETL-MAG-INDSEPT1.7 | The good field aperture drx required shall be TBD m |
P-EIS-HETL-MAG-INDSEPT1.8 | The good field aperture dry required shall be TBD m |
P-EIS-HETL-MAG-INDSEPT1.9 | The mag length shall be <1 m |
P-EIS-HETL-MAG-INDSEPT1.10 | The eff Length shall be 1 m |
P-EIS-HETL-MAG-INDSEPT1.11 | The dipole field B shall be 1.051 T |
P-EIS-HETL-MAG-INDSEPT1.12 | < blank > |
P-EIS-HETL-MAG-INDSEPT1.13 | < blank > |
P-EIS-HETL-MAG-INDSEPT1.14 | The field stability shall be TBD T/s |
P-EIS-HETL-MAG-INDSEPT1.15 | The harmonic reference Radius and current shall be Ir=TBD[A]\Rr=16[mm] (mm,A) |
P-EIS-HETL-MAG-INDSEPT1.16 | The Field at the reference radius and current shall be Bref=TBD (T) |
P-EIS-HETL-MAG-INDSEPT1.17 | |
P-EIS-HETL-MAG-INDSEPT1.18 | The Bore multipole content shall have a 1st order of TBD (10^-4) |
P-EIS-HETL-MAG-INDSEPT1.19 | The Bore multipole content shall have a 2nd order of TBD (10^-4) |
P-EIS-HETL-MAG-INDSEPT1.20 | The Bore multipole content shall have a 3rd order of TBD (10^-4) |
P-EIS-HETL-MAG-INDSEPT1.21 | The Bore multipole content shall have a 4th order of TBD (10^-4) |
P-EIS-HETL-MAG-INDSEPT1.22 | The Bore multipole content shall have a 5th order of TBD (10^-4) |
P-EIS-HETL-MAG-INDSEPT1.23 | The Bore multipole content shall have a 6th order of TBD (10^-4) |
P-EIS-HETL-MAG-INDSEPT1.24 | The Bore multipole content shall have a 7th order of TBD (10^-4) |
P-EIS-HETL-MAG-INDSEPT1.25 | The Bore multipole content shall have a 8th order of TBD (10^-4) |
P-EIS-HETL-MAG-INDSEPT1.26 | The Bore multipole content shall have a 9th order of TBD (10^-4) |
P-EIS-HETL-MAG-INDSEPT1.27 | The Bore multipole content shall have a 10th order of TBD (10^-4) |
P-EIS-HETL-MAG-INDSEPT1.28 | The Bore multipole content shall have a 11th order of TBD (10^-4) |
P-EIS-HETL-MAG-INDSEPT1.29 | The Bore multipole content shall have a 12th order of TBD (10^-4) |
P-EIS-HETL-MAG-INDSEPT1.30 | The Bore multipole content shall have a 13th order of TBD (10^-4) |
P-EIS-HETL-MAG-INDSEPT1.31 | The Bore multipole content shall have a 14th order of TBD (10^-4) |
P-EIS-HETL-MAG-INDSEPT1.32 | The Bore multipole content shall have a 15th order of TBD (10^-4) |
P-EIS-HETL-MAG-INDSEPT1.33 | The Bore multipole content shall have a 16th order of TBD (10^-4) |
P-EIS-HETL-MAG-INDSEPT1.34 | The magnet shall not be designed to limit Xtalk Requirements |
P-EIS-HETL-MAG-INDSEPT1.35 | < blank > |
P-EIS-HETL-MAG-INDSEPT1.36 | < blank > |
P-EIS-HETL-MAG-INDSEPT1.37 | < blank > |
P-EIS-HETL-MAG-INDSEPT1.38 | < blank > |
P-EIS-HETL-MAG-INDSEPT1.39 | < blank > |
P-EIS-HETL-MAG-INDSEPT1.40 | < blank > |
P-EIS-HETL-MAG-INDSEPT1.41 | < blank > |
P-EIS-HETL-MAG-INDSEPT1.42 | < blank > |
P-EIS-HETL-MAG-INDSEPT1.43 | < blank > |
P-EIS-HETL-MAG-INDSEPT1.44 | < blank > |
P-EIS-HETL-MAG-INDSEPT1.45 | < blank > |
P-EIS-HETL-MAG-INDSEPT1.46 | < blank > |
P-EIS-HETL-MAG-INDSEPT1.47 | < blank > |
P-EIS-HETL-MAG-INDSEPT1.48 | < blank > |
P-EIS-HETL-MAG-INDSEPT1.49 | < blank > |
P-EIS-HETL-MAG-INDSEPT1.50 | < blank > |
P-EIS-HETL-MAG-INDSEPT1.51 | < blank > |
P-EIS-HETL-MAG-INDSEPT1.52 | < blank > |
P-EIS-HETL-MAG-INDSEPT1.53 | < blank > |
P-EIS-HETL-MAG-INDSEPT1.54 | < blank > |
P-EIS-HETL-MAG-INDSEPT1.55 | The magnet design shall not be constrain the ext. fringe field |
P-EIS-HETL-MAG-INDSEPT1.56 | < blank > |
P-EIS-HETL-MAG-KH1.1 | The number of magnet functions shall be 1 |
P-EIS-HETL-MAG-KH1.2 | The field type shall be Di (Di,Qu,Sx,Oc,De,Do,Sol,Ki,Hk,Vk,Se) |
P-EIS-HETL-MAG-KH1.3 | The field direction shall be V (V=vertical,H=horizontal,Z=beam direction ) |
P-EIS-HETL-MAG-KH1.4 | < blank > |
P-EIS-HETL-MAG-KH1.5 | < blank > |
P-EIS-HETL-MAG-KH1.6 | The min gap shall be 32 m |
P-EIS-HETL-MAG-KH1.7 | The good field aperture drx required shall be TBD m |
P-EIS-HETL-MAG-KH1.8 | The good field aperture dry required shall be TBD m |
P-EIS-HETL-MAG-KH1.9 | The mag length shall be <0.1 m |
P-EIS-HETL-MAG-KH1.10 | The eff Length shall be 0.1 m |
P-EIS-HETL-MAG-KH1.11 | The dipole field B shall be 0.076 T |
P-EIS-HETL-MAG-KH1.12 | < blank > |
P-EIS-HETL-MAG-KH1.13 | < blank > |
P-EIS-HETL-MAG-KH1.14 | The field stability shall be TBD T/s |
P-EIS-HETL-MAG-KH1.15 | The harmonic reference Radius and current shall be Ir=TBD[A]\Rr=16[mm] (mm,A) |
P-EIS-HETL-MAG-KH1.16 | The Field at the reference radius and current shall be Bref=TBD (T) |
P-EIS-HETL-MAG-KH1.17 | |
P-EIS-HETL-MAG-KH1.18 | The Bore multipole content shall have a 1st order of TBD (10^-4) |
P-EIS-HETL-MAG-KH1.19 | The Bore multipole content shall have a 2nd order of TBD (10^-4) |
P-EIS-HETL-MAG-KH1.20 | The Bore multipole content shall have a 3rd order of TBD (10^-4) |
P-EIS-HETL-MAG-KH1.21 | The Bore multipole content shall have a 4th order of TBD (10^-4) |
P-EIS-HETL-MAG-KH1.22 | The Bore multipole content shall have a 5th order of TBD (10^-4) |
P-EIS-HETL-MAG-KH1.23 | The Bore multipole content shall have a 6th order of TBD (10^-4) |
P-EIS-HETL-MAG-KH1.24 | The Bore multipole content shall have a 7th order of TBD (10^-4) |
P-EIS-HETL-MAG-KH1.25 | The Bore multipole content shall have a 8th order of TBD (10^-4) |
P-EIS-HETL-MAG-KH1.26 | The Bore multipole content shall have a 9th order of TBD (10^-4) |
P-EIS-HETL-MAG-KH1.27 | The Bore multipole content shall have a 10th order of TBD (10^-4) |
P-EIS-HETL-MAG-KH1.28 | The Bore multipole content shall have a 11th order of TBD (10^-4) |
P-EIS-HETL-MAG-KH1.29 | The Bore multipole content shall have a 12th order of TBD (10^-4) |
P-EIS-HETL-MAG-KH1.30 | The Bore multipole content shall have a 13th order of TBD (10^-4) |
P-EIS-HETL-MAG-KH1.31 | The Bore multipole content shall have a 14th order of TBD (10^-4) |
P-EIS-HETL-MAG-KH1.32 | The Bore multipole content shall have a 15th order of TBD (10^-4) |
P-EIS-HETL-MAG-KH1.33 | The Bore multipole content shall have a 16th order of TBD (10^-4) |
P-EIS-HETL-MAG-KH1.34 | The magnet shall not be designed to limit Xtalk Requirements |
P-EIS-HETL-MAG-KH1.35 | < blank > |
P-EIS-HETL-MAG-KH1.36 | < blank > |
P-EIS-HETL-MAG-KH1.37 | < blank > |
P-EIS-HETL-MAG-KH1.38 | < blank > |
P-EIS-HETL-MAG-KH1.39 | < blank > |
P-EIS-HETL-MAG-KH1.40 | < blank > |
P-EIS-HETL-MAG-KH1.41 | < blank > |
P-EIS-HETL-MAG-KH1.42 | < blank > |
P-EIS-HETL-MAG-KH1.43 | < blank > |
P-EIS-HETL-MAG-KH1.44 | < blank > |
P-EIS-HETL-MAG-KH1.45 | < blank > |
P-EIS-HETL-MAG-KH1.46 | < blank > |
P-EIS-HETL-MAG-KH1.47 | < blank > |
P-EIS-HETL-MAG-KH1.48 | < blank > |
P-EIS-HETL-MAG-KH1.49 | < blank > |
P-EIS-HETL-MAG-KH1.50 | < blank > |
P-EIS-HETL-MAG-KH1.51 | < blank > |
P-EIS-HETL-MAG-KH1.52 | < blank > |
P-EIS-HETL-MAG-KH1.53 | < blank > |
P-EIS-HETL-MAG-KH1.54 | < blank > |
P-EIS-HETL-MAG-KH1.55 | The magnet design shall not be constrain the ext. fringe field |
P-EIS-HETL-MAG-KH1.56 | < blank > |
P-EIS-HETL-MAG-KV1.1 | The number of magnet functions shall be 1 |
P-EIS-HETL-MAG-KV1.2 | The field type shall be Di (Di,Qu,Sx,Oc,De,Do,Sol,Ki,Hk,Vk,Se) |
P-EIS-HETL-MAG-KV1.3 | The field direction shall be H (V=vertical,H=horizontal,Z=beam direction ) |
P-EIS-HETL-MAG-KV1.4 | < blank > |
P-EIS-HETL-MAG-KV1.5 | < blank > |
P-EIS-HETL-MAG-KV1.6 | The min gap shall be 32 m |
P-EIS-HETL-MAG-KV1.7 | The good field aperture drx required shall be TBD m |
P-EIS-HETL-MAG-KV1.8 | The good field aperture dry required shall be TBD m |
P-EIS-HETL-MAG-KV1.9 | The mag length shall be <0.1 m |
P-EIS-HETL-MAG-KV1.10 | The eff Length shall be 0.1 m |
P-EIS-HETL-MAG-KV1.11 | The dipole field B shall be 0.076 T |
P-EIS-HETL-MAG-KV1.12 | < blank > |
P-EIS-HETL-MAG-KV1.13 | < blank > |
P-EIS-HETL-MAG-KV1.14 | The field stability shall be TBD T/s |
P-EIS-HETL-MAG-KV1.15 | The harmonic reference Radius and current shall be Ir=TBD[A]\Rr=16[mm] (mm,A) |
P-EIS-HETL-MAG-KV1.16 | The Field at the reference radius and current shall be Bref=TBD (T) |
P-EIS-HETL-MAG-KV1.17 | |
P-EIS-HETL-MAG-KV1.18 | The Bore multipole content shall have a 1st order of TBD (10^-4) |
P-EIS-HETL-MAG-KV1.19 | The Bore multipole content shall have a 2nd order of TBD (10^-4) |
P-EIS-HETL-MAG-KV1.20 | The Bore multipole content shall have a 3rd order of TBD (10^-4) |
P-EIS-HETL-MAG-KV1.21 | The Bore multipole content shall have a 4th order of TBD (10^-4) |
P-EIS-HETL-MAG-KV1.22 | The Bore multipole content shall have a 5th order of TBD (10^-4) |
P-EIS-HETL-MAG-KV1.23 | The Bore multipole content shall have a 6th order of TBD (10^-4) |
P-EIS-HETL-MAG-KV1.24 | The Bore multipole content shall have a 7th order of TBD (10^-4) |
P-EIS-HETL-MAG-KV1.25 | The Bore multipole content shall have a 8th order of TBD (10^-4) |
P-EIS-HETL-MAG-KV1.26 | The Bore multipole content shall have a 9th order of TBD (10^-4) |
P-EIS-HETL-MAG-KV1.27 | The Bore multipole content shall have a 10th order of TBD (10^-4) |
P-EIS-HETL-MAG-KV1.28 | The Bore multipole content shall have a 11th order of TBD (10^-4) |
P-EIS-HETL-MAG-KV1.29 | The Bore multipole content shall have a 12th order of TBD (10^-4) |
P-EIS-HETL-MAG-KV1.30 | The Bore multipole content shall have a 13th order of TBD (10^-4) |
P-EIS-HETL-MAG-KV1.31 | The Bore multipole content shall have a 14th order of TBD (10^-4) |
P-EIS-HETL-MAG-KV1.32 | The Bore multipole content shall have a 15th order of TBD (10^-4) |
P-EIS-HETL-MAG-KV1.33 | The Bore multipole content shall have a 16th order of TBD (10^-4) |
P-EIS-HETL-MAG-KV1.34 | The magnet shall not be designed to limit Xtalk Requirements |
P-EIS-HETL-MAG-KV1.35 | < blank > |
P-EIS-HETL-MAG-KV1.36 | < blank > |
P-EIS-HETL-MAG-KV1.37 | < blank > |
P-EIS-HETL-MAG-KV1.38 | < blank > |
P-EIS-HETL-MAG-KV1.39 | < blank > |
P-EIS-HETL-MAG-KV1.40 | < blank > |
P-EIS-HETL-MAG-KV1.41 | < blank > |
P-EIS-HETL-MAG-KV1.42 | < blank > |
P-EIS-HETL-MAG-KV1.43 | < blank > |
P-EIS-HETL-MAG-KV1.44 | < blank > |
P-EIS-HETL-MAG-KV1.45 | < blank > |
P-EIS-HETL-MAG-KV1.46 | < blank > |
P-EIS-HETL-MAG-KV1.47 | < blank > |
P-EIS-HETL-MAG-KV1.48 | < blank > |
P-EIS-HETL-MAG-KV1.49 | < blank > |
P-EIS-HETL-MAG-KV1.50 | < blank > |
P-EIS-HETL-MAG-KV1.51 | < blank > |
P-EIS-HETL-MAG-KV1.52 | < blank > |
P-EIS-HETL-MAG-KV1.53 | < blank > |
P-EIS-HETL-MAG-KV1.54 | < blank > |
P-EIS-HETL-MAG-KV1.55 | The magnet design shall not be constrain the ext. fringe field |
P-EIS-HETL-MAG-KV1.56 | < blank > |
P-EIS-HETL-MAG-Q1.1 | The number of magnet functions shall be 1 |
P-EIS-HETL-MAG-Q1.2 | The field type shall be Qu (Di,Qu,Sx,Oc,De,Do,Sol,Ki,Hk,Vk,Se) |
P-EIS-HETL-MAG-Q1.3 | < blank > |
P-EIS-HETL-MAG-Q1.4 | The field rotation shall be No (No=norm, Sk=skew) |
P-EIS-HETL-MAG-Q1.5 | The min coil inner rad shall be 16 m |
P-EIS-HETL-MAG-Q1.6 | < blank > |
P-EIS-HETL-MAG-Q1.7 | The good field aperture drx required shall be TBD m |
P-EIS-HETL-MAG-Q1.8 | The good field aperture dry required shall be TBD m |
P-EIS-HETL-MAG-Q1.9 | The mag length shall be <0.6 m |
P-EIS-HETL-MAG-Q1.10 | The eff Length shall be 0.6 m |
P-EIS-HETL-MAG-Q1.11 | < blank > |
P-EIS-HETL-MAG-Q1.12 | The grad field G shall be 23.75 T/m(n-1) |
P-EIS-HETL-MAG-Q1.13 | < blank > |
P-EIS-HETL-MAG-Q1.14 | The field stability shall be TBD T/s |
P-EIS-HETL-MAG-Q1.15 | The harmonic reference Radius and current shall be Ir=TBD[A]\Rr=16[mm] (mm,A) |
P-EIS-HETL-MAG-Q1.16 | The Field at the reference radius and current shall be Bref=TBD (T) |
P-EIS-HETL-MAG-Q1.17 | |
P-EIS-HETL-MAG-Q1.18 | The Bore multipole content shall have a 1st order of TBD (10^-4) |
P-EIS-HETL-MAG-Q1.19 | The Bore multipole content shall have a 2nd order of TBD (10^-4) |
P-EIS-HETL-MAG-Q1.20 | The Bore multipole content shall have a 3rd order of TBD (10^-4) |
P-EIS-HETL-MAG-Q1.21 | The Bore multipole content shall have a 4th order of TBD (10^-4) |
P-EIS-HETL-MAG-Q1.22 | The Bore multipole content shall have a 5th order of TBD (10^-4) |
P-EIS-HETL-MAG-Q1.23 | The Bore multipole content shall have a 6th order of TBD (10^-4) |
P-EIS-HETL-MAG-Q1.24 | The Bore multipole content shall have a 7th order of TBD (10^-4) |
P-EIS-HETL-MAG-Q1.25 | The Bore multipole content shall have a 8th order of TBD (10^-4) |
P-EIS-HETL-MAG-Q1.26 | The Bore multipole content shall have a 9th order of TBD (10^-4) |
P-EIS-HETL-MAG-Q1.27 | The Bore multipole content shall have a 10th order of TBD (10^-4) |
P-EIS-HETL-MAG-Q1.28 | The Bore multipole content shall have a 11th order of TBD (10^-4) |
P-EIS-HETL-MAG-Q1.29 | The Bore multipole content shall have a 12th order of TBD (10^-4) |
P-EIS-HETL-MAG-Q1.30 | The Bore multipole content shall have a 13th order of TBD (10^-4) |
P-EIS-HETL-MAG-Q1.31 | The Bore multipole content shall have a 14th order of TBD (10^-4) |
P-EIS-HETL-MAG-Q1.32 | The Bore multipole content shall have a 15th order of TBD (10^-4) |
P-EIS-HETL-MAG-Q1.33 | The Bore multipole content shall have a 16th order of TBD (10^-4) |
P-EIS-HETL-MAG-Q1.34 | The magnet shall not be designed to limit Xtalk Requirements |
P-EIS-HETL-MAG-Q1.35 | < blank > |
P-EIS-HETL-MAG-Q1.36 | < blank > |
P-EIS-HETL-MAG-Q1.37 | < blank > |
P-EIS-HETL-MAG-Q1.38 | < blank > |
P-EIS-HETL-MAG-Q1.39 | < blank > |
P-EIS-HETL-MAG-Q1.40 | < blank > |
P-EIS-HETL-MAG-Q1.41 | < blank > |
P-EIS-HETL-MAG-Q1.42 | < blank > |
P-EIS-HETL-MAG-Q1.43 | < blank > |
P-EIS-HETL-MAG-Q1.44 | < blank > |
P-EIS-HETL-MAG-Q1.45 | < blank > |
P-EIS-HETL-MAG-Q1.46 | < blank > |
P-EIS-HETL-MAG-Q1.47 | < blank > |
P-EIS-HETL-MAG-Q1.48 | < blank > |
P-EIS-HETL-MAG-Q1.49 | < blank > |
P-EIS-HETL-MAG-Q1.50 | < blank > |
P-EIS-HETL-MAG-Q1.51 | < blank > |
P-EIS-HETL-MAG-Q1.52 | < blank > |
P-EIS-HETL-MAG-Q1.53 | < blank > |
P-EIS-HETL-MAG-Q1.54 | < blank > |
P-EIS-HETL-MAG-Q1.55 | The magnet design shall not be constrain the ext. fringe field |
P-EIS-HETL-MAG-Q1.56 | < blank > |
P-EIS-HETL-MAG-SEPT1.1 | The number of magnet functions shall be 1 |
P-EIS-HETL-MAG-SEPT1.2 | The field type shall be Di (Di,Qu,Sx,Oc,De,Do,Sol,Ki,Hk,Vk,Se) |
P-EIS-HETL-MAG-SEPT1.3 | The field direction shall be V (V=vertical,H=horizontal,Z=beam direction ) |
P-EIS-HETL-MAG-SEPT1.4 | < blank > |
P-EIS-HETL-MAG-SEPT1.5 | < blank > |
P-EIS-HETL-MAG-SEPT1.6 | The min gap shall be 32 m |
P-EIS-HETL-MAG-SEPT1.7 | The good field aperture drx required shall be TBD m |
P-EIS-HETL-MAG-SEPT1.8 | The good field aperture dry required shall be TBD m |
P-EIS-HETL-MAG-SEPT1.9 | The mag length shall be <1.3 m |
P-EIS-HETL-MAG-SEPT1.10 | The eff Length shall be 1.3 m |
P-EIS-HETL-MAG-SEPT1.11 | The dipole field B shall be 0.924 T |
P-EIS-HETL-MAG-SEPT1.12 | < blank > |
P-EIS-HETL-MAG-SEPT1.13 | < blank > |
P-EIS-HETL-MAG-SEPT1.14 | The field stability shall be TBD T/s |
P-EIS-HETL-MAG-SEPT1.15 | The harmonic reference Radius and current shall be Ir=TBD[A]\Rr=16[mm] (mm,A) |
P-EIS-HETL-MAG-SEPT1.16 | The Field at the reference radius and current shall be Bref=TBD (T) |
P-EIS-HETL-MAG-SEPT1.17 | |
P-EIS-HETL-MAG-SEPT1.18 | The Bore multipole content shall have a 1st order of TBD (10^-4) |
P-EIS-HETL-MAG-SEPT1.19 | The Bore multipole content shall have a 2nd order of TBD (10^-4) |
P-EIS-HETL-MAG-SEPT1.20 | The Bore multipole content shall have a 3rd order of TBD (10^-4) |
P-EIS-HETL-MAG-SEPT1.21 | The Bore multipole content shall have a 4th order of TBD (10^-4) |
P-EIS-HETL-MAG-SEPT1.22 | The Bore multipole content shall have a 5th order of TBD (10^-4) |
P-EIS-HETL-MAG-SEPT1.23 | The Bore multipole content shall have a 6th order of TBD (10^-4) |
P-EIS-HETL-MAG-SEPT1.24 | The Bore multipole content shall have a 7th order of TBD (10^-4) |
P-EIS-HETL-MAG-SEPT1.25 | The Bore multipole content shall have a 8th order of TBD (10^-4) |
P-EIS-HETL-MAG-SEPT1.26 | The Bore multipole content shall have a 9th order of TBD (10^-4) |
P-EIS-HETL-MAG-SEPT1.27 | The Bore multipole content shall have a 10th order of TBD (10^-4) |
P-EIS-HETL-MAG-SEPT1.28 | The Bore multipole content shall have a 11th order of TBD (10^-4) |
P-EIS-HETL-MAG-SEPT1.29 | The Bore multipole content shall have a 12th order of TBD (10^-4) |
P-EIS-HETL-MAG-SEPT1.30 | The Bore multipole content shall have a 13th order of TBD (10^-4) |
P-EIS-HETL-MAG-SEPT1.31 | The Bore multipole content shall have a 14th order of TBD (10^-4) |
P-EIS-HETL-MAG-SEPT1.32 | The Bore multipole content shall have a 15th order of TBD (10^-4) |
P-EIS-HETL-MAG-SEPT1.33 | The Bore multipole content shall have a 16th order of TBD (10^-4) |
P-EIS-HETL-MAG-SEPT1.34 | The magnet shall not be designed to limit Xtalk Requirements |
P-EIS-HETL-MAG-SEPT1.35 | < blank > |
P-EIS-HETL-MAG-SEPT1.36 | < blank > |
P-EIS-HETL-MAG-SEPT1.37 | < blank > |
P-EIS-HETL-MAG-SEPT1.38 | < blank > |
P-EIS-HETL-MAG-SEPT1.39 | < blank > |
P-EIS-HETL-MAG-SEPT1.40 | < blank > |
P-EIS-HETL-MAG-SEPT1.41 | < blank > |
P-EIS-HETL-MAG-SEPT1.42 | < blank > |
P-EIS-HETL-MAG-SEPT1.43 | < blank > |
P-EIS-HETL-MAG-SEPT1.44 | < blank > |
P-EIS-HETL-MAG-SEPT1.45 | < blank > |
P-EIS-HETL-MAG-SEPT1.46 | < blank > |
P-EIS-HETL-MAG-SEPT1.47 | < blank > |
P-EIS-HETL-MAG-SEPT1.48 | < blank > |
P-EIS-HETL-MAG-SEPT1.49 | < blank > |
P-EIS-HETL-MAG-SEPT1.50 | < blank > |
P-EIS-HETL-MAG-SEPT1.51 | < blank > |
P-EIS-HETL-MAG-SEPT1.52 | < blank > |
P-EIS-HETL-MAG-SEPT1.53 | < blank > |
P-EIS-HETL-MAG-SEPT1.54 | < blank > |
P-EIS-HETL-MAG-SEPT1.55 | The magnet design shall not be constrain the ext. fringe field |
P-EIS-HETL-MAG-SEPT1.56 | < blank > |
P-EIS-HETL-MAG-SEPT2.1 | The number of magnet functions shall be 1 |
P-EIS-HETL-MAG-SEPT2.2 | The field type shall be Di (Di,Qu,Sx,Oc,De,Do,Sol,Ki,Hk,Vk,Se) |
P-EIS-HETL-MAG-SEPT2.3 | The field direction shall be V (V=vertical,H=horizontal,Z=beam direction ) |
P-EIS-HETL-MAG-SEPT2.4 | < blank > |
P-EIS-HETL-MAG-SEPT2.5 | < blank > |
P-EIS-HETL-MAG-SEPT2.6 | The min gap shall be 32 m |
P-EIS-HETL-MAG-SEPT2.7 | The good field aperture drx required shall be TBD m |
P-EIS-HETL-MAG-SEPT2.8 | The good field aperture dry required shall be TBD m |
P-EIS-HETL-MAG-SEPT2.9 | The mag length shall be <2.49 m |
P-EIS-HETL-MAG-SEPT2.10 | The eff Length shall be 2.49 m |
P-EIS-HETL-MAG-SEPT2.11 | The dipole field B shall be 0.82 T |
P-EIS-HETL-MAG-SEPT2.12 | < blank > |
P-EIS-HETL-MAG-SEPT2.13 | < blank > |
P-EIS-HETL-MAG-SEPT2.14 | The field stability shall be TBD T/s |
P-EIS-HETL-MAG-SEPT2.15 | The harmonic reference Radius and current shall be Ir=TBD[A]\Rr=16[mm] (mm,A) |
P-EIS-HETL-MAG-SEPT2.16 | The Field at the reference radius and current shall be Bref=TBD (T) |
P-EIS-HETL-MAG-SEPT2.17 | |
P-EIS-HETL-MAG-SEPT2.18 | The Bore multipole content shall have a 1st order of TBD (10^-4) |
P-EIS-HETL-MAG-SEPT2.19 | The Bore multipole content shall have a 2nd order of TBD (10^-4) |
P-EIS-HETL-MAG-SEPT2.20 | The Bore multipole content shall have a 3rd order of TBD (10^-4) |
P-EIS-HETL-MAG-SEPT2.21 | The Bore multipole content shall have a 4th order of TBD (10^-4) |
P-EIS-HETL-MAG-SEPT2.22 | The Bore multipole content shall have a 5th order of TBD (10^-4) |
P-EIS-HETL-MAG-SEPT2.23 | The Bore multipole content shall have a 6th order of TBD (10^-4) |
P-EIS-HETL-MAG-SEPT2.24 | The Bore multipole content shall have a 7th order of TBD (10^-4) |
P-EIS-HETL-MAG-SEPT2.25 | The Bore multipole content shall have a 8th order of TBD (10^-4) |
P-EIS-HETL-MAG-SEPT2.26 | The Bore multipole content shall have a 9th order of TBD (10^-4) |
P-EIS-HETL-MAG-SEPT2.27 | The Bore multipole content shall have a 10th order of TBD (10^-4) |
P-EIS-HETL-MAG-SEPT2.28 | The Bore multipole content shall have a 11th order of TBD (10^-4) |
P-EIS-HETL-MAG-SEPT2.29 | The Bore multipole content shall have a 12th order of TBD (10^-4) |
P-EIS-HETL-MAG-SEPT2.30 | The Bore multipole content shall have a 13th order of TBD (10^-4) |
P-EIS-HETL-MAG-SEPT2.31 | The Bore multipole content shall have a 14th order of TBD (10^-4) |
P-EIS-HETL-MAG-SEPT2.32 | The Bore multipole content shall have a 15th order of TBD (10^-4) |
P-EIS-HETL-MAG-SEPT2.33 | The Bore multipole content shall have a 16th order of TBD (10^-4) |
P-EIS-HETL-MAG-SEPT2.34 | The magnet shall not be designed to limit Xtalk Requirements |
P-EIS-HETL-MAG-SEPT2.35 | < blank > |
P-EIS-HETL-MAG-SEPT2.36 | < blank > |
P-EIS-HETL-MAG-SEPT2.37 | < blank > |
P-EIS-HETL-MAG-SEPT2.38 | < blank > |
P-EIS-HETL-MAG-SEPT2.39 | < blank > |
P-EIS-HETL-MAG-SEPT2.40 | < blank > |
P-EIS-HETL-MAG-SEPT2.41 | < blank > |
P-EIS-HETL-MAG-SEPT2.42 | < blank > |
P-EIS-HETL-MAG-SEPT2.43 | < blank > |
P-EIS-HETL-MAG-SEPT2.44 | < blank > |
P-EIS-HETL-MAG-SEPT2.45 | < blank > |
P-EIS-HETL-MAG-SEPT2.46 | < blank > |
P-EIS-HETL-MAG-SEPT2.47 | < blank > |
P-EIS-HETL-MAG-SEPT2.48 | < blank > |
P-EIS-HETL-MAG-SEPT2.49 | < blank > |
P-EIS-HETL-MAG-SEPT2.50 | < blank > |
P-EIS-HETL-MAG-SEPT2.51 | < blank > |
P-EIS-HETL-MAG-SEPT2.52 | < blank > |
P-EIS-HETL-MAG-SEPT2.53 | < blank > |
P-EIS-HETL-MAG-SEPT2.54 | < blank > |
P-EIS-HETL-MAG-SEPT2.55 | The magnet design shall not be constrain the ext. fringe field |
P-EIS-HETL-MAG-SEPT2.56 | < blank > |
P-EIS-HETL-PS-D1.1 | The number of Independent functions on the magnets being powered shall be 1 |
P-EIS-HETL-PS-D1.2 | The maximum magnet string resistance to be powered shall be TBD ohm |
P-EIS-HETL-PS-D1.3 | The maximum magnet string inductance to be powered shall be TBD H |
P-EIS-HETL-PS-D1.4 | The magnets being powered shall be saturated TBD Y/N |
P-EIS-HETL-PS-D1.5 | < blank > |
P-EIS-HETL-PS-D1.6 | The voltage to ground of the magnet being powered shall be TBD V |
P-EIS-HETL-PS-D1.7 | The nominal current of the magnets being powered shall be TBD A |
P-EIS-HETL-PS-D1.8 | The minimum current the PS must operate at shall be TBD A |
P-EIS-HETL-PS-D1.9 | The maximum current the PS must operate at shall be TBD A |
P-EIS-HETL-PS-D1.10 | The PS current type shall be DC (DC or AC) |
P-EIS-HETL-PS-D1.11 | < blank > |
P-EIS-HETL-PS-D1.12 | The peak waveshape di/dt during ramping shall be TBD |
P-EIS-HETL-PS-D1.13 | The full power bandwidth required shall be TBD |
P-EIS-HETL-PS-D1.14 | The ppm of full scale current (peak to peak) shall be TBD % |
P-EIS-HETL-PS-D1.15 | The time period for specified stability shall be TBD s |
P-EIS-HETL-PS-D1.16 | The short term stability shall be TBD A/s |
P-EIS-HETL-PS-D1.17 | The long term stability shall be TBD A/s |
P-EIS-HETL-PS-D1.18 | The current setpoint resolution (min size in bits) shall be TBD bits |
P-EIS-HETL-PS-D1.19 | The synchronization required between PS's shall be TBD s |
P-EIS-HETL-PS-D1.20 | The synchronization timing of synchronization shall be TBD s |
P-EIS-HETL-PS-D1.21 | The max allowable current ripple (peak to peak) TBD A |
P-EIS-HETL-PS-D1.22 | The max current ripple frequency range (Hz) TBD Hz |
P-EIS-HETL-PS-D1.23 | WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz |
P-EIS-HETL-PS-D1.24 | The max voltage ripple (peak to peak) shall be TBD V |
P-EIS-HETL-PS-D1.25 | An NMR shall be required to measure the field TBD A/s |
P-EIS-HETL-PS-D1.26 | < blank > |
P-EIS-HETL-PS-D1.27 | < blank > |
P-EIS-HETL-PS-D1.28 | < blank > |
P-EIS-HETL-PS-D1.29 | < blank > |
P-EIS-HETL-PS-D1.30 | < blank > |
P-EIS-HETL-PS-D1.31 | < blank > |
P-EIS-HETL-PS-D1.32 | < blank > |
P-EIS-HETL-PS-D1.33 | The current required to be shunted through the magnet shall be TBD |
P-EIS-HETL-PS-D1.34 | The magnet turns ratio shall be TBD |
P-EIS-HETL-PS-D1.35 | The terminal voltage shall be TBD V |
P-EIS-HETL-PS-D1.36 | The design shall have thermal switches TBD |
P-EIS-HETL-PS-D1.37 | The thermal switch connection numbers shall be TBD |
P-EIS-HETL-PS-D1.38 | The design shall have water flow switches TBD |
P-EIS-HETL-PS-D1.39 | The water flow switch connections numbers shall be TBD |
P-EIS-HETL-PS-D1.40 | The design shall have access controls interlocks TBD |
P-EIS-HETL-PS-D1.41 | The main terminals lug details shall be TBD |
P-EIS-HETL-PS-D1.42 | The lead end indications shall be TBD |
P-EIS-HETL-PS-D1.43 | The lugs details for thermal switch and water switches shall be TBD |
P-EIS-HETL-PS-D1.44 | The lug details for the auxiliary windings shall be TBD |
P-EIS-HETL-PS-D1.45 | The A/B terminal labeling details shall be TBD Draw id |
P-EIS-HETL-PS-D1.46 | The magnet drawing with terminations details shall be TBD |
P-EIS-HETL-PS-D1.47 | The magnet polarity connections shall be TBD |
P-EIS-HETL-PS-D2.1 | The number of Independent functions on the magnets being powered shall be 1 |
P-EIS-HETL-PS-D2.2 | The maximum magnet string resistance to be powered shall be TBD ohm |
P-EIS-HETL-PS-D2.3 | The maximum magnet string inductance to be powered shall be TBD H |
P-EIS-HETL-PS-D2.4 | The magnets being powered shall be saturated TBD Y/N |
P-EIS-HETL-PS-D2.5 | < blank > |
P-EIS-HETL-PS-D2.6 | The voltage to ground of the magnet being powered shall be TBD V |
P-EIS-HETL-PS-D2.7 | The nominal current of the magnets being powered shall be TBD A |
P-EIS-HETL-PS-D2.8 | The minimum current the PS must operate at shall be TBD A |
P-EIS-HETL-PS-D2.9 | The maximum current the PS must operate at shall be TBD A |
P-EIS-HETL-PS-D2.10 | The PS current type shall be DC (DC or AC) |
P-EIS-HETL-PS-D2.11 | < blank > |
P-EIS-HETL-PS-D2.12 | The peak waveshape di/dt during ramping shall be TBD |
P-EIS-HETL-PS-D2.13 | The full power bandwidth required shall be TBD |
P-EIS-HETL-PS-D2.14 | The ppm of full scale current (peak to peak) shall be TBD % |
P-EIS-HETL-PS-D2.15 | The time period for specified stability shall be TBD s |
P-EIS-HETL-PS-D2.16 | The short term stability shall be TBD A/s |
P-EIS-HETL-PS-D2.17 | The long term stability shall be TBD A/s |
P-EIS-HETL-PS-D2.18 | The current setpoint resolution (min size in bits) shall be TBD bits |
P-EIS-HETL-PS-D2.19 | The synchronization required between PS's shall be TBD s |
P-EIS-HETL-PS-D2.20 | The synchronization timing of synchronization shall be TBD s |
P-EIS-HETL-PS-D2.21 | The max allowable current ripple (peak to peak) TBD A |
P-EIS-HETL-PS-D2.22 | The max current ripple frequency range (Hz) TBD Hz |
P-EIS-HETL-PS-D2.23 | WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz |
P-EIS-HETL-PS-D2.24 | The max voltage ripple (peak to peak) shall be TBD V |
P-EIS-HETL-PS-D2.25 | An NMR shall be required to measure the field TBD A/s |
P-EIS-HETL-PS-D2.26 | < blank > |
P-EIS-HETL-PS-D2.27 | < blank > |
P-EIS-HETL-PS-D2.28 | < blank > |
P-EIS-HETL-PS-D2.29 | < blank > |
P-EIS-HETL-PS-D2.30 | < blank > |
P-EIS-HETL-PS-D2.31 | < blank > |
P-EIS-HETL-PS-D2.32 | < blank > |
P-EIS-HETL-PS-D2.33 | The current required to be shunted through the magnet shall be TBD |
P-EIS-HETL-PS-D2.34 | The magnet turns ratio shall be TBD |
P-EIS-HETL-PS-D2.35 | The terminal voltage shall be TBD V |
P-EIS-HETL-PS-D2.36 | The design shall have thermal switches TBD |
P-EIS-HETL-PS-D2.37 | The thermal switch connection numbers shall be TBD |
P-EIS-HETL-PS-D2.38 | The design shall have water flow switches TBD |
P-EIS-HETL-PS-D2.39 | The water flow switch connections numbers shall be TBD |
P-EIS-HETL-PS-D2.40 | The design shall have access controls interlocks TBD |
P-EIS-HETL-PS-D2.41 | The main terminals lug details shall be TBD |
P-EIS-HETL-PS-D2.42 | The lead end indications shall be TBD |
P-EIS-HETL-PS-D2.43 | The lugs details for thermal switch and water switches shall be TBD |
P-EIS-HETL-PS-D2.44 | The lug details for the auxiliary windings shall be TBD |
P-EIS-HETL-PS-D2.45 | The A/B terminal labeling details shall be TBD Draw id |
P-EIS-HETL-PS-D2.46 | The magnet drawing with terminations details shall be TBD |
P-EIS-HETL-PS-D2.47 | The magnet polarity connections shall be TBD |
P-EIS-HETL-PS-D3.1 | The number of Independent functions on the magnets being powered shall be 1 |
P-EIS-HETL-PS-D3.2 | The maximum magnet string resistance to be powered shall be TBD ohm |
P-EIS-HETL-PS-D3.3 | The maximum magnet string inductance to be powered shall be TBD H |
P-EIS-HETL-PS-D3.4 | The magnets being powered shall be saturated TBD Y/N |
P-EIS-HETL-PS-D3.5 | < blank > |
P-EIS-HETL-PS-D3.6 | The voltage to ground of the magnet being powered shall be TBD V |
P-EIS-HETL-PS-D3.7 | The nominal current of the magnets being powered shall be TBD A |
P-EIS-HETL-PS-D3.8 | The minimum current the PS must operate at shall be TBD A |
P-EIS-HETL-PS-D3.9 | The maximum current the PS must operate at shall be TBD A |
P-EIS-HETL-PS-D3.10 | The PS current type shall be DC (DC or AC) |
P-EIS-HETL-PS-D3.11 | < blank > |
P-EIS-HETL-PS-D3.12 | The peak waveshape di/dt during ramping shall be TBD |
P-EIS-HETL-PS-D3.13 | The full power bandwidth required shall be TBD |
P-EIS-HETL-PS-D3.14 | The ppm of full scale current (peak to peak) shall be TBD % |
P-EIS-HETL-PS-D3.15 | The time period for specified stability shall be TBD s |
P-EIS-HETL-PS-D3.16 | The short term stability shall be TBD A/s |
P-EIS-HETL-PS-D3.17 | The long term stability shall be TBD A/s |
P-EIS-HETL-PS-D3.18 | The current setpoint resolution (min size in bits) shall be TBD bits |
P-EIS-HETL-PS-D3.19 | The synchronization required between PS's shall be TBD s |
P-EIS-HETL-PS-D3.20 | The synchronization timing of synchronization shall be TBD s |
P-EIS-HETL-PS-D3.21 | The max allowable current ripple (peak to peak) TBD A |
P-EIS-HETL-PS-D3.22 | The max current ripple frequency range (Hz) TBD Hz |
P-EIS-HETL-PS-D3.23 | WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz |
P-EIS-HETL-PS-D3.24 | The max voltage ripple (peak to peak) shall be TBD V |
P-EIS-HETL-PS-D3.25 | An NMR shall be required to measure the field TBD A/s |
P-EIS-HETL-PS-D3.26 | < blank > |
P-EIS-HETL-PS-D3.27 | < blank > |
P-EIS-HETL-PS-D3.28 | < blank > |
P-EIS-HETL-PS-D3.29 | < blank > |
P-EIS-HETL-PS-D3.30 | < blank > |
P-EIS-HETL-PS-D3.31 | < blank > |
P-EIS-HETL-PS-D3.32 | < blank > |
P-EIS-HETL-PS-D3.33 | The current required to be shunted through the magnet shall be TBD |
P-EIS-HETL-PS-D3.34 | The magnet turns ratio shall be TBD |
P-EIS-HETL-PS-D3.35 | The terminal voltage shall be TBD V |
P-EIS-HETL-PS-D3.36 | The design shall have thermal switches TBD |
P-EIS-HETL-PS-D3.37 | The thermal switch connection numbers shall be TBD |
P-EIS-HETL-PS-D3.38 | The design shall have water flow switches TBD |
P-EIS-HETL-PS-D3.39 | The water flow switch connections numbers shall be TBD |
P-EIS-HETL-PS-D3.40 | The design shall have access controls interlocks TBD |
P-EIS-HETL-PS-D3.41 | The main terminals lug details shall be TBD |
P-EIS-HETL-PS-D3.42 | The lead end indications shall be TBD |
P-EIS-HETL-PS-D3.43 | The lugs details for thermal switch and water switches shall be TBD |
P-EIS-HETL-PS-D3.44 | The lug details for the auxiliary windings shall be TBD |
P-EIS-HETL-PS-D3.45 | The A/B terminal labeling details shall be TBD Draw id |
P-EIS-HETL-PS-D3.46 | The magnet drawing with terminations details shall be TBD |
P-EIS-HETL-PS-D3.47 | The magnet polarity connections shall be TBD |
P-EIS-HETL-PS-ESR_INJ_BMP.1 | The number of Independent functions on the magnets being powered shall be 1 |
P-EIS-HETL-PS-ESR_INJ_BMP.2 | The maximum magnet string resistance to be powered shall be TBD ohm |
P-EIS-HETL-PS-ESR_INJ_BMP.3 | The maximum magnet string inductance to be powered shall be TBD H |
P-EIS-HETL-PS-ESR_INJ_BMP.4 | The magnets being powered shall be saturated TBD Y/N |
P-EIS-HETL-PS-ESR_INJ_BMP.5 | < blank > |
P-EIS-HETL-PS-ESR_INJ_BMP.6 | The voltage to ground of the magnet being powered shall be TBD V |
P-EIS-HETL-PS-ESR_INJ_BMP.7 | The nominal current of the magnets being powered shall be TBD A |
P-EIS-HETL-PS-ESR_INJ_BMP.8 | The minimum current the PS must operate at shall be TBD A |
P-EIS-HETL-PS-ESR_INJ_BMP.9 | The maximum current the PS must operate at shall be TBD A |
P-EIS-HETL-PS-ESR_INJ_BMP.10 | The PS current type shall be DC (DC or AC) |
P-EIS-HETL-PS-ESR_INJ_BMP.11 | < blank > |
P-EIS-HETL-PS-ESR_INJ_BMP.12 | The peak waveshape di/dt during ramping shall be TBD |
P-EIS-HETL-PS-ESR_INJ_BMP.13 | The full power bandwidth required shall be TBD |
P-EIS-HETL-PS-ESR_INJ_BMP.14 | The ppm of full scale current (peak to peak) shall be TBD % |
P-EIS-HETL-PS-ESR_INJ_BMP.15 | The time period for specified stability shall be TBD s |
P-EIS-HETL-PS-ESR_INJ_BMP.16 | The short term stability shall be TBD A/s |
P-EIS-HETL-PS-ESR_INJ_BMP.17 | The long term stability shall be TBD A/s |
P-EIS-HETL-PS-ESR_INJ_BMP.18 | The current setpoint resolution (min size in bits) shall be TBD bits |
P-EIS-HETL-PS-ESR_INJ_BMP.19 | The synchronization required between PS's shall be TBD s |
P-EIS-HETL-PS-ESR_INJ_BMP.20 | The synchronization timing of synchronization shall be TBD s |
P-EIS-HETL-PS-ESR_INJ_BMP.21 | The max allowable current ripple (peak to peak) TBD A |
P-EIS-HETL-PS-ESR_INJ_BMP.22 | The max current ripple frequency range (Hz) TBD Hz |
P-EIS-HETL-PS-ESR_INJ_BMP.23 | WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz |
P-EIS-HETL-PS-ESR_INJ_BMP.24 | The max voltage ripple (peak to peak) shall be TBD V |
P-EIS-HETL-PS-ESR_INJ_BMP.25 | An NMR shall be required to measure the field TBD A/s |
P-EIS-HETL-PS-ESR_INJ_BMP.26 | < blank > |
P-EIS-HETL-PS-ESR_INJ_BMP.27 | < blank > |
P-EIS-HETL-PS-ESR_INJ_BMP.28 | < blank > |
P-EIS-HETL-PS-ESR_INJ_BMP.29 | < blank > |
P-EIS-HETL-PS-ESR_INJ_BMP.30 | < blank > |
P-EIS-HETL-PS-ESR_INJ_BMP.31 | < blank > |
P-EIS-HETL-PS-ESR_INJ_BMP.32 | < blank > |
P-EIS-HETL-PS-ESR_INJ_BMP.33 | The current required to be shunted through the magnet shall be TBD |
P-EIS-HETL-PS-ESR_INJ_BMP.34 | The magnet turns ratio shall be TBD |
P-EIS-HETL-PS-ESR_INJ_BMP.35 | The terminal voltage shall be TBD V |
P-EIS-HETL-PS-ESR_INJ_BMP.36 | The design shall have thermal switches TBD |
P-EIS-HETL-PS-ESR_INJ_BMP.37 | The thermal switch connection numbers shall be TBD |
P-EIS-HETL-PS-ESR_INJ_BMP.38 | The design shall have water flow switches TBD |
P-EIS-HETL-PS-ESR_INJ_BMP.39 | The water flow switch connections numbers shall be TBD |
P-EIS-HETL-PS-ESR_INJ_BMP.40 | The design shall have access controls interlocks TBD |
P-EIS-HETL-PS-ESR_INJ_BMP.41 | The main terminals lug details shall be TBD |
P-EIS-HETL-PS-ESR_INJ_BMP.42 | The lead end indications shall be TBD |
P-EIS-HETL-PS-ESR_INJ_BMP.43 | The lugs details for thermal switch and water switches shall be TBD |
P-EIS-HETL-PS-ESR_INJ_BMP.44 | The lug details for the auxiliary windings shall be TBD |
P-EIS-HETL-PS-ESR_INJ_BMP.45 | The A/B terminal labeling details shall be TBD Draw id |
P-EIS-HETL-PS-ESR_INJ_BMP.46 | The magnet drawing with terminations details shall be TBD |
P-EIS-HETL-PS-ESR_INJ_BMP.47 | The magnet polarity connections shall be TBD |
P-EIS-HETL-PS-INDSEPT1.1 | The number of Independent functions on the magnets being powered shall be 1 |
P-EIS-HETL-PS-INDSEPT1.2 | The maximum magnet string resistance to be powered shall be TBD ohm |
P-EIS-HETL-PS-INDSEPT1.3 | The maximum magnet string inductance to be powered shall be TBD H |
P-EIS-HETL-PS-INDSEPT1.4 | The magnets being powered shall be saturated TBD Y/N |
P-EIS-HETL-PS-INDSEPT1.5 | < blank > |
P-EIS-HETL-PS-INDSEPT1.6 | The voltage to ground of the magnet being powered shall be TBD V |
P-EIS-HETL-PS-INDSEPT1.7 | The nominal current of the magnets being powered shall be TBD A |
P-EIS-HETL-PS-INDSEPT1.8 | The minimum current the PS must operate at shall be TBD A |
P-EIS-HETL-PS-INDSEPT1.9 | The maximum current the PS must operate at shall be TBD A |
P-EIS-HETL-PS-INDSEPT1.10 | The PS current type shall be DC (DC or AC) |
P-EIS-HETL-PS-INDSEPT1.11 | < blank > |
P-EIS-HETL-PS-INDSEPT1.12 | The peak waveshape di/dt during ramping shall be TBD |
P-EIS-HETL-PS-INDSEPT1.13 | The full power bandwidth required shall be TBD |
P-EIS-HETL-PS-INDSEPT1.14 | The ppm of full scale current (peak to peak) shall be TBD % |
P-EIS-HETL-PS-INDSEPT1.15 | The time period for specified stability shall be TBD s |
P-EIS-HETL-PS-INDSEPT1.16 | The short term stability shall be TBD A/s |
P-EIS-HETL-PS-INDSEPT1.17 | The long term stability shall be TBD A/s |
P-EIS-HETL-PS-INDSEPT1.18 | The current setpoint resolution (min size in bits) shall be TBD bits |
P-EIS-HETL-PS-INDSEPT1.19 | The synchronization required between PS's shall be TBD s |
P-EIS-HETL-PS-INDSEPT1.20 | The synchronization timing of synchronization shall be TBD s |
P-EIS-HETL-PS-INDSEPT1.21 | The max allowable current ripple (peak to peak) TBD A |
P-EIS-HETL-PS-INDSEPT1.22 | The max current ripple frequency range (Hz) TBD Hz |
P-EIS-HETL-PS-INDSEPT1.23 | WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz |
P-EIS-HETL-PS-INDSEPT1.24 | The max voltage ripple (peak to peak) shall be TBD V |
P-EIS-HETL-PS-INDSEPT1.25 | An NMR shall be required to measure the field TBD A/s |
P-EIS-HETL-PS-INDSEPT1.26 | < blank > |
P-EIS-HETL-PS-INDSEPT1.27 | < blank > |
P-EIS-HETL-PS-INDSEPT1.28 | < blank > |
P-EIS-HETL-PS-INDSEPT1.29 | < blank > |
P-EIS-HETL-PS-INDSEPT1.30 | < blank > |
P-EIS-HETL-PS-INDSEPT1.31 | < blank > |
P-EIS-HETL-PS-INDSEPT1.32 | < blank > |
P-EIS-HETL-PS-INDSEPT1.33 | The current required to be shunted through the magnet shall be TBD |
P-EIS-HETL-PS-INDSEPT1.34 | The magnet turns ratio shall be TBD |
P-EIS-HETL-PS-INDSEPT1.35 | The terminal voltage shall be TBD V |
P-EIS-HETL-PS-INDSEPT1.36 | The design shall have thermal switches TBD |
P-EIS-HETL-PS-INDSEPT1.37 | The thermal switch connection numbers shall be TBD |
P-EIS-HETL-PS-INDSEPT1.38 | The design shall have water flow switches TBD |
P-EIS-HETL-PS-INDSEPT1.39 | The water flow switch connections numbers shall be TBD |
P-EIS-HETL-PS-INDSEPT1.40 | The design shall have access controls interlocks TBD |
P-EIS-HETL-PS-INDSEPT1.41 | The main terminals lug details shall be TBD |
P-EIS-HETL-PS-INDSEPT1.42 | The lead end indications shall be TBD |
P-EIS-HETL-PS-INDSEPT1.43 | The lugs details for thermal switch and water switches shall be TBD |
P-EIS-HETL-PS-INDSEPT1.44 | The lug details for the auxiliary windings shall be TBD |
P-EIS-HETL-PS-INDSEPT1.45 | The A/B terminal labeling details shall be TBD Draw id |
P-EIS-HETL-PS-INDSEPT1.46 | The magnet drawing with terminations details shall be TBD |
P-EIS-HETL-PS-INDSEPT1.47 | The magnet polarity connections shall be TBD |
P-EIS-HETL-PS-KH1.1 | The number of Independent functions on the magnets being powered shall be 1 |
P-EIS-HETL-PS-KH1.2 | The maximum magnet string resistance to be powered shall be TBD ohm |
P-EIS-HETL-PS-KH1.3 | The maximum magnet string inductance to be powered shall be TBD H |
P-EIS-HETL-PS-KH1.4 | The magnets being powered shall be saturated TBD Y/N |
P-EIS-HETL-PS-KH1.5 | < blank > |
P-EIS-HETL-PS-KH1.6 | The voltage to ground of the magnet being powered shall be TBD V |
P-EIS-HETL-PS-KH1.7 | The nominal current of the magnets being powered shall be TBD A |
P-EIS-HETL-PS-KH1.8 | The minimum current the PS must operate at shall be TBD A |
P-EIS-HETL-PS-KH1.9 | The maximum current the PS must operate at shall be TBD A |
P-EIS-HETL-PS-KH1.10 | The PS current type shall be DC (DC or AC) |
P-EIS-HETL-PS-KH1.11 | < blank > |
P-EIS-HETL-PS-KH1.12 | The peak waveshape di/dt during ramping shall be TBD |
P-EIS-HETL-PS-KH1.13 | The full power bandwidth required shall be TBD |
P-EIS-HETL-PS-KH1.14 | The ppm of full scale current (peak to peak) shall be TBD % |
P-EIS-HETL-PS-KH1.15 | The time period for specified stability shall be TBD s |
P-EIS-HETL-PS-KH1.16 | The short term stability shall be TBD A/s |
P-EIS-HETL-PS-KH1.17 | The long term stability shall be TBD A/s |
P-EIS-HETL-PS-KH1.18 | The current setpoint resolution (min size in bits) shall be TBD bits |
P-EIS-HETL-PS-KH1.19 | The synchronization required between PS's shall be TBD s |
P-EIS-HETL-PS-KH1.20 | The synchronization timing of synchronization shall be TBD s |
P-EIS-HETL-PS-KH1.21 | The max allowable current ripple (peak to peak) TBD A |
P-EIS-HETL-PS-KH1.22 | The max current ripple frequency range (Hz) TBD Hz |
P-EIS-HETL-PS-KH1.23 | WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz |
P-EIS-HETL-PS-KH1.24 | The max voltage ripple (peak to peak) shall be TBD V |
P-EIS-HETL-PS-KH1.25 | An NMR shall be required to measure the field TBD A/s |
P-EIS-HETL-PS-KH1.26 | < blank > |
P-EIS-HETL-PS-KH1.27 | < blank > |
P-EIS-HETL-PS-KH1.28 | < blank > |
P-EIS-HETL-PS-KH1.29 | < blank > |
P-EIS-HETL-PS-KH1.30 | < blank > |
P-EIS-HETL-PS-KH1.31 | < blank > |
P-EIS-HETL-PS-KH1.32 | < blank > |
P-EIS-HETL-PS-KH1.33 | The current required to be shunted through the magnet shall be TBD |
P-EIS-HETL-PS-KH1.34 | The magnet turns ratio shall be TBD |
P-EIS-HETL-PS-KH1.35 | The terminal voltage shall be TBD V |
P-EIS-HETL-PS-KH1.36 | The design shall have thermal switches TBD |
P-EIS-HETL-PS-KH1.37 | The thermal switch connection numbers shall be TBD |
P-EIS-HETL-PS-KH1.38 | The design shall have water flow switches TBD |
P-EIS-HETL-PS-KH1.39 | The water flow switch connections numbers shall be TBD |
P-EIS-HETL-PS-KH1.40 | The design shall have access controls interlocks TBD |
P-EIS-HETL-PS-KH1.41 | The main terminals lug details shall be TBD |
P-EIS-HETL-PS-KH1.42 | The lead end indications shall be TBD |
P-EIS-HETL-PS-KH1.43 | The lugs details for thermal switch and water switches shall be TBD |
P-EIS-HETL-PS-KH1.44 | The lug details for the auxiliary windings shall be TBD |
P-EIS-HETL-PS-KH1.45 | The A/B terminal labeling details shall be TBD Draw id |
P-EIS-HETL-PS-KH1.46 | The magnet drawing with terminations details shall be TBD |
P-EIS-HETL-PS-KH1.47 | The magnet polarity connections shall be TBD |
P-EIS-HETL-PS-KV1.1 | The number of Independent functions on the magnets being powered shall be 1 |
P-EIS-HETL-PS-KV1.2 | The maximum magnet string resistance to be powered shall be TBD ohm |
P-EIS-HETL-PS-KV1.3 | The maximum magnet string inductance to be powered shall be TBD H |
P-EIS-HETL-PS-KV1.4 | The magnets being powered shall be saturated TBD Y/N |
P-EIS-HETL-PS-KV1.5 | < blank > |
P-EIS-HETL-PS-KV1.6 | The voltage to ground of the magnet being powered shall be TBD V |
P-EIS-HETL-PS-KV1.7 | The nominal current of the magnets being powered shall be TBD A |
P-EIS-HETL-PS-KV1.8 | The minimum current the PS must operate at shall be TBD A |
P-EIS-HETL-PS-KV1.9 | The maximum current the PS must operate at shall be TBD A |
P-EIS-HETL-PS-KV1.10 | The PS current type shall be DC (DC or AC) |
P-EIS-HETL-PS-KV1.11 | < blank > |
P-EIS-HETL-PS-KV1.12 | The peak waveshape di/dt during ramping shall be TBD |
P-EIS-HETL-PS-KV1.13 | The full power bandwidth required shall be TBD |
P-EIS-HETL-PS-KV1.14 | The ppm of full scale current (peak to peak) shall be TBD % |
P-EIS-HETL-PS-KV1.15 | The time period for specified stability shall be TBD s |
P-EIS-HETL-PS-KV1.16 | The short term stability shall be TBD A/s |
P-EIS-HETL-PS-KV1.17 | The long term stability shall be TBD A/s |
P-EIS-HETL-PS-KV1.18 | The current setpoint resolution (min size in bits) shall be TBD bits |
P-EIS-HETL-PS-KV1.19 | The synchronization required between PS's shall be TBD s |
P-EIS-HETL-PS-KV1.20 | The synchronization timing of synchronization shall be TBD s |
P-EIS-HETL-PS-KV1.21 | The max allowable current ripple (peak to peak) TBD A |
P-EIS-HETL-PS-KV1.22 | The max current ripple frequency range (Hz) TBD Hz |
P-EIS-HETL-PS-KV1.23 | WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz |
P-EIS-HETL-PS-KV1.24 | The max voltage ripple (peak to peak) shall be TBD V |
P-EIS-HETL-PS-KV1.25 | An NMR shall be required to measure the field TBD A/s |
P-EIS-HETL-PS-KV1.26 | < blank > |
P-EIS-HETL-PS-KV1.27 | < blank > |
P-EIS-HETL-PS-KV1.28 | < blank > |
P-EIS-HETL-PS-KV1.29 | < blank > |
P-EIS-HETL-PS-KV1.30 | < blank > |
P-EIS-HETL-PS-KV1.31 | < blank > |
P-EIS-HETL-PS-KV1.32 | < blank > |
P-EIS-HETL-PS-KV1.33 | The current required to be shunted through the magnet shall be TBD |
P-EIS-HETL-PS-KV1.34 | The magnet turns ratio shall be TBD |
P-EIS-HETL-PS-KV1.35 | The terminal voltage shall be TBD V |
P-EIS-HETL-PS-KV1.36 | The design shall have thermal switches TBD |
P-EIS-HETL-PS-KV1.37 | The thermal switch connection numbers shall be TBD |
P-EIS-HETL-PS-KV1.38 | The design shall have water flow switches TBD |
P-EIS-HETL-PS-KV1.39 | The water flow switch connections numbers shall be TBD |
P-EIS-HETL-PS-KV1.40 | The design shall have access controls interlocks TBD |
P-EIS-HETL-PS-KV1.41 | The main terminals lug details shall be TBD |
P-EIS-HETL-PS-KV1.42 | The lead end indications shall be TBD |
P-EIS-HETL-PS-KV1.43 | The lugs details for thermal switch and water switches shall be TBD |
P-EIS-HETL-PS-KV1.44 | The lug details for the auxiliary windings shall be TBD |
P-EIS-HETL-PS-KV1.45 | The A/B terminal labeling details shall be TBD Draw id |
P-EIS-HETL-PS-KV1.46 | The magnet drawing with terminations details shall be TBD |
P-EIS-HETL-PS-KV1.47 | The magnet polarity connections shall be TBD |
P-EIS-HETL-PS-Q1.1 | The number of Independent functions on the magnets being powered shall be 1 |
P-EIS-HETL-PS-Q1.2 | The maximum magnet string resistance to be powered shall be TBD ohm |
P-EIS-HETL-PS-Q1.3 | The maximum magnet string inductance to be powered shall be TBD H |
P-EIS-HETL-PS-Q1.4 | The magnets being powered shall be saturated TBD Y/N |
P-EIS-HETL-PS-Q1.5 | < blank > |
P-EIS-HETL-PS-Q1.6 | The voltage to ground of the magnet being powered shall be TBD V |
P-EIS-HETL-PS-Q1.7 | The nominal current of the magnets being powered shall be TBD A |
P-EIS-HETL-PS-Q1.8 | The minimum current the PS must operate at shall be TBD A |
P-EIS-HETL-PS-Q1.9 | The maximum current the PS must operate at shall be TBD A |
P-EIS-HETL-PS-Q1.10 | The PS current type shall be DC (DC or AC) |
P-EIS-HETL-PS-Q1.11 | < blank > |
P-EIS-HETL-PS-Q1.12 | The peak waveshape di/dt during ramping shall be TBD |
P-EIS-HETL-PS-Q1.13 | The full power bandwidth required shall be TBD |
P-EIS-HETL-PS-Q1.14 | The ppm of full scale current (peak to peak) shall be TBD % |
P-EIS-HETL-PS-Q1.15 | The time period for specified stability shall be TBD s |
P-EIS-HETL-PS-Q1.16 | The short term stability shall be TBD A/s |
P-EIS-HETL-PS-Q1.17 | The long term stability shall be TBD A/s |
P-EIS-HETL-PS-Q1.18 | The current setpoint resolution (min size in bits) shall be TBD bits |
P-EIS-HETL-PS-Q1.19 | The synchronization required between PS's shall be TBD s |
P-EIS-HETL-PS-Q1.20 | The synchronization timing of synchronization shall be TBD s |
P-EIS-HETL-PS-Q1.21 | The max allowable current ripple (peak to peak) TBD A |
P-EIS-HETL-PS-Q1.22 | The max current ripple frequency range (Hz) TBD Hz |
P-EIS-HETL-PS-Q1.23 | WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz |
P-EIS-HETL-PS-Q1.24 | The max voltage ripple (peak to peak) shall be TBD V |
P-EIS-HETL-PS-Q1.25 | An NMR shall be required to measure the field TBD A/s |
P-EIS-HETL-PS-Q1.26 | < blank > |
P-EIS-HETL-PS-Q1.27 | < blank > |
P-EIS-HETL-PS-Q1.28 | < blank > |
P-EIS-HETL-PS-Q1.29 | < blank > |
P-EIS-HETL-PS-Q1.30 | < blank > |
P-EIS-HETL-PS-Q1.31 | < blank > |
P-EIS-HETL-PS-Q1.32 | < blank > |
P-EIS-HETL-PS-Q1.33 | The current required to be shunted through the magnet shall be TBD |
P-EIS-HETL-PS-Q1.34 | The magnet turns ratio shall be TBD |
P-EIS-HETL-PS-Q1.35 | The terminal voltage shall be TBD V |
P-EIS-HETL-PS-Q1.36 | The design shall have thermal switches TBD |
P-EIS-HETL-PS-Q1.37 | The thermal switch connection numbers shall be TBD |
P-EIS-HETL-PS-Q1.38 | The design shall have water flow switches TBD |
P-EIS-HETL-PS-Q1.39 | The water flow switch connections numbers shall be TBD |
P-EIS-HETL-PS-Q1.40 | The design shall have access controls interlocks TBD |
P-EIS-HETL-PS-Q1.41 | The main terminals lug details shall be TBD |
P-EIS-HETL-PS-Q1.42 | The lead end indications shall be TBD |
P-EIS-HETL-PS-Q1.43 | The lugs details for thermal switch and water switches shall be TBD |
P-EIS-HETL-PS-Q1.44 | The lug details for the auxiliary windings shall be TBD |
P-EIS-HETL-PS-Q1.45 | The A/B terminal labeling details shall be TBD Draw id |
P-EIS-HETL-PS-Q1.46 | The magnet drawing with terminations details shall be TBD |
P-EIS-HETL-PS-Q1.47 | The magnet polarity connections shall be TBD |
P-EIS-HETL-PS-SEPT1.1 | The number of Independent functions on the magnets being powered shall be 1 |
P-EIS-HETL-PS-SEPT1.2 | The maximum magnet string resistance to be powered shall be TBD ohm |
P-EIS-HETL-PS-SEPT1.3 | The maximum magnet string inductance to be powered shall be TBD H |
P-EIS-HETL-PS-SEPT1.4 | The magnets being powered shall be saturated TBD Y/N |
P-EIS-HETL-PS-SEPT1.5 | < blank > |
P-EIS-HETL-PS-SEPT1.6 | The voltage to ground of the magnet being powered shall be TBD V |
P-EIS-HETL-PS-SEPT1.7 | The nominal current of the magnets being powered shall be TBD A |
P-EIS-HETL-PS-SEPT1.8 | The minimum current the PS must operate at shall be TBD A |
P-EIS-HETL-PS-SEPT1.9 | The maximum current the PS must operate at shall be TBD A |
P-EIS-HETL-PS-SEPT1.10 | The PS current type shall be DC (DC or AC) |
P-EIS-HETL-PS-SEPT1.11 | < blank > |
P-EIS-HETL-PS-SEPT1.12 | The peak waveshape di/dt during ramping shall be TBD |
P-EIS-HETL-PS-SEPT1.13 | The full power bandwidth required shall be TBD |
P-EIS-HETL-PS-SEPT1.14 | The ppm of full scale current (peak to peak) shall be TBD % |
P-EIS-HETL-PS-SEPT1.15 | The time period for specified stability shall be TBD s |
P-EIS-HETL-PS-SEPT1.16 | The short term stability shall be TBD A/s |
P-EIS-HETL-PS-SEPT1.17 | The long term stability shall be TBD A/s |
P-EIS-HETL-PS-SEPT1.18 | The current setpoint resolution (min size in bits) shall be TBD bits |
P-EIS-HETL-PS-SEPT1.19 | The synchronization required between PS's shall be TBD s |
P-EIS-HETL-PS-SEPT1.20 | The synchronization timing of synchronization shall be TBD s |
P-EIS-HETL-PS-SEPT1.21 | The max allowable current ripple (peak to peak) TBD A |
P-EIS-HETL-PS-SEPT1.22 | The max current ripple frequency range (Hz) TBD Hz |
P-EIS-HETL-PS-SEPT1.23 | WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz |
P-EIS-HETL-PS-SEPT1.24 | The max voltage ripple (peak to peak) shall be TBD V |
P-EIS-HETL-PS-SEPT1.25 | An NMR shall be required to measure the field TBD A/s |
P-EIS-HETL-PS-SEPT1.26 | < blank > |
P-EIS-HETL-PS-SEPT1.27 | < blank > |
P-EIS-HETL-PS-SEPT1.28 | < blank > |
P-EIS-HETL-PS-SEPT1.29 | < blank > |
P-EIS-HETL-PS-SEPT1.30 | < blank > |
P-EIS-HETL-PS-SEPT1.31 | < blank > |
P-EIS-HETL-PS-SEPT1.32 | < blank > |
P-EIS-HETL-PS-SEPT1.33 | The current required to be shunted through the magnet shall be TBD |
P-EIS-HETL-PS-SEPT1.34 | The magnet turns ratio shall be TBD |
P-EIS-HETL-PS-SEPT1.35 | The terminal voltage shall be TBD V |
P-EIS-HETL-PS-SEPT1.36 | The design shall have thermal switches TBD |
P-EIS-HETL-PS-SEPT1.37 | The thermal switch connection numbers shall be TBD |
P-EIS-HETL-PS-SEPT1.38 | The design shall have water flow switches TBD |
P-EIS-HETL-PS-SEPT1.39 | The water flow switch connections numbers shall be TBD |
P-EIS-HETL-PS-SEPT1.40 | The design shall have access controls interlocks TBD |
P-EIS-HETL-PS-SEPT1.41 | The main terminals lug details shall be TBD |
P-EIS-HETL-PS-SEPT1.42 | The lead end indications shall be TBD |
P-EIS-HETL-PS-SEPT1.43 | The lugs details for thermal switch and water switches shall be TBD |
P-EIS-HETL-PS-SEPT1.44 | The lug details for the auxiliary windings shall be TBD |
P-EIS-HETL-PS-SEPT1.45 | The A/B terminal labeling details shall be TBD Draw id |
P-EIS-HETL-PS-SEPT1.46 | The magnet drawing with terminations details shall be TBD |
P-EIS-HETL-PS-SEPT1.47 | The magnet polarity connections shall be TBD |
P-EIS-HETL-PS-SEPT2.1 | The number of Independent functions on the magnets being powered shall be 1 |
P-EIS-HETL-PS-SEPT2.2 | The maximum magnet string resistance to be powered shall be TBD ohm |
P-EIS-HETL-PS-SEPT2.3 | The maximum magnet string inductance to be powered shall be TBD H |
P-EIS-HETL-PS-SEPT2.4 | The magnets being powered shall be saturated TBD Y/N |
P-EIS-HETL-PS-SEPT2.5 | < blank > |
P-EIS-HETL-PS-SEPT2.6 | The voltage to ground of the magnet being powered shall be TBD V |
P-EIS-HETL-PS-SEPT2.7 | The nominal current of the magnets being powered shall be TBD A |
P-EIS-HETL-PS-SEPT2.8 | The minimum current the PS must operate at shall be TBD A |
P-EIS-HETL-PS-SEPT2.9 | The maximum current the PS must operate at shall be TBD A |
P-EIS-HETL-PS-SEPT2.10 | The PS current type shall be DC (DC or AC) |
P-EIS-HETL-PS-SEPT2.11 | < blank > |
P-EIS-HETL-PS-SEPT2.12 | The peak waveshape di/dt during ramping shall be TBD |
P-EIS-HETL-PS-SEPT2.13 | The full power bandwidth required shall be TBD |
P-EIS-HETL-PS-SEPT2.14 | The ppm of full scale current (peak to peak) shall be TBD % |
P-EIS-HETL-PS-SEPT2.15 | The time period for specified stability shall be TBD s |
P-EIS-HETL-PS-SEPT2.16 | The short term stability shall be TBD A/s |
P-EIS-HETL-PS-SEPT2.17 | The long term stability shall be TBD A/s |
P-EIS-HETL-PS-SEPT2.18 | The current setpoint resolution (min size in bits) shall be TBD bits |
P-EIS-HETL-PS-SEPT2.19 | The synchronization required between PS's shall be TBD s |
P-EIS-HETL-PS-SEPT2.20 | The synchronization timing of synchronization shall be TBD s |
P-EIS-HETL-PS-SEPT2.21 | The max allowable current ripple (peak to peak) TBD A |
P-EIS-HETL-PS-SEPT2.22 | The max current ripple frequency range (Hz) TBD Hz |
P-EIS-HETL-PS-SEPT2.23 | WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz |
P-EIS-HETL-PS-SEPT2.24 | The max voltage ripple (peak to peak) shall be TBD V |
P-EIS-HETL-PS-SEPT2.25 | An NMR shall be required to measure the field TBD A/s |
P-EIS-HETL-PS-SEPT2.26 | < blank > |
P-EIS-HETL-PS-SEPT2.27 | < blank > |
P-EIS-HETL-PS-SEPT2.28 | < blank > |
P-EIS-HETL-PS-SEPT2.29 | < blank > |
P-EIS-HETL-PS-SEPT2.30 | < blank > |
P-EIS-HETL-PS-SEPT2.31 | < blank > |
P-EIS-HETL-PS-SEPT2.32 | < blank > |
P-EIS-HETL-PS-SEPT2.33 | The current required to be shunted through the magnet shall be TBD |
P-EIS-HETL-PS-SEPT2.34 | The magnet turns ratio shall be TBD |
P-EIS-HETL-PS-SEPT2.35 | The terminal voltage shall be TBD V |
P-EIS-HETL-PS-SEPT2.36 | The design shall have thermal switches TBD |
P-EIS-HETL-PS-SEPT2.37 | The thermal switch connection numbers shall be TBD |
P-EIS-HETL-PS-SEPT2.38 | The design shall have water flow switches TBD |
P-EIS-HETL-PS-SEPT2.39 | The water flow switch connections numbers shall be TBD |
P-EIS-HETL-PS-SEPT2.40 | The design shall have access controls interlocks TBD |
P-EIS-HETL-PS-SEPT2.41 | The main terminals lug details shall be TBD |
P-EIS-HETL-PS-SEPT2.42 | The lead end indications shall be TBD |
P-EIS-HETL-PS-SEPT2.43 | The lugs details for thermal switch and water switches shall be TBD |
P-EIS-HETL-PS-SEPT2.44 | The lug details for the auxiliary windings shall be TBD |
P-EIS-HETL-PS-SEPT2.45 | The A/B terminal labeling details shall be TBD Draw id |
P-EIS-HETL-PS-SEPT2.46 | The magnet drawing with terminations details shall be TBD |
P-EIS-HETL-PS-SEPT2.47 | The magnet polarity connections shall be TBD |
P-EIS-METL-MAG-DH1.1 | The number of magnet functions shall be 1 |
P-EIS-METL-MAG-DH1.2 | The field type shall be Di (Di,Qu,Sx,Oc,De,Do,Sol,Ki,Hk,Vk,Se) |
P-EIS-METL-MAG-DH1.3 | The field direction shall be V (V=vertical,H=horizontal,Z=beam direction ) |
P-EIS-METL-MAG-DH1.4 | < blank > |
P-EIS-METL-MAG-DH1.5 | < blank > |
P-EIS-METL-MAG-DH1.6 | The min gap shall be 32 m |
P-EIS-METL-MAG-DH1.7 | The good field aperture drx required shall be TBD m |
P-EIS-METL-MAG-DH1.8 | The good field aperture dry required shall be TBD m |
P-EIS-METL-MAG-DH1.9 | The mag length shall be <0.825 m |
P-EIS-METL-MAG-DH1.10 | The eff Length shall be 0.825 m |
P-EIS-METL-MAG-DH1.11 | The dipole field B shall be 1.399 T |
P-EIS-METL-MAG-DH1.12 | < blank > |
P-EIS-METL-MAG-DH1.13 | < blank > |
P-EIS-METL-MAG-DH1.14 | The field stability shall be TBD T/s |
P-EIS-METL-MAG-DH1.15 | The harmonic reference Radius and current shall be Ir=TBD[A]\Rr=16[mm] (mm,A) |
P-EIS-METL-MAG-DH1.16 | The Field at the reference radius and current shall be Bref=TBD (T) |
P-EIS-METL-MAG-DH1.17 | |
P-EIS-METL-MAG-DH1.18 | The Bore multipole content shall have a 1st order of TBD (10^-4) |
P-EIS-METL-MAG-DH1.19 | The Bore multipole content shall have a 2nd order of TBD (10^-4) |
P-EIS-METL-MAG-DH1.20 | The Bore multipole content shall have a 3rd order of TBD (10^-4) |
P-EIS-METL-MAG-DH1.21 | The Bore multipole content shall have a 4th order of TBD (10^-4) |
P-EIS-METL-MAG-DH1.22 | The Bore multipole content shall have a 5th order of TBD (10^-4) |
P-EIS-METL-MAG-DH1.23 | The Bore multipole content shall have a 6th order of TBD (10^-4) |
P-EIS-METL-MAG-DH1.24 | The Bore multipole content shall have a 7th order of TBD (10^-4) |
P-EIS-METL-MAG-DH1.25 | The Bore multipole content shall have a 8th order of TBD (10^-4) |
P-EIS-METL-MAG-DH1.26 | The Bore multipole content shall have a 9th order of TBD (10^-4) |
P-EIS-METL-MAG-DH1.27 | The Bore multipole content shall have a 10th order of TBD (10^-4) |
P-EIS-METL-MAG-DH1.28 | The Bore multipole content shall have a 11th order of TBD (10^-4) |
P-EIS-METL-MAG-DH1.29 | The Bore multipole content shall have a 12th order of TBD (10^-4) |
P-EIS-METL-MAG-DH1.30 | The Bore multipole content shall have a 13th order of TBD (10^-4) |
P-EIS-METL-MAG-DH1.31 | The Bore multipole content shall have a 14th order of TBD (10^-4) |
P-EIS-METL-MAG-DH1.32 | The Bore multipole content shall have a 15th order of TBD (10^-4) |
P-EIS-METL-MAG-DH1.33 | The Bore multipole content shall have a 16th order of TBD (10^-4) |
P-EIS-METL-MAG-DH1.34 | The magnet shall not be designed to limit Xtalk Requirements |
P-EIS-METL-MAG-DH1.35 | < blank > |
P-EIS-METL-MAG-DH1.36 | < blank > |
P-EIS-METL-MAG-DH1.37 | < blank > |
P-EIS-METL-MAG-DH1.38 | < blank > |
P-EIS-METL-MAG-DH1.39 | < blank > |
P-EIS-METL-MAG-DH1.40 | < blank > |
P-EIS-METL-MAG-DH1.41 | < blank > |
P-EIS-METL-MAG-DH1.42 | < blank > |
P-EIS-METL-MAG-DH1.43 | < blank > |
P-EIS-METL-MAG-DH1.44 | < blank > |
P-EIS-METL-MAG-DH1.45 | < blank > |
P-EIS-METL-MAG-DH1.46 | < blank > |
P-EIS-METL-MAG-DH1.47 | < blank > |
P-EIS-METL-MAG-DH1.48 | < blank > |
P-EIS-METL-MAG-DH1.49 | < blank > |
P-EIS-METL-MAG-DH1.50 | < blank > |
P-EIS-METL-MAG-DH1.51 | < blank > |
P-EIS-METL-MAG-DH1.52 | < blank > |
P-EIS-METL-MAG-DH1.53 | < blank > |
P-EIS-METL-MAG-DH1.54 | < blank > |
P-EIS-METL-MAG-DH1.55 | < blank > |
P-EIS-METL-MAG-DH1.56 | < blank > |
P-EIS-METL-MAG-DH2.1 | The number of magnet functions shall be 1 |
P-EIS-METL-MAG-DH2.2 | The field type shall be Di (Di,Qu,Sx,Oc,De,Do,Sol,Ki,Hk,Vk,Se) |
P-EIS-METL-MAG-DH2.3 | The field direction shall be V (V=vertical,H=horizontal,Z=beam direction ) |
P-EIS-METL-MAG-DH2.4 | < blank > |
P-EIS-METL-MAG-DH2.5 | < blank > |
P-EIS-METL-MAG-DH2.6 | The min gap shall be 32 m |
P-EIS-METL-MAG-DH2.7 | The good field aperture drx required shall be TBD m |
P-EIS-METL-MAG-DH2.8 | The good field aperture dry required shall be TBD m |
P-EIS-METL-MAG-DH2.9 | The mag length shall be <0.5455 m |
P-EIS-METL-MAG-DH2.10 | The eff Length shall be 0.5455 m |
P-EIS-METL-MAG-DH2.11 | The dipole field B shall be 1.298 T |
P-EIS-METL-MAG-DH2.12 | < blank > |
P-EIS-METL-MAG-DH2.13 | < blank > |
P-EIS-METL-MAG-DH2.14 | The field stability shall be TBD T/s |
P-EIS-METL-MAG-DH2.15 | The harmonic reference Radius and current shall be Ir=TBD[A]\Rr=16[mm] (mm,A) |
P-EIS-METL-MAG-DH2.16 | The Field at the reference radius and current shall be Bref=TBD (T) |
P-EIS-METL-MAG-DH2.17 | |
P-EIS-METL-MAG-DH2.18 | The Bore multipole content shall have a 1st order of TBD (10^-4) |
P-EIS-METL-MAG-DH2.19 | The Bore multipole content shall have a 2nd order of TBD (10^-4) |
P-EIS-METL-MAG-DH2.20 | The Bore multipole content shall have a 3rd order of TBD (10^-4) |
P-EIS-METL-MAG-DH2.21 | The Bore multipole content shall have a 4th order of TBD (10^-4) |
P-EIS-METL-MAG-DH2.22 | The Bore multipole content shall have a 5th order of TBD (10^-4) |
P-EIS-METL-MAG-DH2.23 | The Bore multipole content shall have a 6th order of TBD (10^-4) |
P-EIS-METL-MAG-DH2.24 | The Bore multipole content shall have a 7th order of TBD (10^-4) |
P-EIS-METL-MAG-DH2.25 | The Bore multipole content shall have a 8th order of TBD (10^-4) |
P-EIS-METL-MAG-DH2.26 | The Bore multipole content shall have a 9th order of TBD (10^-4) |
P-EIS-METL-MAG-DH2.27 | The Bore multipole content shall have a 10th order of TBD (10^-4) |
P-EIS-METL-MAG-DH2.28 | The Bore multipole content shall have a 11th order of TBD (10^-4) |
P-EIS-METL-MAG-DH2.29 | The Bore multipole content shall have a 12th order of TBD (10^-4) |
P-EIS-METL-MAG-DH2.30 | The Bore multipole content shall have a 13th order of TBD (10^-4) |
P-EIS-METL-MAG-DH2.31 | The Bore multipole content shall have a 14th order of TBD (10^-4) |
P-EIS-METL-MAG-DH2.32 | The Bore multipole content shall have a 15th order of TBD (10^-4) |
P-EIS-METL-MAG-DH2.33 | The Bore multipole content shall have a 16th order of TBD (10^-4) |
P-EIS-METL-MAG-DH2.34 | The magnet shall not be designed to limit Xtalk Requirements |
P-EIS-METL-MAG-DH2.35 | < blank > |
P-EIS-METL-MAG-DH2.36 | < blank > |
P-EIS-METL-MAG-DH2.37 | < blank > |
P-EIS-METL-MAG-DH2.38 | < blank > |
P-EIS-METL-MAG-DH2.39 | < blank > |
P-EIS-METL-MAG-DH2.40 | < blank > |
P-EIS-METL-MAG-DH2.41 | < blank > |
P-EIS-METL-MAG-DH2.42 | < blank > |
P-EIS-METL-MAG-DH2.43 | < blank > |
P-EIS-METL-MAG-DH2.44 | < blank > |
P-EIS-METL-MAG-DH2.45 | < blank > |
P-EIS-METL-MAG-DH2.46 | < blank > |
P-EIS-METL-MAG-DH2.47 | < blank > |
P-EIS-METL-MAG-DH2.48 | < blank > |
P-EIS-METL-MAG-DH2.49 | < blank > |
P-EIS-METL-MAG-DH2.50 | < blank > |
P-EIS-METL-MAG-DH2.51 | < blank > |
P-EIS-METL-MAG-DH2.52 | < blank > |
P-EIS-METL-MAG-DH2.53 | < blank > |
P-EIS-METL-MAG-DH2.54 | < blank > |
P-EIS-METL-MAG-DH2.55 | < blank > |
P-EIS-METL-MAG-DH2.56 | < blank > |
P-EIS-METL-MAG-DH3.1 | The number of magnet functions shall be 1 |
P-EIS-METL-MAG-DH3.2 | The field type shall be Di (Di,Qu,Sx,Oc,De,Do,Sol,Ki,Hk,Vk,Se) |
P-EIS-METL-MAG-DH3.3 | The field direction shall be V (V=vertical,H=horizontal,Z=beam direction ) |
P-EIS-METL-MAG-DH3.4 | < blank > |
P-EIS-METL-MAG-DH3.5 | < blank > |
P-EIS-METL-MAG-DH3.6 | The min gap shall be 32 m |
P-EIS-METL-MAG-DH3.7 | The good field aperture drx required shall be TBD m |
P-EIS-METL-MAG-DH3.8 | The good field aperture dry required shall be TBD m |
P-EIS-METL-MAG-DH3.9 | The mag length shall be <0.117 m |
P-EIS-METL-MAG-DH3.10 | The eff Length shall be 0.117 m |
P-EIS-METL-MAG-DH3.11 | The dipole field B shall be 0.881 T |
P-EIS-METL-MAG-DH3.12 | < blank > |
P-EIS-METL-MAG-DH3.13 | < blank > |
P-EIS-METL-MAG-DH3.14 | The field stability shall be TBD T/s |
P-EIS-METL-MAG-DH3.15 | The harmonic reference Radius and current shall be Ir=TBD[A]\Rr=16[mm] (mm,A) |
P-EIS-METL-MAG-DH3.16 | The Field at the reference radius and current shall be Bref=TBD (T) |
P-EIS-METL-MAG-DH3.17 | |
P-EIS-METL-MAG-DH3.18 | The Bore multipole content shall have a 1st order of TBD (10^-4) |
P-EIS-METL-MAG-DH3.19 | The Bore multipole content shall have a 2nd order of TBD (10^-4) |
P-EIS-METL-MAG-DH3.20 | The Bore multipole content shall have a 3rd order of TBD (10^-4) |
P-EIS-METL-MAG-DH3.21 | The Bore multipole content shall have a 4th order of TBD (10^-4) |
P-EIS-METL-MAG-DH3.22 | The Bore multipole content shall have a 5th order of TBD (10^-4) |
P-EIS-METL-MAG-DH3.23 | The Bore multipole content shall have a 6th order of TBD (10^-4) |
P-EIS-METL-MAG-DH3.24 | The Bore multipole content shall have a 7th order of TBD (10^-4) |
P-EIS-METL-MAG-DH3.25 | The Bore multipole content shall have a 8th order of TBD (10^-4) |
P-EIS-METL-MAG-DH3.26 | The Bore multipole content shall have a 9th order of TBD (10^-4) |
P-EIS-METL-MAG-DH3.27 | The Bore multipole content shall have a 10th order of TBD (10^-4) |
P-EIS-METL-MAG-DH3.28 | The Bore multipole content shall have a 11th order of TBD (10^-4) |
P-EIS-METL-MAG-DH3.29 | The Bore multipole content shall have a 12th order of TBD (10^-4) |
P-EIS-METL-MAG-DH3.30 | The Bore multipole content shall have a 13th order of TBD (10^-4) |
P-EIS-METL-MAG-DH3.31 | The Bore multipole content shall have a 14th order of TBD (10^-4) |
P-EIS-METL-MAG-DH3.32 | The Bore multipole content shall have a 15th order of TBD (10^-4) |
P-EIS-METL-MAG-DH3.33 | The Bore multipole content shall have a 16th order of TBD (10^-4) |
P-EIS-METL-MAG-DH3.34 | The magnet shall not be designed to limit Xtalk Requirements |
P-EIS-METL-MAG-DH3.35 | < blank > |
P-EIS-METL-MAG-DH3.36 | < blank > |
P-EIS-METL-MAG-DH3.37 | < blank > |
P-EIS-METL-MAG-DH3.38 | < blank > |
P-EIS-METL-MAG-DH3.39 | < blank > |
P-EIS-METL-MAG-DH3.40 | < blank > |
P-EIS-METL-MAG-DH3.41 | < blank > |
P-EIS-METL-MAG-DH3.42 | < blank > |
P-EIS-METL-MAG-DH3.43 | < blank > |
P-EIS-METL-MAG-DH3.44 | < blank > |
P-EIS-METL-MAG-DH3.45 | < blank > |
P-EIS-METL-MAG-DH3.46 | < blank > |
P-EIS-METL-MAG-DH3.47 | < blank > |
P-EIS-METL-MAG-DH3.48 | < blank > |
P-EIS-METL-MAG-DH3.49 | < blank > |
P-EIS-METL-MAG-DH3.50 | < blank > |
P-EIS-METL-MAG-DH3.51 | < blank > |
P-EIS-METL-MAG-DH3.52 | < blank > |
P-EIS-METL-MAG-DH3.53 | < blank > |
P-EIS-METL-MAG-DH3.54 | < blank > |
P-EIS-METL-MAG-DH3.55 | < blank > |
P-EIS-METL-MAG-DH3.56 | < blank > |
P-EIS-METL-MAG-DV1.1 | The number of magnet functions shall be 1 |
P-EIS-METL-MAG-DV1.2 | The field type shall be Di (Di,Qu,Sx,Oc,De,Do,Sol,Ki,Hk,Vk,Se) |
P-EIS-METL-MAG-DV1.3 | The field direction shall be V (V=vertical,H=horizontal,Z=beam direction ) |
P-EIS-METL-MAG-DV1.4 | < blank > |
P-EIS-METL-MAG-DV1.5 | < blank > |
P-EIS-METL-MAG-DV1.6 | The min gap shall be 32 m |
P-EIS-METL-MAG-DV1.7 | The good field aperture drx required shall be TBD m |
P-EIS-METL-MAG-DV1.8 | The good field aperture dry required shall be TBD m |
P-EIS-METL-MAG-DV1.9 | The mag length shall be <1 m |
P-EIS-METL-MAG-DV1.10 | The eff Length shall be 1 m |
P-EIS-METL-MAG-DV1.11 | The dipole field B shall be 0.061 T |
P-EIS-METL-MAG-DV1.12 | < blank > |
P-EIS-METL-MAG-DV1.13 | < blank > |
P-EIS-METL-MAG-DV1.14 | The field stability shall be TBD T/s |
P-EIS-METL-MAG-DV1.15 | The harmonic reference Radius and current shall be Ir=TBD[A]\Rr=16[mm] (mm,A) |
P-EIS-METL-MAG-DV1.16 | The Field at the reference radius and current shall be Bref=TBD (T) |
P-EIS-METL-MAG-DV1.17 | |
P-EIS-METL-MAG-DV1.18 | The Bore multipole content shall have a 1st order of TBD (10^-4) |
P-EIS-METL-MAG-DV1.19 | The Bore multipole content shall have a 2nd order of TBD (10^-4) |
P-EIS-METL-MAG-DV1.20 | The Bore multipole content shall have a 3rd order of TBD (10^-4) |
P-EIS-METL-MAG-DV1.21 | The Bore multipole content shall have a 4th order of TBD (10^-4) |
P-EIS-METL-MAG-DV1.22 | The Bore multipole content shall have a 5th order of TBD (10^-4) |
P-EIS-METL-MAG-DV1.23 | The Bore multipole content shall have a 6th order of TBD (10^-4) |
P-EIS-METL-MAG-DV1.24 | The Bore multipole content shall have a 7th order of TBD (10^-4) |
P-EIS-METL-MAG-DV1.25 | The Bore multipole content shall have a 8th order of TBD (10^-4) |
P-EIS-METL-MAG-DV1.26 | The Bore multipole content shall have a 9th order of TBD (10^-4) |
P-EIS-METL-MAG-DV1.27 | The Bore multipole content shall have a 10th order of TBD (10^-4) |
P-EIS-METL-MAG-DV1.28 | The Bore multipole content shall have a 11th order of TBD (10^-4) |
P-EIS-METL-MAG-DV1.29 | The Bore multipole content shall have a 12th order of TBD (10^-4) |
P-EIS-METL-MAG-DV1.30 | The Bore multipole content shall have a 13th order of TBD (10^-4) |
P-EIS-METL-MAG-DV1.31 | The Bore multipole content shall have a 14th order of TBD (10^-4) |
P-EIS-METL-MAG-DV1.32 | The Bore multipole content shall have a 15th order of TBD (10^-4) |
P-EIS-METL-MAG-DV1.33 | The Bore multipole content shall have a 16th order of TBD (10^-4) |
P-EIS-METL-MAG-DV1.34 | The magnet shall not be designed to limit Xtalk Requirements |
P-EIS-METL-MAG-DV1.35 | < blank > |
P-EIS-METL-MAG-DV1.36 | < blank > |
P-EIS-METL-MAG-DV1.37 | < blank > |
P-EIS-METL-MAG-DV1.38 | < blank > |
P-EIS-METL-MAG-DV1.39 | < blank > |
P-EIS-METL-MAG-DV1.40 | < blank > |
P-EIS-METL-MAG-DV1.41 | < blank > |
P-EIS-METL-MAG-DV1.42 | < blank > |
P-EIS-METL-MAG-DV1.43 | < blank > |
P-EIS-METL-MAG-DV1.44 | < blank > |
P-EIS-METL-MAG-DV1.45 | < blank > |
P-EIS-METL-MAG-DV1.46 | < blank > |
P-EIS-METL-MAG-DV1.47 | < blank > |
P-EIS-METL-MAG-DV1.48 | < blank > |
P-EIS-METL-MAG-DV1.49 | < blank > |
P-EIS-METL-MAG-DV1.50 | < blank > |
P-EIS-METL-MAG-DV1.51 | < blank > |
P-EIS-METL-MAG-DV1.52 | < blank > |
P-EIS-METL-MAG-DV1.53 | < blank > |
P-EIS-METL-MAG-DV1.54 | < blank > |
P-EIS-METL-MAG-DV1.55 | < blank > |
P-EIS-METL-MAG-DV1.56 | < blank > |
P-EIS-METL-MAG-KH1.1 | The number of magnet functions shall be 1 |
P-EIS-METL-MAG-KH1.2 | The field type shall be Di (Di,Qu,Sx,Oc,De,Do,Sol,Ki,Hk,Vk,Se) |
P-EIS-METL-MAG-KH1.3 | The field direction shall be V (V=vertical,H=horizontal,Z=beam direction ) |
P-EIS-METL-MAG-KH1.4 | < blank > |
P-EIS-METL-MAG-KH1.5 | < blank > |
P-EIS-METL-MAG-KH1.6 | The min gap shall be 32 m |
P-EIS-METL-MAG-KH1.7 | The good field aperture drx required shall be TBD m |
P-EIS-METL-MAG-KH1.8 | The good field aperture dry required shall be TBD m |
P-EIS-METL-MAG-KH1.9 | The mag length shall be <0.1 m |
P-EIS-METL-MAG-KH1.10 | The eff Length shall be 0.1 m |
P-EIS-METL-MAG-KH1.11 | The dipole field B shall be 0.002 T |
P-EIS-METL-MAG-KH1.12 | < blank > |
P-EIS-METL-MAG-KH1.13 | < blank > |
P-EIS-METL-MAG-KH1.14 | The field stability shall be TBD T/s |
P-EIS-METL-MAG-KH1.15 | The harmonic reference Radius and current shall be Ir=TBD[A]\Rr=16[mm] (mm,A) |
P-EIS-METL-MAG-KH1.16 | The Field at the reference radius and current shall be Bref=TBD (T) |
P-EIS-METL-MAG-KH1.17 | |
P-EIS-METL-MAG-KH1.18 | The Bore multipole content shall have a 1st order of TBD (10^-4) |
P-EIS-METL-MAG-KH1.19 | The Bore multipole content shall have a 2nd order of TBD (10^-4) |
P-EIS-METL-MAG-KH1.20 | The Bore multipole content shall have a 3rd order of TBD (10^-4) |
P-EIS-METL-MAG-KH1.21 | The Bore multipole content shall have a 4th order of TBD (10^-4) |
P-EIS-METL-MAG-KH1.22 | The Bore multipole content shall have a 5th order of TBD (10^-4) |
P-EIS-METL-MAG-KH1.23 | The Bore multipole content shall have a 6th order of TBD (10^-4) |
P-EIS-METL-MAG-KH1.24 | The Bore multipole content shall have a 7th order of TBD (10^-4) |
P-EIS-METL-MAG-KH1.25 | The Bore multipole content shall have a 8th order of TBD (10^-4) |
P-EIS-METL-MAG-KH1.26 | The Bore multipole content shall have a 9th order of TBD (10^-4) |
P-EIS-METL-MAG-KH1.27 | The Bore multipole content shall have a 10th order of TBD (10^-4) |
P-EIS-METL-MAG-KH1.28 | The Bore multipole content shall have a 11th order of TBD (10^-4) |
P-EIS-METL-MAG-KH1.29 | The Bore multipole content shall have a 12th order of TBD (10^-4) |
P-EIS-METL-MAG-KH1.30 | The Bore multipole content shall have a 13th order of TBD (10^-4) |
P-EIS-METL-MAG-KH1.31 | The Bore multipole content shall have a 14th order of TBD (10^-4) |
P-EIS-METL-MAG-KH1.32 | The Bore multipole content shall have a 15th order of TBD (10^-4) |
P-EIS-METL-MAG-KH1.33 | The Bore multipole content shall have a 16th order of TBD (10^-4) |
P-EIS-METL-MAG-KH1.34 | The magnet shall not be designed to limit Xtalk Requirements |
P-EIS-METL-MAG-KH1.35 | < blank > |
P-EIS-METL-MAG-KH1.36 | < blank > |
P-EIS-METL-MAG-KH1.37 | < blank > |
P-EIS-METL-MAG-KH1.38 | < blank > |
P-EIS-METL-MAG-KH1.39 | < blank > |
P-EIS-METL-MAG-KH1.40 | < blank > |
P-EIS-METL-MAG-KH1.41 | < blank > |
P-EIS-METL-MAG-KH1.42 | < blank > |
P-EIS-METL-MAG-KH1.43 | < blank > |
P-EIS-METL-MAG-KH1.44 | < blank > |
P-EIS-METL-MAG-KH1.45 | < blank > |
P-EIS-METL-MAG-KH1.46 | < blank > |
P-EIS-METL-MAG-KH1.47 | < blank > |
P-EIS-METL-MAG-KH1.48 | < blank > |
P-EIS-METL-MAG-KH1.49 | < blank > |
P-EIS-METL-MAG-KH1.50 | < blank > |
P-EIS-METL-MAG-KH1.51 | < blank > |
P-EIS-METL-MAG-KH1.52 | < blank > |
P-EIS-METL-MAG-KH1.53 | < blank > |
P-EIS-METL-MAG-KH1.54 | < blank > |
P-EIS-METL-MAG-KH1.55 | < blank > |
P-EIS-METL-MAG-KH1.56 | < blank > |
P-EIS-METL-MAG-KV1.1 | The number of magnet functions shall be 1 |
P-EIS-METL-MAG-KV1.2 | The field type shall be Di (Di,Qu,Sx,Oc,De,Do,Sol,Ki,Hk,Vk,Se) |
P-EIS-METL-MAG-KV1.3 | The field direction shall be H (V=vertical,H=horizontal,Z=beam direction ) |
P-EIS-METL-MAG-KV1.4 | < blank > |
P-EIS-METL-MAG-KV1.5 | < blank > |
P-EIS-METL-MAG-KV1.6 | The min gap shall be 16 m |
P-EIS-METL-MAG-KV1.7 | The good field aperture drx required shall be TBD m |
P-EIS-METL-MAG-KV1.8 | The good field aperture dry required shall be TBD m |
P-EIS-METL-MAG-KV1.9 | The mag length shall be <0.1 m |
P-EIS-METL-MAG-KV1.10 | The eff Length shall be 0.1 m |
P-EIS-METL-MAG-KV1.11 | The dipole field B shall be 0.002 T |
P-EIS-METL-MAG-KV1.12 | < blank > |
P-EIS-METL-MAG-KV1.13 | < blank > |
P-EIS-METL-MAG-KV1.14 | The field stability shall be TBD T/s |
P-EIS-METL-MAG-KV1.15 | The harmonic reference Radius and current shall be Ir=TBD[A]\Rr=16[mm] (mm,A) |
P-EIS-METL-MAG-KV1.16 | The Field at the reference radius and current shall be Bref=TBD (T) |
P-EIS-METL-MAG-KV1.17 | |
P-EIS-METL-MAG-KV1.18 | The Bore multipole content shall have a 1st order of TBD (10^-4) |
P-EIS-METL-MAG-KV1.19 | The Bore multipole content shall have a 2nd order of TBD (10^-4) |
P-EIS-METL-MAG-KV1.20 | The Bore multipole content shall have a 3rd order of TBD (10^-4) |
P-EIS-METL-MAG-KV1.21 | The Bore multipole content shall have a 4th order of TBD (10^-4) |
P-EIS-METL-MAG-KV1.22 | The Bore multipole content shall have a 5th order of TBD (10^-4) |
P-EIS-METL-MAG-KV1.23 | The Bore multipole content shall have a 6th order of TBD (10^-4) |
P-EIS-METL-MAG-KV1.24 | The Bore multipole content shall have a 7th order of TBD (10^-4) |
P-EIS-METL-MAG-KV1.25 | The Bore multipole content shall have a 8th order of TBD (10^-4) |
P-EIS-METL-MAG-KV1.26 | The Bore multipole content shall have a 9th order of TBD (10^-4) |
P-EIS-METL-MAG-KV1.27 | The Bore multipole content shall have a 10th order of TBD (10^-4) |
P-EIS-METL-MAG-KV1.28 | The Bore multipole content shall have a 11th order of TBD (10^-4) |
P-EIS-METL-MAG-KV1.29 | The Bore multipole content shall have a 12th order of TBD (10^-4) |
P-EIS-METL-MAG-KV1.30 | The Bore multipole content shall have a 13th order of TBD (10^-4) |
P-EIS-METL-MAG-KV1.31 | The Bore multipole content shall have a 14th order of TBD (10^-4) |
P-EIS-METL-MAG-KV1.32 | The Bore multipole content shall have a 15th order of TBD (10^-4) |
P-EIS-METL-MAG-KV1.33 | The Bore multipole content shall have a 16th order of TBD (10^-4) |
P-EIS-METL-MAG-KV1.34 | The magnet shall not be designed to limit Xtalk Requirements |
P-EIS-METL-MAG-KV1.35 | < blank > |
P-EIS-METL-MAG-KV1.36 | < blank > |
P-EIS-METL-MAG-KV1.37 | < blank > |
P-EIS-METL-MAG-KV1.38 | < blank > |
P-EIS-METL-MAG-KV1.39 | < blank > |
P-EIS-METL-MAG-KV1.40 | < blank > |
P-EIS-METL-MAG-KV1.41 | < blank > |
P-EIS-METL-MAG-KV1.42 | < blank > |
P-EIS-METL-MAG-KV1.43 | < blank > |
P-EIS-METL-MAG-KV1.44 | < blank > |
P-EIS-METL-MAG-KV1.45 | < blank > |
P-EIS-METL-MAG-KV1.46 | < blank > |
P-EIS-METL-MAG-KV1.47 | < blank > |
P-EIS-METL-MAG-KV1.48 | < blank > |
P-EIS-METL-MAG-KV1.49 | < blank > |
P-EIS-METL-MAG-KV1.50 | < blank > |
P-EIS-METL-MAG-KV1.51 | < blank > |
P-EIS-METL-MAG-KV1.52 | < blank > |
P-EIS-METL-MAG-KV1.53 | < blank > |
P-EIS-METL-MAG-KV1.54 | < blank > |
P-EIS-METL-MAG-KV1.55 | < blank > |
P-EIS-METL-MAG-KV1.56 | < blank > |
P-EIS-METL-MAG-Q1.1 | The number of magnet functions shall be 1 |
P-EIS-METL-MAG-Q1.2 | The field type shall be Qu (Di,Qu,Sx,Oc,De,Do,Sol,Ki,Hk,Vk,Se) |
P-EIS-METL-MAG-Q1.3 | < blank > |
P-EIS-METL-MAG-Q1.4 | The field rotation shall be No (No=norm, Sk=skew) |
P-EIS-METL-MAG-Q1.5 | The min coil inner rad shall be 16 m |
P-EIS-METL-MAG-Q1.6 | < blank > |
P-EIS-METL-MAG-Q1.7 | The good field aperture drx required shall be TBD m |
P-EIS-METL-MAG-Q1.8 | The good field aperture dry required shall be TBD m |
P-EIS-METL-MAG-Q1.9 | The mag length shall be <0.1 m |
P-EIS-METL-MAG-Q1.10 | The eff Length shall be 0.1 m |
P-EIS-METL-MAG-Q1.11 | < blank > |
P-EIS-METL-MAG-Q1.12 | The grad field G shall be 39.784 T/m(n-1) |
P-EIS-METL-MAG-Q1.13 | < blank > |
P-EIS-METL-MAG-Q1.14 | The field stability shall be TBD T/s |
P-EIS-METL-MAG-Q1.15 | The harmonic reference Radius and current shall be Ir=TBD[A]\Rr=16[mm] (mm,A) |
P-EIS-METL-MAG-Q1.16 | The Field at the reference radius and current shall be Bref=TBD (T) |
P-EIS-METL-MAG-Q1.17 | |
P-EIS-METL-MAG-Q1.18 | The Bore multipole content shall have a 1st order of TBD (10^-4) |
P-EIS-METL-MAG-Q1.19 | The Bore multipole content shall have a 2nd order of TBD (10^-4) |
P-EIS-METL-MAG-Q1.20 | The Bore multipole content shall have a 3rd order of TBD (10^-4) |
P-EIS-METL-MAG-Q1.21 | The Bore multipole content shall have a 4th order of TBD (10^-4) |
P-EIS-METL-MAG-Q1.22 | The Bore multipole content shall have a 5th order of TBD (10^-4) |
P-EIS-METL-MAG-Q1.23 | The Bore multipole content shall have a 6th order of TBD (10^-4) |
P-EIS-METL-MAG-Q1.24 | The Bore multipole content shall have a 7th order of TBD (10^-4) |
P-EIS-METL-MAG-Q1.25 | The Bore multipole content shall have a 8th order of TBD (10^-4) |
P-EIS-METL-MAG-Q1.26 | The Bore multipole content shall have a 9th order of TBD (10^-4) |
P-EIS-METL-MAG-Q1.27 | The Bore multipole content shall have a 10th order of TBD (10^-4) |
P-EIS-METL-MAG-Q1.28 | The Bore multipole content shall have a 11th order of TBD (10^-4) |
P-EIS-METL-MAG-Q1.29 | The Bore multipole content shall have a 12th order of TBD (10^-4) |
P-EIS-METL-MAG-Q1.30 | The Bore multipole content shall have a 13th order of TBD (10^-4) |
P-EIS-METL-MAG-Q1.31 | The Bore multipole content shall have a 14th order of TBD (10^-4) |
P-EIS-METL-MAG-Q1.32 | The Bore multipole content shall have a 15th order of TBD (10^-4) |
P-EIS-METL-MAG-Q1.33 | The Bore multipole content shall have a 16th order of TBD (10^-4) |
P-EIS-METL-MAG-Q1.34 | The magnet shall not be designed to limit Xtalk Requirements |
P-EIS-METL-MAG-Q1.35 | < blank > |
P-EIS-METL-MAG-Q1.36 | < blank > |
P-EIS-METL-MAG-Q1.37 | < blank > |
P-EIS-METL-MAG-Q1.38 | < blank > |
P-EIS-METL-MAG-Q1.39 | < blank > |
P-EIS-METL-MAG-Q1.40 | < blank > |
P-EIS-METL-MAG-Q1.41 | < blank > |
P-EIS-METL-MAG-Q1.42 | < blank > |
P-EIS-METL-MAG-Q1.43 | < blank > |
P-EIS-METL-MAG-Q1.44 | < blank > |
P-EIS-METL-MAG-Q1.45 | < blank > |
P-EIS-METL-MAG-Q1.46 | < blank > |
P-EIS-METL-MAG-Q1.47 | < blank > |
P-EIS-METL-MAG-Q1.48 | < blank > |
P-EIS-METL-MAG-Q1.49 | < blank > |
P-EIS-METL-MAG-Q1.50 | < blank > |
P-EIS-METL-MAG-Q1.51 | < blank > |
P-EIS-METL-MAG-Q1.52 | < blank > |
P-EIS-METL-MAG-Q1.53 | < blank > |
P-EIS-METL-MAG-Q1.54 | < blank > |
P-EIS-METL-MAG-Q1.55 | < blank > |
P-EIS-METL-MAG-Q1.56 | < blank > |
P-EIS-METL-MAG-Q_BATES.1 | The number of magnet functions shall be 1 |
P-EIS-METL-MAG-Q_BATES.2 | The field type shall be Qu (Di,Qu,Sx,Oc,De,Do,Sol,Ki,Hk,Vk,Se) |
P-EIS-METL-MAG-Q_BATES.3 | < blank > |
P-EIS-METL-MAG-Q_BATES.4 | The field rotation shall be No (No=norm, Sk=skew) |
P-EIS-METL-MAG-Q_BATES.5 | The min coil inner rad shall be 16 m |
P-EIS-METL-MAG-Q_BATES.6 | < blank > |
P-EIS-METL-MAG-Q_BATES.7 | The good field aperture drx required shall be TBD m |
P-EIS-METL-MAG-Q_BATES.8 | The good field aperture dry required shall be TBD m |
P-EIS-METL-MAG-Q_BATES.9 | The mag length shall be <0.2794 m |
P-EIS-METL-MAG-Q_BATES.10 | The eff Length shall be 0.2794 m |
P-EIS-METL-MAG-Q_BATES.11 | < blank > |
P-EIS-METL-MAG-Q_BATES.12 | The grad field G shall be 26.684 T/m(n-1) |
P-EIS-METL-MAG-Q_BATES.13 | < blank > |
P-EIS-METL-MAG-Q_BATES.14 | The field stability shall be TBD T/s |
P-EIS-METL-MAG-Q_BATES.15 | The harmonic reference Radius and current shall be Ir=TBD[A]\Rr=16[mm] (mm,A) |
P-EIS-METL-MAG-Q_BATES.16 | The Field at the reference radius and current shall be Bref=TBD (T) |
P-EIS-METL-MAG-Q_BATES.17 | |
P-EIS-METL-MAG-Q_BATES.18 | The Bore multipole content shall have a 1st order of TBD (10^-4) |
P-EIS-METL-MAG-Q_BATES.19 | The Bore multipole content shall have a 2nd order of TBD (10^-4) |
P-EIS-METL-MAG-Q_BATES.20 | The Bore multipole content shall have a 3rd order of TBD (10^-4) |
P-EIS-METL-MAG-Q_BATES.21 | The Bore multipole content shall have a 4th order of TBD (10^-4) |
P-EIS-METL-MAG-Q_BATES.22 | The Bore multipole content shall have a 5th order of TBD (10^-4) |
P-EIS-METL-MAG-Q_BATES.23 | The Bore multipole content shall have a 6th order of TBD (10^-4) |
P-EIS-METL-MAG-Q_BATES.24 | The Bore multipole content shall have a 7th order of TBD (10^-4) |
P-EIS-METL-MAG-Q_BATES.25 | The Bore multipole content shall have a 8th order of TBD (10^-4) |
P-EIS-METL-MAG-Q_BATES.26 | The Bore multipole content shall have a 9th order of TBD (10^-4) |
P-EIS-METL-MAG-Q_BATES.27 | The Bore multipole content shall have a 10th order of TBD (10^-4) |
P-EIS-METL-MAG-Q_BATES.28 | The Bore multipole content shall have a 11th order of TBD (10^-4) |
P-EIS-METL-MAG-Q_BATES.29 | The Bore multipole content shall have a 12th order of TBD (10^-4) |
P-EIS-METL-MAG-Q_BATES.30 | The Bore multipole content shall have a 13th order of TBD (10^-4) |
P-EIS-METL-MAG-Q_BATES.31 | The Bore multipole content shall have a 14th order of TBD (10^-4) |
P-EIS-METL-MAG-Q_BATES.32 | The Bore multipole content shall have a 15th order of TBD (10^-4) |
P-EIS-METL-MAG-Q_BATES.33 | The Bore multipole content shall have a 16th order of TBD (10^-4) |
P-EIS-METL-MAG-Q_BATES.34 | The magnet shall not be designed to limit Xtalk Requirements |
P-EIS-METL-MAG-Q_BATES.35 | < blank > |
P-EIS-METL-MAG-Q_BATES.36 | < blank > |
P-EIS-METL-MAG-Q_BATES.37 | < blank > |
P-EIS-METL-MAG-Q_BATES.38 | < blank > |
P-EIS-METL-MAG-Q_BATES.39 | < blank > |
P-EIS-METL-MAG-Q_BATES.40 | < blank > |
P-EIS-METL-MAG-Q_BATES.41 | < blank > |
P-EIS-METL-MAG-Q_BATES.42 | < blank > |
P-EIS-METL-MAG-Q_BATES.43 | < blank > |
P-EIS-METL-MAG-Q_BATES.44 | < blank > |
P-EIS-METL-MAG-Q_BATES.45 | < blank > |
P-EIS-METL-MAG-Q_BATES.46 | < blank > |
P-EIS-METL-MAG-Q_BATES.47 | < blank > |
P-EIS-METL-MAG-Q_BATES.48 | < blank > |
P-EIS-METL-MAG-Q_BATES.49 | < blank > |
P-EIS-METL-MAG-Q_BATES.50 | < blank > |
P-EIS-METL-MAG-Q_BATES.51 | < blank > |
P-EIS-METL-MAG-Q_BATES.52 | < blank > |
P-EIS-METL-MAG-Q_BATES.53 | < blank > |
P-EIS-METL-MAG-Q_BATES.54 | < blank > |
P-EIS-METL-MAG-Q_BATES.55 | < blank > |
P-EIS-METL-MAG-Q_BATES.56 | < blank > |
P-EIS-METL-MAG-SEPTUM.1 | The number of magnet functions shall be 1 |
P-EIS-METL-MAG-SEPTUM.2 | The field type shall be Di (Di,Qu,Sx,Oc,De,Do,Sol,Ki,Hk,Vk,Se) |
P-EIS-METL-MAG-SEPTUM.3 | The field direction shall be V (V=vertical,H=horizontal,Z=beam direction ) |
P-EIS-METL-MAG-SEPTUM.4 | < blank > |
P-EIS-METL-MAG-SEPTUM.5 | < blank > |
P-EIS-METL-MAG-SEPTUM.6 | The min gap shall be 32 m |
P-EIS-METL-MAG-SEPTUM.7 | The good field aperture drx required shall be TBD m |
P-EIS-METL-MAG-SEPTUM.8 | The good field aperture dry required shall be TBD m |
P-EIS-METL-MAG-SEPTUM.9 | The mag length shall be <0.5 m |
P-EIS-METL-MAG-SEPTUM.10 | The eff Length shall be 0.5 m |
P-EIS-METL-MAG-SEPTUM.11 | The dipole field B shall be 0.896 T |
P-EIS-METL-MAG-SEPTUM.12 | < blank > |
P-EIS-METL-MAG-SEPTUM.13 | < blank > |
P-EIS-METL-MAG-SEPTUM.14 | The field stability shall be TBD T/s |
P-EIS-METL-MAG-SEPTUM.15 | The harmonic reference Radius and current shall be Ir=TBD[A]\Rr=16[mm] (mm,A) |
P-EIS-METL-MAG-SEPTUM.16 | The Field at the reference radius and current shall be Bref=TBD (T) |
P-EIS-METL-MAG-SEPTUM.17 | |
P-EIS-METL-MAG-SEPTUM.18 | The Bore multipole content shall have a 1st order of TBD (10^-4) |
P-EIS-METL-MAG-SEPTUM.19 | The Bore multipole content shall have a 2nd order of TBD (10^-4) |
P-EIS-METL-MAG-SEPTUM.20 | The Bore multipole content shall have a 3rd order of TBD (10^-4) |
P-EIS-METL-MAG-SEPTUM.21 | The Bore multipole content shall have a 4th order of TBD (10^-4) |
P-EIS-METL-MAG-SEPTUM.22 | The Bore multipole content shall have a 5th order of TBD (10^-4) |
P-EIS-METL-MAG-SEPTUM.23 | The Bore multipole content shall have a 6th order of TBD (10^-4) |
P-EIS-METL-MAG-SEPTUM.24 | The Bore multipole content shall have a 7th order of TBD (10^-4) |
P-EIS-METL-MAG-SEPTUM.25 | The Bore multipole content shall have a 8th order of TBD (10^-4) |
P-EIS-METL-MAG-SEPTUM.26 | The Bore multipole content shall have a 9th order of TBD (10^-4) |
P-EIS-METL-MAG-SEPTUM.27 | The Bore multipole content shall have a 10th order of TBD (10^-4) |
P-EIS-METL-MAG-SEPTUM.28 | The Bore multipole content shall have a 11th order of TBD (10^-4) |
P-EIS-METL-MAG-SEPTUM.29 | The Bore multipole content shall have a 12th order of TBD (10^-4) |
P-EIS-METL-MAG-SEPTUM.30 | The Bore multipole content shall have a 13th order of TBD (10^-4) |
P-EIS-METL-MAG-SEPTUM.31 | The Bore multipole content shall have a 14th order of TBD (10^-4) |
P-EIS-METL-MAG-SEPTUM.32 | The Bore multipole content shall have a 15th order of TBD (10^-4) |
P-EIS-METL-MAG-SEPTUM.33 | The Bore multipole content shall have a 16th order of TBD (10^-4) |
P-EIS-METL-MAG-SEPTUM.34 | The magnet shall not be designed to limit Xtalk Requirements |
P-EIS-METL-MAG-SEPTUM.35 | < blank > |
P-EIS-METL-MAG-SEPTUM.36 | < blank > |
P-EIS-METL-MAG-SEPTUM.37 | < blank > |
P-EIS-METL-MAG-SEPTUM.38 | < blank > |
P-EIS-METL-MAG-SEPTUM.39 | < blank > |
P-EIS-METL-MAG-SEPTUM.40 | < blank > |
P-EIS-METL-MAG-SEPTUM.41 | < blank > |
P-EIS-METL-MAG-SEPTUM.42 | < blank > |
P-EIS-METL-MAG-SEPTUM.43 | < blank > |
P-EIS-METL-MAG-SEPTUM.44 | < blank > |
P-EIS-METL-MAG-SEPTUM.45 | < blank > |
P-EIS-METL-MAG-SEPTUM.46 | < blank > |
P-EIS-METL-MAG-SEPTUM.47 | < blank > |
P-EIS-METL-MAG-SEPTUM.48 | < blank > |
P-EIS-METL-MAG-SEPTUM.49 | < blank > |
P-EIS-METL-MAG-SEPTUM.50 | < blank > |
P-EIS-METL-MAG-SEPTUM.51 | < blank > |
P-EIS-METL-MAG-SEPTUM.52 | < blank > |
P-EIS-METL-MAG-SEPTUM.53 | < blank > |
P-EIS-METL-MAG-SEPTUM.54 | < blank > |
P-EIS-METL-MAG-SEPTUM.55 | < blank > |
P-EIS-METL-MAG-SEPTUM.56 | < blank > |
P-EIS-METL-MAG-SPINSOL.1 | The number of magnet functions shall be 1 |
P-EIS-METL-MAG-SPINSOL.2 | The field type shall be So (Di,Qu,Sx,Oc,De,Do,Sol,Ki,Hk,Vk,Se) |
P-EIS-METL-MAG-SPINSOL.3 | The field direction shall be Z (V=vertical,H=horizontal,Z=beam direction ) |
P-EIS-METL-MAG-SPINSOL.4 | < blank > |
P-EIS-METL-MAG-SPINSOL.5 | < blank > |
P-EIS-METL-MAG-SPINSOL.6 | < blank > |
P-EIS-METL-MAG-SPINSOL.7 | The good field aperture drx required shall be TBD m |
P-EIS-METL-MAG-SPINSOL.8 | The good field aperture dry required shall be TBD m |
P-EIS-METL-MAG-SPINSOL.9 | The mag length shall be <0.6 m |
P-EIS-METL-MAG-SPINSOL.10 | The eff Length shall be 0.6 m |
P-EIS-METL-MAG-SPINSOL.11 | The dipole field B shall be 3.667 T |
P-EIS-METL-MAG-SPINSOL.12 | < blank > |
P-EIS-METL-MAG-SPINSOL.13 | < blank > |
P-EIS-METL-MAG-SPINSOL.14 | The field stability shall be TBD T/s |
P-EIS-METL-MAG-SPINSOL.15 | The harmonic reference Radius and current shall be Ir=TBD[A]\Rr=16[mm] (mm,A) |
P-EIS-METL-MAG-SPINSOL.16 | The Field at the reference radius and current shall be Bref=TBD (T) |
P-EIS-METL-MAG-SPINSOL.17 | |
P-EIS-METL-MAG-SPINSOL.18 | The Bore multipole content shall have a 1st order of TBD (10^-4) |
P-EIS-METL-MAG-SPINSOL.19 | The Bore multipole content shall have a 2nd order of TBD (10^-4) |
P-EIS-METL-MAG-SPINSOL.20 | The Bore multipole content shall have a 3rd order of TBD (10^-4) |
P-EIS-METL-MAG-SPINSOL.21 | The Bore multipole content shall have a 4th order of TBD (10^-4) |
P-EIS-METL-MAG-SPINSOL.22 | The Bore multipole content shall have a 5th order of TBD (10^-4) |
P-EIS-METL-MAG-SPINSOL.23 | The Bore multipole content shall have a 6th order of TBD (10^-4) |
P-EIS-METL-MAG-SPINSOL.24 | The Bore multipole content shall have a 7th order of TBD (10^-4) |
P-EIS-METL-MAG-SPINSOL.25 | The Bore multipole content shall have a 8th order of TBD (10^-4) |
P-EIS-METL-MAG-SPINSOL.26 | The Bore multipole content shall have a 9th order of TBD (10^-4) |
P-EIS-METL-MAG-SPINSOL.27 | The Bore multipole content shall have a 10th order of TBD (10^-4) |
P-EIS-METL-MAG-SPINSOL.28 | The Bore multipole content shall have a 11th order of TBD (10^-4) |
P-EIS-METL-MAG-SPINSOL.29 | The Bore multipole content shall have a 12th order of TBD (10^-4) |
P-EIS-METL-MAG-SPINSOL.30 | The Bore multipole content shall have a 13th order of TBD (10^-4) |
P-EIS-METL-MAG-SPINSOL.31 | The Bore multipole content shall have a 14th order of TBD (10^-4) |
P-EIS-METL-MAG-SPINSOL.32 | The Bore multipole content shall have a 15th order of TBD (10^-4) |
P-EIS-METL-MAG-SPINSOL.33 | The Bore multipole content shall have a 16th order of TBD (10^-4) |
P-EIS-METL-MAG-SPINSOL.34 | The magnet shall not be designed to limit Xtalk Requirements |
P-EIS-METL-MAG-SPINSOL.35 | < blank > |
P-EIS-METL-MAG-SPINSOL.36 | < blank > |
P-EIS-METL-MAG-SPINSOL.37 | < blank > |
P-EIS-METL-MAG-SPINSOL.38 | < blank > |
P-EIS-METL-MAG-SPINSOL.39 | < blank > |
P-EIS-METL-MAG-SPINSOL.40 | < blank > |
P-EIS-METL-MAG-SPINSOL.41 | < blank > |
P-EIS-METL-MAG-SPINSOL.42 | < blank > |
P-EIS-METL-MAG-SPINSOL.43 | < blank > |
P-EIS-METL-MAG-SPINSOL.44 | < blank > |
P-EIS-METL-MAG-SPINSOL.45 | < blank > |
P-EIS-METL-MAG-SPINSOL.46 | < blank > |
P-EIS-METL-MAG-SPINSOL.47 | < blank > |
P-EIS-METL-MAG-SPINSOL.48 | < blank > |
P-EIS-METL-MAG-SPINSOL.49 | < blank > |
P-EIS-METL-MAG-SPINSOL.50 | < blank > |
P-EIS-METL-MAG-SPINSOL.51 | < blank > |
P-EIS-METL-MAG-SPINSOL.52 | < blank > |
P-EIS-METL-MAG-SPINSOL.53 | < blank > |
P-EIS-METL-MAG-SPINSOL.54 | < blank > |
P-EIS-METL-MAG-SPINSOL.55 | < blank > |
P-EIS-METL-MAG-SPINSOL.56 | < blank > |
P-EIS-METL-PS-DH1.1 | The number of Independent functions on the magnets being powered shall be 1 |
P-EIS-METL-PS-DH1.2 | The maximum magnet string resistance to be powered shall be TBD ohm |
P-EIS-METL-PS-DH1.3 | The maximum magnet string inductance to be powered shall be TBD H |
P-EIS-METL-PS-DH1.4 | The magnets being powered shall be saturated TBD Y/N |
P-EIS-METL-PS-DH1.5 | < blank > |
P-EIS-METL-PS-DH1.6 | The voltage to ground of the magnet being powered shall be TBD V |
P-EIS-METL-PS-DH1.7 | The nominal current of the magnets being powered shall be TBD A |
P-EIS-METL-PS-DH1.8 | The minimum current the PS must operate at shall be TBD A |
P-EIS-METL-PS-DH1.9 | The maximum current the PS must operate at shall be TBD A |
P-EIS-METL-PS-DH1.10 | The PS current type shall be DC (DC or AC) |
P-EIS-METL-PS-DH1.11 | < blank > |
P-EIS-METL-PS-DH1.12 | The peak waveshape di/dt during ramping shall be TBD |
P-EIS-METL-PS-DH1.13 | The full power bandwidth required shall be TBD |
P-EIS-METL-PS-DH1.14 | The ppm of full scale current (peak to peak) shall be TBD % |
P-EIS-METL-PS-DH1.15 | The time period for specified stability shall be TBD s |
P-EIS-METL-PS-DH1.16 | The short term stability shall be TBD A/s |
P-EIS-METL-PS-DH1.17 | The long term stability shall be TBD A/s |
P-EIS-METL-PS-DH1.18 | The current setpoint resolution (min size in bits) shall be TBD bits |
P-EIS-METL-PS-DH1.19 | The synchronization required between PS's shall be TBD s |
P-EIS-METL-PS-DH1.20 | The synchronization timing of synchronization shall be TBD s |
P-EIS-METL-PS-DH1.21 | The max allowable current ripple (peak to peak) TBD A |
P-EIS-METL-PS-DH1.22 | The max current ripple frequency range (Hz) TBD Hz |
P-EIS-METL-PS-DH1.23 | WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz |
P-EIS-METL-PS-DH1.24 | The max voltage ripple (peak to peak) shall be TBD V |
P-EIS-METL-PS-DH1.25 | An NMR shall be required to measure the field TBD A/s |
P-EIS-METL-PS-DH1.26 | < blank > |
P-EIS-METL-PS-DH1.27 | < blank > |
P-EIS-METL-PS-DH1.28 | < blank > |
P-EIS-METL-PS-DH1.29 | < blank > |
P-EIS-METL-PS-DH1.30 | < blank > |
P-EIS-METL-PS-DH1.31 | < blank > |
P-EIS-METL-PS-DH1.32 | < blank > |
P-EIS-METL-PS-DH1.33 | The current required to be shunted through the magnet shall be TBD |
P-EIS-METL-PS-DH1.34 | The magnet turns ratio shall be TBD |
P-EIS-METL-PS-DH1.35 | The terminal voltage shall be TBD V |
P-EIS-METL-PS-DH1.36 | The design shall have thermal switches TBD |
P-EIS-METL-PS-DH1.37 | The thermal switch connection numbers shall be TBD |
P-EIS-METL-PS-DH1.38 | The design shall have water flow switches TBD |
P-EIS-METL-PS-DH1.39 | The water flow switch connections numbers shall be TBD |
P-EIS-METL-PS-DH1.40 | The design shall have access controls interlocks TBD |
P-EIS-METL-PS-DH1.41 | The main terminals lug details shall be TBD |
P-EIS-METL-PS-DH1.42 | The lead end indications shall be TBD |
P-EIS-METL-PS-DH1.43 | The lugs details for thermal switch and water switches shall be TBD |
P-EIS-METL-PS-DH1.44 | The lug details for the auxiliary windings shall be TBD |
P-EIS-METL-PS-DH1.45 | The A/B terminal labeling details shall be TBD Draw id |
P-EIS-METL-PS-DH1.46 | The magnet drawing with terminations details shall be TBD |
P-EIS-METL-PS-DH1.47 | The magnet polarity connections shall be TBD |
P-EIS-METL-PS-DH2.1 | The number of Independent functions on the magnets being powered shall be 1 |
P-EIS-METL-PS-DH2.2 | The maximum magnet string resistance to be powered shall be TBD ohm |
P-EIS-METL-PS-DH2.3 | The maximum magnet string inductance to be powered shall be TBD H |
P-EIS-METL-PS-DH2.4 | The magnets being powered shall be saturated TBD Y/N |
P-EIS-METL-PS-DH2.5 | < blank > |
P-EIS-METL-PS-DH2.6 | The voltage to ground of the magnet being powered shall be TBD V |
P-EIS-METL-PS-DH2.7 | The nominal current of the magnets being powered shall be TBD A |
P-EIS-METL-PS-DH2.8 | The minimum current the PS must operate at shall be TBD A |
P-EIS-METL-PS-DH2.9 | The maximum current the PS must operate at shall be TBD A |
P-EIS-METL-PS-DH2.10 | The PS current type shall be DC (DC or AC) |
P-EIS-METL-PS-DH2.11 | < blank > |
P-EIS-METL-PS-DH2.12 | The peak waveshape di/dt during ramping shall be TBD |
P-EIS-METL-PS-DH2.13 | The full power bandwidth required shall be TBD |
P-EIS-METL-PS-DH2.14 | The ppm of full scale current (peak to peak) shall be TBD % |
P-EIS-METL-PS-DH2.15 | The time period for specified stability shall be TBD s |
P-EIS-METL-PS-DH2.16 | The short term stability shall be TBD A/s |
P-EIS-METL-PS-DH2.17 | The long term stability shall be TBD A/s |
P-EIS-METL-PS-DH2.18 | The current setpoint resolution (min size in bits) shall be TBD bits |
P-EIS-METL-PS-DH2.19 | The synchronization required between PS's shall be TBD s |
P-EIS-METL-PS-DH2.20 | The synchronization timing of synchronization shall be TBD s |
P-EIS-METL-PS-DH2.21 | The max allowable current ripple (peak to peak) TBD A |
P-EIS-METL-PS-DH2.22 | The max current ripple frequency range (Hz) TBD Hz |
P-EIS-METL-PS-DH2.23 | WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz |
P-EIS-METL-PS-DH2.24 | The max voltage ripple (peak to peak) shall be TBD V |
P-EIS-METL-PS-DH2.25 | An NMR shall be required to measure the field TBD A/s |
P-EIS-METL-PS-DH2.26 | < blank > |
P-EIS-METL-PS-DH2.27 | < blank > |
P-EIS-METL-PS-DH2.28 | < blank > |
P-EIS-METL-PS-DH2.29 | < blank > |
P-EIS-METL-PS-DH2.30 | < blank > |
P-EIS-METL-PS-DH2.31 | < blank > |
P-EIS-METL-PS-DH2.32 | < blank > |
P-EIS-METL-PS-DH2.33 | The current required to be shunted through the magnet shall be TBD |
P-EIS-METL-PS-DH2.34 | The magnet turns ratio shall be TBD |
P-EIS-METL-PS-DH2.35 | The terminal voltage shall be TBD V |
P-EIS-METL-PS-DH2.36 | The design shall have thermal switches TBD |
P-EIS-METL-PS-DH2.37 | The thermal switch connection numbers shall be TBD |
P-EIS-METL-PS-DH2.38 | The design shall have water flow switches TBD |
P-EIS-METL-PS-DH2.39 | The water flow switch connections numbers shall be TBD |
P-EIS-METL-PS-DH2.40 | The design shall have access controls interlocks TBD |
P-EIS-METL-PS-DH2.41 | The main terminals lug details shall be TBD |
P-EIS-METL-PS-DH2.42 | The lead end indications shall be TBD |
P-EIS-METL-PS-DH2.43 | The lugs details for thermal switch and water switches shall be TBD |
P-EIS-METL-PS-DH2.44 | The lug details for the auxiliary windings shall be TBD |
P-EIS-METL-PS-DH2.45 | The A/B terminal labeling details shall be TBD Draw id |
P-EIS-METL-PS-DH2.46 | The magnet drawing with terminations details shall be TBD |
P-EIS-METL-PS-DH2.47 | The magnet polarity connections shall be TBD |
P-EIS-METL-PS-DH3.1 | The number of Independent functions on the magnets being powered shall be 1 |
P-EIS-METL-PS-DH3.2 | The maximum magnet string resistance to be powered shall be TBD ohm |
P-EIS-METL-PS-DH3.3 | The maximum magnet string inductance to be powered shall be TBD H |
P-EIS-METL-PS-DH3.4 | The magnets being powered shall be saturated TBD Y/N |
P-EIS-METL-PS-DH3.5 | < blank > |
P-EIS-METL-PS-DH3.6 | The voltage to ground of the magnet being powered shall be TBD V |
P-EIS-METL-PS-DH3.7 | The nominal current of the magnets being powered shall be TBD A |
P-EIS-METL-PS-DH3.8 | The minimum current the PS must operate at shall be TBD A |
P-EIS-METL-PS-DH3.9 | The maximum current the PS must operate at shall be TBD A |
P-EIS-METL-PS-DH3.10 | The PS current type shall be DC (DC or AC) |
P-EIS-METL-PS-DH3.11 | < blank > |
P-EIS-METL-PS-DH3.12 | The peak waveshape di/dt during ramping shall be TBD |
P-EIS-METL-PS-DH3.13 | The full power bandwidth required shall be TBD |
P-EIS-METL-PS-DH3.14 | The ppm of full scale current (peak to peak) shall be TBD % |
P-EIS-METL-PS-DH3.15 | The time period for specified stability shall be TBD s |
P-EIS-METL-PS-DH3.16 | The short term stability shall be TBD A/s |
P-EIS-METL-PS-DH3.17 | The long term stability shall be TBD A/s |
P-EIS-METL-PS-DH3.18 | The current setpoint resolution (min size in bits) shall be TBD bits |
P-EIS-METL-PS-DH3.19 | The synchronization required between PS's shall be TBD s |
P-EIS-METL-PS-DH3.20 | The synchronization timing of synchronization shall be TBD s |
P-EIS-METL-PS-DH3.21 | The max allowable current ripple (peak to peak) TBD A |
P-EIS-METL-PS-DH3.22 | The max current ripple frequency range (Hz) TBD Hz |
P-EIS-METL-PS-DH3.23 | WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz |
P-EIS-METL-PS-DH3.24 | The max voltage ripple (peak to peak) shall be TBD V |
P-EIS-METL-PS-DH3.25 | An NMR shall be required to measure the field TBD A/s |
P-EIS-METL-PS-DH3.26 | < blank > |
P-EIS-METL-PS-DH3.27 | < blank > |
P-EIS-METL-PS-DH3.28 | < blank > |
P-EIS-METL-PS-DH3.29 | < blank > |
P-EIS-METL-PS-DH3.30 | < blank > |
P-EIS-METL-PS-DH3.31 | < blank > |
P-EIS-METL-PS-DH3.32 | < blank > |
P-EIS-METL-PS-DH3.33 | The current required to be shunted through the magnet shall be TBD |
P-EIS-METL-PS-DH3.34 | The magnet turns ratio shall be TBD |
P-EIS-METL-PS-DH3.35 | The terminal voltage shall be TBD V |
P-EIS-METL-PS-DH3.36 | The design shall have thermal switches TBD |
P-EIS-METL-PS-DH3.37 | The thermal switch connection numbers shall be TBD |
P-EIS-METL-PS-DH3.38 | The design shall have water flow switches TBD |
P-EIS-METL-PS-DH3.39 | The water flow switch connections numbers shall be TBD |
P-EIS-METL-PS-DH3.40 | The design shall have access controls interlocks TBD |
P-EIS-METL-PS-DH3.41 | The main terminals lug details shall be TBD |
P-EIS-METL-PS-DH3.42 | The lead end indications shall be TBD |
P-EIS-METL-PS-DH3.43 | The lugs details for thermal switch and water switches shall be TBD |
P-EIS-METL-PS-DH3.44 | The lug details for the auxiliary windings shall be TBD |
P-EIS-METL-PS-DH3.45 | The A/B terminal labeling details shall be TBD Draw id |
P-EIS-METL-PS-DH3.46 | The magnet drawing with terminations details shall be TBD |
P-EIS-METL-PS-DH3.47 | The magnet polarity connections shall be TBD |
P-EIS-METL-PS-DV1.1 | The number of Independent functions on the magnets being powered shall be 1 |
P-EIS-METL-PS-DV1.2 | The maximum magnet string resistance to be powered shall be TBD ohm |
P-EIS-METL-PS-DV1.3 | The maximum magnet string inductance to be powered shall be TBD H |
P-EIS-METL-PS-DV1.4 | The magnets being powered shall be saturated TBD Y/N |
P-EIS-METL-PS-DV1.5 | < blank > |
P-EIS-METL-PS-DV1.6 | The voltage to ground of the magnet being powered shall be TBD V |
P-EIS-METL-PS-DV1.7 | The nominal current of the magnets being powered shall be TBD A |
P-EIS-METL-PS-DV1.8 | The minimum current the PS must operate at shall be TBD A |
P-EIS-METL-PS-DV1.9 | The maximum current the PS must operate at shall be TBD A |
P-EIS-METL-PS-DV1.10 | The PS current type shall be DC (DC or AC) |
P-EIS-METL-PS-DV1.11 | < blank > |
P-EIS-METL-PS-DV1.12 | The peak waveshape di/dt during ramping shall be TBD |
P-EIS-METL-PS-DV1.13 | The full power bandwidth required shall be TBD |
P-EIS-METL-PS-DV1.14 | The ppm of full scale current (peak to peak) shall be TBD % |
P-EIS-METL-PS-DV1.15 | The time period for specified stability shall be TBD s |
P-EIS-METL-PS-DV1.16 | The short term stability shall be TBD A/s |
P-EIS-METL-PS-DV1.17 | The long term stability shall be TBD A/s |
P-EIS-METL-PS-DV1.18 | The current setpoint resolution (min size in bits) shall be TBD bits |
P-EIS-METL-PS-DV1.19 | The synchronization required between PS's shall be TBD s |
P-EIS-METL-PS-DV1.20 | The synchronization timing of synchronization shall be TBD s |
P-EIS-METL-PS-DV1.21 | The max allowable current ripple (peak to peak) TBD A |
P-EIS-METL-PS-DV1.22 | The max current ripple frequency range (Hz) TBD Hz |
P-EIS-METL-PS-DV1.23 | WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz |
P-EIS-METL-PS-DV1.24 | The max voltage ripple (peak to peak) shall be TBD V |
P-EIS-METL-PS-DV1.25 | An NMR shall be required to measure the field TBD A/s |
P-EIS-METL-PS-DV1.26 | < blank > |
P-EIS-METL-PS-DV1.27 | < blank > |
P-EIS-METL-PS-DV1.28 | < blank > |
P-EIS-METL-PS-DV1.29 | < blank > |
P-EIS-METL-PS-DV1.30 | < blank > |
P-EIS-METL-PS-DV1.31 | < blank > |
P-EIS-METL-PS-DV1.32 | < blank > |
P-EIS-METL-PS-DV1.33 | The current required to be shunted through the magnet shall be TBD |
P-EIS-METL-PS-DV1.34 | The magnet turns ratio shall be TBD |
P-EIS-METL-PS-DV1.35 | The terminal voltage shall be TBD V |
P-EIS-METL-PS-DV1.36 | The design shall have thermal switches TBD |
P-EIS-METL-PS-DV1.37 | The thermal switch connection numbers shall be TBD |
P-EIS-METL-PS-DV1.38 | The design shall have water flow switches TBD |
P-EIS-METL-PS-DV1.39 | The water flow switch connections numbers shall be TBD |
P-EIS-METL-PS-DV1.40 | The design shall have access controls interlocks TBD |
P-EIS-METL-PS-DV1.41 | The main terminals lug details shall be TBD |
P-EIS-METL-PS-DV1.42 | The lead end indications shall be TBD |
P-EIS-METL-PS-DV1.43 | The lugs details for thermal switch and water switches shall be TBD |
P-EIS-METL-PS-DV1.44 | The lug details for the auxiliary windings shall be TBD |
P-EIS-METL-PS-DV1.45 | The A/B terminal labeling details shall be TBD Draw id |
P-EIS-METL-PS-DV1.46 | The magnet drawing with terminations details shall be TBD |
P-EIS-METL-PS-DV1.47 | The magnet polarity connections shall be TBD |
P-EIS-METL-PS-KH1.1 | The number of Independent functions on the magnets being powered shall be 1 |
P-EIS-METL-PS-KH1.2 | The maximum magnet string resistance to be powered shall be TBD ohm |
P-EIS-METL-PS-KH1.3 | The maximum magnet string inductance to be powered shall be TBD H |
P-EIS-METL-PS-KH1.4 | The magnets being powered shall be saturated TBD Y/N |
P-EIS-METL-PS-KH1.5 | < blank > |
P-EIS-METL-PS-KH1.6 | The voltage to ground of the magnet being powered shall be TBD V |
P-EIS-METL-PS-KH1.7 | The nominal current of the magnets being powered shall be TBD A |
P-EIS-METL-PS-KH1.8 | The minimum current the PS must operate at shall be TBD A |
P-EIS-METL-PS-KH1.9 | The maximum current the PS must operate at shall be TBD A |
P-EIS-METL-PS-KH1.10 | The PS current type shall be DC (DC or AC) |
P-EIS-METL-PS-KH1.11 | < blank > |
P-EIS-METL-PS-KH1.12 | The peak waveshape di/dt during ramping shall be TBD |
P-EIS-METL-PS-KH1.13 | The full power bandwidth required shall be TBD |
P-EIS-METL-PS-KH1.14 | The ppm of full scale current (peak to peak) shall be TBD % |
P-EIS-METL-PS-KH1.15 | The time period for specified stability shall be TBD s |
P-EIS-METL-PS-KH1.16 | The short term stability shall be TBD A/s |
P-EIS-METL-PS-KH1.17 | The long term stability shall be TBD A/s |
P-EIS-METL-PS-KH1.18 | The current setpoint resolution (min size in bits) shall be TBD bits |
P-EIS-METL-PS-KH1.19 | The synchronization required between PS's shall be TBD s |
P-EIS-METL-PS-KH1.20 | The synchronization timing of synchronization shall be TBD s |
P-EIS-METL-PS-KH1.21 | The max allowable current ripple (peak to peak) TBD A |
P-EIS-METL-PS-KH1.22 | The max current ripple frequency range (Hz) TBD Hz |
P-EIS-METL-PS-KH1.23 | WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz |
P-EIS-METL-PS-KH1.24 | The max voltage ripple (peak to peak) shall be TBD V |
P-EIS-METL-PS-KH1.25 | An NMR shall be required to measure the field TBD A/s |
P-EIS-METL-PS-KH1.26 | < blank > |
P-EIS-METL-PS-KH1.27 | < blank > |
P-EIS-METL-PS-KH1.28 | < blank > |
P-EIS-METL-PS-KH1.29 | < blank > |
P-EIS-METL-PS-KH1.30 | < blank > |
P-EIS-METL-PS-KH1.31 | < blank > |
P-EIS-METL-PS-KH1.32 | < blank > |
P-EIS-METL-PS-KH1.33 | The current required to be shunted through the magnet shall be TBD |
P-EIS-METL-PS-KH1.34 | The magnet turns ratio shall be TBD |
P-EIS-METL-PS-KH1.35 | The terminal voltage shall be TBD V |
P-EIS-METL-PS-KH1.36 | The design shall have thermal switches TBD |
P-EIS-METL-PS-KH1.37 | The thermal switch connection numbers shall be TBD |
P-EIS-METL-PS-KH1.38 | The design shall have water flow switches TBD |
P-EIS-METL-PS-KH1.39 | The water flow switch connections numbers shall be TBD |
P-EIS-METL-PS-KH1.40 | The design shall have access controls interlocks TBD |
P-EIS-METL-PS-KH1.41 | The main terminals lug details shall be TBD |
P-EIS-METL-PS-KH1.42 | The lead end indications shall be TBD |
P-EIS-METL-PS-KH1.43 | The lugs details for thermal switch and water switches shall be TBD |
P-EIS-METL-PS-KH1.44 | The lug details for the auxiliary windings shall be TBD |
P-EIS-METL-PS-KH1.45 | The A/B terminal labeling details shall be TBD Draw id |
P-EIS-METL-PS-KH1.46 | The magnet drawing with terminations details shall be TBD |
P-EIS-METL-PS-KH1.47 | The magnet polarity connections shall be TBD |
P-EIS-METL-PS-KV1.1 | The number of Independent functions on the magnets being powered shall be 1 |
P-EIS-METL-PS-KV1.2 | The maximum magnet string resistance to be powered shall be TBD ohm |
P-EIS-METL-PS-KV1.3 | The maximum magnet string inductance to be powered shall be TBD H |
P-EIS-METL-PS-KV1.4 | The magnets being powered shall be saturated TBD Y/N |
P-EIS-METL-PS-KV1.5 | < blank > |
P-EIS-METL-PS-KV1.6 | The voltage to ground of the magnet being powered shall be TBD V |
P-EIS-METL-PS-KV1.7 | The nominal current of the magnets being powered shall be TBD A |
P-EIS-METL-PS-KV1.8 | The minimum current the PS must operate at shall be TBD A |
P-EIS-METL-PS-KV1.9 | The maximum current the PS must operate at shall be TBD A |
P-EIS-METL-PS-KV1.10 | The PS current type shall be DC (DC or AC) |
P-EIS-METL-PS-KV1.11 | < blank > |
P-EIS-METL-PS-KV1.12 | The peak waveshape di/dt during ramping shall be TBD |
P-EIS-METL-PS-KV1.13 | The full power bandwidth required shall be TBD |
P-EIS-METL-PS-KV1.14 | The ppm of full scale current (peak to peak) shall be TBD % |
P-EIS-METL-PS-KV1.15 | The time period for specified stability shall be TBD s |
P-EIS-METL-PS-KV1.16 | The short term stability shall be TBD A/s |
P-EIS-METL-PS-KV1.17 | The long term stability shall be TBD A/s |
P-EIS-METL-PS-KV1.18 | The current setpoint resolution (min size in bits) shall be TBD bits |
P-EIS-METL-PS-KV1.19 | The synchronization required between PS's shall be TBD s |
P-EIS-METL-PS-KV1.20 | The synchronization timing of synchronization shall be TBD s |
P-EIS-METL-PS-KV1.21 | The max allowable current ripple (peak to peak) TBD A |
P-EIS-METL-PS-KV1.22 | The max current ripple frequency range (Hz) TBD Hz |
P-EIS-METL-PS-KV1.23 | WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz |
P-EIS-METL-PS-KV1.24 | The max voltage ripple (peak to peak) shall be TBD V |
P-EIS-METL-PS-KV1.25 | An NMR shall be required to measure the field TBD A/s |
P-EIS-METL-PS-KV1.26 | < blank > |
P-EIS-METL-PS-KV1.27 | < blank > |
P-EIS-METL-PS-KV1.28 | < blank > |
P-EIS-METL-PS-KV1.29 | < blank > |
P-EIS-METL-PS-KV1.30 | < blank > |
P-EIS-METL-PS-KV1.31 | < blank > |
P-EIS-METL-PS-KV1.32 | < blank > |
P-EIS-METL-PS-KV1.33 | The current required to be shunted through the magnet shall be TBD |
P-EIS-METL-PS-KV1.34 | The magnet turns ratio shall be TBD |
P-EIS-METL-PS-KV1.35 | The terminal voltage shall be TBD V |
P-EIS-METL-PS-KV1.36 | The design shall have thermal switches TBD |
P-EIS-METL-PS-KV1.37 | The thermal switch connection numbers shall be TBD |
P-EIS-METL-PS-KV1.38 | The design shall have water flow switches TBD |
P-EIS-METL-PS-KV1.39 | The water flow switch connections numbers shall be TBD |
P-EIS-METL-PS-KV1.40 | The design shall have access controls interlocks TBD |
P-EIS-METL-PS-KV1.41 | The main terminals lug details shall be TBD |
P-EIS-METL-PS-KV1.42 | The lead end indications shall be TBD |
P-EIS-METL-PS-KV1.43 | The lugs details for thermal switch and water switches shall be TBD |
P-EIS-METL-PS-KV1.44 | The lug details for the auxiliary windings shall be TBD |
P-EIS-METL-PS-KV1.45 | The A/B terminal labeling details shall be TBD Draw id |
P-EIS-METL-PS-KV1.46 | The magnet drawing with terminations details shall be TBD |
P-EIS-METL-PS-KV1.47 | The magnet polarity connections shall be TBD |
P-EIS-METL-PS-Q1.1 | The number of Independent functions on the magnets being powered shall be 1 |
P-EIS-METL-PS-Q1.2 | The maximum magnet string resistance to be powered shall be TBD ohm |
P-EIS-METL-PS-Q1.3 | The maximum magnet string inductance to be powered shall be TBD H |
P-EIS-METL-PS-Q1.4 | The magnets being powered shall be saturated TBD Y/N |
P-EIS-METL-PS-Q1.5 | < blank > |
P-EIS-METL-PS-Q1.6 | The voltage to ground of the magnet being powered shall be TBD V |
P-EIS-METL-PS-Q1.7 | The nominal current of the magnets being powered shall be TBD A |
P-EIS-METL-PS-Q1.8 | The minimum current the PS must operate at shall be TBD A |
P-EIS-METL-PS-Q1.9 | The maximum current the PS must operate at shall be TBD A |
P-EIS-METL-PS-Q1.10 | The PS current type shall be DC (DC or AC) |
P-EIS-METL-PS-Q1.11 | < blank > |
P-EIS-METL-PS-Q1.12 | The peak waveshape di/dt during ramping shall be TBD |
P-EIS-METL-PS-Q1.13 | The full power bandwidth required shall be TBD |
P-EIS-METL-PS-Q1.14 | The ppm of full scale current (peak to peak) shall be TBD % |
P-EIS-METL-PS-Q1.15 | The time period for specified stability shall be TBD s |
P-EIS-METL-PS-Q1.16 | The short term stability shall be TBD A/s |
P-EIS-METL-PS-Q1.17 | The long term stability shall be TBD A/s |
P-EIS-METL-PS-Q1.18 | The current setpoint resolution (min size in bits) shall be TBD bits |
P-EIS-METL-PS-Q1.19 | The synchronization required between PS's shall be TBD s |
P-EIS-METL-PS-Q1.20 | The synchronization timing of synchronization shall be TBD s |
P-EIS-METL-PS-Q1.21 | The max allowable current ripple (peak to peak) TBD A |
P-EIS-METL-PS-Q1.22 | The max current ripple frequency range (Hz) TBD Hz |
P-EIS-METL-PS-Q1.23 | WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz |
P-EIS-METL-PS-Q1.24 | The max voltage ripple (peak to peak) shall be TBD V |
P-EIS-METL-PS-Q1.25 | An NMR shall be required to measure the field TBD A/s |
P-EIS-METL-PS-Q1.26 | < blank > |
P-EIS-METL-PS-Q1.27 | < blank > |
P-EIS-METL-PS-Q1.28 | < blank > |
P-EIS-METL-PS-Q1.29 | < blank > |
P-EIS-METL-PS-Q1.30 | < blank > |
P-EIS-METL-PS-Q1.31 | < blank > |
P-EIS-METL-PS-Q1.32 | < blank > |
P-EIS-METL-PS-Q1.33 | The current required to be shunted through the magnet shall be TBD |
P-EIS-METL-PS-Q1.34 | The magnet turns ratio shall be TBD |
P-EIS-METL-PS-Q1.35 | The terminal voltage shall be TBD V |
P-EIS-METL-PS-Q1.36 | The design shall have thermal switches TBD |
P-EIS-METL-PS-Q1.37 | The thermal switch connection numbers shall be TBD |
P-EIS-METL-PS-Q1.38 | The design shall have water flow switches TBD |
P-EIS-METL-PS-Q1.39 | The water flow switch connections numbers shall be TBD |
P-EIS-METL-PS-Q1.40 | The design shall have access controls interlocks TBD |
P-EIS-METL-PS-Q1.41 | The main terminals lug details shall be TBD |
P-EIS-METL-PS-Q1.42 | The lead end indications shall be TBD |
P-EIS-METL-PS-Q1.43 | The lugs details for thermal switch and water switches shall be TBD |
P-EIS-METL-PS-Q1.44 | The lug details for the auxiliary windings shall be TBD |
P-EIS-METL-PS-Q1.45 | The A/B terminal labeling details shall be TBD Draw id |
P-EIS-METL-PS-Q1.46 | The magnet drawing with terminations details shall be TBD |
P-EIS-METL-PS-Q1.47 | The magnet polarity connections shall be TBD |
P-EIS-METL-PS-Q_BATES.1 | The number of Independent functions on the magnets being powered shall be 1 |
P-EIS-METL-PS-Q_BATES.2 | The maximum magnet string resistance to be powered shall be TBD ohm |
P-EIS-METL-PS-Q_BATES.3 | The maximum magnet string inductance to be powered shall be TBD H |
P-EIS-METL-PS-Q_BATES.4 | The magnets being powered shall be saturated TBD Y/N |
P-EIS-METL-PS-Q_BATES.5 | < blank > |
P-EIS-METL-PS-Q_BATES.6 | The voltage to ground of the magnet being powered shall be TBD V |
P-EIS-METL-PS-Q_BATES.7 | The nominal current of the magnets being powered shall be TBD A |
P-EIS-METL-PS-Q_BATES.8 | The minimum current the PS must operate at shall be TBD A |
P-EIS-METL-PS-Q_BATES.9 | The maximum current the PS must operate at shall be TBD A |
P-EIS-METL-PS-Q_BATES.10 | The PS current type shall be DC (DC or AC) |
P-EIS-METL-PS-Q_BATES.11 | < blank > |
P-EIS-METL-PS-Q_BATES.12 | The peak waveshape di/dt during ramping shall be TBD |
P-EIS-METL-PS-Q_BATES.13 | The full power bandwidth required shall be TBD |
P-EIS-METL-PS-Q_BATES.14 | The ppm of full scale current (peak to peak) shall be TBD % |
P-EIS-METL-PS-Q_BATES.15 | The time period for specified stability shall be TBD s |
P-EIS-METL-PS-Q_BATES.16 | The short term stability shall be TBD A/s |
P-EIS-METL-PS-Q_BATES.17 | The long term stability shall be TBD A/s |
P-EIS-METL-PS-Q_BATES.18 | The current setpoint resolution (min size in bits) shall be TBD bits |
P-EIS-METL-PS-Q_BATES.19 | The synchronization required between PS's shall be TBD s |
P-EIS-METL-PS-Q_BATES.20 | The synchronization timing of synchronization shall be TBD s |
P-EIS-METL-PS-Q_BATES.21 | The max allowable current ripple (peak to peak) TBD A |
P-EIS-METL-PS-Q_BATES.22 | The max current ripple frequency range (Hz) TBD Hz |
P-EIS-METL-PS-Q_BATES.23 | WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz |
P-EIS-METL-PS-Q_BATES.24 | The max voltage ripple (peak to peak) shall be TBD V |
P-EIS-METL-PS-Q_BATES.25 | An NMR shall be required to measure the field TBD A/s |
P-EIS-METL-PS-Q_BATES.26 | < blank > |
P-EIS-METL-PS-Q_BATES.27 | < blank > |
P-EIS-METL-PS-Q_BATES.28 | < blank > |
P-EIS-METL-PS-Q_BATES.29 | < blank > |
P-EIS-METL-PS-Q_BATES.30 | < blank > |
P-EIS-METL-PS-Q_BATES.31 | < blank > |
P-EIS-METL-PS-Q_BATES.32 | < blank > |
P-EIS-METL-PS-Q_BATES.33 | The current required to be shunted through the magnet shall be TBD |
P-EIS-METL-PS-Q_BATES.34 | The magnet turns ratio shall be TBD |
P-EIS-METL-PS-Q_BATES.35 | The terminal voltage shall be TBD V |
P-EIS-METL-PS-Q_BATES.36 | The design shall have thermal switches TBD |
P-EIS-METL-PS-Q_BATES.37 | The thermal switch connection numbers shall be TBD |
P-EIS-METL-PS-Q_BATES.38 | The design shall have water flow switches TBD |
P-EIS-METL-PS-Q_BATES.39 | The water flow switch connections numbers shall be TBD |
P-EIS-METL-PS-Q_BATES.40 | The design shall have access controls interlocks TBD |
P-EIS-METL-PS-Q_BATES.41 | The main terminals lug details shall be TBD |
P-EIS-METL-PS-Q_BATES.42 | The lead end indications shall be TBD |
P-EIS-METL-PS-Q_BATES.43 | The lugs details for thermal switch and water switches shall be TBD |
P-EIS-METL-PS-Q_BATES.44 | The lug details for the auxiliary windings shall be TBD |
P-EIS-METL-PS-Q_BATES.45 | The A/B terminal labeling details shall be TBD Draw id |
P-EIS-METL-PS-Q_BATES.46 | The magnet drawing with terminations details shall be TBD |
P-EIS-METL-PS-Q_BATES.47 | The magnet polarity connections shall be TBD |
P-EIS-METL-PS-SEPTUM.1 | The number of Independent functions on the magnets being powered shall be 1 |
P-EIS-METL-PS-SEPTUM.2 | The maximum magnet string resistance to be powered shall be TBD ohm |
P-EIS-METL-PS-SEPTUM.3 | The maximum magnet string inductance to be powered shall be TBD H |
P-EIS-METL-PS-SEPTUM.4 | The magnets being powered shall be saturated TBD Y/N |
P-EIS-METL-PS-SEPTUM.5 | < blank > |
P-EIS-METL-PS-SEPTUM.6 | The voltage to ground of the magnet being powered shall be TBD V |
P-EIS-METL-PS-SEPTUM.7 | The nominal current of the magnets being powered shall be TBD A |
P-EIS-METL-PS-SEPTUM.8 | The minimum current the PS must operate at shall be TBD A |
P-EIS-METL-PS-SEPTUM.9 | The maximum current the PS must operate at shall be TBD A |
P-EIS-METL-PS-SEPTUM.10 | The PS current type shall be DC (DC or AC) |
P-EIS-METL-PS-SEPTUM.11 | < blank > |
P-EIS-METL-PS-SEPTUM.12 | The peak waveshape di/dt during ramping shall be TBD |
P-EIS-METL-PS-SEPTUM.13 | The full power bandwidth required shall be TBD |
P-EIS-METL-PS-SEPTUM.14 | The ppm of full scale current (peak to peak) shall be TBD % |
P-EIS-METL-PS-SEPTUM.15 | The time period for specified stability shall be TBD s |
P-EIS-METL-PS-SEPTUM.16 | The short term stability shall be TBD A/s |
P-EIS-METL-PS-SEPTUM.17 | The long term stability shall be TBD A/s |
P-EIS-METL-PS-SEPTUM.18 | The current setpoint resolution (min size in bits) shall be TBD bits |
P-EIS-METL-PS-SEPTUM.19 | The synchronization required between PS's shall be TBD s |
P-EIS-METL-PS-SEPTUM.20 | The synchronization timing of synchronization shall be TBD s |
P-EIS-METL-PS-SEPTUM.21 | The max allowable current ripple (peak to peak) TBD A |
P-EIS-METL-PS-SEPTUM.22 | The max current ripple frequency range (Hz) TBD Hz |
P-EIS-METL-PS-SEPTUM.23 | WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz |
P-EIS-METL-PS-SEPTUM.24 | The max voltage ripple (peak to peak) shall be TBD V |
P-EIS-METL-PS-SEPTUM.25 | An NMR shall be required to measure the field TBD A/s |
P-EIS-METL-PS-SEPTUM.26 | < blank > |
P-EIS-METL-PS-SEPTUM.27 | < blank > |
P-EIS-METL-PS-SEPTUM.28 | < blank > |
P-EIS-METL-PS-SEPTUM.29 | < blank > |
P-EIS-METL-PS-SEPTUM.30 | < blank > |
P-EIS-METL-PS-SEPTUM.31 | < blank > |
P-EIS-METL-PS-SEPTUM.32 | < blank > |
P-EIS-METL-PS-SEPTUM.33 | The current required to be shunted through the magnet shall be TBD |
P-EIS-METL-PS-SEPTUM.34 | The magnet turns ratio shall be TBD |
P-EIS-METL-PS-SEPTUM.35 | The terminal voltage shall be TBD V |
P-EIS-METL-PS-SEPTUM.36 | The design shall have thermal switches TBD |
P-EIS-METL-PS-SEPTUM.37 | The thermal switch connection numbers shall be TBD |
P-EIS-METL-PS-SEPTUM.38 | The design shall have water flow switches TBD |
P-EIS-METL-PS-SEPTUM.39 | The water flow switch connections numbers shall be TBD |
P-EIS-METL-PS-SEPTUM.40 | The design shall have access controls interlocks TBD |
P-EIS-METL-PS-SEPTUM.41 | The main terminals lug details shall be TBD |
P-EIS-METL-PS-SEPTUM.42 | The lead end indications shall be TBD |
P-EIS-METL-PS-SEPTUM.43 | The lugs details for thermal switch and water switches shall be TBD |
P-EIS-METL-PS-SEPTUM.44 | The lug details for the auxiliary windings shall be TBD |
P-EIS-METL-PS-SEPTUM.45 | The A/B terminal labeling details shall be TBD Draw id |
P-EIS-METL-PS-SEPTUM.46 | The magnet drawing with terminations details shall be TBD |
P-EIS-METL-PS-SEPTUM.47 | The magnet polarity connections shall be TBD |
P-EIS-METL-PS-SPINSOL.1 | The number of Independent functions on the magnets being powered shall be 1 |
P-EIS-METL-PS-SPINSOL.2 | The maximum magnet string resistance to be powered shall be TBD ohm |
P-EIS-METL-PS-SPINSOL.3 | The maximum magnet string inductance to be powered shall be TBD H |
P-EIS-METL-PS-SPINSOL.4 | The magnets being powered shall be saturated TBD Y/N |
P-EIS-METL-PS-SPINSOL.5 | < blank > |
P-EIS-METL-PS-SPINSOL.6 | The voltage to ground of the magnet being powered shall be TBD V |
P-EIS-METL-PS-SPINSOL.7 | The nominal current of the magnets being powered shall be TBD A |
P-EIS-METL-PS-SPINSOL.8 | The minimum current the PS must operate at shall be TBD A |
P-EIS-METL-PS-SPINSOL.9 | The maximum current the PS must operate at shall be TBD A |
P-EIS-METL-PS-SPINSOL.10 | The PS current type shall be DC (DC or AC) |
P-EIS-METL-PS-SPINSOL.11 | < blank > |
P-EIS-METL-PS-SPINSOL.12 | The peak waveshape di/dt during ramping shall be TBD |
P-EIS-METL-PS-SPINSOL.13 | The full power bandwidth required shall be TBD |
P-EIS-METL-PS-SPINSOL.14 | The ppm of full scale current (peak to peak) shall be TBD % |
P-EIS-METL-PS-SPINSOL.15 | The time period for specified stability shall be TBD s |
P-EIS-METL-PS-SPINSOL.16 | The short term stability shall be TBD A/s |
P-EIS-METL-PS-SPINSOL.17 | The long term stability shall be TBD A/s |
P-EIS-METL-PS-SPINSOL.18 | The current setpoint resolution (min size in bits) shall be TBD bits |
P-EIS-METL-PS-SPINSOL.19 | The synchronization required between PS's shall be TBD s |
P-EIS-METL-PS-SPINSOL.20 | The synchronization timing of synchronization shall be TBD s |
P-EIS-METL-PS-SPINSOL.21 | The max allowable current ripple (peak to peak) TBD A |
P-EIS-METL-PS-SPINSOL.22 | The max current ripple frequency range (Hz) TBD Hz |
P-EIS-METL-PS-SPINSOL.23 | WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz |
P-EIS-METL-PS-SPINSOL.24 | The max voltage ripple (peak to peak) shall be TBD V |
P-EIS-METL-PS-SPINSOL.25 | An NMR shall be required to measure the field TBD A/s |
P-EIS-METL-PS-SPINSOL.26 | < blank > |
P-EIS-METL-PS-SPINSOL.27 | < blank > |
P-EIS-METL-PS-SPINSOL.28 | < blank > |
P-EIS-METL-PS-SPINSOL.29 | < blank > |
P-EIS-METL-PS-SPINSOL.30 | < blank > |
P-EIS-METL-PS-SPINSOL.31 | < blank > |
P-EIS-METL-PS-SPINSOL.32 | < blank > |
P-EIS-METL-PS-SPINSOL.33 | The current required to be shunted through the magnet shall be TBD |
P-EIS-METL-PS-SPINSOL.34 | The magnet turns ratio shall be TBD |
P-EIS-METL-PS-SPINSOL.35 | The terminal voltage shall be TBD V |
P-EIS-METL-PS-SPINSOL.36 | The design shall have thermal switches TBD |
P-EIS-METL-PS-SPINSOL.37 | The thermal switch connection numbers shall be TBD |
P-EIS-METL-PS-SPINSOL.38 | The design shall have water flow switches TBD |
P-EIS-METL-PS-SPINSOL.39 | The water flow switch connections numbers shall be TBD |
P-EIS-METL-PS-SPINSOL.40 | The design shall have access controls interlocks TBD |
P-EIS-METL-PS-SPINSOL.41 | The main terminals lug details shall be TBD |
P-EIS-METL-PS-SPINSOL.42 | The lead end indications shall be TBD |
P-EIS-METL-PS-SPINSOL.43 | The lugs details for thermal switch and water switches shall be TBD |
P-EIS-METL-PS-SPINSOL.44 | The lug details for the auxiliary windings shall be TBD |
P-EIS-METL-PS-SPINSOL.45 | The A/B terminal labeling details shall be TBD Draw id |
P-EIS-METL-PS-SPINSOL.46 | The magnet drawing with terminations details shall be TBD |
P-EIS-METL-PS-SPINSOL.47 | The magnet polarity connections shall be TBD |
P-EIS-RCS-MAG-C0.1 | The magnet shall have two functions. A H-corrector and a V-corrector |
P-EIS-RCS-MAG-C0.2 | < blank > |
P-EIS-RCS-MAG-C0.3 | < blank > |
P-EIS-RCS-MAG-C0.4 | < blank > |
P-EIS-RCS-MAG-C0.5 | The magnet shall have a Dipole field. |
P-EIS-RCS-MAG-C0.6.1 | The H-corrector field shall have a vertical field direction. |
P-EIS-RCS-MAG-C0.6.2 | The V-corrector field shall have a horizontal field direction. |
P-EIS-RCS-MAG-C0.7 | < blank > |
P-EIS-RCS-MAG-C0.9 | The magnet bore gap Gh and width Gw shall be Gh=40,Gw=TBD (mm) |
P-EIS-RCS-MAG-C0.10 | The magnet good field aperture dAx required shall be 15 (mm) |
P-EIS-RCS-MAG-C0.11 | The magnet good field aperture dAy required shall be 5 (mm) |
P-EIS-RCS-MAG-C0.12 | The magnet physical length of the magnet shall be <0.33 (m) |
P-EIS-RCS-MAG-C0.13 | The magnet model length shall be 0.33 (m) |
P-EIS-RCS-MAG-C0.14 | < blank > |
P-EIS-RCS-MAG-C0.15.1 | For the magnet at 3GeV Injection the integrated dipole field B shall be 0.00132 T.m |
P-EIS-RCS-MAG-C0.15.2 | For the magnet at 18GeV Extraction the integrated dipole field B shall be 0.00759 T.m |
P-EIS-RCS-MAG-C0.16 | < blank > |
P-EIS-RCS-MAG-C0.17 | For the magnet at the peak ramp rate shall be 0.00027 (T/s) |
P-EIS-RCS-MAG-C0.18 | For the magnet at the magnet-to-magnet field variability shall be < 0.001 (%) |
P-EIS-RCS-MAG-C0.19 | For magnet at the harmonic reference radius at the design energy of 18 GeV shall be 15 (mm) |
P-EIS-RCS-MAG-C0.20 | For magnet at the Field at the reference radius and design energy of 18 GeV shall be 0.0004(T) |
P-EIS-RCS-MAG-C0.21 | At the magnet the bore field shall have the following multipole content:Â |
P-EIS-RCS-MAG-C0.21.1 | b1=10000 , a1=0 (10^-4) |
P-EIS-RCS-MAG-C0.21.2 | -10<b2<10 , -10<a2<10 (10^-4) |
P-EIS-RCS-MAG-C0.21.4 | -10<b4<10 , -10<a4<10 (10^-4) |
P-EIS-RCS-MAG-C0.21.5 | -10<b5<10 , -10<a5<10 (10^-4) |
P-EIS-RCS-MAG-C0.21.6 | -10<b6<10 , -10<a6<10 (10^-4) |
P-EIS-RCS-MAG-C0.21.7 | -10<b7<10 , -10<a7<10 (10^-4) |
P-EIS-RCS-MAG-C0.21.8 | -10<b8<10 , -10<a8<10 (10^-4) |
P-EIS-RCS-MAG-C0.21.9 | -10<b9<10 , -10<a9<10 (10^-4) |
P-EIS-RCS-MAG-C0.21.11 | -10<b11<10 , -10<a11<10 (10^-4) |
P-EIS-RCS-MAG-C0.21.12 | b12 -10<b12<10 , -10<a12<10 (10^-4) |
P-EIS-RCS-MAG-C0.21.13 | b13 -10<b13<10 , -10<a13<10 (10^-4) |
P-EIS-RCS-MAG-C0.21.14 | b14 -10<b14<10 , -10<a14<10 (10^-4) |
P-EIS-RCS-MAG-C0.21.15 | b15 -10<b15<10 , -10<a15<10 (10^-4) |
P-EIS-RCS-MAG-C0.21.16 | b16 -10<b16<10 , -10<a16<10 (10^-4) |
P-EIS-RCS-MAG-D0.1 | The number of magnet functions shall be 1 |
P-EIS-RCS-MAG-D0.2 | The field type shall be Di (Di,Qu,Sx,Oc,De,Do,Sol,Ki,Hk,Vk,Se) |
P-EIS-RCS-MAG-D0.3 | The field direction shall be V (V=vertical,H=horizontal,Z=beam direction ) |
P-EIS-RCS-MAG-D0.4 | < blank > |
P-EIS-RCS-MAG-D0.5 | < blank > |
P-EIS-RCS-MAG-D0.6 | The min gap shall be 32 m |
P-EIS-RCS-MAG-D0.7 | The good field aperture drx required shall be 18.92 m |
P-EIS-RCS-MAG-D0.8 | The good field aperture dry required shall be 7.5 m |
P-EIS-RCS-MAG-D0.9 | The mag length shall be <1.9226 m |
P-EIS-RCS-MAG-D0.10 | The eff Length shall be 1.9226 m |
P-EIS-RCS-MAG-D0.11 | The dipole field B shall be 0.006 T |
P-EIS-RCS-MAG-D0.12 | The dipole field B shall be 0.006 T |
P-EIS-RCS-MAG-D0.13 | The ramp rate shall be 2.2 T/s |
P-EIS-RCS-MAG-D0.14 | The field stability shall be *1000 T/s |
P-EIS-RCS-MAG-D0.15 | The harmonic reference Radius and current shall be Ir=TBD[A]\Rr=16[mm] (mm,A) |
P-EIS-RCS-MAG-D0.15.1 | For the magnet at 3GeV Injection the integrated dipole field B shall be 0.08256 na.m |
P-EIS-RCS-MAG-D0.15.2 | For the magnet at 18GeV Extraction the integrated dipole field B shall be 0.4896 na.m |
P-EIS-RCS-MAG-D0.16 | The Field at the reference radius and current shall be Bref=0.0057 (T) |
P-EIS-RCS-MAG-D0.16.1 | Requirement Not Applicable. |
P-EIS-RCS-MAG-D0.17 | The Bore multipole content shall have a 0th order of 400MeV injection (10^-4) |
P-EIS-RCS-MAG-D0.18 | The Bore multipole content shall have a 1st order of b1=10000 , a1=0 (10^-4) |
P-EIS-RCS-MAG-D0.19 | The Bore multipole content shall have a 2nd order of -2.3<b2<2.3 , -0.1<a2<0.1 (10^-4) |
P-EIS-RCS-MAG-D0.20 | The Bore multipole content shall have a 3rd order of -5<b3<3 , 0.9<a3<1.1 (10^-4) |
P-EIS-RCS-MAG-D0.21 | The Bore multipole content shall have a 4th order of -0.1<b4<0.1 , 0<a4<0.2 (10^-4) |
P-EIS-RCS-MAG-D0.21.1 | b1 = 10000 , a1 = 0 |
P-EIS-RCS-MAG-D0.21.2 | -2.3 < b2 < 2.3 , -0.1 < a2 < 0.1 |
P-EIS-RCS-MAG-D0.21.4 | -0.1 < b4 < 0.1 , 0 < a4 < 0.2 |
P-EIS-RCS-MAG-D0.21.5 | 0.4 < b5 < 3 , 0 < a5 < 0.2 |
P-EIS-RCS-MAG-D0.21.6 | -0.1 < b6 < 0.1 , 0 < a6 < 0.2 |
P-EIS-RCS-MAG-D0.21.7 | -2 < b7 < 2 , 0 < a7 < 0.2 |
P-EIS-RCS-MAG-D0.21.8 | -1 < b8 < 1 , 0 < a8 < 0.2 |
P-EIS-RCS-MAG-D0.21.9 | -1 < b9 < 0 , 0.9 < a9 < 1.1 |
P-EIS-RCS-MAG-D0.21.11 | 0 < b11 < 2 , 0.9 < a11 < 1.1 |
P-EIS-RCS-MAG-D0.21.12 | Requirement Not Applicable |
P-EIS-RCS-MAG-D0.21.13 | Requirement Not Applicable |
P-EIS-RCS-MAG-D0.21.14 | Requirement Not Applicable |
P-EIS-RCS-MAG-D0.21.15 | Requirement Not Applicable |
P-EIS-RCS-MAG-D0.21.16 | Requirement Not Applicable |
P-EIS-RCS-MAG-D0.22 | The Bore multipole content shall have a 5th order of 0.4<b5<3 , 0<a5<0.2 (10^-4) |
P-EIS-RCS-MAG-D0.23 | The Bore multipole content shall have a 6th order of -0.1<b6<0.1 , 0<a6<0.2 (10^-4) |
P-EIS-RCS-MAG-D0.24 | The Bore multipole content shall have a 7th order of -2<b7<2 , 0<a7<0.2 (10^-4) |
P-EIS-RCS-MAG-D0.25 | The Bore multipole content shall have a 8th order of -1<b8<1 , 0<a8<0.2 (10^-4) |
P-EIS-RCS-MAG-D0.26 | The Bore multipole content shall have a 9th order of -1<b9<0 , 0.9<a9<1.1 (10^-4) |
P-EIS-RCS-MAG-D0.27 | The Bore multipole content shall have a 10th order of -1<b10<1 , 0.9<a10<1.1 (10^-4) |
P-EIS-RCS-MAG-D0.28 | The Bore multipole content shall have a 11th order of 0<b11<2 , 0.9<a11<1.1 (10^-4) |
P-EIS-RCS-MAG-D0.29 | The Bore multipole content shall have a 12th order of - (10^-4) |
P-EIS-RCS-MAG-D0.30 | The Bore multipole content shall have a 13th order of - (10^-4) |
P-EIS-RCS-MAG-D0.31 | The Bore multipole content shall have a 14th order of - (10^-4) |
P-EIS-RCS-MAG-D0.32 | The Bore multipole content shall have a 15th order of - (10^-4) |
P-EIS-RCS-MAG-D0.33 | The Bore multipole content shall have a 16th order of - (10^-4) |
P-EIS-RCS-MAG-D0.34 | The dipole field B shall be 0.006 T |
P-EIS-RCS-MAG-D0.35 | < blank > |
P-EIS-RCS-MAG-D0.36 | The ramp rate shall be 2.2 T/s |
P-EIS-RCS-MAG-D0.37 | The field stability shall be *1000 T/s |
P-EIS-RCS-MAG-D0.38 | The harmonic reference Radius and current shall be Ir=TBD[A]\Rr=16[mm] (mm,A) |
P-EIS-RCS-MAG-D0.39 | The Field at the reference radius and current shall be Bref=0.0057 (T) |
P-EIS-RCS-MAG-D0.40 | The Bore multipole content shall have a 0th order of 18GeV Extraction (10^-4) |
P-EIS-RCS-MAG-D0.41 | The Bore multipole content shall have a 1st order of b1=10000 , a1=0 (10^-4) |
P-EIS-RCS-MAG-D0.42 | The Bore multipole content shall have a 2nd order of -2.3<b2<2.3 , -0.1<a2<0.1 (10^-4) |
P-EIS-RCS-MAG-D0.43 | The Bore multipole content shall have a 3rd order of -5<b3<3 , 0.9<a3<1.1 (10^-4) |
P-EIS-RCS-MAG-D0.44 | The Bore multipole content shall have a 4th order of -0.1<b4<0.1 , 0<a4<0.2 (10^-4) |
P-EIS-RCS-MAG-D0.45 | The Bore multipole content shall have a 5th order of 0.4<b5<3 , 0<a5<0.2 (10^-4) |
P-EIS-RCS-MAG-D0.46 | The Bore multipole content shall have a 6th order of -0.1<b6<0.1 , 0<a6<0.2 (10^-4) |
P-EIS-RCS-MAG-D0.47 | The Bore multipole content shall have a 7th order of -2<b7<2 , 0<a7<0.2 (10^-4) |
P-EIS-RCS-MAG-D0.48 | The Bore multipole content shall have a 8th order of -1<b8<1 , 0<a8<0.2 (10^-4) |
P-EIS-RCS-MAG-D0.49 | The Bore multipole content shall have a 9th order of -1<b9<0 , 0.9<a9<1.1 (10^-4) |
P-EIS-RCS-MAG-D0.50 | The Bore multipole content shall have a 10th order of -1<b10<1 , 0.9<a10<1.1 (10^-4) |
P-EIS-RCS-MAG-D0.51 | The Bore multipole content shall have a 11th order of 0<b11<2 , 0.9<a11<1.1 (10^-4) |
P-EIS-RCS-MAG-D0.52 | The Bore multipole content shall have a 12th order of - (10^-4) |
P-EIS-RCS-MAG-D0.53 | The Bore multipole content shall have a 13th order of - (10^-4) |
P-EIS-RCS-MAG-D0.54 | The Bore multipole content shall have a 14th order of - (10^-4) |
P-EIS-RCS-MAG-D0.55 | The Bore multipole content shall have a 15th order of - (10^-4) |
P-EIS-RCS-MAG-D0.56 | The Bore multipole content shall have a 16th order of - (10^-4) |
P-EIS-RCS-MAG-Q0.1 | The magnet shall have two functions. A magnet and a magnet |
P-EIS-RCS-MAG-Q0.2 | The magnet function shall require trim coils capable of trimming the field of the magnet by +\- 0.05 (%) |
P-EIS-RCS-MAG-Q0.3 | The magnet function shall require current taps for operation TBD (y/n) |
P-EIS-RCS-MAG-Q0.4 | The magnet function shall require shunt(s) for operation TBD |
P-EIS-RCS-MAG-Q0.5.1 | The main quadrupole shall have a Quadrupole field. |
P-EIS-RCS-MAG-Q0.5.2 | The trim quadrupole shall have a Quadrupole field. |
P-EIS-RCS-MAG-Q0.6 | < blank > |
P-EIS-RCS-MAG-Q0.7 | The magnet shall have a normal field rotation. |
P-EIS-RCS-MAG-Q0.9 | < blank > |
P-EIS-RCS-MAG-Q0.10 | The magnet good field aperture dAx required shall be 15 (mm) |
P-EIS-RCS-MAG-Q0.11 | The magnet good field aperture dAy required shall be 5 (mm) |
P-EIS-RCS-MAG-Q0.12 | The magnet physical length of the magnet shall be <0.6 (m) |
P-EIS-RCS-MAG-Q0.13 | The magnet model length shall be 0.6 (m) |
P-EIS-RCS-MAG-Q0.14 | < blank > |
P-EIS-RCS-MAG-Q0.15.1 | < blank > |
P-EIS-RCS-MAG-Q0.15.2 | < blank > |
P-EIS-RCS-MAG-Q0.16.1.1 | For the main quadrupole at 3GeV Injection the Integrated grad field G shall be 2.58 T/m.m |
P-EIS-RCS-MAG-Q0.16.2.1 | For the trim quadrupole at 3GeV Injection the Integrated grad field G shall be 0.129 T/m.m |
P-EIS-RCS-MAG-Q0.16.2.2 | For the trim quadrupole at 18GeV Extraction the Integrated grad field G shall be 0.765 T/m.m |
P-EIS-RCS-MAG-Q0.17 | For the magnet at 3GeV Injection the peak ramp rate shall be 0.25 (T/m.s) |
P-EIS-RCS-MAG-Q0.18 | For the magnet at 3GeV Injection the magnet-to-magnet field variability shall be < 0.001 (%) |
P-EIS-RCS-MAG-Q0.19 | For magnet at 3GeV Injection the harmonic reference radius at the design energy of 18 GeV shall be 15 (mm) |
P-EIS-RCS-MAG-Q0.20 | For magnet at 3GeV Injection the Field at the reference radius and design energy of 18 GeV shall be 4.3(T.m) |
P-EIS-RCS-MAG-Q0.21 | At 3GeV Injection the magnet the bore field shall have the following multipole content:Â |
P-EIS-RCS-MAG-Q0.21.1 | < blank > |
P-EIS-RCS-MAG-Q0.21.2 | b2=10000 , a2=0 (10^-4) |
P-EIS-RCS-MAG-Q0.21.4 | -2<b4<2 , -0.1<a4<0.1 (10^-4) |
P-EIS-RCS-MAG-Q0.21.5 | -10<b5<10 , -0.1<a5<0.1 (10^-4) |
P-EIS-RCS-MAG-Q0.21.6 | 0.4<b6<2.4 , -0.1<a6<0.1 (10^-4) |
P-EIS-RCS-MAG-Q0.21.7 | -10<b7<10 , -0.1<a7<0.1 (10^-4) |
P-EIS-RCS-MAG-Q0.21.8 | -1<b8<1 , -0.1<a8<0.1 (10^-4) |
P-EIS-RCS-MAG-Q0.21.9 | -10<b9<10 , -0.1<a9<0.1 (10^-4) |
P-EIS-RCS-MAG-Q0.21.11 | -10<b11<10 , -0.1<a11<0.1 (10^-4) |
P-EIS-RCS-MAG-Q0.21.12 | b12 -2<b12<2 , -0.1<a12<0.1 (10^-4) |
P-EIS-RCS-MAG-Q0.21.13 | b13 -10<b13<10 , -0.1<a13<0.1 (10^-4) |
P-EIS-RCS-MAG-Q0.21.14 | b14 -7.1<b14<10.9 , -0.1<a14<0.1 (10^-4) |
P-EIS-RCS-MAG-Q0.21.15 | b15 -10<b15<10 , -0.1<a15<0.1 (10^-4) |
P-EIS-RCS-MAG-Q0.21.16 | b16 -10<b16<10 , -0.1<a16<0.1 (10^-4) |
P-EIS-RCS-MAG-Q0.34 | < blank > |
P-EIS-RCS-MAG-Q0.35 | The grad field G shall be T/m(n-1) |
P-EIS-RCS-MAG-Q0.36 | The ramp rate shall be T/s |
P-EIS-RCS-MAG-Q0.37 | The field stability shall be T/s |
P-EIS-RCS-MAG-Q0.38 | The harmonic reference Radius and current shall be (mm,A) |
P-EIS-RCS-MAG-Q0.39 | The Field at the reference radius and current shall be (T) |
P-EIS-RCS-MAG-Q0.40 | < blank > |
P-EIS-RCS-MAG-Q0.41 | The Bore multipole content shall have a 1st order of - (10^-4) |
P-EIS-RCS-MAG-Q0.42 | The Bore multipole content shall have a 2nd order of b2=10000 , a2=0 (10^-4) |
P-EIS-RCS-MAG-Q0.43 | The Bore multipole content shall have a 3rd order of -7<b3<7 , 0<a3<0.2 (10^-4) |
P-EIS-RCS-MAG-Q0.44 | The Bore multipole content shall have a 4th order of -2<b4<2 , 0<a4<0.2 (10^-4) |
P-EIS-RCS-MAG-Q0.45 | The Bore multipole content shall have a 5th order of -10<b5<10 , 0<a5<0.2 (10^-4) |
P-EIS-RCS-MAG-Q0.46 | The Bore multipole content shall have a 6th order of 0.4<b6<2.4 , 0<a6<0.2 (10^-4) |
P-EIS-RCS-MAG-Q0.47 | The Bore multipole content shall have a 7th order of -10<b7<10 , 0<a7<0.2 (10^-4) |
P-EIS-RCS-MAG-Q0.48 | The Bore multipole content shall have a 8th order of -1<b8<1 , 0<a8<0.2 (10^-4) |
P-EIS-RCS-MAG-Q0.49 | The Bore multipole content shall have a 9th order of -10<b9<10 , 0<a9<0.2 (10^-4) |
P-EIS-RCS-MAG-Q0.50 | The Bore multipole content shall have a 10th order of -1.3<b10<4.7 , 0<a10<0.2 (10^-4) |
P-EIS-RCS-MAG-Q0.51 | The Bore multipole content shall have a 11th order of -10<b11<10 , 0<a11<0.2 (10^-4) |
P-EIS-RCS-MAG-Q0.52 | The Bore multipole content shall have a 12th order of -2<b12<2 , 0<a12<0.2 (10^-4) |
P-EIS-RCS-MAG-Q0.53 | The Bore multipole content shall have a 13th order of -10<b13<10 , 0<a13<0.2 (10^-4) |
P-EIS-RCS-MAG-Q0.54 | The Bore multipole content shall have a 14th order of -7.1<b14<10.9 , 0<a14<0.2 (10^-4) |
P-EIS-RCS-MAG-Q0.55 | The Bore multipole content shall have a 15th order of -10<b15<10 , 0<a15<0.2 (10^-4) |
P-EIS-RCS-MAG-Q0.56 | The Bore multipole content shall have a 16th order of -10<b16<10 , 0<a16<0.2 (10^-4) |
P-EIS-RCS-MAG-Q0.57 | The magnet shall not be designed to limit Xtalk Requirements |
P-EIS-RCS-MAG-Q0.58 | < blank > |
P-EIS-RCS-MAG-Q0.59 | < blank > |
P-EIS-RCS-MAG-Q0.70 | < blank > |
P-EIS-RCS-MAG-Q0.71 | < blank > |
P-EIS-RCS-MAG-Q0.72 | < blank > |
P-EIS-RCS-MAG-Q0.73 | < blank > |
P-EIS-RCS-MAG-Q0.74 | < blank > |
P-EIS-RCS-MAG-Q0.75 | < blank > |
P-EIS-RCS-MAG-Q0.76 | < blank > |
P-EIS-RCS-MAG-Q0.77 | < blank > |
P-EIS-RCS-MAG-Q0.78 | The magnet design shall not constrain the ext. fringe field |
P-EIS-RCS-MAG-Q0.79 | < blank > |
P-EIS-RCS-MAG-Q0_6.1 | The number of magnet functions shall be 1 |
P-EIS-RCS-MAG-Q0_6.2 | The field type shall be Qu (Di,Qu,Sx,Oc,De,Do,Sol,Ki,Hk,Vk,Se) |
P-EIS-RCS-MAG-Q0_6.3 | < blank > |
P-EIS-RCS-MAG-Q0_6.4 | The field rotation shall be No (No=norm, Sk=skew) |
P-EIS-RCS-MAG-Q0_6.5 | The min coil inner rad shall be 16 m |
P-EIS-RCS-MAG-Q0_6.6 | < blank > |
P-EIS-RCS-MAG-Q0_6.7 | The good field aperture drx required shall be 20.25 m |
P-EIS-RCS-MAG-Q0_6.8 | The good field aperture dry required shall be 7.61 m |
P-EIS-RCS-MAG-Q0_6.9 | The mag length shall be <0.6 m |
P-EIS-RCS-MAG-Q0_6.10 | The eff Length shall be 0.6 m |
P-EIS-RCS-MAG-Q0_6.11 | < blank > |
P-EIS-RCS-MAG-Q0_6.12 | < blank > |
P-EIS-RCS-MAG-Q0_6.13 | The ramp rate shall be 2.2 T/s |
P-EIS-RCS-MAG-Q0_6.14 | The field stability shall be *1000 T/s |
P-EIS-RCS-MAG-Q0_6.15 | The harmonic reference Radius and current shall be Ir=TBD[A]\Rr=16[mm] (mm,A) |
P-EIS-RCS-MAG-Q0_6.16 | The Field at the reference radius and current shall be Bref=TBD (T) |
P-EIS-RCS-MAG-Q0_6.17 | < blank > |
P-EIS-RCS-MAG-Q0_6.18 | The Bore multipole content shall have a 1st order of - (10^-4) |
P-EIS-RCS-MAG-Q0_6.19 | The Bore multipole content shall have a 2nd order of b2=10000 , a2=0 (10^-4) |
P-EIS-RCS-MAG-Q0_6.20 | The Bore multipole content shall have a 3rd order of -7<b3<7 , 0<a3<0.2 (10^-4) |
P-EIS-RCS-MAG-Q0_6.21 | The Bore multipole content shall have a 4th order of -2<b4<2 , 0<a4<0.2 (10^-4) |
P-EIS-RCS-MAG-Q0_6.22 | The Bore multipole content shall have a 5th order of -10<b5<10 , 0<a5<0.2 (10^-4) |
P-EIS-RCS-MAG-Q0_6.23 | The Bore multipole content shall have a 6th order of 0.4<b6<2.4 , 0<a6<0.2 (10^-4) |
P-EIS-RCS-MAG-Q0_6.24 | The Bore multipole content shall have a 7th order of -10<b7<10 , 0<a7<0.2 (10^-4) |
P-EIS-RCS-MAG-Q0_6.25 | The Bore multipole content shall have a 8th order of -1<b8<1 , 0<a8<0.2 (10^-4) |
P-EIS-RCS-MAG-Q0_6.26 | The Bore multipole content shall have a 9th order of -10<b9<10 , 0<a9<0.2 (10^-4) |
P-EIS-RCS-MAG-Q0_6.27 | The Bore multipole content shall have a 10th order of -1.3<b10<4.7 , 0<a10<0.2 (10^-4) |
P-EIS-RCS-MAG-Q0_6.28 | The Bore multipole content shall have a 11th order of -10<b11<10 , 0<a11<0.2 (10^-4) |
P-EIS-RCS-MAG-Q0_6.29 | The Bore multipole content shall have a 12th order of -2<b12<2 , 0<a12<0.2 (10^-4) |
P-EIS-RCS-MAG-Q0_6.30 | The Bore multipole content shall have a 13th order of -10<b13<10 , 0<a13<0.2 (10^-4) |
P-EIS-RCS-MAG-Q0_6.31 | The Bore multipole content shall have a 14th order of -7.1<b14<10.9 , 0<a14<0.2 (10^-4) |
P-EIS-RCS-MAG-Q0_6.32 | The Bore multipole content shall have a 15th order of -10<b15<10 , 0<a15<0.2 (10^-4) |
P-EIS-RCS-MAG-Q0_6.33 | The Bore multipole content shall have a 16th order of -10<b16<10 , 0<a16<0.2 (10^-4) |
P-EIS-RCS-MAG-S0.1 | The magnet shall have a single function. |
P-EIS-RCS-MAG-S0.2 | < blank > |
P-EIS-RCS-MAG-S0.3 | < blank > |
P-EIS-RCS-MAG-S0.4 | < blank > |
P-EIS-RCS-MAG-S0.5 | The magnet shall have a Sextupole field. |
P-EIS-RCS-MAG-S0.6 | < blank > |
P-EIS-RCS-MAG-S0.7 | The magnet shall have a normal field rotation. |
P-EIS-RCS-MAG-S0.9 | < blank > |
P-EIS-RCS-MAG-S0.10 | The magnet good field aperture dAx required shall be 15 (mm) |
P-EIS-RCS-MAG-S0.11 | The magnet good field aperture dAy required shall be 5 (mm) |
P-EIS-RCS-MAG-S0.12 | The magnet physical length of the magnet shall be <0.5 (m) |
P-EIS-RCS-MAG-S0.13 | The magnet model length shall be 0.5 (m) |
P-EIS-RCS-MAG-S0.14 | < blank > |
P-EIS-RCS-MAG-S0.15 | < blank > |
P-EIS-RCS-MAG-S0.16.1 | For the magnet at 3GeV Injection the Integrated grad field G shall be 15.3 T/m2.m |
P-EIS-RCS-MAG-S0.17 | For the magnet at 3GeV Injection the peak ramp rate shall be 2.73(T/m2.S) |
P-EIS-RCS-MAG-S0.18 | For the magnet at 3GeV Injection the magnet-to-magnet field variability shall be < 0.001 (%) |
P-EIS-RCS-MAG-S0.19 | For magnet at the harmonic reference radius at the design energy of 18 GeV shall be 15 (mm) |
P-EIS-RCS-MAG-S0.20 | For magnet at the Field at the reference radius and design energy of 18 GeV shall be 30.5(T.m^2) |
P-EIS-RCS-MAG-S0.21 | The magnet the bore field shall have the following multipole content:Â |
P-EIS-RCS-MAG-S0.21.1 | < blank > |
P-EIS-RCS-MAG-S0.21.2 | < blank > |
P-EIS-RCS-MAG-S0.21.4 | -10<b4<10 , 0<a4<0.2 (10^-4) |
P-EIS-RCS-MAG-S0.21.5 | -10<b5<10 , 0<a5<0.2 (10^-4) |
P-EIS-RCS-MAG-S0.21.6 | -10<b6<10 , 0<a6<0.2 (10^-4) |
P-EIS-RCS-MAG-S0.21.7 | -10<b7<10 , 0<a7<0.2 (10^-4) |
P-EIS-RCS-MAG-S0.21.8 | -10<b8<10 , 0<a8<0.2 (10^-4) |
P-EIS-RCS-MAG-S0.21.9 | -10<b9<10 , 0<a9<0.2 (10^-4) |
P-EIS-RCS-MAG-S0.21.11 | -10<b11<10 , 0<a11<0.2 (10^-4) |
P-EIS-RCS-MAG-S0.21.12 | b12 -10<b12<10 , 0<a12<0.2 (10^-4) |
P-EIS-RCS-MAG-S0.21.13 | b13 -10<b13<10 , 0<a13<0.2 (10^-4) |
P-EIS-RCS-MAG-S0.21.14 | b14 -10<b14<10 , 0<a14<0.2 (10^-4) |
P-EIS-RCS-MAG-S0.21.15 | b15 -10<b15<10 , 0<a15<0.2 (10^-4) |
P-EIS-RCS-MAG-S0.21.16 | b16 -10<b16<10 , 0<a16<0.2 (10^-4) |
P-EIS-RCS-PS-CO.1 | The number of Independent functions on the magnets being powered shall be 1 |
P-EIS-RCS-PS-CO.2 | The maximum magnet string resistance to be powered shall be TBD ohm |
P-EIS-RCS-PS-CO.3 | The maximum magnet string inductance to be powered shall be TBD H |
P-EIS-RCS-PS-CO.4 | The magnets being powered shall be saturated TBD Y/N |
P-EIS-RCS-PS-CO.5 | < blank > |
P-EIS-RCS-PS-CO.6 | The voltage to ground of the magnet being powered shall be TBD V |
P-EIS-RCS-PS-CO.7 | The nominal current of the magnets being powered shall be 12.713724 A |
P-EIS-RCS-PS-CO.8 | The minimum current the PS must operate at shall be TBD A |
P-EIS-RCS-PS-CO.9 | The maximum current the PS must operate at shall be TBD A |
P-EIS-RCS-PS-CO.10 | The PS current type shall be DC (DC or AC) |
P-EIS-RCS-PS-CO.11 | < blank > |
P-EIS-RCS-PS-CO.12 | The peak waveshape di/dt during ramping shall be TBD |
P-EIS-RCS-PS-CO.13 | The full power bandwidth required shall be TBD |
P-EIS-RCS-PS-CO.14 | The ppm of full scale current (peak to peak) shall be TBD % |
P-EIS-RCS-PS-CO.15 | The time period for specified stability shall be TBD s |
P-EIS-RCS-PS-CO.16 | The short term stability shall be TBD A/s |
P-EIS-RCS-PS-CO.17 | The long term stability shall be TBD A/s |
P-EIS-RCS-PS-CO.18 | The current setpoint resolution (min size in bits) shall be TBD bits |
P-EIS-RCS-PS-CO.19 | The synchronization required between PS's shall be TBD s |
P-EIS-RCS-PS-CO.20 | The synchronization timing of synchronization shall be TBD s |
P-EIS-RCS-PS-CO.21 | The max allowable current ripple (peak to peak) TBD A |
P-EIS-RCS-PS-CO.22 | The max current ripple frequency range (Hz) TBD Hz |
P-EIS-RCS-PS-CO.23 | WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz |
P-EIS-RCS-PS-CO.24 | The max voltage ripple (peak to peak) shall be TBD V |
P-EIS-RCS-PS-CO.25 | An NMR shall be required to measure the field TBD A/s |
P-EIS-RCS-PS-CO.26 | The voltage tap configuration shall be TBD |
P-EIS-RCS-PS-CO.27 | The threshold levels shall be TBD V |
P-EIS-RCS-PS-CO.28 | The peak di/dt without inducing a quench shall be TBD A/S |
P-EIS-RCS-PS-CO.29 | The design shall have quench heaters TBD Y/N |
P-EIS-RCS-PS-CO.30 | The quench heater power rating shall be TBD W |
P-EIS-RCS-PS-CO.31 | The design shall have warm up heaters TBD Y/N |
P-EIS-RCS-PS-CO.32 | The warmup heater power rating shall be TBD W |
P-EIS-RCS-PS-CO.33 | The current required to be shunted through the magnet shall be TBD |
P-EIS-RCS-PS-CO.34 | The magnet turns ratio shall be TBD |
P-EIS-RCS-PS-CO.35 | The terminal voltage shall be TBD V |
P-EIS-RCS-PS-CO.36 | The design shall have thermal switches TBD |
P-EIS-RCS-PS-CO.37 | The thermal switch connection numbers shall be TBD |
P-EIS-RCS-PS-CO.38 | The design shall have water flow switches TBD |
P-EIS-RCS-PS-CO.39 | The water flow switch connections numbers shall be TBD |
P-EIS-RCS-PS-CO.40 | The design shall have access controls interlocks TBD |
P-EIS-RCS-PS-CO.41 | The main terminals lug details shall be TBD |
P-EIS-RCS-PS-CO.42 | The lead end indications shall be TBD |
P-EIS-RCS-PS-CO.43 | The lugs details for thermal switch and water switches shall be TBD |
P-EIS-RCS-PS-CO.44 | The lug details for the auxiliary windings shall be TBD |
P-EIS-RCS-PS-CO.45 | The A/B terminal labeling details shall be TBD Draw id |
P-EIS-RCS-PS-CO.46 | The magnet drawing with terminations details shall be TBD |
P-EIS-RCS-PS-CO.47 | The magnet polarity connections shall be TBD |
P-EIS-RCS-PS-D0.1 | The number of Independent functions on the magnets being powered shall be 1 |
P-EIS-RCS-PS-D0.2 | The maximum magnet string resistance to be powered shall be TBD ohm |
P-EIS-RCS-PS-D0.3 | The maximum magnet string inductance to be powered shall be TBD H |
P-EIS-RCS-PS-D0.4 | The magnets being powered shall be saturated TBD Y/N |
P-EIS-RCS-PS-D0.5 | < blank > |
P-EIS-RCS-PS-D0.6 | The voltage to ground of the magnet being powered shall be TBD V |
P-EIS-RCS-PS-D0.7 | The nominal current of the magnets being powered shall be 2111.2 A |
P-EIS-RCS-PS-D0.8 | The minimum current the PS must operate at shall be TBD A |
P-EIS-RCS-PS-D0.9 | The maximum current the PS must operate at shall be TBD A |
P-EIS-RCS-PS-D0.10 | The PS current type shall be DC (DC or AC) |
P-EIS-RCS-PS-D0.11 | < blank > |
P-EIS-RCS-PS-D0.12 | The peak waveshape di/dt during ramping shall be TBD |
P-EIS-RCS-PS-D0.13 | The full power bandwidth required shall be TBD |
P-EIS-RCS-PS-D0.14 | The ppm of full scale current (peak to peak) shall be TBD % |
P-EIS-RCS-PS-D0.15 | The time period for specified stability shall be TBD s |
P-EIS-RCS-PS-D0.16 | The short term stability shall be TBD A/s |
P-EIS-RCS-PS-D0.17 | The long term stability shall be TBD A/s |
P-EIS-RCS-PS-D0.18 | The current setpoint resolution (min size in bits) shall be TBD bits |
P-EIS-RCS-PS-D0.19 | The synchronization required between PS's shall be TBD s |
P-EIS-RCS-PS-D0.20 | The synchronization timing of synchronization shall be TBD s |
P-EIS-RCS-PS-D0.21 | The max allowable current ripple (peak to peak) TBD A |
P-EIS-RCS-PS-D0.22 | The max current ripple frequency range (Hz) TBD Hz |
P-EIS-RCS-PS-D0.23 | WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz |
P-EIS-RCS-PS-D0.24 | The max voltage ripple (peak to peak) shall be TBD V |
P-EIS-RCS-PS-D0.25 | An NMR shall be required to measure the field TBD A/s |
P-EIS-RCS-PS-D0.26 | The voltage tap configuration shall be TBD |
P-EIS-RCS-PS-D0.27 | The threshold levels shall be TBD V |
P-EIS-RCS-PS-D0.28 | The peak di/dt without inducing a quench shall be TBD A/S |
P-EIS-RCS-PS-D0.29 | The design shall have quench heaters TBD Y/N |
P-EIS-RCS-PS-D0.30 | The quench heater power rating shall be TBD W |
P-EIS-RCS-PS-D0.31 | The design shall have warm up heaters TBD Y/N |
P-EIS-RCS-PS-D0.32 | The warmup heater power rating shall be TBD W |
P-EIS-RCS-PS-D0.33 | The current required to be shunted through the magnet shall be TBD |
P-EIS-RCS-PS-D0.34 | The magnet turns ratio shall be TBD |
P-EIS-RCS-PS-D0.35 | The terminal voltage shall be TBD V |
P-EIS-RCS-PS-D0.36 | The design shall have thermal switches TBD |
P-EIS-RCS-PS-D0.37 | The thermal switch connection numbers shall be TBD |
P-EIS-RCS-PS-D0.38 | The design shall have water flow switches TBD |
P-EIS-RCS-PS-D0.39 | The water flow switch connections numbers shall be TBD |
P-EIS-RCS-PS-D0.40 | The design shall have access controls interlocks TBD |
P-EIS-RCS-PS-D0.41 | The main terminals lug details shall be TBD |
P-EIS-RCS-PS-D0.42 | The lead end indications shall be TBD |
P-EIS-RCS-PS-D0.43 | The lugs details for thermal switch and water switches shall be TBD |
P-EIS-RCS-PS-D0.44 | The lug details for the auxiliary windings shall be TBD |
P-EIS-RCS-PS-D0.45 | The A/B terminal labeling details shall be TBD Draw id |
P-EIS-RCS-PS-D0.46 | The magnet drawing with terminations details shall be TBD |
P-EIS-RCS-PS-D0.47 | The magnet polarity connections shall be TBD |
P-EIS-RCS-PS-Q0_6.1 | The number of Independent functions on the magnets being powered shall be 1 |
P-EIS-RCS-PS-Q0_6.2 | The maximum magnet string resistance to be powered shall be TBD ohm |
P-EIS-RCS-PS-Q0_6.3 | The maximum magnet string inductance to be powered shall be TBD H |
P-EIS-RCS-PS-Q0_6.4 | The magnets being powered shall be saturated TBD Y/N |
P-EIS-RCS-PS-Q0_6.5 | < blank > |
P-EIS-RCS-PS-Q0_6.6 | The voltage to ground of the magnet being powered shall be TBD V |
P-EIS-RCS-PS-Q0_6.7 | The nominal current of the magnets being powered shall be 1095.9 A |
P-EIS-RCS-PS-Q0_6.8 | The minimum current the PS must operate at shall be TBD A |
P-EIS-RCS-PS-Q0_6.9 | The maximum current the PS must operate at shall be TBD A |
P-EIS-RCS-PS-Q0_6.10 | The PS current type shall be DC (DC or AC) |
P-EIS-RCS-PS-Q0_6.11 | < blank > |
P-EIS-RCS-PS-Q0_6.12 | The peak waveshape di/dt during ramping shall be TBD |
P-EIS-RCS-PS-Q0_6.13 | The full power bandwidth required shall be TBD |
P-EIS-RCS-PS-Q0_6.14 | The ppm of full scale current (peak to peak) shall be TBD % |
P-EIS-RCS-PS-Q0_6.15 | The time period for specified stability shall be TBD s |
P-EIS-RCS-PS-Q0_6.16 | The short term stability shall be TBD A/s |
P-EIS-RCS-PS-Q0_6.17 | The long term stability shall be TBD A/s |
P-EIS-RCS-PS-Q0_6.18 | The current setpoint resolution (min size in bits) shall be TBD bits |
P-EIS-RCS-PS-Q0_6.19 | The synchronization required between PS's shall be TBD s |
P-EIS-RCS-PS-Q0_6.20 | The synchronization timing of synchronization shall be TBD s |
P-EIS-RCS-PS-Q0_6.21 | The max allowable current ripple (peak to peak) TBD A |
P-EIS-RCS-PS-Q0_6.22 | The max current ripple frequency range (Hz) TBD Hz |
P-EIS-RCS-PS-Q0_6.23 | WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz |
P-EIS-RCS-PS-Q0_6.24 | The max voltage ripple (peak to peak) shall be TBD V |
P-EIS-RCS-PS-Q0_6.25 | An NMR shall be required to measure the field TBD A/s |
P-EIS-RCS-PS-Q0_6.26 | The voltage tap configuration shall be N/A |
P-EIS-RCS-PS-Q0_6.27 | The threshold levels shall be N/A V |
P-EIS-RCS-PS-Q0_6.28 | The peak di/dt without inducing a quench shall be N/A A/S |
P-EIS-RCS-PS-Q0_6.29 | The design shall have quench heaters N/A Y/N |
P-EIS-RCS-PS-Q0_6.30 | The quench heater power rating shall be N/A W |
P-EIS-RCS-PS-Q0_6.31 | The design shall have warm up heaters N/A Y/N |
P-EIS-RCS-PS-Q0_6.32 | The warmup heater power rating shall be N/A W |
P-EIS-RCS-PS-Q0_6.33 | The current required to be shunted through the magnet shall be TBD |
P-EIS-RCS-PS-Q0_6.34 | The magnet turns ratio shall be TBD |
P-EIS-RCS-PS-Q0_6.35 | The terminal voltage shall be TBD V |
P-EIS-RCS-PS-Q0_6.36 | The design shall have thermal switches TBD |
P-EIS-RCS-PS-Q0_6.37 | The thermal switch connection numbers shall be TBD |
P-EIS-RCS-PS-Q0_6.38 | The design shall have water flow switches TBD |
P-EIS-RCS-PS-Q0_6.39 | The water flow switch connections numbers shall be TBD |
P-EIS-RCS-PS-Q0_6.40 | The design shall have access controls interlocks TBD |
P-EIS-RCS-PS-Q0_6.41 | The main terminals lug details shall be TBD |
P-EIS-RCS-PS-Q0_6.42 | The lead end indications shall be TBD |
P-EIS-RCS-PS-Q0_6.43 | The lugs details for thermal switch and water switches shall be TBD |
P-EIS-RCS-PS-Q0_6.44 | The lug details for the auxiliary windings shall be TBD |
P-EIS-RCS-PS-Q0_6.45 | The A/B terminal labeling details shall be TBD Draw id |
P-EIS-RCS-PS-Q0_6.46 | The magnet drawing with terminations details shall be TBD |
P-EIS-RCS-PS-Q0_6.47 | The magnet polarity connections shall be TBD |
P-EIS-RCS-PS-SXT.1 | The number of Independent functions on the magnets being powered shall be 1 |
P-EIS-RCS-PS-SXT.2 | The maximum magnet string resistance to be powered shall be TBD ohm |
P-EIS-RCS-PS-SXT.3 | The maximum magnet string inductance to be powered shall be TBD H |
P-EIS-RCS-PS-SXT.4 | The magnets being powered shall be saturated TBD Y/N |
P-EIS-RCS-PS-SXT.5 | < blank > |
P-EIS-RCS-PS-SXT.6 | The voltage to ground of the magnet being powered shall be TBD V |
P-EIS-RCS-PS-SXT.7 | The nominal current of the magnets being powered shall be 580 A |
P-EIS-RCS-PS-SXT.8 | The minimum current the PS must operate at shall be TBD A |
P-EIS-RCS-PS-SXT.9 | The maximum current the PS must operate at shall be TBD A |
P-EIS-RCS-PS-SXT.10 | The PS current type shall be DC (DC or AC) |
P-EIS-RCS-PS-SXT.11 | < blank > |
P-EIS-RCS-PS-SXT.12 | The peak waveshape di/dt during ramping shall be TBD |
P-EIS-RCS-PS-SXT.13 | The full power bandwidth required shall be TBD |
P-EIS-RCS-PS-SXT.14 | The ppm of full scale current (peak to peak) shall be TBD % |
P-EIS-RCS-PS-SXT.15 | The time period for specified stability shall be TBD s |
P-EIS-RCS-PS-SXT.16 | The short term stability shall be TBD A/s |
P-EIS-RCS-PS-SXT.17 | The long term stability shall be TBD A/s |
P-EIS-RCS-PS-SXT.18 | The current setpoint resolution (min size in bits) shall be TBD bits |
P-EIS-RCS-PS-SXT.19 | The synchronization required between PS's shall be TBD s |
P-EIS-RCS-PS-SXT.20 | The synchronization timing of synchronization shall be TBD s |
P-EIS-RCS-PS-SXT.21 | The max allowable current ripple (peak to peak) TBD A |
P-EIS-RCS-PS-SXT.22 | The max current ripple frequency range (Hz) TBD Hz |
P-EIS-RCS-PS-SXT.23 | WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz |
P-EIS-RCS-PS-SXT.24 | The max voltage ripple (peak to peak) shall be TBD V |
P-EIS-RCS-PS-SXT.25 | An NMR shall be required to measure the field TBD A/s |
P-EIS-RCS-PS-SXT.26 | The voltage tap configuration shall be TBD |
P-EIS-RCS-PS-SXT.27 | The threshold levels shall be TBD V |
P-EIS-RCS-PS-SXT.28 | The peak di/dt without inducing a quench shall be TBD A/S |
P-EIS-RCS-PS-SXT.29 | The design shall have quench heaters TBD Y/N |
P-EIS-RCS-PS-SXT.30 | The quench heater power rating shall be TBD W |
P-EIS-RCS-PS-SXT.31 | The design shall have warm up heaters TBD Y/N |
P-EIS-RCS-PS-SXT.32 | The warmup heater power rating shall be TBD W |
P-EIS-RCS-PS-SXT.33 | The current required to be shunted through the magnet shall be TBD |
P-EIS-RCS-PS-SXT.34 | The magnet turns ratio shall be TBD |
P-EIS-RCS-PS-SXT.35 | The terminal voltage shall be TBD V |
P-EIS-RCS-PS-SXT.36 | The design shall have thermal switches TBD |
P-EIS-RCS-PS-SXT.37 | The thermal switch connection numbers shall be TBD |
P-EIS-RCS-PS-SXT.38 | The design shall have water flow switches TBD |
P-EIS-RCS-PS-SXT.39 | The water flow switch connections numbers shall be TBD |
P-EIS-RCS-PS-SXT.40 | The design shall have access controls interlocks TBD |
P-EIS-RCS-PS-SXT.41 | The main terminals lug details shall be TBD |
P-EIS-RCS-PS-SXT.42 | The lead end indications shall be TBD |
P-EIS-RCS-PS-SXT.43 | The lugs details for thermal switch and water switches shall be TBD |
P-EIS-RCS-PS-SXT.44 | The lug details for the auxiliary windings shall be TBD |
P-EIS-RCS-PS-SXT.45 | The A/B terminal labeling details shall be TBD Draw id |
P-EIS-RCS-PS-SXT.46 | The magnet drawing with terminations details shall be TBD |
P-EIS-RCS-PS-SXT.47 | The magnet polarity connections shall be TBD |
P-HSR-MAG-AR_CQS(Corr-H).1 | The RHIC magnet shall operate for EIC functions. |
P-HSR-MAG-AR_CQS(Corr-H).2 | The magnet shall require air trim coils capable of trimmig the field +- . |
P-HSR-MAG-AR_CQS(Corr-H).3 | The magnet shall require current taps for operation |
P-HSR-MAG-AR_CQS(Corr-H).4 | The magnet shall require shunt(s) for operation |
P-HSR-MAG-AR_CQS(Corr-H).5 | The magnet shall have a Dipole field. |
P-HSR-MAG-AR_CQS(Corr-H).6 | The magnet field shall have a vertical field direction |
P-HSR-MAG-AR_CQS(Corr-H).7 | < blank > |
P-HSR-MAG-AR_CQS(Corr-H).8 | < blank > |
P-HSR-MAG-AR_CQS(Corr-H).9 | The minimal magnet bore gap shall be 69 m. |
P-HSR-MAG-AR_CQS(Corr-H).10 | The magnet good field aperture drx required shall be 41.088 m. |
P-HSR-MAG-AR_CQS(Corr-H).11 | The magnet good field aperture dry required shall be 6.912 m. |
P-HSR-MAG-AR_CQS(Corr-H).12 | The physical magnet length shall be <0.5 m. |
P-HSR-MAG-AR_CQS(Corr-H).13 | The effective magnet length shall be 0.5 m. |
P-HSR-MAG-AR_CQS(Corr-H).14 | The magnet slot length shall be Within the Tech spec for the RHIC magnet AR_CQS(Corr-H) . |
P-HSR-MAG-AR_CQS(Corr-H).15 | The magnet integrated dipole field B shall be 0na Within the Tech spec for the RHIC magnet AR_CQS(Corr-H). |
P-HSR-MAG-AR_CQS(Corr-H).16 | < blank > |
P-HSR-MAG-AR_CQS(Corr-H).17 | < blank > |
P-HSR-MAG-AR_CQS(Corr-H).18 | The magnet to magnet variability shall be TBD T/s. |
P-HSR-MAG-AR_CQS(Corr-H).19 | The magnet harmonic reference radius (Rr) and current (Ir) shall be Ir=TBD[A]\Rr=16[mm] (mm,A). |
P-HSR-MAG-AR_CQS(Corr-H).20 | The magnet field at the reference radius and current shall be Bref=TBD (T). |
P-HSR-MAG-AR_CQS(Corr-H).21 | The magnet bore field shall require the following multipole content: |
P-HSR-MAG-AR_CQS(Corr-H).21.01 | Within the Tech spec for the RHIC magnet AR_CQS(Corr-H) (10^-4). |
P-HSR-MAG-AR_CQS(Corr-H).21.02 | Within the Tech spec for the RHIC magnet AR_CQS(Corr-H) (10^-4). |
P-HSR-MAG-AR_CQS(Corr-H).21.03 | Within the Tech spec for the RHIC magnet AR_CQS(Corr-H) (10^-4). |
P-HSR-MAG-AR_CQS(Corr-H).21.04 | Within the Tech spec for the RHIC magnet AR_CQS(Corr-H) . |
P-HSR-MAG-AR_CQS(Corr-H).21.05 | Within the Tech spec for the RHIC magnet AR_CQS(Corr-H) (10^-4). |
P-HSR-MAG-AR_CQS(Corr-H).21.06 | Within the Tech spec for the RHIC magnet AR_CQS(Corr-H) (10^-4). |
P-HSR-MAG-AR_CQS(Corr-H).21.07 | Within the Tech spec for the RHIC magnet AR_CQS(Corr-H) (10^-4). |
P-HSR-MAG-AR_CQS(Corr-H).21.08 | Within the Tech spec for the RHIC magnet AR_CQS(Corr-H) (10^-4). |
P-HSR-MAG-AR_CQS(Corr-H).21.09 | Within the Tech spec for the RHIC magnet AR_CQS(Corr-H) (10^-4). |
P-HSR-MAG-AR_CQS(Corr-H).21.11 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-AR_CQS(Corr-H).21.12 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-AR_CQS(Corr-H).21.13 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-AR_CQS(Corr-H).21.14 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-AR_CQS(Corr-H).21.15 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-AR_CQS(Corr-H).21.16 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-AR_CQS(Corr-H).22 | The magnet shall not be designed to limit Crosstalk requirements. |
P-HSR-MAG-AR_CQS(Corr-H).23 | < blank > |
P-HSR-MAG-AR_CQS(Corr-H).24 | < blank > |
P-HSR-MAG-AR_CQS(Corr-H).25 | < blank > |
P-HSR-MAG-AR_CQS(Corr-H).26 | < blank > |
P-HSR-MAG-AR_CQS(Corr-H).26.01 | < blank > |
P-HSR-MAG-AR_CQS(Corr-H).26.02 | < blank > |
P-HSR-MAG-AR_CQS(Corr-H).26.03 | < blank > |
P-HSR-MAG-AR_CQS(Corr-H).26.04 | < blank > |
P-HSR-MAG-AR_CQS(Corr-H).26.05 | < blank > |
P-HSR-MAG-AR_CQS(Corr-H).26.06 | < blank > |
P-HSR-MAG-AR_CQS(Corr-H).26.07 | < blank > |
P-HSR-MAG-AR_CQS(Corr-H).26.08 | < blank > |
P-HSR-MAG-AR_CQS(Corr-H).26.09 | < blank > |
P-HSR-MAG-AR_CQS(Corr-H).26.11 | < blank > |
P-HSR-MAG-AR_CQS(Corr-H).26.12 | < blank > |
P-HSR-MAG-AR_CQS(Corr-H).26.13 | < blank > |
P-HSR-MAG-AR_CQS(Corr-H).26.14 | < blank > |
P-HSR-MAG-AR_CQS(Corr-H).26.15 | < blank > |
P-HSR-MAG-AR_CQS(Corr-H).26.16 | < blank > |
P-HSR-MAG-AR_CQS(Corr-H).27 | The magnet shall not be designed to constain the external fringe field. |
P-HSR-MAG-AR_CQS(Corr-H).28 | <blank> |
P-HSR-MAG-AR_CQS(Corr-HV).1 | The RHIC magnet shall operate for EIC functions. |
P-HSR-MAG-AR_CQS(Corr-HV).2 | The magnet shall require air trim coils capable of trimmig the field +- . |
P-HSR-MAG-AR_CQS(Corr-HV).3 | The magnet shall require current taps for operation |
P-HSR-MAG-AR_CQS(Corr-HV).4 | The magnet shall require shunt(s) for operation |
P-HSR-MAG-AR_CQS(Corr-HV).5 | The magnet shall have a Dipole field. |
P-HSR-MAG-AR_CQS(Corr-HV).6 | The magnet field shall have a vertical field direction |
P-HSR-MAG-AR_CQS(Corr-HV).7 | < blank > |
P-HSR-MAG-AR_CQS(Corr-HV).8 | < blank > |
P-HSR-MAG-AR_CQS(Corr-HV).9 | The minimal magnet bore gap shall be 69 m. |
P-HSR-MAG-AR_CQS(Corr-HV).10 | The magnet good field aperture drx required shall be 15.896 m. |
P-HSR-MAG-AR_CQS(Corr-HV).11 | The magnet good field aperture dry required shall be 23.216 m. |
P-HSR-MAG-AR_CQS(Corr-HV).12 | The physical magnet length shall be <0.5 m. |
P-HSR-MAG-AR_CQS(Corr-HV).13 | The effective magnet length shall be 0.5 m. |
P-HSR-MAG-AR_CQS(Corr-HV).14 | The magnet slot length shall be Within the Tech spec for the RHIC magnet AR_CQS(Corr-HV) . |
P-HSR-MAG-AR_CQS(Corr-HV).15 | The magnet integrated dipole field B shall be 0na Within the Tech spec for the RHIC magnet AR_CQS(Corr-HV). |
P-HSR-MAG-AR_CQS(Corr-HV).16 | < blank > |
P-HSR-MAG-AR_CQS(Corr-HV).17 | < blank > |
P-HSR-MAG-AR_CQS(Corr-HV).18 | The magnet to magnet variability shall be TBD T/s. |
P-HSR-MAG-AR_CQS(Corr-HV).19 | The magnet harmonic reference radius (Rr) and current (Ir) shall be Ir=TBD[A]\Rr=16[mm] (mm,A). |
P-HSR-MAG-AR_CQS(Corr-HV).20 | The magnet field at the reference radius and current shall be Bref=TBD (T). |
P-HSR-MAG-AR_CQS(Corr-HV).21 | The magnet bore field shall require the following multipole content: |
P-HSR-MAG-AR_CQS(Corr-HV).21.01 | Within the Tech spec for the RHIC magnet AR_CQS(Corr-HV) (10^-4). |
P-HSR-MAG-AR_CQS(Corr-HV).21.02 | Within the Tech spec for the RHIC magnet AR_CQS(Corr-HV) (10^-4). |
P-HSR-MAG-AR_CQS(Corr-HV).21.03 | Within the Tech spec for the RHIC magnet AR_CQS(Corr-HV) (10^-4). |
P-HSR-MAG-AR_CQS(Corr-HV).21.04 | Within the Tech spec for the RHIC magnet AR_CQS(Corr-HV) . |
P-HSR-MAG-AR_CQS(Corr-HV).21.05 | Within the Tech spec for the RHIC magnet AR_CQS(Corr-HV) (10^-4). |
P-HSR-MAG-AR_CQS(Corr-HV).21.06 | Within the Tech spec for the RHIC magnet AR_CQS(Corr-HV) (10^-4). |
P-HSR-MAG-AR_CQS(Corr-HV).21.07 | Within the Tech spec for the RHIC magnet AR_CQS(Corr-HV) (10^-4). |
P-HSR-MAG-AR_CQS(Corr-HV).21.08 | Within the Tech spec for the RHIC magnet AR_CQS(Corr-HV) (10^-4). |
P-HSR-MAG-AR_CQS(Corr-HV).21.09 | Within the Tech spec for the RHIC magnet AR_CQS(Corr-HV) (10^-4). |
P-HSR-MAG-AR_CQS(Corr-HV).21.11 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-AR_CQS(Corr-HV).21.12 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-AR_CQS(Corr-HV).21.13 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-AR_CQS(Corr-HV).21.14 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-AR_CQS(Corr-HV).21.15 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-AR_CQS(Corr-HV).21.16 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-AR_CQS(Corr-HV).22 | The magnet shall not be designed to limit Crosstalk requirements. |
P-HSR-MAG-AR_CQS(Corr-HV).23 | < blank > |
P-HSR-MAG-AR_CQS(Corr-HV).24 | < blank > |
P-HSR-MAG-AR_CQS(Corr-HV).25 | < blank > |
P-HSR-MAG-AR_CQS(Corr-HV).26 | < blank > |
P-HSR-MAG-AR_CQS(Corr-HV).26.01 | < blank > |
P-HSR-MAG-AR_CQS(Corr-HV).26.02 | < blank > |
P-HSR-MAG-AR_CQS(Corr-HV).26.03 | < blank > |
P-HSR-MAG-AR_CQS(Corr-HV).26.04 | < blank > |
P-HSR-MAG-AR_CQS(Corr-HV).26.05 | < blank > |
P-HSR-MAG-AR_CQS(Corr-HV).26.06 | < blank > |
P-HSR-MAG-AR_CQS(Corr-HV).26.07 | < blank > |
P-HSR-MAG-AR_CQS(Corr-HV).26.08 | < blank > |
P-HSR-MAG-AR_CQS(Corr-HV).26.09 | < blank > |
P-HSR-MAG-AR_CQS(Corr-HV).26.11 | < blank > |
P-HSR-MAG-AR_CQS(Corr-HV).26.12 | < blank > |
P-HSR-MAG-AR_CQS(Corr-HV).26.13 | < blank > |
P-HSR-MAG-AR_CQS(Corr-HV).26.14 | < blank > |
P-HSR-MAG-AR_CQS(Corr-HV).26.15 | < blank > |
P-HSR-MAG-AR_CQS(Corr-HV).26.16 | < blank > |
P-HSR-MAG-AR_CQS(Corr-HV).27 | The magnet shall not be designed to constain the external fringe field. |
P-HSR-MAG-AR_CQS(Corr-HV).28 | <blank> |
P-HSR-MAG-AR_CQS(Corr-V).1 | The RHIC magnet shall operate for EIC functions. |
P-HSR-MAG-AR_CQS(Corr-V).2 | The magnet shall require air trim coils capable of trimmig the field +- . |
P-HSR-MAG-AR_CQS(Corr-V).3 | The magnet shall require current taps for operation |
P-HSR-MAG-AR_CQS(Corr-V).4 | The magnet shall require shunt(s) for operation |
P-HSR-MAG-AR_CQS(Corr-V).5 | The magnet shall have a Dipole field. |
P-HSR-MAG-AR_CQS(Corr-V).6 | The magnet field shall have a horizontal field direction |
P-HSR-MAG-AR_CQS(Corr-V).7 | < blank > |
P-HSR-MAG-AR_CQS(Corr-V).8 | < blank > |
P-HSR-MAG-AR_CQS(Corr-V).9 | The minimal magnet bore gap shall be 69 m. |
P-HSR-MAG-AR_CQS(Corr-V).10 | The magnet good field aperture drx required shall be 15.896 m. |
P-HSR-MAG-AR_CQS(Corr-V).11 | The magnet good field aperture dry required shall be 23.216 m. |
P-HSR-MAG-AR_CQS(Corr-V).12 | The physical magnet length shall be <0.5 m. |
P-HSR-MAG-AR_CQS(Corr-V).13 | The effective magnet length shall be 0.5 m. |
P-HSR-MAG-AR_CQS(Corr-V).14 | The magnet slot length shall be Within the Tech spec for the RHIC magnet AR_CQS(Corr-V) . |
P-HSR-MAG-AR_CQS(Corr-V).15 | The magnet integrated dipole field B shall be 0na Within the Tech spec for the RHIC magnet AR_CQS(Corr-V). |
P-HSR-MAG-AR_CQS(Corr-V).16 | < blank > |
P-HSR-MAG-AR_CQS(Corr-V).17 | < blank > |
P-HSR-MAG-AR_CQS(Corr-V).18 | The magnet to magnet variability shall be TBD T/s. |
P-HSR-MAG-AR_CQS(Corr-V).19 | The magnet harmonic reference radius (Rr) and current (Ir) shall be Ir=TBD[A]\Rr=16[mm] (mm,A). |
P-HSR-MAG-AR_CQS(Corr-V).20 | The magnet field at the reference radius and current shall be Bref=TBD (T). |
P-HSR-MAG-AR_CQS(Corr-V).21 | The magnet bore field shall require the following multipole content: |
P-HSR-MAG-AR_CQS(Corr-V).21.01 | Within the Tech spec for the RHIC magnet AR_CQS(Corr-V) (10^-4). |
P-HSR-MAG-AR_CQS(Corr-V).21.02 | Within the Tech spec for the RHIC magnet AR_CQS(Corr-V) (10^-4). |
P-HSR-MAG-AR_CQS(Corr-V).21.03 | Within the Tech spec for the RHIC magnet AR_CQS(Corr-V) (10^-4). |
P-HSR-MAG-AR_CQS(Corr-V).21.04 | Within the Tech spec for the RHIC magnet AR_CQS(Corr-V) . |
P-HSR-MAG-AR_CQS(Corr-V).21.05 | Within the Tech spec for the RHIC magnet AR_CQS(Corr-V) (10^-4). |
P-HSR-MAG-AR_CQS(Corr-V).21.06 | Within the Tech spec for the RHIC magnet AR_CQS(Corr-V) (10^-4). |
P-HSR-MAG-AR_CQS(Corr-V).21.07 | Within the Tech spec for the RHIC magnet AR_CQS(Corr-V) (10^-4). |
P-HSR-MAG-AR_CQS(Corr-V).21.08 | Within the Tech spec for the RHIC magnet AR_CQS(Corr-V) (10^-4). |
P-HSR-MAG-AR_CQS(Corr-V).21.09 | Within the Tech spec for the RHIC magnet AR_CQS(Corr-V) (10^-4). |
P-HSR-MAG-AR_CQS(Corr-V).21.11 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-AR_CQS(Corr-V).21.12 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-AR_CQS(Corr-V).21.13 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-AR_CQS(Corr-V).21.14 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-AR_CQS(Corr-V).21.15 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-AR_CQS(Corr-V).21.16 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-AR_CQS(Corr-V).22 | The magnet shall not be designed to limit Crosstalk requirements. |
P-HSR-MAG-AR_CQS(Corr-V).23 | < blank > |
P-HSR-MAG-AR_CQS(Corr-V).24 | < blank > |
P-HSR-MAG-AR_CQS(Corr-V).25 | < blank > |
P-HSR-MAG-AR_CQS(Corr-V).26 | < blank > |
P-HSR-MAG-AR_CQS(Corr-V).26.01 | < blank > |
P-HSR-MAG-AR_CQS(Corr-V).26.02 | < blank > |
P-HSR-MAG-AR_CQS(Corr-V).26.03 | < blank > |
P-HSR-MAG-AR_CQS(Corr-V).26.04 | < blank > |
P-HSR-MAG-AR_CQS(Corr-V).26.05 | < blank > |
P-HSR-MAG-AR_CQS(Corr-V).26.06 | < blank > |
P-HSR-MAG-AR_CQS(Corr-V).26.07 | < blank > |
P-HSR-MAG-AR_CQS(Corr-V).26.08 | < blank > |
P-HSR-MAG-AR_CQS(Corr-V).26.09 | < blank > |
P-HSR-MAG-AR_CQS(Corr-V).26.11 | < blank > |
P-HSR-MAG-AR_CQS(Corr-V).26.12 | < blank > |
P-HSR-MAG-AR_CQS(Corr-V).26.13 | < blank > |
P-HSR-MAG-AR_CQS(Corr-V).26.14 | < blank > |
P-HSR-MAG-AR_CQS(Corr-V).26.15 | < blank > |
P-HSR-MAG-AR_CQS(Corr-V).26.16 | < blank > |
P-HSR-MAG-AR_CQS(Corr-V).27 | The magnet shall not be designed to constain the external fringe field. |
P-HSR-MAG-AR_CQS(Corr-V).28 | <blank> |
P-HSR-MAG-AR_CQS(Quad).1 | The RHIC magnet shall operate for EIC functions. |
P-HSR-MAG-AR_CQS(Quad).2 | The magnet shall require air trim coils capable of trimmig the field +- . |
P-HSR-MAG-AR_CQS(Quad).3 | The magnet shall require current taps for operation |
P-HSR-MAG-AR_CQS(Quad).4 | The magnet shall require shunt(s) for operation |
P-HSR-MAG-AR_CQS(Quad).5 | The magnet shall have a Quadrupole field. |
P-HSR-MAG-AR_CQS(Quad).6 | < blank > |
P-HSR-MAG-AR_CQS(Quad).7 | The magnet shall have a normal field rotation. |
P-HSR-MAG-AR_CQS(Quad).8 | The minimal magnet inscribe radius shall be 34.5 m. |
P-HSR-MAG-AR_CQS(Quad).9 | < blank > |
P-HSR-MAG-AR_CQS(Quad).10 | The magnet good field aperture drx required shall be 42.838 m. |
P-HSR-MAG-AR_CQS(Quad).11 | The magnet good field aperture dry required shall be 5.874 m. |
P-HSR-MAG-AR_CQS(Quad).12 | The physical magnet length shall be <1.11 m. |
P-HSR-MAG-AR_CQS(Quad).13 | The effective magnet length shall be 1.11 m. |
P-HSR-MAG-AR_CQS(Quad).14 | The magnet slot length shall be Within the Tech spec for the RHIC magnet AR_CQS(Quad) . |
P-HSR-MAG-AR_CQS(Quad).15 | < blank > |
P-HSR-MAG-AR_CQS(Quad).16 | < blank > |
P-HSR-MAG-AR_CQS(Quad).17 | < blank > |
P-HSR-MAG-AR_CQS(Quad).18 | The magnet to magnet variability shall be TBD T/s. |
P-HSR-MAG-AR_CQS(Quad).19 | The magnet harmonic reference radius (Rr) and current (Ir) shall be Ir=TBD[A]\Rr=16[mm] (mm,A). |
P-HSR-MAG-AR_CQS(Quad).20 | The magnet field at the reference radius and current shall be Bref=TBD (T). |
P-HSR-MAG-AR_CQS(Quad).21 | The magnet bore field shall require the following multipole content: |
P-HSR-MAG-AR_CQS(Quad).21.01 | Within the Tech spec for the RHIC magnet AR_CQS(Quad) (10^-4). |
P-HSR-MAG-AR_CQS(Quad).21.02 | Within the Tech spec for the RHIC magnet AR_CQS(Quad) (10^-4). |
P-HSR-MAG-AR_CQS(Quad).21.03 | Within the Tech spec for the RHIC magnet AR_CQS(Quad) (10^-4). |
P-HSR-MAG-AR_CQS(Quad).21.04 | Within the Tech spec for the RHIC magnet AR_CQS(Quad) . |
P-HSR-MAG-AR_CQS(Quad).21.05 | Within the Tech spec for the RHIC magnet AR_CQS(Quad) (10^-4). |
P-HSR-MAG-AR_CQS(Quad).21.06 | Within the Tech spec for the RHIC magnet AR_CQS(Quad) (10^-4). |
P-HSR-MAG-AR_CQS(Quad).21.07 | Within the Tech spec for the RHIC magnet AR_CQS(Quad) (10^-4). |
P-HSR-MAG-AR_CQS(Quad).21.08 | Within the Tech spec for the RHIC magnet AR_CQS(Quad) (10^-4). |
P-HSR-MAG-AR_CQS(Quad).21.09 | Within the Tech spec for the RHIC magnet AR_CQS(Quad) (10^-4). |
P-HSR-MAG-AR_CQS(Quad).21.11 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-AR_CQS(Quad).21.12 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-AR_CQS(Quad).21.13 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-AR_CQS(Quad).21.14 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-AR_CQS(Quad).21.15 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-AR_CQS(Quad).21.16 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-AR_CQS(Quad).22 | The magnet shall not be designed to limit Crosstalk requirements. |
P-HSR-MAG-AR_CQS(Quad).23 | < blank > |
P-HSR-MAG-AR_CQS(Quad).24 | < blank > |
P-HSR-MAG-AR_CQS(Quad).25 | < blank > |
P-HSR-MAG-AR_CQS(Quad).26 | < blank > |
P-HSR-MAG-AR_CQS(Quad).26.01 | < blank > |
P-HSR-MAG-AR_CQS(Quad).26.02 | < blank > |
P-HSR-MAG-AR_CQS(Quad).26.03 | < blank > |
P-HSR-MAG-AR_CQS(Quad).26.04 | < blank > |
P-HSR-MAG-AR_CQS(Quad).26.05 | < blank > |
P-HSR-MAG-AR_CQS(Quad).26.06 | < blank > |
P-HSR-MAG-AR_CQS(Quad).26.07 | < blank > |
P-HSR-MAG-AR_CQS(Quad).26.08 | < blank > |
P-HSR-MAG-AR_CQS(Quad).26.09 | < blank > |
P-HSR-MAG-AR_CQS(Quad).26.11 | < blank > |
P-HSR-MAG-AR_CQS(Quad).26.12 | < blank > |
P-HSR-MAG-AR_CQS(Quad).26.13 | < blank > |
P-HSR-MAG-AR_CQS(Quad).26.14 | < blank > |
P-HSR-MAG-AR_CQS(Quad).26.15 | < blank > |
P-HSR-MAG-AR_CQS(Quad).26.16 | < blank > |
P-HSR-MAG-AR_CQS(Quad).27 | The magnet shall not be designed to constain the external fringe field. |
P-HSR-MAG-AR_CQS(Quad).28 | <blank> |
P-HSR-MAG-AR_CQS(Sxt).1 | The RHIC magnet shall operate for EIC functions. |
P-HSR-MAG-AR_CQS(Sxt).2 | The magnet shall require air trim coils capable of trimmig the field +- . |
P-HSR-MAG-AR_CQS(Sxt).3 | The magnet shall require current taps for operation |
P-HSR-MAG-AR_CQS(Sxt).4 | The magnet shall require shunt(s) for operation |
P-HSR-MAG-AR_CQS(Sxt).5 | The field type shall be (Di,Qu,Sx,Oc,De,Do,Sol,Ki,Hk,Vk) |
P-HSR-MAG-AR_CQS(Sxt).6 | The magnet field direction shall be (V=vertical,H=horizontal,Z=beam direction ) |
P-HSR-MAG-AR_CQS(Sxt).7 | The magnet shall have a normal field rotation. |
P-HSR-MAG-AR_CQS(Sxt).8 | The minimal magnet inscribe radius shall be 34.5 m. |
P-HSR-MAG-AR_CQS(Sxt).9 | < blank > |
P-HSR-MAG-AR_CQS(Sxt).10 | The magnet good field aperture drx required shall be 42.549 m. |
P-HSR-MAG-AR_CQS(Sxt).11 | The magnet good field aperture dry required shall be 6.044 m. |
P-HSR-MAG-AR_CQS(Sxt).12 | The physical magnet length shall be <0.75 m. |
P-HSR-MAG-AR_CQS(Sxt).13 | The effective magnet length shall be 0.75 m. |
P-HSR-MAG-AR_CQS(Sxt).14 | The magnet slot length shall be Within the Tech spec for the RHIC magnet AR_CQS(Sxt) . |
P-HSR-MAG-AR_CQS(Sxt).15 | < blank > |
P-HSR-MAG-AR_CQS(Sxt).16 | < blank > |
P-HSR-MAG-AR_CQS(Sxt).17 | < blank > |
P-HSR-MAG-AR_CQS(Sxt).18 | The magnet to magnet variability shall be TBD T/s. |
P-HSR-MAG-AR_CQS(Sxt).19 | The magnet harmonic reference radius (Rr) and current (Ir) shall be Ir=TBD[A]\Rr=16[mm] (mm,A). |
P-HSR-MAG-AR_CQS(Sxt).20 | The magnet field at the reference radius and current shall be Bref=TBD (T). |
P-HSR-MAG-AR_CQS(Sxt).21 | The magnet bore field shall require the following multipole content: |
P-HSR-MAG-AR_CQS(Sxt).21.01 | Within the Tech spec for the RHIC magnet AR_CQS(Sxt) (10^-4). |
P-HSR-MAG-AR_CQS(Sxt).21.02 | Within the Tech spec for the RHIC magnet AR_CQS(Sxt) (10^-4). |
P-HSR-MAG-AR_CQS(Sxt).21.03 | Within the Tech spec for the RHIC magnet AR_CQS(Sxt) (10^-4). |
P-HSR-MAG-AR_CQS(Sxt).21.04 | Within the Tech spec for the RHIC magnet AR_CQS(Sxt) . |
P-HSR-MAG-AR_CQS(Sxt).21.05 | Within the Tech spec for the RHIC magnet AR_CQS(Sxt) (10^-4). |
P-HSR-MAG-AR_CQS(Sxt).21.06 | Within the Tech spec for the RHIC magnet AR_CQS(Sxt) (10^-4). |
P-HSR-MAG-AR_CQS(Sxt).21.07 | Within the Tech spec for the RHIC magnet AR_CQS(Sxt) (10^-4). |
P-HSR-MAG-AR_CQS(Sxt).21.08 | Within the Tech spec for the RHIC magnet AR_CQS(Sxt) (10^-4). |
P-HSR-MAG-AR_CQS(Sxt).21.09 | Within the Tech spec for the RHIC magnet AR_CQS(Sxt) (10^-4). |
P-HSR-MAG-AR_CQS(Sxt).21.11 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-AR_CQS(Sxt).21.12 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-AR_CQS(Sxt).21.13 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-AR_CQS(Sxt).21.14 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-AR_CQS(Sxt).21.15 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-AR_CQS(Sxt).21.16 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-AR_CQS(Sxt).22 | The magnet shall not be designed to limit Crosstalk requirements. |
P-HSR-MAG-AR_CQS(Sxt).23 | < blank > |
P-HSR-MAG-AR_CQS(Sxt).24 | < blank > |
P-HSR-MAG-AR_CQS(Sxt).25 | < blank > |
P-HSR-MAG-AR_CQS(Sxt).26 | < blank > |
P-HSR-MAG-AR_CQS(Sxt).26.01 | < blank > |
P-HSR-MAG-AR_CQS(Sxt).26.02 | < blank > |
P-HSR-MAG-AR_CQS(Sxt).26.03 | < blank > |
P-HSR-MAG-AR_CQS(Sxt).26.04 | < blank > |
P-HSR-MAG-AR_CQS(Sxt).26.05 | < blank > |
P-HSR-MAG-AR_CQS(Sxt).26.06 | < blank > |
P-HSR-MAG-AR_CQS(Sxt).26.07 | < blank > |
P-HSR-MAG-AR_CQS(Sxt).26.08 | < blank > |
P-HSR-MAG-AR_CQS(Sxt).26.09 | < blank > |
P-HSR-MAG-AR_CQS(Sxt).26.11 | < blank > |
P-HSR-MAG-AR_CQS(Sxt).26.12 | < blank > |
P-HSR-MAG-AR_CQS(Sxt).26.13 | < blank > |
P-HSR-MAG-AR_CQS(Sxt).26.14 | < blank > |
P-HSR-MAG-AR_CQS(Sxt).26.15 | < blank > |
P-HSR-MAG-AR_CQS(Sxt).26.16 | < blank > |
P-HSR-MAG-AR_CQS(Sxt).27 | The magnet shall not be designed to constain the external fringe field. |
P-HSR-MAG-AR_CQS(Sxt).28 | <blank> |
P-HSR-MAG-AR_D6.1 | The RHIC magnet shall operate for EIC functions. |
P-HSR-MAG-AR_D6.2 | The magnet shall require air trim coils capable of trimmig the field +- . |
P-HSR-MAG-AR_D6.3 | The magnet shall require current taps for operation |
P-HSR-MAG-AR_D6.4 | The magnet shall require shunt(s) for operation |
P-HSR-MAG-AR_D6.5 | The magnet shall have a Dipole field. |
P-HSR-MAG-AR_D6.6 | The magnet field shall have a vertical field direction |
P-HSR-MAG-AR_D6.7 | < blank > |
P-HSR-MAG-AR_D6.8 | < blank > |
P-HSR-MAG-AR_D6.9 | The minimal magnet bore gap shall be 69 m. |
P-HSR-MAG-AR_D6.10 | The magnet good field aperture drx required shall be 16.7 m. |
P-HSR-MAG-AR_D6.11 | The magnet good field aperture dry required shall be 9.159 m. |
P-HSR-MAG-AR_D6.12 | The physical magnet length shall be <2.949 m. |
P-HSR-MAG-AR_D6.13 | The effective magnet length shall be 2.949 m. |
P-HSR-MAG-AR_D6.14 | The magnet slot length shall be Within the Tech spec for the RHIC magnet D6,D9 . |
P-HSR-MAG-AR_D6.15 | The magnet integrated dipole field B shall be 3.77 Within the Tech spec for the RHIC magnet D6,D9. |
P-HSR-MAG-AR_D6.16 | < blank > |
P-HSR-MAG-AR_D6.17 | < blank > |
P-HSR-MAG-AR_D6.18 | The magnet to magnet variability shall be TBD T/s. |
P-HSR-MAG-AR_D6.19 | The magnet harmonic reference radius (Rr) and current (Ir) shall be 60mm \ 30A (mm,A). |
P-HSR-MAG-AR_D6.20 | The magnet field at the reference radius and current shall be Bref=TBD (T). |
P-HSR-MAG-AR_D6.21 | The magnet bore field shall require the following multipole content: |
P-HSR-MAG-AR_D6.21.1 | -1.15<b10<-1.11 , 0.04<a10<0.08 (10^-4). |
P-HSR-MAG-AR_D6.21.02 | -1.56<b2<2.62 , -3.02<a2<-2.38 (10^-4). |
P-HSR-MAG-AR_D6.21.03 | -0.19<b3<0.19 , -1.16<a3<1.04 (10^-4). |
P-HSR-MAG-AR_D6.21.04 | -3.25<b4<-2.11 , 0.18<a4<0.5 . |
P-HSR-MAG-AR_D6.21.05 | -0.07<b5<0.13 , -0.19<a5<0.57 (10^-4). |
P-HSR-MAG-AR_D6.21.06 | -2.08<b6<-1.74 , -0.23<a6<-0.07 (10^-4). |
P-HSR-MAG-AR_D6.21.07 | -0.03<b7<0.05 , 0.04<a7<0.26 (10^-4). |
P-HSR-MAG-AR_D6.21.08 | -1.16<b8<-1.02 , -0.09<a8<-0.01 (10^-4). |
P-HSR-MAG-AR_D6.21.09 | -0.02<b9<0.02 , 0.03<a9<0.13 (10^-4). |
P-HSR-MAG-AR_D6.21.11 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-AR_D6.21.12 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-AR_D6.21.13 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-AR_D6.21.14 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-AR_D6.21.15 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-AR_D6.21.16 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-AR_D6.22 | The magnet shall not be designed to limit Crosstalk requirements. |
P-HSR-MAG-AR_D6.23 | < blank > |
P-HSR-MAG-AR_D6.24 | < blank > |
P-HSR-MAG-AR_D6.25 | < blank > |
P-HSR-MAG-AR_D6.26 | < blank > |
P-HSR-MAG-AR_D6.26.01 | < blank > |
P-HSR-MAG-AR_D6.26.02 | < blank > |
P-HSR-MAG-AR_D6.26.03 | < blank > |
P-HSR-MAG-AR_D6.26.04 | < blank > |
P-HSR-MAG-AR_D6.26.05 | < blank > |
P-HSR-MAG-AR_D6.26.06 | < blank > |
P-HSR-MAG-AR_D6.26.07 | < blank > |
P-HSR-MAG-AR_D6.26.08 | < blank > |
P-HSR-MAG-AR_D6.26.09 | < blank > |
P-HSR-MAG-AR_D6.26.11 | < blank > |
P-HSR-MAG-AR_D6.26.12 | < blank > |
P-HSR-MAG-AR_D6.26.13 | < blank > |
P-HSR-MAG-AR_D6.26.14 | < blank > |
P-HSR-MAG-AR_D6.26.15 | < blank > |
P-HSR-MAG-AR_D6.26.16 | < blank > |
P-HSR-MAG-AR_D6.27 | The magnet shall not be designed to constain the external fringe field. |
P-HSR-MAG-AR_D6.28 | <blank> |
P-HSR-MAG-AR_D8.1 | The RHIC magnet shall operate for EIC functions. |
P-HSR-MAG-AR_D8.2 | The magnet shall require air trim coils capable of trimmig the field +- . |
P-HSR-MAG-AR_D8.3 | The magnet shall require current taps for operation |
P-HSR-MAG-AR_D8.4 | The magnet shall require shunt(s) for operation |
P-HSR-MAG-AR_D8.5 | The magnet shall have a Dipole field. |
P-HSR-MAG-AR_D8.6 | The magnet field shall have a vertical field direction |
P-HSR-MAG-AR_D8.7 | < blank > |
P-HSR-MAG-AR_D8.8 | < blank > |
P-HSR-MAG-AR_D8.9 | The minimal magnet bore gap shall be 69 m. |
P-HSR-MAG-AR_D8.10 | The magnet good field aperture drx required shall be 38.179 m. |
P-HSR-MAG-AR_D8.11 | The magnet good field aperture dry required shall be 8.669 m. |
P-HSR-MAG-AR_D8.12 | The physical magnet length shall be <9.441 m. |
P-HSR-MAG-AR_D8.13 | The effective magnet length shall be 9.441 m. |
P-HSR-MAG-AR_D8.14 | The magnet slot length shall be Within the Tech spec for the RHIC magnet AR_D8 . |
P-HSR-MAG-AR_D8.15 | The magnet integrated dipole field B shall be 3.769na Within the Tech spec for the RHIC magnet AR_D8. |
P-HSR-MAG-AR_D8.16 | < blank > |
P-HSR-MAG-AR_D8.17 | < blank > |
P-HSR-MAG-AR_D8.18 | The magnet to magnet variability shall be TBD T/s. |
P-HSR-MAG-AR_D8.19 | The magnet harmonic reference radius (Rr) and current (Ir) shall be 80mm \ 5000 A (mm,A). |
P-HSR-MAG-AR_D8.20 | The magnet field at the reference radius and current shall be Bref=TBD (T). |
P-HSR-MAG-AR_D8.21 | The magnet bore field shall require the following multipole content: |
P-HSR-MAG-AR_D8.21.1 | -0.6<b10<-0.56 , -0.02<a10<0 (10^-4). |
P-HSR-MAG-AR_D8.21.02 | -0.93<b2<2.59 , -1.25<a2<-0.89 (10^-4). |
P-HSR-MAG-AR_D8.21.03 | -0.07<b3<0.09 , -0.77<a3<0.05 (10^-4). |
P-HSR-MAG-AR_D8.21.04 | -0.44<b4<0.74 , 0.14<a4<0.26 . |
P-HSR-MAG-AR_D8.21.05 | -0.07<b5<0.01 , -0.22<a5<0.1 (10^-4). |
P-HSR-MAG-AR_D8.21.06 | 1.05<b6<1.33 , -0.12<a6<-0.08 (10^-4). |
P-HSR-MAG-AR_D8.21.07 | -0.02<b7<0 , -0.06<a7<0.04 (10^-4). |
P-HSR-MAG-AR_D8.21.08 | 0<b8<0.24 , 0.01<a8<0.03 (10^-4). |
P-HSR-MAG-AR_D8.21.09 | 0<b9<0.04 , 0.02<a9<0.06 (10^-4). |
P-HSR-MAG-AR_D8.21.11 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-AR_D8.21.12 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-AR_D8.21.13 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-AR_D8.21.14 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-AR_D8.21.15 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-AR_D8.21.16 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-AR_D8.22 | The magnet shall not be designed to limit Crosstalk requirements. |
P-HSR-MAG-AR_D8.23 | < blank > |
P-HSR-MAG-AR_D8.24 | < blank > |
P-HSR-MAG-AR_D8.25 | < blank > |
P-HSR-MAG-AR_D8.26 | < blank > |
P-HSR-MAG-AR_D8.26.01 | < blank > |
P-HSR-MAG-AR_D8.26.02 | < blank > |
P-HSR-MAG-AR_D8.26.03 | < blank > |
P-HSR-MAG-AR_D8.26.04 | < blank > |
P-HSR-MAG-AR_D8.26.05 | < blank > |
P-HSR-MAG-AR_D8.26.06 | < blank > |
P-HSR-MAG-AR_D8.26.07 | < blank > |
P-HSR-MAG-AR_D8.26.08 | < blank > |
P-HSR-MAG-AR_D8.26.09 | < blank > |
P-HSR-MAG-AR_D8.26.11 | < blank > |
P-HSR-MAG-AR_D8.26.12 | < blank > |
P-HSR-MAG-AR_D8.26.13 | < blank > |
P-HSR-MAG-AR_D8.26.14 | < blank > |
P-HSR-MAG-AR_D8.26.15 | < blank > |
P-HSR-MAG-AR_D8.26.16 | < blank > |
P-HSR-MAG-AR_D8.27 | The magnet shall not be designed to constain the external fringe field. |
P-HSR-MAG-AR_D8.28 | <blank> |
P-HSR-MAG-AR_D9.1 | The RHIC magnet shall operate for EIC functions. |
P-HSR-MAG-AR_D9.2 | The magnet shall require air trim coils capable of trimmig the field +- . |
P-HSR-MAG-AR_D9.3 | The magnet shall require current taps for operation |
P-HSR-MAG-AR_D9.4 | The magnet shall require shunt(s) for operation |
P-HSR-MAG-AR_D9.5 | The magnet shall have a Dipole field. |
P-HSR-MAG-AR_D9.6 | The magnet field shall have a vertical field direction |
P-HSR-MAG-AR_D9.7 | < blank > |
P-HSR-MAG-AR_D9.8 | < blank > |
P-HSR-MAG-AR_D9.9 | The minimal magnet bore gap shall be 69 m. |
P-HSR-MAG-AR_D9.10 | The magnet good field aperture drx required shall be 16.7 m. |
P-HSR-MAG-AR_D9.11 | The magnet good field aperture dry required shall be 9.159 m. |
P-HSR-MAG-AR_D9.12 | The physical magnet length shall be <2.949 m. |
P-HSR-MAG-AR_D9.13 | The effective magnet length shall be 2.949 m. |
P-HSR-MAG-AR_D9.14 | The magnet slot length shall be Within the Tech spec for the RHIC magnet D6,D9 . |
P-HSR-MAG-AR_D9.15 | The magnet integrated dipole field B shall be 3.77 Within the Tech spec for the RHIC magnet D6,D9. |
P-HSR-MAG-AR_D9.16 | < blank > |
P-HSR-MAG-AR_D9.17 | < blank > |
P-HSR-MAG-AR_D9.18 | The magnet to magnet variability shall be TBD T/s. |
P-HSR-MAG-AR_D9.19 | The magnet harmonic reference radius (Rr) and current (Ir) shall be 60mm \ 30A (mm,A). |
P-HSR-MAG-AR_D9.20 | The magnet field at the reference radius and current shall be Bref=TBD (T). |
P-HSR-MAG-AR_D9.21 | The magnet bore field shall require the following multipole content: |
P-HSR-MAG-AR_D9.21.1 | -1.15<b10<-1.11 , 0.04<a10<0.08 (10^-4). |
P-HSR-MAG-AR_D9.21.02 | -1.56<b2<2.62 , -3.02<a2<-2.38 (10^-4). |
P-HSR-MAG-AR_D9.21.03 | -0.19<b3<0.19 , -1.16<a3<1.04 (10^-4). |
P-HSR-MAG-AR_D9.21.04 | -3.25<b4<-2.11 , 0.18<a4<0.5 . |
P-HSR-MAG-AR_D9.21.05 | -0.07<b5<0.13 , -0.19<a5<0.57 (10^-4). |
P-HSR-MAG-AR_D9.21.06 | -2.08<b6<-1.74 , -0.23<a6<-0.07 (10^-4). |
P-HSR-MAG-AR_D9.21.07 | -0.03<b7<0.05 , 0.04<a7<0.26 (10^-4). |
P-HSR-MAG-AR_D9.21.08 | -1.16<b8<-1.02 , -0.09<a8<-0.01 (10^-4). |
P-HSR-MAG-AR_D9.21.09 | -0.02<b9<0.02 , 0.03<a9<0.13 (10^-4). |
P-HSR-MAG-AR_D9.21.11 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-AR_D9.21.12 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-AR_D9.21.13 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-AR_D9.21.14 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-AR_D9.21.15 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-AR_D9.21.16 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-AR_D9.22 | The magnet shall not be designed to limit Crosstalk requirements. |
P-HSR-MAG-AR_D9.23 | < blank > |
P-HSR-MAG-AR_D9.24 | < blank > |
P-HSR-MAG-AR_D9.25 | < blank > |
P-HSR-MAG-AR_D9.26 | < blank > |
P-HSR-MAG-AR_D9.26.01 | < blank > |
P-HSR-MAG-AR_D9.26.02 | < blank > |
P-HSR-MAG-AR_D9.26.03 | < blank > |
P-HSR-MAG-AR_D9.26.04 | < blank > |
P-HSR-MAG-AR_D9.26.05 | < blank > |
P-HSR-MAG-AR_D9.26.06 | < blank > |
P-HSR-MAG-AR_D9.26.07 | < blank > |
P-HSR-MAG-AR_D9.26.08 | < blank > |
P-HSR-MAG-AR_D9.26.09 | < blank > |
P-HSR-MAG-AR_D9.26.11 | < blank > |
P-HSR-MAG-AR_D9.26.12 | < blank > |
P-HSR-MAG-AR_D9.26.13 | < blank > |
P-HSR-MAG-AR_D9.26.14 | < blank > |
P-HSR-MAG-AR_D9.26.15 | < blank > |
P-HSR-MAG-AR_D9.26.16 | < blank > |
P-HSR-MAG-AR_D9.27 | The magnet shall not be designed to constain the external fringe field. |
P-HSR-MAG-AR_D9.28 | <blank> |
P-HSR-MAG-BXDS01A.1 | The RHIC magnet shall operate for EIC functions. |
P-HSR-MAG-BXDS01A.2 | The magnet shall require air trim coils capable of trimmig the field +- . |
P-HSR-MAG-BXDS01A.3 | The magnet shall require current taps for operation |
P-HSR-MAG-BXDS01A.4 | The magnet shall require shunt(s) for operation |
P-HSR-MAG-BXDS01A.5 | The magnet shall have a Dipole field. |
P-HSR-MAG-BXDS01A.6 | The magnet field shall have a vertical field direction |
P-HSR-MAG-BXDS01A.7 | < blank > |
P-HSR-MAG-BXDS01A.8 | < blank > |
P-HSR-MAG-BXDS01A.9 | The minimal magnet bore gap shall be 69 m. |
P-HSR-MAG-BXDS01A.10 | The magnet good field aperture drx required shall be 685.378 m. |
P-HSR-MAG-BXDS01A.11 | The magnet good field aperture dry required shall be 70.36 m. |
P-HSR-MAG-BXDS01A.12 | The physical magnet length shall be <4.8 m. |
P-HSR-MAG-BXDS01A.13 | The effective magnet length shall be 4.8 m. |
P-HSR-MAG-BXDS01A.14 | The magnet slot length shall be Within the Tech spec for the RHIC magnet BXDS01A . |
P-HSR-MAG-BXDS01A.15 | The magnet integrated dipole field B shall be 0 Within the Tech spec for the RHIC magnet BXDS01A. |
P-HSR-MAG-BXDS01A.16 | < blank > |
P-HSR-MAG-BXDS01A.17 | < blank > |
P-HSR-MAG-BXDS01A.18 | The magnet to magnet variability shall be TBD T/s. |
P-HSR-MAG-BXDS01A.19 | The magnet harmonic reference radius (Rr) and current (Ir) shall be Ir=TBD[A]\Rr=16[mm] (mm,A). |
P-HSR-MAG-BXDS01A.20 | The magnet field at the reference radius and current shall be Bref=TBD (T). |
P-HSR-MAG-BXDS01A.21 | The magnet bore field shall require the following multipole content: |
P-HSR-MAG-BXDS01A.21.01 | Within the Tech spec for the RHIC magnet BXDS01A (10^-4). |
P-HSR-MAG-BXDS01A.21.02 | Within the Tech spec for the RHIC magnet BXDS01A (10^-4). |
P-HSR-MAG-BXDS01A.21.03 | Within the Tech spec for the RHIC magnet BXDS01A (10^-4). |
P-HSR-MAG-BXDS01A.21.04 | Within the Tech spec for the RHIC magnet BXDS01A . |
P-HSR-MAG-BXDS01A.21.05 | Within the Tech spec for the RHIC magnet BXDS01A (10^-4). |
P-HSR-MAG-BXDS01A.21.06 | Within the Tech spec for the RHIC magnet BXDS01A (10^-4). |
P-HSR-MAG-BXDS01A.21.07 | Within the Tech spec for the RHIC magnet BXDS01A (10^-4). |
P-HSR-MAG-BXDS01A.21.08 | Within the Tech spec for the RHIC magnet BXDS01A (10^-4). |
P-HSR-MAG-BXDS01A.21.09 | Within the Tech spec for the RHIC magnet BXDS01A (10^-4). |
P-HSR-MAG-BXDS01A.21.11 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-BXDS01A.21.12 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-BXDS01A.21.13 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-BXDS01A.21.14 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-BXDS01A.21.15 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-BXDS01A.21.16 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-BXDS01A.22 | The magnet shall not be designed to limit Crosstalk requirements. |
P-HSR-MAG-BXDS01A.23 | < blank > |
P-HSR-MAG-BXDS01A.24 | < blank > |
P-HSR-MAG-BXDS01A.25 | < blank > |
P-HSR-MAG-BXDS01A.26 | < blank > |
P-HSR-MAG-BXDS01A.26.01 | < blank > |
P-HSR-MAG-BXDS01A.26.02 | < blank > |
P-HSR-MAG-BXDS01A.26.03 | < blank > |
P-HSR-MAG-BXDS01A.26.04 | < blank > |
P-HSR-MAG-BXDS01A.26.05 | < blank > |
P-HSR-MAG-BXDS01A.26.06 | < blank > |
P-HSR-MAG-BXDS01A.26.07 | < blank > |
P-HSR-MAG-BXDS01A.26.08 | < blank > |
P-HSR-MAG-BXDS01A.26.09 | < blank > |
P-HSR-MAG-BXDS01A.26.11 | < blank > |
P-HSR-MAG-BXDS01A.26.12 | < blank > |
P-HSR-MAG-BXDS01A.26.13 | < blank > |
P-HSR-MAG-BXDS01A.26.14 | < blank > |
P-HSR-MAG-BXDS01A.26.15 | < blank > |
P-HSR-MAG-BXDS01A.26.16 | < blank > |
P-HSR-MAG-BXDS01A.27 | The magnet shall not be designed to constain the external fringe field. |
P-HSR-MAG-BXDS01A.28 | <blank> |
P-HSR-MAG-CORR_0.5m.1 | The RHIC magnet shall operate for EIC functions. |
P-HSR-MAG-CORR_0.5m.2 | The magnet shall require air trim coils capable of trimmig the field +- . |
P-HSR-MAG-CORR_0.5m.3 | The magnet shall require current taps for operation |
P-HSR-MAG-CORR_0.5m.4 | The magnet shall require shunt(s) for operation |
P-HSR-MAG-CORR_0.5m.5 | The magnet shall have a Dipole field. |
P-HSR-MAG-CORR_0.5m.6 | The magnet field shall have a vertical field direction |
P-HSR-MAG-CORR_0.5m.7 | < blank > |
P-HSR-MAG-CORR_0.5m.8 | < blank > |
P-HSR-MAG-CORR_0.5m.9 | The minimal magnet bore gap shall be 69 m. |
P-HSR-MAG-CORR_0.5m.10 | The magnet good field aperture drx required shall be 32.558 m. |
P-HSR-MAG-CORR_0.5m.11 | The magnet good field aperture dry required shall be 3.799 m. |
P-HSR-MAG-CORR_0.5m.12 | The physical magnet length shall be <0.5 m. |
P-HSR-MAG-CORR_0.5m.13 | The effective magnet length shall be 0.5 m. |
P-HSR-MAG-CORR_0.5m.14 | The magnet slot length shall be Within the Tech spec for the RHIC magnet CORR_0.5m . |
P-HSR-MAG-CORR_0.5m.15 | The magnet integrated dipole field B shall be 0 Within the Tech spec for the RHIC magnet CORR_0.5m. |
P-HSR-MAG-CORR_0.5m.16 | < blank > |
P-HSR-MAG-CORR_0.5m.17 | < blank > |
P-HSR-MAG-CORR_0.5m.18 | The magnet to magnet variability shall be TBD T/s. |
P-HSR-MAG-CORR_0.5m.19 | The magnet harmonic reference radius (Rr) and current (Ir) shall be Ir=TBD[A]\Rr=16[mm] (mm,A). |
P-HSR-MAG-CORR_0.5m.20 | The magnet field at the reference radius and current shall be Bref=TBD (T). |
P-HSR-MAG-CORR_0.5m.21 | The magnet bore field shall require the following multipole content: |
P-HSR-MAG-CORR_0.5m.21.1 | Within the Tech spec for the RHIC magnet CORR_0.5m . |
P-HSR-MAG-CORR_0.5m.21.02 | Within the Tech spec for the RHIC magnet CORR_0.5m (10^-4). |
P-HSR-MAG-CORR_0.5m.21.03 | Within the Tech spec for the RHIC magnet CORR_0.5m (10^-4). |
P-HSR-MAG-CORR_0.5m.21.04 | Within the Tech spec for the RHIC magnet CORR_0.5m . |
P-HSR-MAG-CORR_0.5m.21.05 | Within the Tech spec for the RHIC magnet CORR_0.5m . |
P-HSR-MAG-CORR_0.5m.21.06 | Within the Tech spec for the RHIC magnet CORR_0.5m . |
P-HSR-MAG-CORR_0.5m.21.07 | Within the Tech spec for the RHIC magnet CORR_0.5m . |
P-HSR-MAG-CORR_0.5m.21.08 | Within the Tech spec for the RHIC magnet CORR_0.5m . |
P-HSR-MAG-CORR_0.5m.21.09 | Within the Tech spec for the RHIC magnet CORR_0.5m . |
P-HSR-MAG-CORR_0.5m.21.11 | Within the Tech spec for the RHIC magnet CORR_0.5m . |
P-HSR-MAG-CORR_0.5m.21.12 | Within the Tech spec for the RHIC magnet CORR_0.5m . |
P-HSR-MAG-CORR_0.5m.21.13 | Within the Tech spec for the RHIC magnet CORR_0.5m . |
P-HSR-MAG-CORR_0.5m.21.14 | Within the Tech spec for the RHIC magnet CORR_0.5m . |
P-HSR-MAG-CORR_0.5m.21.15 | Within the Tech spec for the RHIC magnet CORR_0.5m . |
P-HSR-MAG-CORR_0.5m.21.16 | Within the Tech spec for the RHIC magnet CORR_0.5m . |
P-HSR-MAG-CORR_0.5m.22 | Within the Tech spec for the RHIC magnet CORR_0.5m . |
P-HSR-MAG-CORR_0.5m.23 | Within the Tech spec for the RHIC magnet CORR_0.5m . |
P-HSR-MAG-CORR_0.5m.24 | Within the Tech spec for the RHIC magnet CORR_0.5m . |
P-HSR-MAG-CORR_0.5m.25 | < blank > |
P-HSR-MAG-CORR_0.5m.26 | < blank > |
P-HSR-MAG-CORR_0.5m.26.01 | < blank > |
P-HSR-MAG-CORR_0.5m.26.02 | < blank > |
P-HSR-MAG-CORR_0.5m.26.03 | < blank > |
P-HSR-MAG-CORR_0.5m.26.04 | < blank > |
P-HSR-MAG-CORR_0.5m.26.05 | < blank > |
P-HSR-MAG-CORR_0.5m.26.06 | < blank > |
P-HSR-MAG-CORR_0.5m.26.07 | < blank > |
P-HSR-MAG-CORR_0.5m.26.08 | < blank > |
P-HSR-MAG-CORR_0.5m.26.09 | < blank > |
P-HSR-MAG-CORR_0.5m.26.11 | < blank > |
P-HSR-MAG-CORR_0.5m.26.12 | < blank > |
P-HSR-MAG-CORR_0.5m.26.13 | < blank > |
P-HSR-MAG-CORR_0.5m.26.14 | < blank > |
P-HSR-MAG-CORR_0.5m.26.15 | < blank > |
P-HSR-MAG-CORR_0.5m.26.16 | < blank > |
P-HSR-MAG-CORR_0.5m.27 | The magnet shall not be designed to constain the external fringe field. |
P-HSR-MAG-CORR_0.5m.28 | <blank> |
P-HSR-MAG-CQS(Sxt).1 | The RHIC magnet shall operate for EIC functions. |
P-HSR-MAG-CQS(Sxt).2 | The magnet shall require air trim coils capable of trimmig the field +- . |
P-HSR-MAG-CQS(Sxt).3 | The magnet shall require current taps for operation |
P-HSR-MAG-CQS(Sxt).4 | The magnet shall require shunt(s) for operation |
P-HSR-MAG-CQS(Sxt).5 | The field type shall be (Di,Qu,Sx,Oc,De,Do,Sol,Ki,Hk,Vk) |
P-HSR-MAG-CQS(Sxt).6 | The magnet field direction shall be (V=vertical,H=horizontal,Z=beam direction ) |
P-HSR-MAG-CQS(Sxt).7 | The magnet field rotation shall be (No=norm, Sk=skew) |
P-HSR-MAG-CQS(Sxt).8 | The minimal magnet inscribe radius shall be 34.5 m. |
P-HSR-MAG-CQS(Sxt).9 | < blank > |
P-HSR-MAG-CQS(Sxt).10 | The magnet good field aperture drx required shall be 14.733 m. |
P-HSR-MAG-CQS(Sxt).11 | The magnet good field aperture dry required shall be 24.119 m. |
P-HSR-MAG-CQS(Sxt).12 | The physical magnet length shall be <0.75 m. |
P-HSR-MAG-CQS(Sxt).13 | The effective magnet length shall be 0.75 m. |
P-HSR-MAG-CQS(Sxt).14 | The magnet slot length shall be Within the Tech spec for the RHIC magnet CQS(Sxt) . |
P-HSR-MAG-CQS(Sxt).15 | < blank > |
P-HSR-MAG-CQS(Sxt).16 | < blank > |
P-HSR-MAG-CQS(Sxt).17 | < blank > |
P-HSR-MAG-CQS(Sxt).18 | The magnet to magnet variability shall be TBD T/s. |
P-HSR-MAG-CQS(Sxt).19 | The magnet harmonic reference radius (Rr) and current (Ir) shall be Ir=TBD[A]\Rr=16[mm] (mm,A). |
P-HSR-MAG-CQS(Sxt).20 | The magnet field at the reference radius and current shall be Bref=TBD (T). |
P-HSR-MAG-CQS(Sxt).21 | The magnet bore field shall require the following multipole content: |
P-HSR-MAG-CQS(Sxt).21.01 | Within the Tech spec for the RHIC magnet CQS(Sxt) (10^-4). |
P-HSR-MAG-CQS(Sxt).21.02 | Within the Tech spec for the RHIC magnet CQS(Sxt) (10^-4). |
P-HSR-MAG-CQS(Sxt).21.03 | Within the Tech spec for the RHIC magnet CQS(Sxt) (10^-4). |
P-HSR-MAG-CQS(Sxt).21.04 | Within the Tech spec for the RHIC magnet CQS(Sxt) . |
P-HSR-MAG-CQS(Sxt).21.05 | Within the Tech spec for the RHIC magnet CQS(Sxt) (10^-4). |
P-HSR-MAG-CQS(Sxt).21.06 | Within the Tech spec for the RHIC magnet CQS(Sxt) (10^-4). |
P-HSR-MAG-CQS(Sxt).21.07 | Within the Tech spec for the RHIC magnet CQS(Sxt) (10^-4). |
P-HSR-MAG-CQS(Sxt).21.08 | Within the Tech spec for the RHIC magnet CQS(Sxt) (10^-4). |
P-HSR-MAG-CQS(Sxt).21.09 | Within the Tech spec for the RHIC magnet CQS(Sxt) (10^-4). |
P-HSR-MAG-CQS(Sxt).21.11 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-CQS(Sxt).21.12 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-CQS(Sxt).21.13 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-CQS(Sxt).21.14 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-CQS(Sxt).21.15 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-CQS(Sxt).21.16 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-CQS(Sxt).22 | The magnet shall not be designed to limit Crosstalk requirements. |
P-HSR-MAG-CQS(Sxt).23 | < blank > |
P-HSR-MAG-CQS(Sxt).24 | < blank > |
P-HSR-MAG-CQS(Sxt).25 | < blank > |
P-HSR-MAG-CQS(Sxt).26 | < blank > |
P-HSR-MAG-CQS(Sxt).26.01 | < blank > |
P-HSR-MAG-CQS(Sxt).26.02 | < blank > |
P-HSR-MAG-CQS(Sxt).26.03 | < blank > |
P-HSR-MAG-CQS(Sxt).26.04 | < blank > |
P-HSR-MAG-CQS(Sxt).26.05 | < blank > |
P-HSR-MAG-CQS(Sxt).26.06 | < blank > |
P-HSR-MAG-CQS(Sxt).26.07 | < blank > |
P-HSR-MAG-CQS(Sxt).26.08 | < blank > |
P-HSR-MAG-CQS(Sxt).26.09 | < blank > |
P-HSR-MAG-CQS(Sxt).26.11 | < blank > |
P-HSR-MAG-CQS(Sxt).26.12 | < blank > |
P-HSR-MAG-CQS(Sxt).26.13 | < blank > |
P-HSR-MAG-CQS(Sxt).26.14 | < blank > |
P-HSR-MAG-CQS(Sxt).26.15 | < blank > |
P-HSR-MAG-CQS(Sxt).26.16 | < blank > |
P-HSR-MAG-CQS(Sxt).27 | The magnet shall not be designed to constain the external fringe field. |
P-HSR-MAG-CQS(Sxt).28 | <blank> |
P-HSR-MAG-D5I.1 | The RHIC magnet shall operate for EIC functions. |
P-HSR-MAG-D5I.2 | The magnet shall require air trim coils capable of trimmig the field +- . |
P-HSR-MAG-D5I.3 | The magnet shall require current taps for operation |
P-HSR-MAG-D5I.4 | The magnet shall require shunt(s) for operation |
P-HSR-MAG-D5I.5 | The magnet shall have a Dipole field. |
P-HSR-MAG-D5I.6 | The magnet field shall have a vertical field direction |
P-HSR-MAG-D5I.7 | < blank > |
P-HSR-MAG-D5I.8 | < blank > |
P-HSR-MAG-D5I.9 | The minimal magnet bore gap shall be 69 m. |
P-HSR-MAG-D5I.10 | The magnet good field aperture drx required shall be 18.799 m. |
P-HSR-MAG-D5I.11 | The magnet good field aperture dry required shall be 13.393 m. |
P-HSR-MAG-D5I.12 | The physical magnet length shall be <6.916 m. |
P-HSR-MAG-D5I.13 | The effective magnet length shall be 6.916 m. |
P-HSR-MAG-D5I.14 | The magnet slot length shall be Within the Tech spec for the RHIC magnet D5I . |
P-HSR-MAG-D5I.15 | The magnet integrated dipole field B shall be 3.769na Within the Tech spec for the RHIC magnet D5I. |
P-HSR-MAG-D5I.16 | < blank > |
P-HSR-MAG-D5I.17 | < blank > |
P-HSR-MAG-D5I.18 | The magnet to magnet variability shall be TBD T/s. |
P-HSR-MAG-D5I.19 | The magnet harmonic reference radius (Rr) and current (Ir) shall be 60mm \ 30A (mm,A). |
P-HSR-MAG-D5I.20 | The magnet field at the reference radius and current shall be Bref=TBD (T). |
P-HSR-MAG-D5I.21 | The magnet bore field shall require the following multipole content: |
P-HSR-MAG-D5I.21.1 | -1.15<b10<-1.11 , 0.04<a10<0.08 (10^-4). |
P-HSR-MAG-D5I.21.02 | -1.56<b2<2.62 , -3.02<a2<-2.38 (10^-4). |
P-HSR-MAG-D5I.21.03 | -0.19<b3<0.19 , -1.16<a3<1.04 (10^-4). |
P-HSR-MAG-D5I.21.04 | -3.25<b4<-2.11 , 0.18<a4<0.5 . |
P-HSR-MAG-D5I.21.05 | -0.07<b5<0.13 , -0.19<a5<0.57 (10^-4). |
P-HSR-MAG-D5I.21.06 | -2.08<b6<-1.74 , -0.23<a6<-0.07 (10^-4). |
P-HSR-MAG-D5I.21.07 | -0.03<b7<0.05 , 0.04<a7<0.26 (10^-4). |
P-HSR-MAG-D5I.21.08 | -1.16<b8<-1.02 , -0.09<a8<-0.01 (10^-4). |
P-HSR-MAG-D5I.21.09 | -0.02<b9<0.02 , 0.03<a9<0.13 (10^-4). |
P-HSR-MAG-D5I.21.11 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-D5I.21.12 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-D5I.21.13 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-D5I.21.14 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-D5I.21.15 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-D5I.21.16 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-D5I.22 | The magnet shall not be designed to limit Crosstalk requirements. |
P-HSR-MAG-D5I.23 | < blank > |
P-HSR-MAG-D5I.24 | < blank > |
P-HSR-MAG-D5I.25 | < blank > |
P-HSR-MAG-D5I.26 | < blank > |
P-HSR-MAG-D5I.26.01 | < blank > |
P-HSR-MAG-D5I.26.02 | < blank > |
P-HSR-MAG-D5I.26.03 | < blank > |
P-HSR-MAG-D5I.26.04 | < blank > |
P-HSR-MAG-D5I.26.05 | < blank > |
P-HSR-MAG-D5I.26.06 | < blank > |
P-HSR-MAG-D5I.26.07 | < blank > |
P-HSR-MAG-D5I.26.08 | < blank > |
P-HSR-MAG-D5I.26.09 | < blank > |
P-HSR-MAG-D5I.26.11 | < blank > |
P-HSR-MAG-D5I.26.12 | < blank > |
P-HSR-MAG-D5I.26.13 | < blank > |
P-HSR-MAG-D5I.26.14 | < blank > |
P-HSR-MAG-D5I.26.15 | < blank > |
P-HSR-MAG-D5I.26.16 | < blank > |
P-HSR-MAG-D5I.27 | The magnet shall not be designed to constain the external fringe field. |
P-HSR-MAG-D5I.28 | <blank> |
P-HSR-MAG-D5O.1 | The RHIC magnet shall operate for EIC functions. |
P-HSR-MAG-D5O.2 | The magnet shall require air trim coils capable of trimmig the field +- . |
P-HSR-MAG-D5O.3 | The magnet shall require current taps for operation |
P-HSR-MAG-D5O.4 | The magnet shall require shunt(s) for operation |
P-HSR-MAG-D5O.5 | The magnet shall have a Dipole field. |
P-HSR-MAG-D5O.6 | The magnet field shall have a vertical field direction |
P-HSR-MAG-D5O.7 | < blank > |
P-HSR-MAG-D5O.8 | < blank > |
P-HSR-MAG-D5O.9 | The minimal magnet bore gap shall be 69 m. |
P-HSR-MAG-D5O.10 | The magnet good field aperture drx required shall be 16.307 m. |
P-HSR-MAG-D5O.11 | The magnet good field aperture dry required shall be 22.559 m. |
P-HSR-MAG-D5O.12 | The physical magnet length shall be <8.698 m. |
P-HSR-MAG-D5O.13 | The effective magnet length shall be 8.698 m. |
P-HSR-MAG-D5O.14 | The magnet slot length shall be Within the Tech spec for the RHIC magnet D5O . |
P-HSR-MAG-D5O.15 | The magnet integrated dipole field B shall be 0na Within the Tech spec for the RHIC magnet D5O. |
P-HSR-MAG-D5O.16 | < blank > |
P-HSR-MAG-D5O.17 | < blank > |
P-HSR-MAG-D5O.18 | The magnet to magnet variability shall be TBD T/s. |
P-HSR-MAG-D5O.19 | The magnet harmonic reference radius (Rr) and current (Ir) shall be 60mm \ 30A (mm,A). |
P-HSR-MAG-D5O.20 | The magnet field at the reference radius and current shall be Bref=TBD (T). |
P-HSR-MAG-D5O.21 | The magnet bore field shall require the following multipole content: |
P-HSR-MAG-D5O.21.1 | -1.15<b10<-1.11 , 0.04<a10<0.08 (10^-4). |
P-HSR-MAG-D5O.21.02 | -1.56<b2<2.62 , -3.02<a2<-2.38 (10^-4). |
P-HSR-MAG-D5O.21.03 | -0.19<b3<0.19 , -1.16<a3<1.04 (10^-4). |
P-HSR-MAG-D5O.21.04 | -3.25<b4<-2.11 , 0.18<a4<0.5 . |
P-HSR-MAG-D5O.21.05 | -0.07<b5<0.13 , -0.19<a5<0.57 (10^-4). |
P-HSR-MAG-D5O.21.06 | -2.08<b6<-1.74 , -0.23<a6<-0.07 (10^-4). |
P-HSR-MAG-D5O.21.07 | -0.03<b7<0.05 , 0.04<a7<0.26 (10^-4). |
P-HSR-MAG-D5O.21.08 | -1.16<b8<-1.02 , -0.09<a8<-0.01 (10^-4). |
P-HSR-MAG-D5O.21.09 | -0.02<b9<0.02 , 0.03<a9<0.13 (10^-4). |
P-HSR-MAG-D5O.21.11 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-D5O.21.12 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-D5O.21.13 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-D5O.21.14 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-D5O.21.15 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-D5O.21.16 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-D5O.22 | The magnet shall not be designed to limit Crosstalk requirements. |
P-HSR-MAG-D5O.23 | < blank > |
P-HSR-MAG-D5O.24 | < blank > |
P-HSR-MAG-D5O.25 | < blank > |
P-HSR-MAG-D5O.26 | < blank > |
P-HSR-MAG-D5O.26.01 | < blank > |
P-HSR-MAG-D5O.26.02 | < blank > |
P-HSR-MAG-D5O.26.03 | < blank > |
P-HSR-MAG-D5O.26.04 | < blank > |
P-HSR-MAG-D5O.26.05 | < blank > |
P-HSR-MAG-D5O.26.06 | < blank > |
P-HSR-MAG-D5O.26.07 | < blank > |
P-HSR-MAG-D5O.26.08 | < blank > |
P-HSR-MAG-D5O.26.09 | < blank > |
P-HSR-MAG-D5O.26.11 | < blank > |
P-HSR-MAG-D5O.26.12 | < blank > |
P-HSR-MAG-D5O.26.13 | < blank > |
P-HSR-MAG-D5O.26.14 | < blank > |
P-HSR-MAG-D5O.26.15 | < blank > |
P-HSR-MAG-D5O.26.16 | < blank > |
P-HSR-MAG-D5O.27 | The magnet shall not be designed to constain the external fringe field. |
P-HSR-MAG-D5O.28 | <blank> |
P-HSR-MAG-D5O_D5I.1 | The magnet turns ratio shall be TBD |
P-HSR-MAG-D5O_D5I.2 | The magnet turns ratio shall be TBD |
P-HSR-MAG-D5O_D5I.3 | The magnet shall require current taps for operation |
P-HSR-MAG-D5O_D5I.4 | The magnet shall require shunt(s) for operation |
P-HSR-MAG-D5O_D5I.5 | The magnet shall have a Dipole field. |
P-HSR-MAG-D5O_D5I.6 | The magnet field shall have a vertical field direction |
P-HSR-MAG-D5O_D5I.7 | < blank > |
P-HSR-MAG-D5O_D5I.8 | < blank > |
P-HSR-MAG-D5O_D5I.9 | The minimal magnet bore gap shall be 69 m. |
P-HSR-MAG-D5O_D5I.10 | The magnet good field aperture drx required shall be 12.877 m. |
P-HSR-MAG-D5O_D5I.11 | The magnet good field aperture dry required shall be 12.851 m. |
P-HSR-MAG-D5O_D5I.12 | The physical magnet length shall be <7.807 m. |
P-HSR-MAG-D5O_D5I.13 | The effective magnet length shall be 7.807 m. |
P-HSR-MAG-D5O_D5I.14 | The magnet slot length shall be Within the Tech spec for the RHIC magnet D5O_D5I . |
P-HSR-MAG-D5O_D5I.15 | The magnet integrated dipole field B shall be 0na Within the Tech spec for the RHIC magnet D5O_D5I. |
P-HSR-MAG-D5O_D5I.16 | < blank > |
P-HSR-MAG-D5O_D5I.17 | < blank > |
P-HSR-MAG-D5O_D5I.18 | The magnet to magnet variability shall be TBD T/s. |
P-HSR-MAG-D5O_D5I.19 | The magnet harmonic reference radius (Rr) and current (Ir) shall be 60mm \ 30A (mm,A). |
P-HSR-MAG-D5O_D5I.20 | The magnet field at the reference radius and current shall be Bref=TBD (T). |
P-HSR-MAG-D5O_D5I.21 | The magnet bore field shall require the following multipole content: |
P-HSR-MAG-D5O_D5I.21.1 | -1.15<b10<-1.11 , 0.04<a10<0.08 (10^-4). |
P-HSR-MAG-D5O_D5I.21.02 | -1.56<b2<2.62 , -3.02<a2<-2.38 (10^-4). |
P-HSR-MAG-D5O_D5I.21.03 | -0.19<b3<0.19 , -1.16<a3<1.04 (10^-4). |
P-HSR-MAG-D5O_D5I.21.04 | -3.25<b4<-2.11 , 0.18<a4<0.5 . |
P-HSR-MAG-D5O_D5I.21.05 | -0.07<b5<0.13 , -0.19<a5<0.57 (10^-4). |
P-HSR-MAG-D5O_D5I.21.06 | -2.08<b6<-1.74 , -0.23<a6<-0.07 (10^-4). |
P-HSR-MAG-D5O_D5I.21.07 | -0.03<b7<0.05 , 0.04<a7<0.26 (10^-4). |
P-HSR-MAG-D5O_D5I.21.08 | -1.16<b8<-1.02 , -0.09<a8<-0.01 (10^-4). |
P-HSR-MAG-D5O_D5I.21.09 | -0.02<b9<0.02 , 0.03<a9<0.13 (10^-4). |
P-HSR-MAG-D5O_D5I.21.11 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-D5O_D5I.21.12 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-D5O_D5I.21.13 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-D5O_D5I.21.14 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-D5O_D5I.21.15 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-D5O_D5I.21.16 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-D5O_D5I.22 | The magnet shall not be designed to limit Crosstalk requirements. |
P-HSR-MAG-D5O_D5I.23 | < blank > |
P-HSR-MAG-D5O_D5I.24 | < blank > |
P-HSR-MAG-D5O_D5I.25 | < blank > |
P-HSR-MAG-D5O_D5I.26 | < blank > |
P-HSR-MAG-D5O_D5I.26.01 | < blank > |
P-HSR-MAG-D5O_D5I.26.02 | < blank > |
P-HSR-MAG-D5O_D5I.26.03 | < blank > |
P-HSR-MAG-D5O_D5I.26.04 | < blank > |
P-HSR-MAG-D5O_D5I.26.05 | < blank > |
P-HSR-MAG-D5O_D5I.26.06 | < blank > |
P-HSR-MAG-D5O_D5I.26.07 | < blank > |
P-HSR-MAG-D5O_D5I.26.08 | < blank > |
P-HSR-MAG-D5O_D5I.26.09 | < blank > |
P-HSR-MAG-D5O_D5I.26.11 | < blank > |
P-HSR-MAG-D5O_D5I.26.12 | < blank > |
P-HSR-MAG-D5O_D5I.26.13 | < blank > |
P-HSR-MAG-D5O_D5I.26.14 | < blank > |
P-HSR-MAG-D5O_D5I.26.15 | < blank > |
P-HSR-MAG-D5O_D5I.26.16 | < blank > |
P-HSR-MAG-D5O_D5I.27 | The magnet shall not be designed to constain the external fringe field. |
P-HSR-MAG-D5O_D5I.28 | <blank> |
P-HSR-MAG-D6.1 | The RHIC magnet shall operate for EIC functions. |
P-HSR-MAG-D6.2 | The magnet shall require air trim coils capable of trimmig the field +- . |
P-HSR-MAG-D6.3 | The magnet shall require current taps for operation |
P-HSR-MAG-D6.4 | The magnet shall require shunt(s) for operation |
P-HSR-MAG-D6.5 | The magnet shall have a Dipole field. |
P-HSR-MAG-D6.6 | The magnet field shall have a vertical field direction |
P-HSR-MAG-D6.7 | < blank > |
P-HSR-MAG-D6.8 | < blank > |
P-HSR-MAG-D6.9 | The minimal magnet bore gap shall be 69 m. |
P-HSR-MAG-D6.10 | The magnet good field aperture drx required shall be 16.7 m. |
P-HSR-MAG-D6.11 | The magnet good field aperture dry required shall be 9.159 m. |
P-HSR-MAG-D6.12 | The physical magnet length shall be <2.949 m. |
P-HSR-MAG-D6.13 | The effective magnet length shall be 2.949 m. |
P-HSR-MAG-D6.14 | The magnet slot length shall be Within the Tech spec for the RHIC magnet D6,D9 . |
P-HSR-MAG-D6.15 | The magnet integrated dipole field B shall be 3.77na Within the Tech spec for the RHIC magnet D6,D9. |
P-HSR-MAG-D6.16 | < blank > |
P-HSR-MAG-D6.17 | < blank > |
P-HSR-MAG-D6.18 | The magnet to magnet variability shall be TBD T/s. |
P-HSR-MAG-D6.19 | The magnet harmonic reference radius (Rr) and current (Ir) shall be 60mm \ 30A (mm,A). |
P-HSR-MAG-D6.20 | The magnet field at the reference radius and current shall be Bref=TBD (T). |
P-HSR-MAG-D6.21 | The magnet bore field shall require the following multipole content: |
P-HSR-MAG-D6.21.1 | -1.15<b10<-1.11 , 0.04<a10<0.08 (10^-4). |
P-HSR-MAG-D6.21.02 | -1.56<b2<2.62 , -3.02<a2<-2.38 (10^-4). |
P-HSR-MAG-D6.21.03 | -0.19<b3<0.19 , -1.16<a3<1.04 (10^-4). |
P-HSR-MAG-D6.21.04 | -3.25<b4<-2.11 , 0.18<a4<0.5 . |
P-HSR-MAG-D6.21.05 | -0.07<b5<0.13 , -0.19<a5<0.57 (10^-4). |
P-HSR-MAG-D6.21.06 | -2.08<b6<-1.74 , -0.23<a6<-0.07 (10^-4). |
P-HSR-MAG-D6.21.07 | -0.03<b7<0.05 , 0.04<a7<0.26 (10^-4). |
P-HSR-MAG-D6.21.08 | -1.16<b8<-1.02 , -0.09<a8<-0.01 (10^-4). |
P-HSR-MAG-D6.21.09 | -0.02<b9<0.02 , 0.03<a9<0.13 (10^-4). |
P-HSR-MAG-D6.21.11 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-D6.21.12 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-D6.21.13 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-D6.21.14 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-D6.21.15 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-D6.21.16 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-D6.22 | The magnet shall not be designed to limit Crosstalk requirements. |
P-HSR-MAG-D6.23 | < blank > |
P-HSR-MAG-D6.24 | < blank > |
P-HSR-MAG-D6.25 | < blank > |
P-HSR-MAG-D6.26 | < blank > |
P-HSR-MAG-D6.26.01 | < blank > |
P-HSR-MAG-D6.26.02 | < blank > |
P-HSR-MAG-D6.26.03 | < blank > |
P-HSR-MAG-D6.26.04 | < blank > |
P-HSR-MAG-D6.26.05 | < blank > |
P-HSR-MAG-D6.26.06 | < blank > |
P-HSR-MAG-D6.26.07 | < blank > |
P-HSR-MAG-D6.26.08 | < blank > |
P-HSR-MAG-D6.26.09 | < blank > |
P-HSR-MAG-D6.26.11 | < blank > |
P-HSR-MAG-D6.26.12 | < blank > |
P-HSR-MAG-D6.26.13 | < blank > |
P-HSR-MAG-D6.26.14 | < blank > |
P-HSR-MAG-D6.26.15 | < blank > |
P-HSR-MAG-D6.26.16 | < blank > |
P-HSR-MAG-D6.27 | The magnet shall not be designed to constain the external fringe field. |
P-HSR-MAG-D6.28 | <blank> |
P-HSR-MAG-D8.1 | The RHIC magnet shall operate for EIC functions. |
P-HSR-MAG-D8.2 | The magnet shall require air trim coils capable of trimmig the field +- . |
P-HSR-MAG-D8.3 | The magnet shall require current taps for operation |
P-HSR-MAG-D8.4 | The magnet shall require shunt(s) for operation |
P-HSR-MAG-D8.5 | The magnet shall have a Dipole field. |
P-HSR-MAG-D8.6 | The magnet field shall have a vertical field direction |
P-HSR-MAG-D8.7 | < blank > |
P-HSR-MAG-D8.8 | < blank > |
P-HSR-MAG-D8.9 | The minimal magnet bore gap shall be 69 m. |
P-HSR-MAG-D8.10 | The magnet good field aperture drx required shall be 18.373 m. |
P-HSR-MAG-D8.11 | The magnet good field aperture dry required shall be 21.412 m. |
P-HSR-MAG-D8.12 | The physical magnet length shall be <9.441 m. |
P-HSR-MAG-D8.13 | The effective magnet length shall be 9.441 m. |
P-HSR-MAG-D8.14 | The magnet slot length shall be Within the Tech spec for the RHIC magnet D8 . |
P-HSR-MAG-D8.15 | The magnet integrated dipole field B shall be 3.769 Within the Tech spec for the RHIC magnet D8. |
P-HSR-MAG-D8.16 | < blank > |
P-HSR-MAG-D8.17 | < blank > |
P-HSR-MAG-D8.18 | The magnet to magnet variability shall be TBD T/s. |
P-HSR-MAG-D8.19 | The magnet harmonic reference radius (Rr) and current (Ir) shall be Ir=TBD[A]\Rr=16[mm] (mm,A). |
P-HSR-MAG-D8.20 | The magnet field at the reference radius and current shall be Bref=TBD (T). |
P-HSR-MAG-D8.21 | The magnet bore field shall require the following multipole content: |
P-HSR-MAG-D8.21.01 | Within the Tech spec for the RHIC magnet D8 (10^-4). |
P-HSR-MAG-D8.21.02 | Within the Tech spec for the RHIC magnet D8 (10^-4). |
P-HSR-MAG-D8.21.03 | Within the Tech spec for the RHIC magnet D8 (10^-4). |
P-HSR-MAG-D8.21.04 | Within the Tech spec for the RHIC magnet D8 . |
P-HSR-MAG-D8.21.05 | Within the Tech spec for the RHIC magnet D8 (10^-4). |
P-HSR-MAG-D8.21.06 | Within the Tech spec for the RHIC magnet D8 (10^-4). |
P-HSR-MAG-D8.21.07 | Within the Tech spec for the RHIC magnet D8 (10^-4). |
P-HSR-MAG-D8.21.08 | Within the Tech spec for the RHIC magnet D8 (10^-4). |
P-HSR-MAG-D8.21.09 | Within the Tech spec for the RHIC magnet D8 (10^-4). |
P-HSR-MAG-D8.21.11 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-D8.21.12 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-D8.21.13 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-D8.21.14 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-D8.21.15 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-D8.21.16 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-D8.22 | The magnet shall not be designed to limit Crosstalk requirements. |
P-HSR-MAG-D8.23 | < blank > |
P-HSR-MAG-D8.24 | < blank > |
P-HSR-MAG-D8.25 | < blank > |
P-HSR-MAG-D8.26 | < blank > |
P-HSR-MAG-D8.26.01 | < blank > |
P-HSR-MAG-D8.26.02 | < blank > |
P-HSR-MAG-D8.26.03 | < blank > |
P-HSR-MAG-D8.26.04 | < blank > |
P-HSR-MAG-D8.26.05 | < blank > |
P-HSR-MAG-D8.26.06 | < blank > |
P-HSR-MAG-D8.26.07 | < blank > |
P-HSR-MAG-D8.26.08 | < blank > |
P-HSR-MAG-D8.26.09 | < blank > |
P-HSR-MAG-D8.26.11 | < blank > |
P-HSR-MAG-D8.26.12 | < blank > |
P-HSR-MAG-D8.26.13 | < blank > |
P-HSR-MAG-D8.26.14 | < blank > |
P-HSR-MAG-D8.26.15 | < blank > |
P-HSR-MAG-D8.26.16 | < blank > |
P-HSR-MAG-D8.27 | The magnet shall not be designed to constain the external fringe field. |
P-HSR-MAG-D8.28 | <blank> |
P-HSR-MAG-D8_IR02.1 | The RHIC magnet shall operate for EIC functions. |
P-HSR-MAG-D8_IR02.2 | The magnet shall require air trim coils capable of trimmig the field +- . |
P-HSR-MAG-D8_IR02.3 | The magnet shall require current taps for operation |
P-HSR-MAG-D8_IR02.4 | The magnet shall require shunt(s) for operation |
P-HSR-MAG-D8_IR02.5 | The magnet shall have a Dipole field. |
P-HSR-MAG-D8_IR02.6 | The magnet field shall have a vertical field direction |
P-HSR-MAG-D8_IR02.7 | < blank > |
P-HSR-MAG-D8_IR02.8 | < blank > |
P-HSR-MAG-D8_IR02.9 | The minimal magnet bore gap shall be 69 m. |
P-HSR-MAG-D8_IR02.10 | The magnet good field aperture drx required shall be 18.373 m. |
P-HSR-MAG-D8_IR02.11 | The magnet good field aperture dry required shall be 21.412 m. |
P-HSR-MAG-D8_IR02.12 | The physical magnet length shall be <9.441 m. |
P-HSR-MAG-D8_IR02.13 | The effective magnet length shall be 9.441 m. |
P-HSR-MAG-D8_IR02.14 | The magnet slot length shall be Within the Tech spec for the RHIC magnet D8 . |
P-HSR-MAG-D8_IR02.15 | The magnet integrated dipole field B shall be 3.769 Within the Tech spec for the RHIC magnet D8. |
P-HSR-MAG-D8_IR02.16 | < blank > |
P-HSR-MAG-D8_IR02.17 | < blank > |
P-HSR-MAG-D8_IR02.18 | The magnet to magnet variability shall be TBD T/s. |
P-HSR-MAG-D8_IR02.19 | The magnet harmonic reference radius (Rr) and current (Ir) shall be Ir=TBD[A]\Rr=16[mm] (mm,A). |
P-HSR-MAG-D8_IR02.20 | The magnet field at the reference radius and current shall be Bref=TBD (T). |
P-HSR-MAG-D8_IR02.21 | The magnet bore field shall require the following multipole content: |
P-HSR-MAG-D8_IR02.21.01 | Within the Tech spec for the RHIC magnet D8 (10^-4). |
P-HSR-MAG-D8_IR02.21.02 | Within the Tech spec for the RHIC magnet D8 (10^-4). |
P-HSR-MAG-D8_IR02.21.03 | Within the Tech spec for the RHIC magnet D8 (10^-4). |
P-HSR-MAG-D8_IR02.21.04 | Within the Tech spec for the RHIC magnet D8 . |
P-HSR-MAG-D8_IR02.21.05 | Within the Tech spec for the RHIC magnet D8 (10^-4). |
P-HSR-MAG-D8_IR02.21.06 | Within the Tech spec for the RHIC magnet D8 (10^-4). |
P-HSR-MAG-D8_IR02.21.07 | Within the Tech spec for the RHIC magnet D8 (10^-4). |
P-HSR-MAG-D8_IR02.21.08 | Within the Tech spec for the RHIC magnet D8 (10^-4). |
P-HSR-MAG-D8_IR02.21.09 | Within the Tech spec for the RHIC magnet D8 (10^-4). |
P-HSR-MAG-D8_IR02.21.11 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-D8_IR02.21.12 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-D8_IR02.21.13 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-D8_IR02.21.14 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-D8_IR02.21.15 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-D8_IR02.21.16 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-D8_IR02.22 | The magnet shall not be designed to limit Crosstalk requirements. |
P-HSR-MAG-D8_IR02.23 | < blank > |
P-HSR-MAG-D8_IR02.24 | < blank > |
P-HSR-MAG-D8_IR02.25 | < blank > |
P-HSR-MAG-D8_IR02.26 | < blank > |
P-HSR-MAG-D8_IR02.26.01 | < blank > |
P-HSR-MAG-D8_IR02.26.02 | < blank > |
P-HSR-MAG-D8_IR02.26.03 | < blank > |
P-HSR-MAG-D8_IR02.26.04 | < blank > |
P-HSR-MAG-D8_IR02.26.05 | < blank > |
P-HSR-MAG-D8_IR02.26.06 | < blank > |
P-HSR-MAG-D8_IR02.26.07 | < blank > |
P-HSR-MAG-D8_IR02.26.08 | < blank > |
P-HSR-MAG-D8_IR02.26.09 | < blank > |
P-HSR-MAG-D8_IR02.26.11 | < blank > |
P-HSR-MAG-D8_IR02.26.12 | < blank > |
P-HSR-MAG-D8_IR02.26.13 | < blank > |
P-HSR-MAG-D8_IR02.26.14 | < blank > |
P-HSR-MAG-D8_IR02.26.15 | < blank > |
P-HSR-MAG-D8_IR02.26.16 | < blank > |
P-HSR-MAG-D8_IR02.27 | The magnet shall not be designed to constain the external fringe field. |
P-HSR-MAG-D8_IR02.28 | <blank> |
P-HSR-MAG-D8_IR06.1 | The RHIC magnet shall operate for EIC functions. |
P-HSR-MAG-D8_IR06.2 | The magnet shall require air trim coils capable of trimmig the field +- . |
P-HSR-MAG-D8_IR06.3 | The magnet shall require current taps for operation |
P-HSR-MAG-D8_IR06.4 | The magnet shall require shunt(s) for operation |
P-HSR-MAG-D8_IR06.5 | The magnet shall have a Dipole field. |
P-HSR-MAG-D8_IR06.6 | The magnet field shall have a vertical field direction |
P-HSR-MAG-D8_IR06.7 | < blank > |
P-HSR-MAG-D8_IR06.8 | < blank > |
P-HSR-MAG-D8_IR06.9 | The minimal magnet bore gap shall be 69 m. |
P-HSR-MAG-D8_IR06.10 | The magnet good field aperture drx required shall be 18.373 m. |
P-HSR-MAG-D8_IR06.11 | The magnet good field aperture dry required shall be 21.412 m. |
P-HSR-MAG-D8_IR06.12 | The physical magnet length shall be <9.441 m. |
P-HSR-MAG-D8_IR06.13 | The effective magnet length shall be 9.441 m. |
P-HSR-MAG-D8_IR06.14 | The magnet slot length shall be Within the Tech spec for the RHIC magnet D8 . |
P-HSR-MAG-D8_IR06.15 | The magnet integrated dipole field B shall be 3.769 Within the Tech spec for the RHIC magnet D8. |
P-HSR-MAG-D8_IR06.16 | < blank > |
P-HSR-MAG-D8_IR06.17 | < blank > |
P-HSR-MAG-D8_IR06.18 | The magnet to magnet variability shall be TBD T/s. |
P-HSR-MAG-D8_IR06.19 | The magnet harmonic reference radius (Rr) and current (Ir) shall be Ir=TBD[A]\Rr=16[mm] (mm,A). |
P-HSR-MAG-D8_IR06.20 | The magnet field at the reference radius and current shall be Bref=TBD (T). |
P-HSR-MAG-D8_IR06.21 | The magnet bore field shall require the following multipole content: |
P-HSR-MAG-D8_IR06.21.01 | Within the Tech spec for the RHIC magnet D8 (10^-4). |
P-HSR-MAG-D8_IR06.21.02 | Within the Tech spec for the RHIC magnet D8 (10^-4). |
P-HSR-MAG-D8_IR06.21.03 | Within the Tech spec for the RHIC magnet D8 (10^-4). |
P-HSR-MAG-D8_IR06.21.04 | Within the Tech spec for the RHIC magnet D8 . |
P-HSR-MAG-D8_IR06.21.05 | Within the Tech spec for the RHIC magnet D8 (10^-4). |
P-HSR-MAG-D8_IR06.21.06 | Within the Tech spec for the RHIC magnet D8 (10^-4). |
P-HSR-MAG-D8_IR06.21.07 | Within the Tech spec for the RHIC magnet D8 (10^-4). |
P-HSR-MAG-D8_IR06.21.08 | Within the Tech spec for the RHIC magnet D8 (10^-4). |
P-HSR-MAG-D8_IR06.21.09 | Within the Tech spec for the RHIC magnet D8 (10^-4). |
P-HSR-MAG-D8_IR06.21.11 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-D8_IR06.21.12 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-D8_IR06.21.13 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-D8_IR06.21.14 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-D8_IR06.21.15 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-D8_IR06.21.16 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-D8_IR06.22 | The magnet shall not be designed to limit Crosstalk requirements. |
P-HSR-MAG-D8_IR06.23 | < blank > |
P-HSR-MAG-D8_IR06.24 | < blank > |
P-HSR-MAG-D8_IR06.25 | < blank > |
P-HSR-MAG-D8_IR06.26 | < blank > |
P-HSR-MAG-D8_IR06.26.01 | < blank > |
P-HSR-MAG-D8_IR06.26.02 | < blank > |
P-HSR-MAG-D8_IR06.26.03 | < blank > |
P-HSR-MAG-D8_IR06.26.04 | < blank > |
P-HSR-MAG-D8_IR06.26.05 | < blank > |
P-HSR-MAG-D8_IR06.26.06 | < blank > |
P-HSR-MAG-D8_IR06.26.07 | < blank > |
P-HSR-MAG-D8_IR06.26.08 | < blank > |
P-HSR-MAG-D8_IR06.26.09 | < blank > |
P-HSR-MAG-D8_IR06.26.11 | < blank > |
P-HSR-MAG-D8_IR06.26.12 | < blank > |
P-HSR-MAG-D8_IR06.26.13 | < blank > |
P-HSR-MAG-D8_IR06.26.14 | < blank > |
P-HSR-MAG-D8_IR06.26.15 | < blank > |
P-HSR-MAG-D8_IR06.26.16 | < blank > |
P-HSR-MAG-D8_IR06.27 | The magnet shall not be designed to constain the external fringe field. |
P-HSR-MAG-D8_IR06.28 | <blank> |
P-HSR-MAG-D9.1 | The RHIC magnet shall operate for EIC functions. |
P-HSR-MAG-D9.2 | The magnet shall require air trim coils capable of trimmig the field +- . |
P-HSR-MAG-D9.3 | The magnet shall require current taps for operation |
P-HSR-MAG-D9.4 | The magnet shall require shunt(s) for operation |
P-HSR-MAG-D9.5 | The magnet shall have a Dipole field. |
P-HSR-MAG-D9.6 | The magnet field shall have a vertical field direction |
P-HSR-MAG-D9.7 | < blank > |
P-HSR-MAG-D9.8 | < blank > |
P-HSR-MAG-D9.9 | The minimal magnet bore gap shall be 69 m. |
P-HSR-MAG-D9.10 | The magnet good field aperture drx required shall be 16.7 m. |
P-HSR-MAG-D9.11 | The magnet good field aperture dry required shall be 9.159 m. |
P-HSR-MAG-D9.12 | The physical magnet length shall be <2.949 m. |
P-HSR-MAG-D9.13 | The effective magnet length shall be 2.949 m. |
P-HSR-MAG-D9.14 | The magnet slot length shall be Within the Tech spec for the RHIC magnet D6,D9 . |
P-HSR-MAG-D9.15 | The magnet integrated dipole field B shall be 3.77na Within the Tech spec for the RHIC magnet D6,D9. |
P-HSR-MAG-D9.16 | < blank > |
P-HSR-MAG-D9.17 | < blank > |
P-HSR-MAG-D9.18 | The magnet to magnet variability shall be TBD T/s. |
P-HSR-MAG-D9.19 | The magnet harmonic reference radius (Rr) and current (Ir) shall be 60mm \ 30A (mm,A). |
P-HSR-MAG-D9.20 | The magnet field at the reference radius and current shall be Bref=TBD (T). |
P-HSR-MAG-D9.21 | The magnet bore field shall require the following multipole content: |
P-HSR-MAG-D9.21.1 | -1.15<b10<-1.11 , 0.04<a10<0.08 (10^-4). |
P-HSR-MAG-D9.21.02 | -1.56<b2<2.62 , -3.02<a2<-2.38 (10^-4). |
P-HSR-MAG-D9.21.03 | -0.19<b3<0.19 , -1.16<a3<1.04 (10^-4). |
P-HSR-MAG-D9.21.04 | -3.25<b4<-2.11 , 0.18<a4<0.5 . |
P-HSR-MAG-D9.21.05 | -0.07<b5<0.13 , -0.19<a5<0.57 (10^-4). |
P-HSR-MAG-D9.21.06 | -2.08<b6<-1.74 , -0.23<a6<-0.07 (10^-4). |
P-HSR-MAG-D9.21.07 | -0.03<b7<0.05 , 0.04<a7<0.26 (10^-4). |
P-HSR-MAG-D9.21.08 | -1.16<b8<-1.02 , -0.09<a8<-0.01 (10^-4). |
P-HSR-MAG-D9.21.09 | -0.02<b9<0.02 , 0.03<a9<0.13 (10^-4). |
P-HSR-MAG-D9.21.11 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-D9.21.12 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-D9.21.13 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-D9.21.14 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-D9.21.15 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-D9.21.16 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-D9.22 | The magnet shall not be designed to limit Crosstalk requirements. |
P-HSR-MAG-D9.23 | < blank > |
P-HSR-MAG-D9.24 | < blank > |
P-HSR-MAG-D9.25 | < blank > |
P-HSR-MAG-D9.26 | < blank > |
P-HSR-MAG-D9.26.01 | < blank > |
P-HSR-MAG-D9.26.02 | < blank > |
P-HSR-MAG-D9.26.03 | < blank > |
P-HSR-MAG-D9.26.04 | < blank > |
P-HSR-MAG-D9.26.05 | < blank > |
P-HSR-MAG-D9.26.06 | < blank > |
P-HSR-MAG-D9.26.07 | < blank > |
P-HSR-MAG-D9.26.08 | < blank > |
P-HSR-MAG-D9.26.09 | < blank > |
P-HSR-MAG-D9.26.11 | < blank > |
P-HSR-MAG-D9.26.12 | < blank > |
P-HSR-MAG-D9.26.13 | < blank > |
P-HSR-MAG-D9.26.14 | < blank > |
P-HSR-MAG-D9.26.15 | < blank > |
P-HSR-MAG-D9.26.16 | < blank > |
P-HSR-MAG-D9.27 | The magnet shall not be designed to constain the external fringe field. |
P-HSR-MAG-D9.28 | <blank> |
P-HSR-MAG-H5_QS3.1 | The RHIC magnet shall operate for EIC functions. |
P-HSR-MAG-H5_QS3.2 | The magnet shall require air trim coils capable of trimmig the field +- . |
P-HSR-MAG-H5_QS3.3 | The magnet shall require current taps for operation |
P-HSR-MAG-H5_QS3.4 | The magnet shall require shunt(s) for operation |
P-HSR-MAG-H5_QS3.5 | The magnet shall have a Quadrupole field. |
P-HSR-MAG-H5_QS3.6 | < blank > |
P-HSR-MAG-H5_QS3.7 | The magnet shall have a normal field rotation. |
P-HSR-MAG-H5_QS3.8 | The minimal magnet inscribe radius shall be 34.5 m. |
P-HSR-MAG-H5_QS3.9 | < blank > |
P-HSR-MAG-H5_QS3.10 | The magnet good field aperture drx required shall be 121.015 m. |
P-HSR-MAG-H5_QS3.11 | The magnet good field aperture dry required shall be 38.343 m. |
P-HSR-MAG-H5_QS3.12 | The physical magnet length shall be <0.25 m. |
P-HSR-MAG-H5_QS3.13 | The effective magnet length shall be 0.25 m. |
P-HSR-MAG-H5_QS3.14 | The magnet slot length shall be Within the Tech spec for the RHIC magnet H5_QS3 . |
P-HSR-MAG-H5_QS3.15 | < blank > |
P-HSR-MAG-H5_QS3.16 | < blank > |
P-HSR-MAG-H5_QS3.17 | < blank > |
P-HSR-MAG-H5_QS3.18 | The magnet to magnet variability shall be TBD T/s. |
P-HSR-MAG-H5_QS3.19 | The magnet harmonic reference radius (Rr) and current (Ir) shall be Ir=TBD[A]\Rr=16[mm] (mm,A). |
P-HSR-MAG-H5_QS3.20 | The magnet field at the reference radius and current shall be Bref=TBD (T). |
P-HSR-MAG-H5_QS3.21 | The magnet bore field shall require the following multipole content: |
P-HSR-MAG-H5_QS3.21.1 | Within the Tech spec for the RHIC magnet H5_QS3 . |
P-HSR-MAG-H5_QS3.21.02 | Within the Tech spec for the RHIC magnet H5_QS3 (10^-4). |
P-HSR-MAG-H5_QS3.21.03 | Within the Tech spec for the RHIC magnet H5_QS3 (10^-4). |
P-HSR-MAG-H5_QS3.21.04 | Within the Tech spec for the RHIC magnet H5_QS3 . |
P-HSR-MAG-H5_QS3.21.05 | Within the Tech spec for the RHIC magnet H5_QS3 . |
P-HSR-MAG-H5_QS3.21.06 | Within the Tech spec for the RHIC magnet H5_QS3 . |
P-HSR-MAG-H5_QS3.21.07 | Within the Tech spec for the RHIC magnet H5_QS3 . |
P-HSR-MAG-H5_QS3.21.08 | Within the Tech spec for the RHIC magnet H5_QS3 . |
P-HSR-MAG-H5_QS3.21.09 | Within the Tech spec for the RHIC magnet H5_QS3 . |
P-HSR-MAG-H5_QS3.21.11 | Within the Tech spec for the RHIC magnet H5_QS3 . |
P-HSR-MAG-H5_QS3.21.12 | Within the Tech spec for the RHIC magnet H5_QS3 . |
P-HSR-MAG-H5_QS3.21.13 | Within the Tech spec for the RHIC magnet H5_QS3 . |
P-HSR-MAG-H5_QS3.21.14 | Within the Tech spec for the RHIC magnet H5_QS3 . |
P-HSR-MAG-H5_QS3.21.15 | Within the Tech spec for the RHIC magnet H5_QS3 . |
P-HSR-MAG-H5_QS3.21.16 | Within the Tech spec for the RHIC magnet H5_QS3 . |
P-HSR-MAG-H5_QS3.22 | Within the Tech spec for the RHIC magnet H5_QS3 . |
P-HSR-MAG-H5_QS3.23 | Within the Tech spec for the RHIC magnet H5_QS3 . |
P-HSR-MAG-H5_QS3.24 | Within the Tech spec for the RHIC magnet H5_QS3 . |
P-HSR-MAG-H5_QS3.25 | < blank > |
P-HSR-MAG-H5_QS3.26 | < blank > |
P-HSR-MAG-H5_QS3.26.01 | < blank > |
P-HSR-MAG-H5_QS3.26.02 | < blank > |
P-HSR-MAG-H5_QS3.26.03 | < blank > |
P-HSR-MAG-H5_QS3.26.04 | < blank > |
P-HSR-MAG-H5_QS3.26.05 | < blank > |
P-HSR-MAG-H5_QS3.26.06 | < blank > |
P-HSR-MAG-H5_QS3.26.07 | < blank > |
P-HSR-MAG-H5_QS3.26.08 | < blank > |
P-HSR-MAG-H5_QS3.26.09 | < blank > |
P-HSR-MAG-H5_QS3.26.11 | < blank > |
P-HSR-MAG-H5_QS3.26.12 | < blank > |
P-HSR-MAG-H5_QS3.26.13 | < blank > |
P-HSR-MAG-H5_QS3.26.14 | < blank > |
P-HSR-MAG-H5_QS3.26.15 | < blank > |
P-HSR-MAG-H5_QS3.26.16 | < blank > |
P-HSR-MAG-H5_QS3.27 | The magnet shall not be designed to constain the external fringe field. |
P-HSR-MAG-H5_QS3.28 | <blank> |
P-HSR-MAG-IR_Q5.1 | The RHIC magnet shall operate for EIC functions. |
P-HSR-MAG-IR_Q5.2 | The magnet shall require air trim coils capable of trimmig the field +- . |
P-HSR-MAG-IR_Q5.3 | The magnet shall require current taps for operation |
P-HSR-MAG-IR_Q5.4 | The magnet shall require shunt(s) for operation |
P-HSR-MAG-IR_Q5.5 | The magnet shall have a Quadrupole field. |
P-HSR-MAG-IR_Q5.6 | The magnet field direction shall be (V=vertical,H=horizontal,Z=beam direction ) |
P-HSR-MAG-IR_Q5.7 | The magnet field rotation shall be (No=norm, Sk=skew) |
P-HSR-MAG-IR_Q5.8 | The minimal magnet inscribe radius shall be 34.5 m. |
P-HSR-MAG-IR_Q5.9 | < blank > |
P-HSR-MAG-IR_Q5.10 | The magnet good field aperture drx required shall be 26.068 m. |
P-HSR-MAG-IR_Q5.11 | The magnet good field aperture dry required shall be 30.023 m. |
P-HSR-MAG-IR_Q5.12 | The physical magnet length shall be <1.11 m. |
P-HSR-MAG-IR_Q5.13 | The effective magnet length shall be 1.11 m. |
P-HSR-MAG-IR_Q5.14 | The magnet slot length shall be Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) . |
P-HSR-MAG-IR_Q5.15 | < blank > |
P-HSR-MAG-IR_Q5.16 | < blank > |
P-HSR-MAG-IR_Q5.17 | < blank > |
P-HSR-MAG-IR_Q5.18 | The magnet to magnet variability shall be TBD T/s. |
P-HSR-MAG-IR_Q5.19 | The magnet harmonic reference radius (Rr) and current (Ir) shall be Ir=TBD[A]\Rr=16[mm] (mm,A). |
P-HSR-MAG-IR_Q5.20 | The magnet field at the reference radius and current shall be Bref=TBD (T). |
P-HSR-MAG-IR_Q5.21 | The magnet bore field shall require the following multipole content: |
P-HSR-MAG-IR_Q5.21.01 | Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) (10^-4). |
P-HSR-MAG-IR_Q5.21.02 | Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) (10^-4). |
P-HSR-MAG-IR_Q5.21.03 | Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) (10^-4). |
P-HSR-MAG-IR_Q5.21.04 | Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) . |
P-HSR-MAG-IR_Q5.21.05 | Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) (10^-4). |
P-HSR-MAG-IR_Q5.21.06 | Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) (10^-4). |
P-HSR-MAG-IR_Q5.21.07 | Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) (10^-4). |
P-HSR-MAG-IR_Q5.21.08 | Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) (10^-4). |
P-HSR-MAG-IR_Q5.21.09 | Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) (10^-4). |
P-HSR-MAG-IR_Q5.21.11 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-IR_Q5.21.12 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-IR_Q5.21.13 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-IR_Q5.21.14 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-IR_Q5.21.15 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-IR_Q5.21.16 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-IR_Q5.22 | The magnet shall not be designed to limit Crosstalk requirements. |
P-HSR-MAG-IR_Q5.23 | < blank > |
P-HSR-MAG-IR_Q5.24 | < blank > |
P-HSR-MAG-IR_Q5.25 | < blank > |
P-HSR-MAG-IR_Q5.26 | < blank > |
P-HSR-MAG-IR_Q5.26.01 | < blank > |
P-HSR-MAG-IR_Q5.26.02 | < blank > |
P-HSR-MAG-IR_Q5.26.03 | < blank > |
P-HSR-MAG-IR_Q5.26.04 | < blank > |
P-HSR-MAG-IR_Q5.26.05 | < blank > |
P-HSR-MAG-IR_Q5.26.06 | < blank > |
P-HSR-MAG-IR_Q5.26.07 | < blank > |
P-HSR-MAG-IR_Q5.26.08 | < blank > |
P-HSR-MAG-IR_Q5.26.09 | < blank > |
P-HSR-MAG-IR_Q5.26.11 | < blank > |
P-HSR-MAG-IR_Q5.26.12 | < blank > |
P-HSR-MAG-IR_Q5.26.13 | < blank > |
P-HSR-MAG-IR_Q5.26.14 | < blank > |
P-HSR-MAG-IR_Q5.26.15 | < blank > |
P-HSR-MAG-IR_Q5.26.16 | < blank > |
P-HSR-MAG-IR_Q5.27 | The magnet shall not be designed to constain the external fringe field. |
P-HSR-MAG-IR_Q5.28 | <blank> |
P-HSR-MAG-IR_Q6.1 | The RHIC magnet shall operate for EIC functions. |
P-HSR-MAG-IR_Q6.2 | The magnet shall require air trim coils capable of trimmig the field +- . |
P-HSR-MAG-IR_Q6.3 | The magnet shall require current taps for operation |
P-HSR-MAG-IR_Q6.4 | The magnet shall require shunt(s) for operation |
P-HSR-MAG-IR_Q6.5 | The magnet shall have a Quadrupole field. |
P-HSR-MAG-IR_Q6.6 | The magnet field direction shall be (V=vertical,H=horizontal,Z=beam direction ) |
P-HSR-MAG-IR_Q6.7 | The magnet field rotation shall be (No=norm, Sk=skew) |
P-HSR-MAG-IR_Q6.8 | The minimal magnet inscribe radius shall be 34.5 m. |
P-HSR-MAG-IR_Q6.9 | < blank > |
P-HSR-MAG-IR_Q6.10 | The magnet good field aperture drx required shall be 26.068 m. |
P-HSR-MAG-IR_Q6.11 | The magnet good field aperture dry required shall be 30.023 m. |
P-HSR-MAG-IR_Q6.12 | The physical magnet length shall be <1.11 m. |
P-HSR-MAG-IR_Q6.13 | The effective magnet length shall be 1.11 m. |
P-HSR-MAG-IR_Q6.14 | The magnet slot length shall be Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) . |
P-HSR-MAG-IR_Q6.15 | < blank > |
P-HSR-MAG-IR_Q6.16 | < blank > |
P-HSR-MAG-IR_Q6.17 | < blank > |
P-HSR-MAG-IR_Q6.18 | The magnet to magnet variability shall be TBD T/s. |
P-HSR-MAG-IR_Q6.19 | The magnet harmonic reference radius (Rr) and current (Ir) shall be Ir=TBD[A]\Rr=16[mm] (mm,A). |
P-HSR-MAG-IR_Q6.20 | The magnet field at the reference radius and current shall be Bref=TBD (T). |
P-HSR-MAG-IR_Q6.21 | The magnet bore field shall require the following multipole content: |
P-HSR-MAG-IR_Q6.21.01 | Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) (10^-4). |
P-HSR-MAG-IR_Q6.21.02 | Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) (10^-4). |
P-HSR-MAG-IR_Q6.21.03 | Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) (10^-4). |
P-HSR-MAG-IR_Q6.21.04 | Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) . |
P-HSR-MAG-IR_Q6.21.05 | Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) (10^-4). |
P-HSR-MAG-IR_Q6.21.06 | Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) (10^-4). |
P-HSR-MAG-IR_Q6.21.07 | Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) (10^-4). |
P-HSR-MAG-IR_Q6.21.08 | Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) (10^-4). |
P-HSR-MAG-IR_Q6.21.09 | Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) (10^-4). |
P-HSR-MAG-IR_Q6.21.11 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-IR_Q6.21.12 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-IR_Q6.21.13 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-IR_Q6.21.14 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-IR_Q6.21.15 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-IR_Q6.21.16 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-IR_Q6.22 | The magnet shall not be designed to limit Crosstalk requirements. |
P-HSR-MAG-IR_Q6.23 | < blank > |
P-HSR-MAG-IR_Q6.24 | < blank > |
P-HSR-MAG-IR_Q6.25 | < blank > |
P-HSR-MAG-IR_Q6.26 | < blank > |
P-HSR-MAG-IR_Q6.26.01 | < blank > |
P-HSR-MAG-IR_Q6.26.02 | < blank > |
P-HSR-MAG-IR_Q6.26.03 | < blank > |
P-HSR-MAG-IR_Q6.26.04 | < blank > |
P-HSR-MAG-IR_Q6.26.05 | < blank > |
P-HSR-MAG-IR_Q6.26.06 | < blank > |
P-HSR-MAG-IR_Q6.26.07 | < blank > |
P-HSR-MAG-IR_Q6.26.08 | < blank > |
P-HSR-MAG-IR_Q6.26.09 | < blank > |
P-HSR-MAG-IR_Q6.26.11 | < blank > |
P-HSR-MAG-IR_Q6.26.12 | < blank > |
P-HSR-MAG-IR_Q6.26.13 | < blank > |
P-HSR-MAG-IR_Q6.26.14 | < blank > |
P-HSR-MAG-IR_Q6.26.15 | < blank > |
P-HSR-MAG-IR_Q6.26.16 | < blank > |
P-HSR-MAG-IR_Q6.27 | The magnet shall not be designed to constain the external fringe field. |
P-HSR-MAG-IR_Q6.28 | <blank> |
P-HSR-MAG-IR_Q8.1 | The RHIC magnet shall operate for EIC functions. |
P-HSR-MAG-IR_Q8.2 | The magnet shall require air trim coils capable of trimmig the field +- . |
P-HSR-MAG-IR_Q8.3 | The magnet shall require current taps for operation |
P-HSR-MAG-IR_Q8.4 | The magnet shall require shunt(s) for operation |
P-HSR-MAG-IR_Q8.5 | The magnet shall have a Quadrupole field. |
P-HSR-MAG-IR_Q8.6 | The magnet field direction shall be (V=vertical,H=horizontal,Z=beam direction ) |
P-HSR-MAG-IR_Q8.7 | The magnet field rotation shall be (No=norm, Sk=skew) |
P-HSR-MAG-IR_Q8.8 | The minimal magnet inscribe radius shall be 34.5 m. |
P-HSR-MAG-IR_Q8.9 | < blank > |
P-HSR-MAG-IR_Q8.10 | The magnet good field aperture drx required shall be 26.068 m. |
P-HSR-MAG-IR_Q8.11 | The magnet good field aperture dry required shall be 30.023 m. |
P-HSR-MAG-IR_Q8.12 | The physical magnet length shall be <1.11 m. |
P-HSR-MAG-IR_Q8.13 | The effective magnet length shall be 1.11 m. |
P-HSR-MAG-IR_Q8.14 | The magnet slot length shall be Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) . |
P-HSR-MAG-IR_Q8.15 | < blank > |
P-HSR-MAG-IR_Q8.16 | < blank > |
P-HSR-MAG-IR_Q8.17 | < blank > |
P-HSR-MAG-IR_Q8.18 | The magnet to magnet variability shall be TBD T/s. |
P-HSR-MAG-IR_Q8.19 | The magnet harmonic reference radius (Rr) and current (Ir) shall be Ir=TBD[A]\Rr=16[mm] (mm,A). |
P-HSR-MAG-IR_Q8.20 | The magnet field at the reference radius and current shall be Bref=TBD (T). |
P-HSR-MAG-IR_Q8.21 | The magnet bore field shall require the following multipole content: |
P-HSR-MAG-IR_Q8.21.01 | Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) (10^-4). |
P-HSR-MAG-IR_Q8.21.02 | Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) (10^-4). |
P-HSR-MAG-IR_Q8.21.03 | Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) (10^-4). |
P-HSR-MAG-IR_Q8.21.04 | Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) . |
P-HSR-MAG-IR_Q8.21.05 | Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) (10^-4). |
P-HSR-MAG-IR_Q8.21.06 | Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) (10^-4). |
P-HSR-MAG-IR_Q8.21.07 | Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) (10^-4). |
P-HSR-MAG-IR_Q8.21.08 | Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) (10^-4). |
P-HSR-MAG-IR_Q8.21.09 | Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) (10^-4). |
P-HSR-MAG-IR_Q8.21.11 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-IR_Q8.21.12 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-IR_Q8.21.13 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-IR_Q8.21.14 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-IR_Q8.21.15 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-IR_Q8.21.16 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-IR_Q8.22 | The magnet shall not be designed to limit Crosstalk requirements. |
P-HSR-MAG-IR_Q8.23 | < blank > |
P-HSR-MAG-IR_Q8.24 | < blank > |
P-HSR-MAG-IR_Q8.25 | < blank > |
P-HSR-MAG-IR_Q8.26 | < blank > |
P-HSR-MAG-IR_Q8.26.01 | < blank > |
P-HSR-MAG-IR_Q8.26.02 | < blank > |
P-HSR-MAG-IR_Q8.26.03 | < blank > |
P-HSR-MAG-IR_Q8.26.04 | < blank > |
P-HSR-MAG-IR_Q8.26.05 | < blank > |
P-HSR-MAG-IR_Q8.26.06 | < blank > |
P-HSR-MAG-IR_Q8.26.07 | < blank > |
P-HSR-MAG-IR_Q8.26.08 | < blank > |
P-HSR-MAG-IR_Q8.26.09 | < blank > |
P-HSR-MAG-IR_Q8.26.11 | < blank > |
P-HSR-MAG-IR_Q8.26.12 | < blank > |
P-HSR-MAG-IR_Q8.26.13 | < blank > |
P-HSR-MAG-IR_Q8.26.14 | < blank > |
P-HSR-MAG-IR_Q8.26.15 | < blank > |
P-HSR-MAG-IR_Q8.26.16 | < blank > |
P-HSR-MAG-IR_Q8.27 | The magnet shall not be designed to constain the external fringe field. |
P-HSR-MAG-IR_Q8.28 | <blank> |
P-HSR-MAG-IR_Q9.1 | The RHIC magnet shall operate for EIC functions. |
P-HSR-MAG-IR_Q9.2 | The magnet shall require air trim coils capable of trimmig the field +- . |
P-HSR-MAG-IR_Q9.3 | The magnet shall require current taps for operation |
P-HSR-MAG-IR_Q9.4 | The magnet shall require shunt(s) for operation |
P-HSR-MAG-IR_Q9.5 | The magnet shall have a Quadrupole field. |
P-HSR-MAG-IR_Q9.6 | The magnet field direction shall be (V=vertical,H=horizontal,Z=beam direction ) |
P-HSR-MAG-IR_Q9.7 | The magnet field rotation shall be (No=norm, Sk=skew) |
P-HSR-MAG-IR_Q9.8 | The minimal magnet inscribe radius shall be 34.5 m. |
P-HSR-MAG-IR_Q9.9 | < blank > |
P-HSR-MAG-IR_Q9.10 | The magnet good field aperture drx required shall be 26.068 m. |
P-HSR-MAG-IR_Q9.11 | The magnet good field aperture dry required shall be 30.023 m. |
P-HSR-MAG-IR_Q9.12 | The physical magnet length shall be <1.11 m. |
P-HSR-MAG-IR_Q9.13 | The effective magnet length shall be 1.11 m. |
P-HSR-MAG-IR_Q9.14 | The magnet slot length shall be Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) . |
P-HSR-MAG-IR_Q9.15 | < blank > |
P-HSR-MAG-IR_Q9.16 | < blank > |
P-HSR-MAG-IR_Q9.17 | < blank > |
P-HSR-MAG-IR_Q9.18 | The magnet to magnet variability shall be TBD T/s. |
P-HSR-MAG-IR_Q9.19 | The magnet harmonic reference radius (Rr) and current (Ir) shall be Ir=TBD[A]\Rr=16[mm] (mm,A). |
P-HSR-MAG-IR_Q9.20 | The magnet field at the reference radius and current shall be Bref=TBD (T). |
P-HSR-MAG-IR_Q9.21 | The magnet bore field shall require the following multipole content: |
P-HSR-MAG-IR_Q9.21.01 | Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) (10^-4). |
P-HSR-MAG-IR_Q9.21.02 | Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) (10^-4). |
P-HSR-MAG-IR_Q9.21.03 | Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) (10^-4). |
P-HSR-MAG-IR_Q9.21.04 | Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) . |
P-HSR-MAG-IR_Q9.21.05 | Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) (10^-4). |
P-HSR-MAG-IR_Q9.21.06 | Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) (10^-4). |
P-HSR-MAG-IR_Q9.21.07 | Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) (10^-4). |
P-HSR-MAG-IR_Q9.21.08 | Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) (10^-4). |
P-HSR-MAG-IR_Q9.21.09 | Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) (10^-4). |
P-HSR-MAG-IR_Q9.21.11 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-IR_Q9.21.12 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-IR_Q9.21.13 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-IR_Q9.21.14 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-IR_Q9.21.15 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-IR_Q9.21.16 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-IR_Q9.22 | The magnet shall not be designed to limit Crosstalk requirements. |
P-HSR-MAG-IR_Q9.23 | < blank > |
P-HSR-MAG-IR_Q9.24 | < blank > |
P-HSR-MAG-IR_Q9.25 | < blank > |
P-HSR-MAG-IR_Q9.26 | < blank > |
P-HSR-MAG-IR_Q9.26.01 | < blank > |
P-HSR-MAG-IR_Q9.26.02 | < blank > |
P-HSR-MAG-IR_Q9.26.03 | < blank > |
P-HSR-MAG-IR_Q9.26.04 | < blank > |
P-HSR-MAG-IR_Q9.26.05 | < blank > |
P-HSR-MAG-IR_Q9.26.06 | < blank > |
P-HSR-MAG-IR_Q9.26.07 | < blank > |
P-HSR-MAG-IR_Q9.26.08 | < blank > |
P-HSR-MAG-IR_Q9.26.09 | < blank > |
P-HSR-MAG-IR_Q9.26.11 | < blank > |
P-HSR-MAG-IR_Q9.26.12 | < blank > |
P-HSR-MAG-IR_Q9.26.13 | < blank > |
P-HSR-MAG-IR_Q9.26.14 | < blank > |
P-HSR-MAG-IR_Q9.26.15 | < blank > |
P-HSR-MAG-IR_Q9.26.16 | < blank > |
P-HSR-MAG-IR_Q9.27 | The magnet shall not be designed to constain the external fringe field. |
P-HSR-MAG-IR_Q9.28 | <blank> |
P-HSR-MAG-IR_VKICKER_0.25.1 | The RHIC magnet shall operate for EIC functions. |
P-HSR-MAG-IR_VKICKER_0.25.2 | The magnet shall require air trim coils capable of trimmig the field +- . |
P-HSR-MAG-IR_VKICKER_0.25.3 | The magnet shall require current taps for operation |
P-HSR-MAG-IR_VKICKER_0.25.4 | The magnet shall require shunt(s) for operation |
P-HSR-MAG-IR_VKICKER_0.25.5 | The magnet shall have a Vertical kicker field. |
P-HSR-MAG-IR_VKICKER_0.25.6 | The magnet field shall have a horizontal field direction |
P-HSR-MAG-IR_VKICKER_0.25.7 | The magnet field rotation shall be (No=norm, Sk=skew) |
P-HSR-MAG-IR_VKICKER_0.25.8 | < blank > |
P-HSR-MAG-IR_VKICKER_0.25.9 | The minimal magnet bore gap shall be 69 m. |
P-HSR-MAG-IR_VKICKER_0.25.10 | The magnet good field aperture drx required shall be 121.015 m. |
P-HSR-MAG-IR_VKICKER_0.25.11 | The magnet good field aperture dry required shall be 37.982 m. |
P-HSR-MAG-IR_VKICKER_0.25.12 | The physical magnet length shall be <0.25 m. |
P-HSR-MAG-IR_VKICKER_0.25.13 | The effective magnet length shall be 0.25 m. |
P-HSR-MAG-IR_VKICKER_0.25.14 | The magnet slot length shall be Within the Tech spec for the RHIC magnet IR_VKICKER_0.25 . |
P-HSR-MAG-IR_VKICKER_0.25.15 | < blank > |
P-HSR-MAG-IR_VKICKER_0.25.16 | < blank > |
P-HSR-MAG-IR_VKICKER_0.25.17 | < blank > |
P-HSR-MAG-IR_VKICKER_0.25.18 | The magnet to magnet variability shall be TBD T/s. |
P-HSR-MAG-IR_VKICKER_0.25.19 | The magnet harmonic reference radius (Rr) and current (Ir) shall be Ir=TBD[A]\Rr=16[mm] (mm,A). |
P-HSR-MAG-IR_VKICKER_0.25.20 | The magnet field at the reference radius and current shall be Bref=TBD (T). |
P-HSR-MAG-IR_VKICKER_0.25.21 | The magnet bore field shall require the following multipole content: |
P-HSR-MAG-IR_VKICKER_0.25.21.01 | Within the Tech spec for the RHIC magnet IR_VKICKER_0.25 (10^-4). |
P-HSR-MAG-IR_VKICKER_0.25.21.02 | Within the Tech spec for the RHIC magnet IR_VKICKER_0.25 (10^-4). |
P-HSR-MAG-IR_VKICKER_0.25.21.03 | Within the Tech spec for the RHIC magnet IR_VKICKER_0.25 (10^-4). |
P-HSR-MAG-IR_VKICKER_0.25.21.04 | Within the Tech spec for the RHIC magnet IR_VKICKER_0.25 . |
P-HSR-MAG-IR_VKICKER_0.25.21.05 | Within the Tech spec for the RHIC magnet IR_VKICKER_0.25 (10^-4). |
P-HSR-MAG-IR_VKICKER_0.25.21.06 | Within the Tech spec for the RHIC magnet IR_VKICKER_0.25 (10^-4). |
P-HSR-MAG-IR_VKICKER_0.25.21.07 | Within the Tech spec for the RHIC magnet IR_VKICKER_0.25 (10^-4). |
P-HSR-MAG-IR_VKICKER_0.25.21.08 | Within the Tech spec for the RHIC magnet IR_VKICKER_0.25 (10^-4). |
P-HSR-MAG-IR_VKICKER_0.25.21.09 | Within the Tech spec for the RHIC magnet IR_VKICKER_0.25 (10^-4). |
P-HSR-MAG-IR_VKICKER_0.25.21.11 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-IR_VKICKER_0.25.21.12 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-IR_VKICKER_0.25.21.13 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-IR_VKICKER_0.25.21.14 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-IR_VKICKER_0.25.21.15 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-IR_VKICKER_0.25.21.16 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-IR_VKICKER_0.25.22 | The magnet shall not be designed to limit Crosstalk requirements. |
P-HSR-MAG-IR_VKICKER_0.25.23 | < blank > |
P-HSR-MAG-IR_VKICKER_0.25.24 | < blank > |
P-HSR-MAG-IR_VKICKER_0.25.25 | < blank > |
P-HSR-MAG-IR_VKICKER_0.25.26 | < blank > |
P-HSR-MAG-IR_VKICKER_0.25.26.01 | < blank > |
P-HSR-MAG-IR_VKICKER_0.25.26.02 | < blank > |
P-HSR-MAG-IR_VKICKER_0.25.26.03 | < blank > |
P-HSR-MAG-IR_VKICKER_0.25.26.04 | < blank > |
P-HSR-MAG-IR_VKICKER_0.25.26.05 | < blank > |
P-HSR-MAG-IR_VKICKER_0.25.26.06 | < blank > |
P-HSR-MAG-IR_VKICKER_0.25.26.07 | < blank > |
P-HSR-MAG-IR_VKICKER_0.25.26.08 | < blank > |
P-HSR-MAG-IR_VKICKER_0.25.26.09 | < blank > |
P-HSR-MAG-IR_VKICKER_0.25.26.11 | < blank > |
P-HSR-MAG-IR_VKICKER_0.25.26.12 | < blank > |
P-HSR-MAG-IR_VKICKER_0.25.26.13 | < blank > |
P-HSR-MAG-IR_VKICKER_0.25.26.14 | < blank > |
P-HSR-MAG-IR_VKICKER_0.25.26.15 | < blank > |
P-HSR-MAG-IR_VKICKER_0.25.26.16 | < blank > |
P-HSR-MAG-IR_VKICKER_0.25.27 | The magnet shall not be designed to constain the external fringe field. |
P-HSR-MAG-IR_VKICKER_0.25.28 | <blank> |
P-HSR-MAG-KA3.1 | The RHIC magnet shall operate for EIC functions. |
P-HSR-MAG-KA3.2 | The magnet shall require air trim coils capable of trimmig the field +- . |
P-HSR-MAG-KA3.3 | The magnet shall require current taps for operation |
P-HSR-MAG-KA3.4 | The magnet shall require shunt(s) for operation |
P-HSR-MAG-KA3.5 | The magnet shall have a Dipole field. |
P-HSR-MAG-KA3.6 | The magnet field shall have a vertical field direction |
P-HSR-MAG-KA3.7 | < blank > |
P-HSR-MAG-KA3.8 | < blank > |
P-HSR-MAG-KA3.9 | The minimal magnet bore gap shall be 69 m. |
P-HSR-MAG-KA3.10 | The magnet good field aperture drx required shall be 59.648 m. |
P-HSR-MAG-KA3.11 | The magnet good field aperture dry required shall be 65.754 m. |
P-HSR-MAG-KA3.12 | The physical magnet length shall be <1.22 m. |
P-HSR-MAG-KA3.13 | The effective magnet length shall be 1.22 m. |
P-HSR-MAG-KA3.14 | The magnet slot length shall be Within the Tech spec for the RHIC magnet KA3_?? . |
P-HSR-MAG-KA3.15 | The magnet integrated dipole field B shall be 0na Within the Tech spec for the RHIC magnet KA3_??. |
P-HSR-MAG-KA3.16 | < blank > |
P-HSR-MAG-KA3.17 | < blank > |
P-HSR-MAG-KA3.18 | The magnet to magnet variability shall be TBD T/s. |
P-HSR-MAG-KA3.19 | The magnet harmonic reference radius (Rr) and current (Ir) shall be Ir=TBD[A]\Rr=16[mm] (mm,A). |
P-HSR-MAG-KA3.20 | The magnet field at the reference radius and current shall be Bref=TBD (T). |
P-HSR-MAG-KA3.21 | The magnet bore field shall require the following multipole content: |
P-HSR-MAG-KA3.21.01 | Within the Tech spec for the RHIC magnet KA3_?? (10^-4). |
P-HSR-MAG-KA3.21.02 | Within the Tech spec for the RHIC magnet KA3_?? (10^-4). |
P-HSR-MAG-KA3.21.03 | Within the Tech spec for the RHIC magnet KA3_?? (10^-4). |
P-HSR-MAG-KA3.21.04 | Within the Tech spec for the RHIC magnet KA3_?? . |
P-HSR-MAG-KA3.21.05 | Within the Tech spec for the RHIC magnet KA3_?? (10^-4). |
P-HSR-MAG-KA3.21.06 | Within the Tech spec for the RHIC magnet KA3_?? (10^-4). |
P-HSR-MAG-KA3.21.07 | Within the Tech spec for the RHIC magnet KA3_?? (10^-4). |
P-HSR-MAG-KA3.21.08 | Within the Tech spec for the RHIC magnet KA3_?? (10^-4). |
P-HSR-MAG-KA3.21.09 | Within the Tech spec for the RHIC magnet KA3_?? (10^-4). |
P-HSR-MAG-KA3.21.11 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-KA3.21.12 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-KA3.21.13 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-KA3.21.14 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-KA3.21.15 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-KA3.21.16 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-KA3.22 | The magnet shall not be designed to limit Crosstalk requirements. |
P-HSR-MAG-KA3.23 | < blank > |
P-HSR-MAG-KA3.24 | < blank > |
P-HSR-MAG-KA3.25 | < blank > |
P-HSR-MAG-KA3.26 | < blank > |
P-HSR-MAG-KA3.26.01 | < blank > |
P-HSR-MAG-KA3.26.02 | < blank > |
P-HSR-MAG-KA3.26.03 | < blank > |
P-HSR-MAG-KA3.26.04 | < blank > |
P-HSR-MAG-KA3.26.05 | < blank > |
P-HSR-MAG-KA3.26.06 | < blank > |
P-HSR-MAG-KA3.26.07 | < blank > |
P-HSR-MAG-KA3.26.08 | < blank > |
P-HSR-MAG-KA3.26.09 | < blank > |
P-HSR-MAG-KA3.26.11 | < blank > |
P-HSR-MAG-KA3.26.12 | < blank > |
P-HSR-MAG-KA3.26.13 | < blank > |
P-HSR-MAG-KA3.26.14 | < blank > |
P-HSR-MAG-KA3.26.15 | < blank > |
P-HSR-MAG-KA3.26.16 | < blank > |
P-HSR-MAG-KA3.27 | The magnet shall not be designed to constain the external fringe field. |
P-HSR-MAG-KA3.28 | <blank> |
P-HSR-MAG-Q1.1 | The RHIC magnet shall operate for EIC functions. |
P-HSR-MAG-Q1.2 | The magnet shall require air trim coils capable of trimmig the field +- . |
P-HSR-MAG-Q1.3 | The magnet shall require current taps for operation |
P-HSR-MAG-Q1.4 | The magnet shall require shunt(s) for operation |
P-HSR-MAG-Q1.5 | The magnet shall have a Quadrupole field. |
P-HSR-MAG-Q1.6 | The magnet field direction shall be (V=vertical,H=horizontal,Z=beam direction ) |
P-HSR-MAG-Q1.7 | The magnet field rotation shall be (No=norm, Sk=skew) |
P-HSR-MAG-Q1.8 | The minimal magnet inscribe radius shall be 34.5 m. |
P-HSR-MAG-Q1.9 | < blank > |
P-HSR-MAG-Q1.10 | The magnet good field aperture drx required shall be 123.287 m. |
P-HSR-MAG-Q1.11 | The magnet good field aperture dry required shall be 76.245 m. |
P-HSR-MAG-Q1.12 | The physical magnet length shall be <1.44 m. |
P-HSR-MAG-Q1.13 | The effective magnet length shall be 1.44 m. |
P-HSR-MAG-Q1.14 | The magnet slot length shall be Within the Tech spec for the RHIC magnet Q1 . |
P-HSR-MAG-Q1.15 | < blank > |
P-HSR-MAG-Q1.16 | < blank > |
P-HSR-MAG-Q1.17 | < blank > |
P-HSR-MAG-Q1.18 | The magnet to magnet variability shall be TBD T/s. |
P-HSR-MAG-Q1.19 | The magnet harmonic reference radius (Rr) and current (Ir) shall be 40mm \ 5000A (mm,A). |
P-HSR-MAG-Q1.20 | The magnet field at the reference radius and current shall be Bref=TBD (T). |
P-HSR-MAG-Q1.21 | The magnet bore field shall require the following multipole content: |
P-HSR-MAG-Q1.21.1 | , (10^-4). |
P-HSR-MAG-Q1.21.02 | -0.85<b3<0.17 , -0.21<a3<0.45 (10^-4). |
P-HSR-MAG-Q1.21.03 | -0.46<b4<0 , -0.09<a4<0.21 (10^-4). |
P-HSR-MAG-Q1.21.04 | 1.54<b5<1.8 , -0.34<a5<-0.2 . |
P-HSR-MAG-Q1.21.05 | -0.1<b6<0.24 , -0.1<a6<0.28 (10^-4). |
P-HSR-MAG-Q1.21.06 | -0.13<b7<0.13 , -0.08<a7<0.06 (10^-4). |
P-HSR-MAG-Q1.21.07 | -0.01<b8<0.11 , -0.02<a8<0.04 (10^-4). |
P-HSR-MAG-Q1.21.08 | -0.34<b9<-0.28 , 0.06<a9<0.1 (10^-4). |
P-HSR-MAG-Q1.21.09 | -0.01<b10<0.01 , -0.01<a10<0.03 (10^-4). |
P-HSR-MAG-Q1.21.11 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q1.21.12 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q1.21.13 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q1.21.14 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q1.21.15 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q1.21.16 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q1.22 | The magnet shall not be designed to limit Crosstalk requirements. |
P-HSR-MAG-Q1.23 | < blank > |
P-HSR-MAG-Q1.24 | < blank > |
P-HSR-MAG-Q1.25 | < blank > |
P-HSR-MAG-Q1.26 | < blank > |
P-HSR-MAG-Q1.26.01 | < blank > |
P-HSR-MAG-Q1.26.02 | < blank > |
P-HSR-MAG-Q1.26.03 | < blank > |
P-HSR-MAG-Q1.26.04 | < blank > |
P-HSR-MAG-Q1.26.05 | < blank > |
P-HSR-MAG-Q1.26.06 | < blank > |
P-HSR-MAG-Q1.26.07 | < blank > |
P-HSR-MAG-Q1.26.08 | < blank > |
P-HSR-MAG-Q1.26.09 | < blank > |
P-HSR-MAG-Q1.26.11 | < blank > |
P-HSR-MAG-Q1.26.12 | < blank > |
P-HSR-MAG-Q1.26.13 | < blank > |
P-HSR-MAG-Q1.26.14 | < blank > |
P-HSR-MAG-Q1.26.15 | < blank > |
P-HSR-MAG-Q1.26.16 | < blank > |
P-HSR-MAG-Q1.27 | The magnet shall not be designed to constain the external fringe field. |
P-HSR-MAG-Q1.28 | <blank> |
P-HSR-MAG-Q2.1 | The RHIC magnet shall operate for EIC functions. |
P-HSR-MAG-Q2.2 | The magnet shall require air trim coils capable of trimmig the field +- . |
P-HSR-MAG-Q2.3 | The magnet shall require current taps for operation |
P-HSR-MAG-Q2.4 | The magnet shall require shunt(s) for operation |
P-HSR-MAG-Q2.5 | The magnet shall have a Quadrupole field. |
P-HSR-MAG-Q2.6 | The magnet field direction shall be (V=vertical,H=horizontal,Z=beam direction ) |
P-HSR-MAG-Q2.7 | The magnet field rotation shall be (No=norm, Sk=skew) |
P-HSR-MAG-Q2.8 | The minimal magnet inscribe radius shall be 34.5 m. |
P-HSR-MAG-Q2.9 | < blank > |
P-HSR-MAG-Q2.10 | The magnet good field aperture drx required shall be 503.683 m. |
P-HSR-MAG-Q2.11 | The magnet good field aperture dry required shall be 82.706 m. |
P-HSR-MAG-Q2.12 | The physical magnet length shall be <3.392 m. |
P-HSR-MAG-Q2.13 | The effective magnet length shall be 3.392 m. |
P-HSR-MAG-Q2.14 | The magnet slot length shall be Within the Tech spec for the RHIC magnet Q2 . |
P-HSR-MAG-Q2.15 | < blank > |
P-HSR-MAG-Q2.16 | < blank > |
P-HSR-MAG-Q2.17 | < blank > |
P-HSR-MAG-Q2.18 | The magnet to magnet variability shall be TBD T/s. |
P-HSR-MAG-Q2.19 | The magnet harmonic reference radius (Rr) and current (Ir) shall be 40mm \ 5000A (mm,A). |
P-HSR-MAG-Q2.20 | The magnet field at the reference radius and current shall be Bref=TBD (T). |
P-HSR-MAG-Q2.21 | The magnet bore field shall require the following multipole content: |
P-HSR-MAG-Q2.21.1 | , (10^-4). |
P-HSR-MAG-Q2.21.02 | -0.85<b3<0.17 , -0.21<a3<0.45 (10^-4). |
P-HSR-MAG-Q2.21.03 | -0.46<b4<0 , -0.09<a4<0.21 (10^-4). |
P-HSR-MAG-Q2.21.04 | 1.54<b5<1.8 , -0.34<a5<-0.2 . |
P-HSR-MAG-Q2.21.05 | -0.1<b6<0.24 , -0.1<a6<0.28 (10^-4). |
P-HSR-MAG-Q2.21.06 | -0.13<b7<0.13 , -0.08<a7<0.06 (10^-4). |
P-HSR-MAG-Q2.21.07 | -0.01<b8<0.11 , -0.02<a8<0.04 (10^-4). |
P-HSR-MAG-Q2.21.08 | -0.34<b9<-0.28 , 0.06<a9<0.1 (10^-4). |
P-HSR-MAG-Q2.21.09 | -0.01<b10<0.01 , -0.01<a10<0.03 (10^-4). |
P-HSR-MAG-Q2.21.11 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q2.21.12 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q2.21.13 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q2.21.14 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q2.21.15 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q2.21.16 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q2.22 | The magnet shall not be designed to limit Crosstalk requirements. |
P-HSR-MAG-Q2.23 | < blank > |
P-HSR-MAG-Q2.24 | < blank > |
P-HSR-MAG-Q2.25 | < blank > |
P-HSR-MAG-Q2.26 | < blank > |
P-HSR-MAG-Q2.26.01 | < blank > |
P-HSR-MAG-Q2.26.02 | < blank > |
P-HSR-MAG-Q2.26.03 | < blank > |
P-HSR-MAG-Q2.26.04 | < blank > |
P-HSR-MAG-Q2.26.05 | < blank > |
P-HSR-MAG-Q2.26.06 | < blank > |
P-HSR-MAG-Q2.26.07 | < blank > |
P-HSR-MAG-Q2.26.08 | < blank > |
P-HSR-MAG-Q2.26.09 | < blank > |
P-HSR-MAG-Q2.26.11 | < blank > |
P-HSR-MAG-Q2.26.12 | < blank > |
P-HSR-MAG-Q2.26.13 | < blank > |
P-HSR-MAG-Q2.26.14 | < blank > |
P-HSR-MAG-Q2.26.15 | < blank > |
P-HSR-MAG-Q2.26.16 | < blank > |
P-HSR-MAG-Q2.27 | The magnet shall not be designed to constain the external fringe field. |
P-HSR-MAG-Q2.28 | <blank> |
P-HSR-MAG-Q3.1 | The RHIC magnet shall operate for EIC functions. |
P-HSR-MAG-Q3.2 | The magnet shall require air trim coils capable of trimmig the field +- . |
P-HSR-MAG-Q3.3 | The magnet shall require current taps for operation |
P-HSR-MAG-Q3.4 | The magnet shall require shunt(s) for operation |
P-HSR-MAG-Q3.5 | The magnet shall have a Quadrupole field. |
P-HSR-MAG-Q3.6 | The magnet field direction shall be (V=vertical,H=horizontal,Z=beam direction ) |
P-HSR-MAG-Q3.7 | The magnet field rotation shall be (No=norm, Sk=skew) |
P-HSR-MAG-Q3.8 | The minimal magnet inscribe radius shall be 34.5 m. |
P-HSR-MAG-Q3.9 | < blank > |
P-HSR-MAG-Q3.10 | The magnet good field aperture drx required shall be 434.733 m. |
P-HSR-MAG-Q3.11 | The magnet good field aperture dry required shall be 339.709 m. |
P-HSR-MAG-Q3.12 | The physical magnet length shall be <2.1 m. |
P-HSR-MAG-Q3.13 | The effective magnet length shall be 2.1 m. |
P-HSR-MAG-Q3.14 | The magnet slot length shall be Within the Tech spec for the RHIC magnet Q3 . |
P-HSR-MAG-Q3.15 | < blank > |
P-HSR-MAG-Q3.16 | < blank > |
P-HSR-MAG-Q3.17 | < blank > |
P-HSR-MAG-Q3.18 | The magnet to magnet variability shall be TBD T/s. |
P-HSR-MAG-Q3.19 | The magnet harmonic reference radius (Rr) and current (Ir) shall be 40mm \ 5000A (mm,A). |
P-HSR-MAG-Q3.20 | The magnet field at the reference radius and current shall be Bref=TBD (T). |
P-HSR-MAG-Q3.21 | The magnet bore field shall require the following multipole content: |
P-HSR-MAG-Q3.21.1 | , (10^-4). |
P-HSR-MAG-Q3.21.02 | -0.85<b3<0.17 , -0.21<a3<0.45 (10^-4). |
P-HSR-MAG-Q3.21.03 | -0.46<b4<0 , -0.09<a4<0.21 (10^-4). |
P-HSR-MAG-Q3.21.04 | 1.54<b5<1.8 , -0.34<a5<-0.2 . |
P-HSR-MAG-Q3.21.05 | -0.1<b6<0.24 , -0.1<a6<0.28 (10^-4). |
P-HSR-MAG-Q3.21.06 | -0.13<b7<0.13 , -0.08<a7<0.06 (10^-4). |
P-HSR-MAG-Q3.21.07 | -0.01<b8<0.11 , -0.02<a8<0.04 (10^-4). |
P-HSR-MAG-Q3.21.08 | -0.34<b9<-0.28 , 0.06<a9<0.1 (10^-4). |
P-HSR-MAG-Q3.21.09 | -0.01<b10<0.01 , -0.01<a10<0.03 (10^-4). |
P-HSR-MAG-Q3.21.11 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q3.21.12 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q3.21.13 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q3.21.14 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q3.21.15 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q3.21.16 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q3.22 | The magnet shall not be designed to limit Crosstalk requirements. |
P-HSR-MAG-Q3.23 | < blank > |
P-HSR-MAG-Q3.24 | < blank > |
P-HSR-MAG-Q3.25 | < blank > |
P-HSR-MAG-Q3.26 | < blank > |
P-HSR-MAG-Q3.26.01 | < blank > |
P-HSR-MAG-Q3.26.02 | < blank > |
P-HSR-MAG-Q3.26.03 | < blank > |
P-HSR-MAG-Q3.26.04 | < blank > |
P-HSR-MAG-Q3.26.05 | < blank > |
P-HSR-MAG-Q3.26.06 | < blank > |
P-HSR-MAG-Q3.26.07 | < blank > |
P-HSR-MAG-Q3.26.08 | < blank > |
P-HSR-MAG-Q3.26.09 | < blank > |
P-HSR-MAG-Q3.26.11 | < blank > |
P-HSR-MAG-Q3.26.12 | < blank > |
P-HSR-MAG-Q3.26.13 | < blank > |
P-HSR-MAG-Q3.26.14 | < blank > |
P-HSR-MAG-Q3.26.15 | < blank > |
P-HSR-MAG-Q3.26.16 | < blank > |
P-HSR-MAG-Q3.27 | The magnet shall not be designed to constain the external fringe field. |
P-HSR-MAG-Q3.28 | <blank> |
P-HSR-MAG-Q3PR.1 | The RHIC magnet shall operate for EIC functions. |
P-HSR-MAG-Q3PR.2 | The magnet shall require air trim coils capable of trimmig the field +- . |
P-HSR-MAG-Q3PR.3 | The magnet shall require current taps for operation |
P-HSR-MAG-Q3PR.4 | The magnet shall require shunt(s) for operation |
P-HSR-MAG-Q3PR.5 | The magnet shall have a Quadrupole field. |
P-HSR-MAG-Q3PR.6 | The magnet field direction shall be (V=vertical,H=horizontal,Z=beam direction ) |
P-HSR-MAG-Q3PR.7 | The magnet field rotation shall be (No=norm, Sk=skew) |
P-HSR-MAG-Q3PR.8 | The minimal magnet inscribe radius shall be 34.5 m. |
P-HSR-MAG-Q3PR.9 | < blank > |
P-HSR-MAG-Q3PR.10 | The magnet good field aperture drx required shall be 121.011 m. |
P-HSR-MAG-Q3PR.11 | The magnet good field aperture dry required shall be 14.933 m. |
P-HSR-MAG-Q3PR.12 | The physical magnet length shall be <1.5 m. |
P-HSR-MAG-Q3PR.13 | The effective magnet length shall be 1.5 m. |
P-HSR-MAG-Q3PR.14 | The magnet slot length shall be Within the Tech spec for the RHIC magnet Q3PR/Q4PR/Q5PR . |
P-HSR-MAG-Q3PR.15 | < blank > |
P-HSR-MAG-Q3PR.16 | < blank > |
P-HSR-MAG-Q3PR.17 | < blank > |
P-HSR-MAG-Q3PR.18 | The magnet to magnet variability shall be TBD T/s. |
P-HSR-MAG-Q3PR.19 | The magnet harmonic reference radius (Rr) and current (Ir) shall be Ir=TBD[A]\Rr=16[mm] (mm,A). |
P-HSR-MAG-Q3PR.20 | The magnet field at the reference radius and current shall be Bref=TBD (T). |
P-HSR-MAG-Q3PR.21 | The magnet bore field shall require the following multipole content: |
P-HSR-MAG-Q3PR.21.01 | Within the Tech spec for the RHIC magnet Q3PR/Q4PR/Q5PR (10^-4). |
P-HSR-MAG-Q3PR.21.02 | Within the Tech spec for the RHIC magnet Q3PR/Q4PR/Q5PR (10^-4). |
P-HSR-MAG-Q3PR.21.03 | Within the Tech spec for the RHIC magnet Q3PR/Q4PR/Q5PR (10^-4). |
P-HSR-MAG-Q3PR.21.04 | Within the Tech spec for the RHIC magnet Q3PR/Q4PR/Q5PR . |
P-HSR-MAG-Q3PR.21.05 | Within the Tech spec for the RHIC magnet Q3PR/Q4PR/Q5PR (10^-4). |
P-HSR-MAG-Q3PR.21.06 | Within the Tech spec for the RHIC magnet Q3PR/Q4PR/Q5PR (10^-4). |
P-HSR-MAG-Q3PR.21.07 | Within the Tech spec for the RHIC magnet Q3PR/Q4PR/Q5PR (10^-4). |
P-HSR-MAG-Q3PR.21.08 | Within the Tech spec for the RHIC magnet Q3PR/Q4PR/Q5PR (10^-4). |
P-HSR-MAG-Q3PR.21.09 | Within the Tech spec for the RHIC magnet Q3PR/Q4PR/Q5PR (10^-4). |
P-HSR-MAG-Q3PR.21.11 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q3PR.21.12 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q3PR.21.13 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q3PR.21.14 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q3PR.21.15 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q3PR.21.16 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q3PR.22 | The magnet shall not be designed to limit Crosstalk requirements. |
P-HSR-MAG-Q3PR.23 | < blank > |
P-HSR-MAG-Q3PR.24 | < blank > |
P-HSR-MAG-Q3PR.25 | < blank > |
P-HSR-MAG-Q3PR.26 | < blank > |
P-HSR-MAG-Q3PR.26.01 | < blank > |
P-HSR-MAG-Q3PR.26.02 | < blank > |
P-HSR-MAG-Q3PR.26.03 | < blank > |
P-HSR-MAG-Q3PR.26.04 | < blank > |
P-HSR-MAG-Q3PR.26.05 | < blank > |
P-HSR-MAG-Q3PR.26.06 | < blank > |
P-HSR-MAG-Q3PR.26.07 | < blank > |
P-HSR-MAG-Q3PR.26.08 | < blank > |
P-HSR-MAG-Q3PR.26.09 | < blank > |
P-HSR-MAG-Q3PR.26.11 | < blank > |
P-HSR-MAG-Q3PR.26.12 | < blank > |
P-HSR-MAG-Q3PR.26.13 | < blank > |
P-HSR-MAG-Q3PR.26.14 | < blank > |
P-HSR-MAG-Q3PR.26.15 | < blank > |
P-HSR-MAG-Q3PR.26.16 | < blank > |
P-HSR-MAG-Q3PR.27 | The magnet shall not be designed to constain the external fringe field. |
P-HSR-MAG-Q3PR.28 | <blank> |
P-HSR-MAG-Q4.1 | The RHIC magnet shall operate for EIC functions. |
P-HSR-MAG-Q4.2 | The magnet shall require air trim coils capable of trimmig the field +- . |
P-HSR-MAG-Q4.3 | The magnet shall require current taps for operation |
P-HSR-MAG-Q4.4 | The magnet shall require shunt(s) for operation |
P-HSR-MAG-Q4.5 | The magnet shall have a Quadrupole field. |
P-HSR-MAG-Q4.6 | The magnet field direction shall be (V=vertical,H=horizontal,Z=beam direction ) |
P-HSR-MAG-Q4.7 | The magnet field rotation shall be (No=norm, Sk=skew) |
P-HSR-MAG-Q4.8 | The minimal magnet inscribe radius shall be 34.5 m. |
P-HSR-MAG-Q4.9 | < blank > |
P-HSR-MAG-Q4.10 | The magnet good field aperture drx required shall be 33.846 m. |
P-HSR-MAG-Q4.11 | The magnet good field aperture dry required shall be 2.672 m. |
P-HSR-MAG-Q4.12 | The physical magnet length shall be <1.812 m. |
P-HSR-MAG-Q4.13 | The effective magnet length shall be 1.812 m. |
P-HSR-MAG-Q4.14 | The magnet slot length shall be Within the Tech spec for the RHIC magnet Q4 . |
P-HSR-MAG-Q4.15 | < blank > |
P-HSR-MAG-Q4.16 | < blank > |
P-HSR-MAG-Q4.17 | < blank > |
P-HSR-MAG-Q4.18 | The magnet to magnet variability shall be TBD T/s. |
P-HSR-MAG-Q4.19 | The magnet harmonic reference radius (Rr) and current (Ir) shall be Ir=TBD[A]\Rr=16[mm] (mm,A). |
P-HSR-MAG-Q4.20 | The magnet field at the reference radius and current shall be Bref=TBD (T). |
P-HSR-MAG-Q4.21 | The magnet bore field shall require the following multipole content: |
P-HSR-MAG-Q4.21.01 | Within the Tech spec for the RHIC magnet Q4 (10^-4). |
P-HSR-MAG-Q4.21.02 | Within the Tech spec for the RHIC magnet Q4 (10^-4). |
P-HSR-MAG-Q4.21.03 | Within the Tech spec for the RHIC magnet Q4 (10^-4). |
P-HSR-MAG-Q4.21.04 | Within the Tech spec for the RHIC magnet Q4 . |
P-HSR-MAG-Q4.21.05 | Within the Tech spec for the RHIC magnet Q4 (10^-4). |
P-HSR-MAG-Q4.21.06 | Within the Tech spec for the RHIC magnet Q4 (10^-4). |
P-HSR-MAG-Q4.21.07 | Within the Tech spec for the RHIC magnet Q4 (10^-4). |
P-HSR-MAG-Q4.21.08 | Within the Tech spec for the RHIC magnet Q4 (10^-4). |
P-HSR-MAG-Q4.21.09 | Within the Tech spec for the RHIC magnet Q4 (10^-4). |
P-HSR-MAG-Q4.21.11 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q4.21.12 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q4.21.13 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q4.21.14 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q4.21.15 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q4.21.16 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q4.22 | The magnet shall not be designed to limit Crosstalk requirements. |
P-HSR-MAG-Q4.23 | < blank > |
P-HSR-MAG-Q4.24 | < blank > |
P-HSR-MAG-Q4.25 | < blank > |
P-HSR-MAG-Q4.26 | < blank > |
P-HSR-MAG-Q4.26.01 | < blank > |
P-HSR-MAG-Q4.26.02 | < blank > |
P-HSR-MAG-Q4.26.03 | < blank > |
P-HSR-MAG-Q4.26.04 | < blank > |
P-HSR-MAG-Q4.26.05 | < blank > |
P-HSR-MAG-Q4.26.06 | < blank > |
P-HSR-MAG-Q4.26.07 | < blank > |
P-HSR-MAG-Q4.26.08 | < blank > |
P-HSR-MAG-Q4.26.09 | < blank > |
P-HSR-MAG-Q4.26.11 | < blank > |
P-HSR-MAG-Q4.26.12 | < blank > |
P-HSR-MAG-Q4.26.13 | < blank > |
P-HSR-MAG-Q4.26.14 | < blank > |
P-HSR-MAG-Q4.26.15 | < blank > |
P-HSR-MAG-Q4.26.16 | < blank > |
P-HSR-MAG-Q4.27 | The magnet shall not be designed to constain the external fringe field. |
P-HSR-MAG-Q4.28 | <blank> |
P-HSR-MAG-Q4PR.1 | The RHIC magnet shall operate for EIC functions. |
P-HSR-MAG-Q4PR.2 | The magnet shall require air trim coils capable of trimmig the field +- . |
P-HSR-MAG-Q4PR.3 | The magnet shall require current taps for operation |
P-HSR-MAG-Q4PR.4 | The magnet shall require shunt(s) for operation |
P-HSR-MAG-Q4PR.5 | The magnet shall have a Quadrupole field. |
P-HSR-MAG-Q4PR.6 | The magnet field direction shall be (V=vertical,H=horizontal,Z=beam direction ) |
P-HSR-MAG-Q4PR.7 | The magnet field rotation shall be (No=norm, Sk=skew) |
P-HSR-MAG-Q4PR.8 | The minimal magnet inscribe radius shall be 34.5 m. |
P-HSR-MAG-Q4PR.9 | < blank > |
P-HSR-MAG-Q4PR.10 | The magnet good field aperture drx required shall be 121.011 m. |
P-HSR-MAG-Q4PR.11 | The magnet good field aperture dry required shall be 14.933 m. |
P-HSR-MAG-Q4PR.12 | The physical magnet length shall be <1.5 m. |
P-HSR-MAG-Q4PR.13 | The effective magnet length shall be 1.5 m. |
P-HSR-MAG-Q4PR.14 | The magnet slot length shall be Within the Tech spec for the RHIC magnet Q3PR/Q4PR/Q5PR . |
P-HSR-MAG-Q4PR.15 | < blank > |
P-HSR-MAG-Q4PR.16 | < blank > |
P-HSR-MAG-Q4PR.17 | < blank > |
P-HSR-MAG-Q4PR.18 | The magnet to magnet variability shall be TBD T/s. |
P-HSR-MAG-Q4PR.19 | The magnet harmonic reference radius (Rr) and current (Ir) shall be Ir=TBD[A]\Rr=16[mm] (mm,A). |
P-HSR-MAG-Q4PR.20 | The magnet field at the reference radius and current shall be Bref=TBD (T). |
P-HSR-MAG-Q4PR.21 | The magnet bore field shall require the following multipole content: |
P-HSR-MAG-Q4PR.21.01 | Within the Tech spec for the RHIC magnet Q3PR/Q4PR/Q5PR (10^-4). |
P-HSR-MAG-Q4PR.21.02 | Within the Tech spec for the RHIC magnet Q3PR/Q4PR/Q5PR (10^-4). |
P-HSR-MAG-Q4PR.21.03 | Within the Tech spec for the RHIC magnet Q3PR/Q4PR/Q5PR (10^-4). |
P-HSR-MAG-Q4PR.21.04 | Within the Tech spec for the RHIC magnet Q3PR/Q4PR/Q5PR . |
P-HSR-MAG-Q4PR.21.05 | Within the Tech spec for the RHIC magnet Q3PR/Q4PR/Q5PR (10^-4). |
P-HSR-MAG-Q4PR.21.06 | Within the Tech spec for the RHIC magnet Q3PR/Q4PR/Q5PR (10^-4). |
P-HSR-MAG-Q4PR.21.07 | Within the Tech spec for the RHIC magnet Q3PR/Q4PR/Q5PR (10^-4). |
P-HSR-MAG-Q4PR.21.08 | Within the Tech spec for the RHIC magnet Q3PR/Q4PR/Q5PR (10^-4). |
P-HSR-MAG-Q4PR.21.09 | Within the Tech spec for the RHIC magnet Q3PR/Q4PR/Q5PR (10^-4). |
P-HSR-MAG-Q4PR.21.11 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q4PR.21.12 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q4PR.21.13 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q4PR.21.14 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q4PR.21.15 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q4PR.21.16 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q4PR.22 | The magnet shall not be designed to limit Crosstalk requirements. |
P-HSR-MAG-Q4PR.23 | < blank > |
P-HSR-MAG-Q4PR.24 | < blank > |
P-HSR-MAG-Q4PR.25 | < blank > |
P-HSR-MAG-Q4PR.26 | < blank > |
P-HSR-MAG-Q4PR.26.01 | < blank > |
P-HSR-MAG-Q4PR.26.02 | < blank > |
P-HSR-MAG-Q4PR.26.03 | < blank > |
P-HSR-MAG-Q4PR.26.04 | < blank > |
P-HSR-MAG-Q4PR.26.05 | < blank > |
P-HSR-MAG-Q4PR.26.06 | < blank > |
P-HSR-MAG-Q4PR.26.07 | < blank > |
P-HSR-MAG-Q4PR.26.08 | < blank > |
P-HSR-MAG-Q4PR.26.09 | < blank > |
P-HSR-MAG-Q4PR.26.11 | < blank > |
P-HSR-MAG-Q4PR.26.12 | < blank > |
P-HSR-MAG-Q4PR.26.13 | < blank > |
P-HSR-MAG-Q4PR.26.14 | < blank > |
P-HSR-MAG-Q4PR.26.15 | < blank > |
P-HSR-MAG-Q4PR.26.16 | < blank > |
P-HSR-MAG-Q4PR.27 | The magnet shall not be designed to constain the external fringe field. |
P-HSR-MAG-Q4PR.28 | <blank> |
P-HSR-MAG-Q5.1 | The RHIC magnet shall operate for EIC functions. |
P-HSR-MAG-Q5.2 | The magnet shall require air trim coils capable of trimmig the field +- . |
P-HSR-MAG-Q5.3 | The magnet shall require current taps for operation |
P-HSR-MAG-Q5.4 | The magnet shall require shunt(s) for operation |
P-HSR-MAG-Q5.5 | The magnet shall have a Quadrupole field. |
P-HSR-MAG-Q5.6 | The magnet field direction shall be (V=vertical,H=horizontal,Z=beam direction ) |
P-HSR-MAG-Q5.7 | The magnet field rotation shall be (No=norm, Sk=skew) |
P-HSR-MAG-Q5.8 | The minimal magnet inscribe radius shall be 34.5 m. |
P-HSR-MAG-Q5.9 | < blank > |
P-HSR-MAG-Q5.10 | The magnet good field aperture drx required shall be 26.068 m. |
P-HSR-MAG-Q5.11 | The magnet good field aperture dry required shall be 30.023 m. |
P-HSR-MAG-Q5.12 | The physical magnet length shall be <1.11 m. |
P-HSR-MAG-Q5.13 | The effective magnet length shall be 1.11 m. |
P-HSR-MAG-Q5.14 | The magnet slot length shall be Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) . |
P-HSR-MAG-Q5.15 | < blank > |
P-HSR-MAG-Q5.16 | < blank > |
P-HSR-MAG-Q5.17 | < blank > |
P-HSR-MAG-Q5.18 | The magnet to magnet variability shall be TBD T/s. |
P-HSR-MAG-Q5.19 | The magnet harmonic reference radius (Rr) and current (Ir) shall be Ir=TBD[A]\Rr=16[mm] (mm,A). |
P-HSR-MAG-Q5.20 | The magnet field at the reference radius and current shall be Bref=TBD (T). |
P-HSR-MAG-Q5.21 | The magnet bore field shall require the following multipole content: |
P-HSR-MAG-Q5.21.01 | Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) (10^-4). |
P-HSR-MAG-Q5.21.02 | Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) (10^-4). |
P-HSR-MAG-Q5.21.03 | Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) (10^-4). |
P-HSR-MAG-Q5.21.04 | Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) . |
P-HSR-MAG-Q5.21.05 | Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) (10^-4). |
P-HSR-MAG-Q5.21.06 | Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) (10^-4). |
P-HSR-MAG-Q5.21.07 | Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) (10^-4). |
P-HSR-MAG-Q5.21.08 | Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) (10^-4). |
P-HSR-MAG-Q5.21.09 | Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) (10^-4). |
P-HSR-MAG-Q5.21.11 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q5.21.12 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q5.21.13 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q5.21.14 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q5.21.15 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q5.21.16 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q5.22 | The magnet shall not be designed to limit Crosstalk requirements. |
P-HSR-MAG-Q5.23 | < blank > |
P-HSR-MAG-Q5.24 | < blank > |
P-HSR-MAG-Q5.25 | < blank > |
P-HSR-MAG-Q5.26 | < blank > |
P-HSR-MAG-Q5.26.01 | < blank > |
P-HSR-MAG-Q5.26.02 | < blank > |
P-HSR-MAG-Q5.26.03 | < blank > |
P-HSR-MAG-Q5.26.04 | < blank > |
P-HSR-MAG-Q5.26.05 | < blank > |
P-HSR-MAG-Q5.26.06 | < blank > |
P-HSR-MAG-Q5.26.07 | < blank > |
P-HSR-MAG-Q5.26.08 | < blank > |
P-HSR-MAG-Q5.26.09 | < blank > |
P-HSR-MAG-Q5.26.11 | < blank > |
P-HSR-MAG-Q5.26.12 | < blank > |
P-HSR-MAG-Q5.26.13 | < blank > |
P-HSR-MAG-Q5.26.14 | < blank > |
P-HSR-MAG-Q5.26.15 | < blank > |
P-HSR-MAG-Q5.26.16 | < blank > |
P-HSR-MAG-Q5.27 | The magnet shall not be designed to constain the external fringe field. |
P-HSR-MAG-Q5.28 | <blank> |
P-HSR-MAG-Q5PR.1 | The RHIC magnet shall operate for EIC functions. |
P-HSR-MAG-Q5PR.2 | The magnet shall require air trim coils capable of trimmig the field +- . |
P-HSR-MAG-Q5PR.3 | The magnet shall require current taps for operation |
P-HSR-MAG-Q5PR.4 | The magnet shall require shunt(s) for operation |
P-HSR-MAG-Q5PR.5 | The magnet shall have a Quadrupole field. |
P-HSR-MAG-Q5PR.6 | The magnet field direction shall be (V=vertical,H=horizontal,Z=beam direction ) |
P-HSR-MAG-Q5PR.7 | The magnet field rotation shall be (No=norm, Sk=skew) |
P-HSR-MAG-Q5PR.8 | The minimal magnet inscribe radius shall be 34.5 m. |
P-HSR-MAG-Q5PR.9 | < blank > |
P-HSR-MAG-Q5PR.10 | The magnet good field aperture drx required shall be 121.011 m. |
P-HSR-MAG-Q5PR.11 | The magnet good field aperture dry required shall be 14.933 m. |
P-HSR-MAG-Q5PR.12 | The physical magnet length shall be <1.5 m. |
P-HSR-MAG-Q5PR.13 | The effective magnet length shall be 1.5 m. |
P-HSR-MAG-Q5PR.14 | The magnet slot length shall be Within the Tech spec for the RHIC magnet Q3PR/Q4PR/Q5PR . |
P-HSR-MAG-Q5PR.15 | < blank > |
P-HSR-MAG-Q5PR.16 | < blank > |
P-HSR-MAG-Q5PR.17 | < blank > |
P-HSR-MAG-Q5PR.18 | The magnet to magnet variability shall be TBD T/s. |
P-HSR-MAG-Q5PR.19 | The magnet harmonic reference radius (Rr) and current (Ir) shall be Ir=TBD[A]\Rr=16[mm] (mm,A). |
P-HSR-MAG-Q5PR.20 | The magnet field at the reference radius and current shall be Bref=TBD (T). |
P-HSR-MAG-Q5PR.21 | The magnet bore field shall require the following multipole content: |
P-HSR-MAG-Q5PR.21.01 | Within the Tech spec for the RHIC magnet Q3PR/Q4PR/Q5PR (10^-4). |
P-HSR-MAG-Q5PR.21.02 | Within the Tech spec for the RHIC magnet Q3PR/Q4PR/Q5PR (10^-4). |
P-HSR-MAG-Q5PR.21.03 | Within the Tech spec for the RHIC magnet Q3PR/Q4PR/Q5PR (10^-4). |
P-HSR-MAG-Q5PR.21.04 | Within the Tech spec for the RHIC magnet Q3PR/Q4PR/Q5PR . |
P-HSR-MAG-Q5PR.21.05 | Within the Tech spec for the RHIC magnet Q3PR/Q4PR/Q5PR (10^-4). |
P-HSR-MAG-Q5PR.21.06 | Within the Tech spec for the RHIC magnet Q3PR/Q4PR/Q5PR (10^-4). |
P-HSR-MAG-Q5PR.21.07 | Within the Tech spec for the RHIC magnet Q3PR/Q4PR/Q5PR (10^-4). |
P-HSR-MAG-Q5PR.21.08 | Within the Tech spec for the RHIC magnet Q3PR/Q4PR/Q5PR (10^-4). |
P-HSR-MAG-Q5PR.21.09 | Within the Tech spec for the RHIC magnet Q3PR/Q4PR/Q5PR (10^-4). |
P-HSR-MAG-Q5PR.21.11 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q5PR.21.12 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q5PR.21.13 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q5PR.21.14 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q5PR.21.15 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q5PR.21.16 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q5PR.22 | The magnet shall not be designed to limit Crosstalk requirements. |
P-HSR-MAG-Q5PR.23 | < blank > |
P-HSR-MAG-Q5PR.24 | < blank > |
P-HSR-MAG-Q5PR.25 | < blank > |
P-HSR-MAG-Q5PR.26 | < blank > |
P-HSR-MAG-Q5PR.26.01 | < blank > |
P-HSR-MAG-Q5PR.26.02 | < blank > |
P-HSR-MAG-Q5PR.26.03 | < blank > |
P-HSR-MAG-Q5PR.26.04 | < blank > |
P-HSR-MAG-Q5PR.26.05 | < blank > |
P-HSR-MAG-Q5PR.26.06 | < blank > |
P-HSR-MAG-Q5PR.26.07 | < blank > |
P-HSR-MAG-Q5PR.26.08 | < blank > |
P-HSR-MAG-Q5PR.26.09 | < blank > |
P-HSR-MAG-Q5PR.26.11 | < blank > |
P-HSR-MAG-Q5PR.26.12 | < blank > |
P-HSR-MAG-Q5PR.26.13 | < blank > |
P-HSR-MAG-Q5PR.26.14 | < blank > |
P-HSR-MAG-Q5PR.26.15 | < blank > |
P-HSR-MAG-Q5PR.26.16 | < blank > |
P-HSR-MAG-Q5PR.27 | The magnet shall not be designed to constain the external fringe field. |
P-HSR-MAG-Q5PR.28 | <blank> |
P-HSR-MAG-Q7.1 | The RHIC magnet shall operate for EIC functions. |
P-HSR-MAG-Q7.2 | The magnet shall require air trim coils capable of trimmig the field +- . |
P-HSR-MAG-Q7.3 | The magnet shall require current taps for operation |
P-HSR-MAG-Q7.4 | The magnet shall require shunt(s) for operation |
P-HSR-MAG-Q7.5 | The magnet shall have a Quadrupole field. |
P-HSR-MAG-Q7.6 | The magnet field direction shall be (V=vertical,H=horizontal,Z=beam direction ) |
P-HSR-MAG-Q7.7 | The magnet field rotation shall be (No=norm, Sk=skew) |
P-HSR-MAG-Q7.8 | The minimal magnet inscribe radius shall be 34.5 m. |
P-HSR-MAG-Q7.9 | < blank > |
P-HSR-MAG-Q7.10 | The magnet good field aperture drx required shall be 10.492 m. |
P-HSR-MAG-Q7.11 | The magnet good field aperture dry required shall be 11.441 m. |
P-HSR-MAG-Q7.12 | The physical magnet length shall be <0.93 m. |
P-HSR-MAG-Q7.13 | The effective magnet length shall be 0.93 m. |
P-HSR-MAG-Q7.14 | The magnet slot length shall be Within the Tech spec for the RHIC magnet Q7 . |
P-HSR-MAG-Q7.15 | < blank > |
P-HSR-MAG-Q7.16 | < blank > |
P-HSR-MAG-Q7.17 | < blank > |
P-HSR-MAG-Q7.18 | The magnet to magnet variability shall be TBD T/s. |
P-HSR-MAG-Q7.19 | The magnet harmonic reference radius (Rr) and current (Ir) shall be Ir=TBD[A]\Rr=16[mm] (mm,A). |
P-HSR-MAG-Q7.20 | The magnet field at the reference radius and current shall be Bref=TBD (T). |
P-HSR-MAG-Q7.21 | The magnet bore field shall require the following multipole content: |
P-HSR-MAG-Q7.21.01 | Within the Tech spec for the RHIC magnet Q7 (10^-4). |
P-HSR-MAG-Q7.21.02 | Within the Tech spec for the RHIC magnet Q7 (10^-4). |
P-HSR-MAG-Q7.21.03 | Within the Tech spec for the RHIC magnet Q7 (10^-4). |
P-HSR-MAG-Q7.21.04 | Within the Tech spec for the RHIC magnet Q7 . |
P-HSR-MAG-Q7.21.05 | Within the Tech spec for the RHIC magnet Q7 (10^-4). |
P-HSR-MAG-Q7.21.06 | Within the Tech spec for the RHIC magnet Q7 (10^-4). |
P-HSR-MAG-Q7.21.07 | Within the Tech spec for the RHIC magnet Q7 (10^-4). |
P-HSR-MAG-Q7.21.08 | Within the Tech spec for the RHIC magnet Q7 (10^-4). |
P-HSR-MAG-Q7.21.09 | Within the Tech spec for the RHIC magnet Q7 (10^-4). |
P-HSR-MAG-Q7.21.11 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q7.21.12 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q7.21.13 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q7.21.14 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q7.21.15 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q7.21.16 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q7.22 | The magnet shall not be designed to limit Crosstalk requirements. |
P-HSR-MAG-Q7.23 | < blank > |
P-HSR-MAG-Q7.24 | < blank > |
P-HSR-MAG-Q7.25 | < blank > |
P-HSR-MAG-Q7.26 | < blank > |
P-HSR-MAG-Q7.26.01 | < blank > |
P-HSR-MAG-Q7.26.02 | < blank > |
P-HSR-MAG-Q7.26.03 | < blank > |
P-HSR-MAG-Q7.26.04 | < blank > |
P-HSR-MAG-Q7.26.05 | < blank > |
P-HSR-MAG-Q7.26.06 | < blank > |
P-HSR-MAG-Q7.26.07 | < blank > |
P-HSR-MAG-Q7.26.08 | < blank > |
P-HSR-MAG-Q7.26.09 | < blank > |
P-HSR-MAG-Q7.26.11 | < blank > |
P-HSR-MAG-Q7.26.12 | < blank > |
P-HSR-MAG-Q7.26.13 | < blank > |
P-HSR-MAG-Q7.26.14 | < blank > |
P-HSR-MAG-Q7.26.15 | < blank > |
P-HSR-MAG-Q7.26.16 | < blank > |
P-HSR-MAG-Q7.27 | The magnet shall not be designed to constain the external fringe field. |
P-HSR-MAG-Q7.28 | <blank> |
P-HSR-MAG-Q8.1 | The RHIC magnet shall operate for EIC functions. |
P-HSR-MAG-Q8.2 | The magnet shall require air trim coils capable of trimmig the field +- . |
P-HSR-MAG-Q8.3 | The magnet shall require current taps for operation |
P-HSR-MAG-Q8.4 | The magnet shall require shunt(s) for operation |
P-HSR-MAG-Q8.5 | The magnet shall have a Quadrupole field. |
P-HSR-MAG-Q8.6 | The magnet field direction shall be (V=vertical,H=horizontal,Z=beam direction ) |
P-HSR-MAG-Q8.7 | The magnet field rotation shall be (No=norm, Sk=skew) |
P-HSR-MAG-Q8.8 | The minimal magnet inscribe radius shall be 34.5 m. |
P-HSR-MAG-Q8.9 | < blank > |
P-HSR-MAG-Q8.10 | The magnet good field aperture drx required shall be 26.068 m. |
P-HSR-MAG-Q8.11 | The magnet good field aperture dry required shall be 30.023 m. |
P-HSR-MAG-Q8.12 | The physical magnet length shall be <1.11 m. |
P-HSR-MAG-Q8.13 | The effective magnet length shall be 1.11 m. |
P-HSR-MAG-Q8.14 | The magnet slot length shall be Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) . |
P-HSR-MAG-Q8.15 | < blank > |
P-HSR-MAG-Q8.16 | < blank > |
P-HSR-MAG-Q8.17 | < blank > |
P-HSR-MAG-Q8.18 | The magnet to magnet variability shall be TBD T/s. |
P-HSR-MAG-Q8.19 | The magnet harmonic reference radius (Rr) and current (Ir) shall be Ir=TBD[A]\Rr=16[mm] (mm,A). |
P-HSR-MAG-Q8.20 | The magnet field at the reference radius and current shall be Bref=TBD (T). |
P-HSR-MAG-Q8.21 | The magnet bore field shall require the following multipole content: |
P-HSR-MAG-Q8.21.01 | Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) (10^-4). |
P-HSR-MAG-Q8.21.02 | Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) (10^-4). |
P-HSR-MAG-Q8.21.03 | Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) (10^-4). |
P-HSR-MAG-Q8.21.04 | Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) . |
P-HSR-MAG-Q8.21.05 | Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) (10^-4). |
P-HSR-MAG-Q8.21.06 | Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) (10^-4). |
P-HSR-MAG-Q8.21.07 | Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) (10^-4). |
P-HSR-MAG-Q8.21.08 | Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) (10^-4). |
P-HSR-MAG-Q8.21.09 | Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) (10^-4). |
P-HSR-MAG-Q8.21.11 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q8.21.12 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q8.21.13 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q8.21.14 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q8.21.15 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q8.21.16 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q8.22 | The magnet shall not be designed to limit Crosstalk requirements. |
P-HSR-MAG-Q8.23 | < blank > |
P-HSR-MAG-Q8.24 | < blank > |
P-HSR-MAG-Q8.25 | < blank > |
P-HSR-MAG-Q8.26 | < blank > |
P-HSR-MAG-Q8.26.01 | < blank > |
P-HSR-MAG-Q8.26.02 | < blank > |
P-HSR-MAG-Q8.26.03 | < blank > |
P-HSR-MAG-Q8.26.04 | < blank > |
P-HSR-MAG-Q8.26.05 | < blank > |
P-HSR-MAG-Q8.26.06 | < blank > |
P-HSR-MAG-Q8.26.07 | < blank > |
P-HSR-MAG-Q8.26.08 | < blank > |
P-HSR-MAG-Q8.26.09 | < blank > |
P-HSR-MAG-Q8.26.11 | < blank > |
P-HSR-MAG-Q8.26.12 | < blank > |
P-HSR-MAG-Q8.26.13 | < blank > |
P-HSR-MAG-Q8.26.14 | < blank > |
P-HSR-MAG-Q8.26.15 | < blank > |
P-HSR-MAG-Q8.26.16 | < blank > |
P-HSR-MAG-Q8.27 | The magnet shall not be designed to constain the external fringe field. |
P-HSR-MAG-Q8.28 | <blank> |
P-HSR-MAG-Q9.1 | The RHIC magnet shall operate for EIC functions. |
P-HSR-MAG-Q9.2 | The magnet shall require air trim coils capable of trimmig the field +- . |
P-HSR-MAG-Q9.3 | The magnet shall require current taps for operation |
P-HSR-MAG-Q9.4 | The magnet shall require shunt(s) for operation |
P-HSR-MAG-Q9.5 | The magnet shall have a Quadrupole field. |
P-HSR-MAG-Q9.6 | The magnet field direction shall be (V=vertical,H=horizontal,Z=beam direction ) |
P-HSR-MAG-Q9.7 | The magnet field rotation shall be (No=norm, Sk=skew) |
P-HSR-MAG-Q9.8 | The minimal magnet inscribe radius shall be 34.5 m. |
P-HSR-MAG-Q9.9 | < blank > |
P-HSR-MAG-Q9.10 | The magnet good field aperture drx required shall be 26.068 m. |
P-HSR-MAG-Q9.11 | The magnet good field aperture dry required shall be 30.023 m. |
P-HSR-MAG-Q9.12 | The physical magnet length shall be <1.11 m. |
P-HSR-MAG-Q9.13 | The effective magnet length shall be 1.11 m. |
P-HSR-MAG-Q9.14 | The magnet slot length shall be Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) . |
P-HSR-MAG-Q9.15 | < blank > |
P-HSR-MAG-Q9.16 | < blank > |
P-HSR-MAG-Q9.17 | < blank > |
P-HSR-MAG-Q9.18 | The magnet to magnet variability shall be TBD T/s. |
P-HSR-MAG-Q9.19 | The magnet harmonic reference radius (Rr) and current (Ir) shall be Ir=TBD[A]\Rr=16[mm] (mm,A). |
P-HSR-MAG-Q9.20 | The magnet field at the reference radius and current shall be Bref=TBD (T). |
P-HSR-MAG-Q9.21 | The magnet bore field shall require the following multipole content: |
P-HSR-MAG-Q9.21.01 | Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) (10^-4). |
P-HSR-MAG-Q9.21.02 | Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) (10^-4). |
P-HSR-MAG-Q9.21.03 | Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) (10^-4). |
P-HSR-MAG-Q9.21.04 | Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) . |
P-HSR-MAG-Q9.21.05 | Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) (10^-4). |
P-HSR-MAG-Q9.21.06 | Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) (10^-4). |
P-HSR-MAG-Q9.21.07 | Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) (10^-4). |
P-HSR-MAG-Q9.21.08 | Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) (10^-4). |
P-HSR-MAG-Q9.21.09 | Within the Tech spec for the RHIC magnet (Q5,Q6,Q8,Q9) (10^-4). |
P-HSR-MAG-Q9.21.11 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q9.21.12 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q9.21.13 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q9.21.14 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q9.21.15 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q9.21.16 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-Q9.22 | The magnet shall not be designed to limit Crosstalk requirements. |
P-HSR-MAG-Q9.23 | < blank > |
P-HSR-MAG-Q9.24 | < blank > |
P-HSR-MAG-Q9.25 | < blank > |
P-HSR-MAG-Q9.26 | < blank > |
P-HSR-MAG-Q9.26.01 | < blank > |
P-HSR-MAG-Q9.26.02 | < blank > |
P-HSR-MAG-Q9.26.03 | < blank > |
P-HSR-MAG-Q9.26.04 | < blank > |
P-HSR-MAG-Q9.26.05 | < blank > |
P-HSR-MAG-Q9.26.06 | < blank > |
P-HSR-MAG-Q9.26.07 | < blank > |
P-HSR-MAG-Q9.26.08 | < blank > |
P-HSR-MAG-Q9.26.09 | < blank > |
P-HSR-MAG-Q9.26.11 | < blank > |
P-HSR-MAG-Q9.26.12 | < blank > |
P-HSR-MAG-Q9.26.13 | < blank > |
P-HSR-MAG-Q9.26.14 | < blank > |
P-HSR-MAG-Q9.26.15 | < blank > |
P-HSR-MAG-Q9.26.16 | < blank > |
P-HSR-MAG-Q9.27 | The magnet shall not be designed to constain the external fringe field. |
P-HSR-MAG-Q9.28 | <blank> |
P-HSR-MAG-SLOWKICK_CORR.1 | The RHIC magnet shall operate for EIC functions. |
P-HSR-MAG-SLOWKICK_CORR.2 | The magnet shall require air trim coils capable of trimmig the field +- . |
P-HSR-MAG-SLOWKICK_CORR.3 | The magnet shall require current taps for operation |
P-HSR-MAG-SLOWKICK_CORR.4 | The magnet shall require shunt(s) for operation |
P-HSR-MAG-SLOWKICK_CORR.5 | The magnet shall have a Dipole field. |
P-HSR-MAG-SLOWKICK_CORR.6 | The magnet field shall have a vertical field direction |
P-HSR-MAG-SLOWKICK_CORR.7 | < blank > |
P-HSR-MAG-SLOWKICK_CORR.8 | < blank > |
P-HSR-MAG-SLOWKICK_CORR.9 | The minimal magnet bore gap shall be 69 m. |
P-HSR-MAG-SLOWKICK_CORR.10 | The magnet good field aperture drx required shall be 41.742 m. |
P-HSR-MAG-SLOWKICK_CORR.11 | The magnet good field aperture dry required shall be 24.507 m. |
P-HSR-MAG-SLOWKICK_CORR.12 | The physical magnet length shall be <0.9 m. |
P-HSR-MAG-SLOWKICK_CORR.13 | The effective magnet length shall be 0.9 m. |
P-HSR-MAG-SLOWKICK_CORR.14 | The magnet slot length shall be Within the Tech spec for the RHIC magnet SLOWKICK_CORR . |
P-HSR-MAG-SLOWKICK_CORR.15 | The magnet integrated dipole field B shall be 0na Within the Tech spec for the RHIC magnet SLOWKICK_CORR. |
P-HSR-MAG-SLOWKICK_CORR.16 | < blank > |
P-HSR-MAG-SLOWKICK_CORR.17 | < blank > |
P-HSR-MAG-SLOWKICK_CORR.18 | The magnet to magnet variability shall be TBD T/s. |
P-HSR-MAG-SLOWKICK_CORR.19 | The magnet harmonic reference radius (Rr) and current (Ir) shall be Ir=TBD[A]\Rr=16[mm] (mm,A). |
P-HSR-MAG-SLOWKICK_CORR.20 | The magnet field at the reference radius and current shall be Bref=TBD (T). |
P-HSR-MAG-SLOWKICK_CORR.21 | The magnet bore field shall require the following multipole content: |
P-HSR-MAG-SLOWKICK_CORR.21.01 | Within the Tech spec for the RHIC magnet SLOWKICK_CORR (10^-4). |
P-HSR-MAG-SLOWKICK_CORR.21.02 | Within the Tech spec for the RHIC magnet SLOWKICK_CORR (10^-4). |
P-HSR-MAG-SLOWKICK_CORR.21.03 | Within the Tech spec for the RHIC magnet SLOWKICK_CORR (10^-4). |
P-HSR-MAG-SLOWKICK_CORR.21.04 | Within the Tech spec for the RHIC magnet SLOWKICK_CORR . |
P-HSR-MAG-SLOWKICK_CORR.21.05 | Within the Tech spec for the RHIC magnet SLOWKICK_CORR (10^-4). |
P-HSR-MAG-SLOWKICK_CORR.21.06 | Within the Tech spec for the RHIC magnet SLOWKICK_CORR (10^-4). |
P-HSR-MAG-SLOWKICK_CORR.21.07 | Within the Tech spec for the RHIC magnet SLOWKICK_CORR (10^-4). |
P-HSR-MAG-SLOWKICK_CORR.21.08 | Within the Tech spec for the RHIC magnet SLOWKICK_CORR (10^-4). |
P-HSR-MAG-SLOWKICK_CORR.21.09 | Within the Tech spec for the RHIC magnet SLOWKICK_CORR (10^-4). |
P-HSR-MAG-SLOWKICK_CORR.21.11 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-SLOWKICK_CORR.21.12 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-SLOWKICK_CORR.21.13 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-SLOWKICK_CORR.21.14 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-SLOWKICK_CORR.21.15 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-SLOWKICK_CORR.21.16 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-SLOWKICK_CORR.22 | The magnet shall not be designed to limit Crosstalk requirements. |
P-HSR-MAG-SLOWKICK_CORR.23 | < blank > |
P-HSR-MAG-SLOWKICK_CORR.24 | < blank > |
P-HSR-MAG-SLOWKICK_CORR.25 | < blank > |
P-HSR-MAG-SLOWKICK_CORR.26 | < blank > |
P-HSR-MAG-SLOWKICK_CORR.26.01 | < blank > |
P-HSR-MAG-SLOWKICK_CORR.26.02 | < blank > |
P-HSR-MAG-SLOWKICK_CORR.26.03 | < blank > |
P-HSR-MAG-SLOWKICK_CORR.26.04 | < blank > |
P-HSR-MAG-SLOWKICK_CORR.26.05 | < blank > |
P-HSR-MAG-SLOWKICK_CORR.26.06 | < blank > |
P-HSR-MAG-SLOWKICK_CORR.26.07 | < blank > |
P-HSR-MAG-SLOWKICK_CORR.26.08 | < blank > |
P-HSR-MAG-SLOWKICK_CORR.26.09 | < blank > |
P-HSR-MAG-SLOWKICK_CORR.26.11 | < blank > |
P-HSR-MAG-SLOWKICK_CORR.26.12 | < blank > |
P-HSR-MAG-SLOWKICK_CORR.26.13 | < blank > |
P-HSR-MAG-SLOWKICK_CORR.26.14 | < blank > |
P-HSR-MAG-SLOWKICK_CORR.26.15 | < blank > |
P-HSR-MAG-SLOWKICK_CORR.26.16 | < blank > |
P-HSR-MAG-SLOWKICK_CORR.27 | The magnet shall not be designed to constain the external fringe field. |
P-HSR-MAG-SLOWKICK_CORR.28 | <blank> |
P-HSR-MAG-TQ1.1 | The RHIC magnet shall operate for EIC functions. |
P-HSR-MAG-TQ1.2 | The magnet shall require air trim coils capable of trimmig the field +- . |
P-HSR-MAG-TQ1.3 | The magnet shall require current taps for operation |
P-HSR-MAG-TQ1.4 | The magnet shall require shunt(s) for operation |
P-HSR-MAG-TQ1.5 | The magnet shall have a Quadrupole field. |
P-HSR-MAG-TQ1.6 | < blank > |
P-HSR-MAG-TQ1.7 | The magnet shall have a normal field rotation. |
P-HSR-MAG-TQ1.8 | The minimal magnet inscribe radius shall be 34.5 m. |
P-HSR-MAG-TQ1.9 | < blank > |
P-HSR-MAG-TQ1.10 | The magnet good field aperture drx required shall be 77.814 m. |
P-HSR-MAG-TQ1.11 | The magnet good field aperture dry required shall be 15.777 m. |
P-HSR-MAG-TQ1.12 | The physical magnet length shall be <0.75 m. |
P-HSR-MAG-TQ1.13 | The effective magnet length shall be 0.75 m. |
P-HSR-MAG-TQ1.14 | The magnet slot length shall be Within the Tech spec for the RHIC magnet TRIMQUAD(Q1,Q2,Q3) . |
P-HSR-MAG-TQ1.15 | < blank > |
P-HSR-MAG-TQ1.16 | < blank > |
P-HSR-MAG-TQ1.17 | < blank > |
P-HSR-MAG-TQ1.18 | The magnet to magnet variability shall be TBD T/s. |
P-HSR-MAG-TQ1.19 | The magnet harmonic reference radius (Rr) and current (Ir) shall be Ir=TBD[A]\Rr=16[mm] (mm,A). |
P-HSR-MAG-TQ1.20 | The magnet field at the reference radius and current shall be Bref=TBD (T). |
P-HSR-MAG-TQ1.21 | The magnet bore field shall require the following multipole content: |
P-HSR-MAG-TQ1.21.01 | Within the Tech spec for the RHIC magnet TRIMQUAD(Q1,Q2,Q3) (10^-4). |
P-HSR-MAG-TQ1.21.02 | Within the Tech spec for the RHIC magnet TRIMQUAD(Q1,Q2,Q3) (10^-4). |
P-HSR-MAG-TQ1.21.03 | Within the Tech spec for the RHIC magnet TRIMQUAD(Q1,Q2,Q3) (10^-4). |
P-HSR-MAG-TQ1.21.04 | Within the Tech spec for the RHIC magnet TRIMQUAD(Q1,Q2,Q3) . |
P-HSR-MAG-TQ1.21.05 | Within the Tech spec for the RHIC magnet TRIMQUAD(Q1,Q2,Q3) (10^-4). |
P-HSR-MAG-TQ1.21.06 | Within the Tech spec for the RHIC magnet TRIMQUAD(Q1,Q2,Q3) (10^-4). |
P-HSR-MAG-TQ1.21.07 | Within the Tech spec for the RHIC magnet TRIMQUAD(Q1,Q2,Q3) (10^-4). |
P-HSR-MAG-TQ1.21.08 | Within the Tech spec for the RHIC magnet TRIMQUAD(Q1,Q2,Q3) (10^-4). |
P-HSR-MAG-TQ1.21.09 | Within the Tech spec for the RHIC magnet TRIMQUAD(Q1,Q2,Q3) (10^-4). |
P-HSR-MAG-TQ1.21.11 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-TQ1.21.12 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-TQ1.21.13 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-TQ1.21.14 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-TQ1.21.15 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-TQ1.21.16 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-TQ1.22 | The magnet shall not be designed to limit Crosstalk requirements. |
P-HSR-MAG-TQ1.23 | < blank > |
P-HSR-MAG-TQ1.24 | < blank > |
P-HSR-MAG-TQ1.25 | < blank > |
P-HSR-MAG-TQ1.26 | < blank > |
P-HSR-MAG-TQ1.26.01 | < blank > |
P-HSR-MAG-TQ1.26.02 | < blank > |
P-HSR-MAG-TQ1.26.03 | < blank > |
P-HSR-MAG-TQ1.26.04 | < blank > |
P-HSR-MAG-TQ1.26.05 | < blank > |
P-HSR-MAG-TQ1.26.06 | < blank > |
P-HSR-MAG-TQ1.26.07 | < blank > |
P-HSR-MAG-TQ1.26.08 | < blank > |
P-HSR-MAG-TQ1.26.09 | < blank > |
P-HSR-MAG-TQ1.26.11 | < blank > |
P-HSR-MAG-TQ1.26.12 | < blank > |
P-HSR-MAG-TQ1.26.13 | < blank > |
P-HSR-MAG-TQ1.26.14 | < blank > |
P-HSR-MAG-TQ1.26.15 | < blank > |
P-HSR-MAG-TQ1.26.16 | < blank > |
P-HSR-MAG-TQ1.27 | The magnet shall not be designed to constain the external fringe field. |
P-HSR-MAG-TQ1.28 | <blank> |
P-HSR-MAG-TQ2.1 | The RHIC magnet shall operate for EIC functions. |
P-HSR-MAG-TQ2.2 | The magnet shall require air trim coils capable of trimmig the field +- . |
P-HSR-MAG-TQ2.3 | The magnet shall require current taps for operation |
P-HSR-MAG-TQ2.4 | The magnet shall require shunt(s) for operation |
P-HSR-MAG-TQ2.5 | The magnet shall have a Quadrupole field. |
P-HSR-MAG-TQ2.6 | < blank > |
P-HSR-MAG-TQ2.7 | The magnet shall have a normal field rotation. |
P-HSR-MAG-TQ2.8 | The minimal magnet inscribe radius shall be 34.5 m. |
P-HSR-MAG-TQ2.9 | < blank > |
P-HSR-MAG-TQ2.10 | The magnet good field aperture drx required shall be 77.814 m. |
P-HSR-MAG-TQ2.11 | The magnet good field aperture dry required shall be 15.777 m. |
P-HSR-MAG-TQ2.12 | The physical magnet length shall be <0.75 m. |
P-HSR-MAG-TQ2.13 | The effective magnet length shall be 0.75 m. |
P-HSR-MAG-TQ2.14 | The magnet slot length shall be Within the Tech spec for the RHIC magnet TRIMQUAD(Q1,Q2,Q3) . |
P-HSR-MAG-TQ2.15 | < blank > |
P-HSR-MAG-TQ2.16 | < blank > |
P-HSR-MAG-TQ2.17 | < blank > |
P-HSR-MAG-TQ2.18 | The magnet to magnet variability shall be TBD T/s. |
P-HSR-MAG-TQ2.19 | The magnet harmonic reference radius (Rr) and current (Ir) shall be Ir=TBD[A]\Rr=16[mm] (mm,A). |
P-HSR-MAG-TQ2.20 | The magnet field at the reference radius and current shall be Bref=TBD (T). |
P-HSR-MAG-TQ2.21 | The magnet bore field shall require the following multipole content: |
P-HSR-MAG-TQ2.21.01 | Within the Tech spec for the RHIC magnet TRIMQUAD(Q1,Q2,Q3) (10^-4). |
P-HSR-MAG-TQ2.21.02 | Within the Tech spec for the RHIC magnet TRIMQUAD(Q1,Q2,Q3) (10^-4). |
P-HSR-MAG-TQ2.21.03 | Within the Tech spec for the RHIC magnet TRIMQUAD(Q1,Q2,Q3) (10^-4). |
P-HSR-MAG-TQ2.21.04 | Within the Tech spec for the RHIC magnet TRIMQUAD(Q1,Q2,Q3) . |
P-HSR-MAG-TQ2.21.05 | Within the Tech spec for the RHIC magnet TRIMQUAD(Q1,Q2,Q3) (10^-4). |
P-HSR-MAG-TQ2.21.06 | Within the Tech spec for the RHIC magnet TRIMQUAD(Q1,Q2,Q3) (10^-4). |
P-HSR-MAG-TQ2.21.07 | Within the Tech spec for the RHIC magnet TRIMQUAD(Q1,Q2,Q3) (10^-4). |
P-HSR-MAG-TQ2.21.08 | Within the Tech spec for the RHIC magnet TRIMQUAD(Q1,Q2,Q3) (10^-4). |
P-HSR-MAG-TQ2.21.09 | Within the Tech spec for the RHIC magnet TRIMQUAD(Q1,Q2,Q3) (10^-4). |
P-HSR-MAG-TQ2.21.11 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-TQ2.21.12 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-TQ2.21.13 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-TQ2.21.14 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-TQ2.21.15 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-TQ2.21.16 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-TQ2.22 | The magnet shall not be designed to limit Crosstalk requirements. |
P-HSR-MAG-TQ2.23 | < blank > |
P-HSR-MAG-TQ2.24 | < blank > |
P-HSR-MAG-TQ2.25 | < blank > |
P-HSR-MAG-TQ2.26 | < blank > |
P-HSR-MAG-TQ2.26.01 | < blank > |
P-HSR-MAG-TQ2.26.02 | < blank > |
P-HSR-MAG-TQ2.26.03 | < blank > |
P-HSR-MAG-TQ2.26.04 | < blank > |
P-HSR-MAG-TQ2.26.05 | < blank > |
P-HSR-MAG-TQ2.26.06 | < blank > |
P-HSR-MAG-TQ2.26.07 | < blank > |
P-HSR-MAG-TQ2.26.08 | < blank > |
P-HSR-MAG-TQ2.26.09 | < blank > |
P-HSR-MAG-TQ2.26.11 | < blank > |
P-HSR-MAG-TQ2.26.12 | < blank > |
P-HSR-MAG-TQ2.26.13 | < blank > |
P-HSR-MAG-TQ2.26.14 | < blank > |
P-HSR-MAG-TQ2.26.15 | < blank > |
P-HSR-MAG-TQ2.26.16 | < blank > |
P-HSR-MAG-TQ2.27 | The magnet shall not be designed to constain the external fringe field. |
P-HSR-MAG-TQ2.28 | <blank> |
P-HSR-MAG-TQ3.1 | The RHIC magnet shall operate for EIC functions. |
P-HSR-MAG-TQ3.2 | The magnet shall require air trim coils capable of trimmig the field +- . |
P-HSR-MAG-TQ3.3 | The magnet shall require current taps for operation |
P-HSR-MAG-TQ3.4 | The magnet shall require shunt(s) for operation |
P-HSR-MAG-TQ3.5 | The magnet shall have a Quadrupole field. |
P-HSR-MAG-TQ3.6 | < blank > |
P-HSR-MAG-TQ3.7 | The magnet shall have a normal field rotation. |
P-HSR-MAG-TQ3.8 | The minimal magnet inscribe radius shall be 34.5 m. |
P-HSR-MAG-TQ3.9 | < blank > |
P-HSR-MAG-TQ3.10 | The magnet good field aperture drx required shall be 77.814 m. |
P-HSR-MAG-TQ3.11 | The magnet good field aperture dry required shall be 15.777 m. |
P-HSR-MAG-TQ3.12 | The physical magnet length shall be <0.75 m. |
P-HSR-MAG-TQ3.13 | The effective magnet length shall be 0.75 m. |
P-HSR-MAG-TQ3.14 | The magnet slot length shall be Within the Tech spec for the RHIC magnet TRIMQUAD(Q1,Q2,Q3) . |
P-HSR-MAG-TQ3.15 | < blank > |
P-HSR-MAG-TQ3.16 | < blank > |
P-HSR-MAG-TQ3.17 | < blank > |
P-HSR-MAG-TQ3.18 | The magnet to magnet variability shall be TBD T/s. |
P-HSR-MAG-TQ3.19 | The magnet harmonic reference radius (Rr) and current (Ir) shall be Ir=TBD[A]\Rr=16[mm] (mm,A). |
P-HSR-MAG-TQ3.20 | The magnet field at the reference radius and current shall be Bref=TBD (T). |
P-HSR-MAG-TQ3.21 | The magnet bore field shall require the following multipole content: |
P-HSR-MAG-TQ3.21.01 | Within the Tech spec for the RHIC magnet TRIMQUAD(Q1,Q2,Q3) (10^-4). |
P-HSR-MAG-TQ3.21.02 | Within the Tech spec for the RHIC magnet TRIMQUAD(Q1,Q2,Q3) (10^-4). |
P-HSR-MAG-TQ3.21.03 | Within the Tech spec for the RHIC magnet TRIMQUAD(Q1,Q2,Q3) (10^-4). |
P-HSR-MAG-TQ3.21.04 | Within the Tech spec for the RHIC magnet TRIMQUAD(Q1,Q2,Q3) . |
P-HSR-MAG-TQ3.21.05 | Within the Tech spec for the RHIC magnet TRIMQUAD(Q1,Q2,Q3) (10^-4). |
P-HSR-MAG-TQ3.21.06 | Within the Tech spec for the RHIC magnet TRIMQUAD(Q1,Q2,Q3) (10^-4). |
P-HSR-MAG-TQ3.21.07 | Within the Tech spec for the RHIC magnet TRIMQUAD(Q1,Q2,Q3) (10^-4). |
P-HSR-MAG-TQ3.21.08 | Within the Tech spec for the RHIC magnet TRIMQUAD(Q1,Q2,Q3) (10^-4). |
P-HSR-MAG-TQ3.21.09 | Within the Tech spec for the RHIC magnet TRIMQUAD(Q1,Q2,Q3) (10^-4). |
P-HSR-MAG-TQ3.21.11 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-TQ3.21.12 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-TQ3.21.13 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-TQ3.21.14 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-TQ3.21.15 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-TQ3.21.16 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-TQ3.22 | The magnet shall not be designed to limit Crosstalk requirements. |
P-HSR-MAG-TQ3.23 | < blank > |
P-HSR-MAG-TQ3.24 | < blank > |
P-HSR-MAG-TQ3.25 | < blank > |
P-HSR-MAG-TQ3.26 | < blank > |
P-HSR-MAG-TQ3.26.01 | < blank > |
P-HSR-MAG-TQ3.26.02 | < blank > |
P-HSR-MAG-TQ3.26.03 | < blank > |
P-HSR-MAG-TQ3.26.04 | < blank > |
P-HSR-MAG-TQ3.26.05 | < blank > |
P-HSR-MAG-TQ3.26.06 | < blank > |
P-HSR-MAG-TQ3.26.07 | < blank > |
P-HSR-MAG-TQ3.26.08 | < blank > |
P-HSR-MAG-TQ3.26.09 | < blank > |
P-HSR-MAG-TQ3.26.11 | < blank > |
P-HSR-MAG-TQ3.26.12 | < blank > |
P-HSR-MAG-TQ3.26.13 | < blank > |
P-HSR-MAG-TQ3.26.14 | < blank > |
P-HSR-MAG-TQ3.26.15 | < blank > |
P-HSR-MAG-TQ3.26.16 | < blank > |
P-HSR-MAG-TQ3.27 | The magnet shall not be designed to constain the external fringe field. |
P-HSR-MAG-TQ3.28 | <blank> |
P-HSR-PS-AR_CQS(Corr-H).1 | The number of Independent functions on the magnets being powered shall be RHIC |
P-HSR-PS-AR_CQS(Corr-H).2 | The maximum magnet string resistance to be powered shall be TBD ohm |
P-HSR-PS-AR_CQS(Corr-H).3 | The maximum magnet string inductance to be powered shall be RHIC H |
P-HSR-PS-AR_CQS(Corr-H).4 | The magnets being powered shall be saturated RHIC Y/N |
P-HSR-PS-AR_CQS(Corr-H).5 | < blank > |
P-HSR-PS-AR_CQS(Corr-H).6 | The voltage to ground of the magnet being powered shall be RHIC V |
P-HSR-PS-AR_CQS(Corr-H).7 | The nominal current of the magnets being powered shall be RHIC A |
P-HSR-PS-AR_CQS(Corr-H).8 | The minimum current the PS must operate at shall be TBD A |
P-HSR-PS-AR_CQS(Corr-H).9 | The maximum current the PS must operate at shall be RHIC A |
P-HSR-PS-AR_CQS(Corr-H).10 | The PS current type shall be DC (DC or AC) |
P-HSR-PS-AR_CQS(Corr-H).11 | The PS AC waveshape required shall be RHIC |
P-HSR-PS-AR_CQS(Corr-H).12 | The peak waveshape di/dt during ramping shall be TBD |
P-HSR-PS-AR_CQS(Corr-H).13 | The full power bandwidth required shall be TBD |
P-HSR-PS-AR_CQS(Corr-H).14 | The ppm of full scale current (peak to peak) shall be TBD % |
P-HSR-PS-AR_CQS(Corr-H).15 | The time period for specified stability shall be TBD s |
P-HSR-PS-AR_CQS(Corr-H).16 | The short term stability shall be TBD A/s |
P-HSR-PS-AR_CQS(Corr-H).17 | The long term stability shall be TBD A/s |
P-HSR-PS-AR_CQS(Corr-H).18 | The current setpoint resolution (min size in bits) shall be TBD bits |
P-HSR-PS-AR_CQS(Corr-H).19 | The synchronization required between PS's shall be TBD s |
P-HSR-PS-AR_CQS(Corr-H).20 | The synchronization timing of synchronization shall be TBD s |
P-HSR-PS-AR_CQS(Corr-H).21 | The max allowable current ripple (peak to peak) TBD A |
P-HSR-PS-AR_CQS(Corr-H).22 | The max current ripple frequency range (Hz) TBD Hz |
P-HSR-PS-AR_CQS(Corr-H).23 | WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz |
P-HSR-PS-AR_CQS(Corr-H).24 | The max voltage ripple (peak to peak) shall be TBD V |
P-HSR-PS-AR_CQS(Corr-H).25 | An NMR shall be required to measure the field TBD A/s |
P-HSR-PS-AR_CQS(Corr-H).26 | < blank > |
P-HSR-PS-AR_CQS(Corr-H).27 | < blank > |
P-HSR-PS-AR_CQS(Corr-H).28 | < blank > |
P-HSR-PS-AR_CQS(Corr-H).29 | < blank > |
P-HSR-PS-AR_CQS(Corr-H).30 | < blank > |
P-HSR-PS-AR_CQS(Corr-H).31 | < blank > |
P-HSR-PS-AR_CQS(Corr-H).32 | < blank > |
P-HSR-PS-AR_CQS(Corr-H).33 | The current required to be shunted through the magnet shall be TBD |
P-HSR-PS-AR_CQS(Corr-H).34 | The magnet turns ratio shall be TBD |
P-HSR-PS-AR_CQS(Corr-H).35 | The terminal voltage shall be TBD V |
P-HSR-PS-AR_CQS(Corr-H).36 | The design shall have thermal switches TBD |
P-HSR-PS-AR_CQS(Corr-H).37 | The thermal switch connection numbers shall be TBD |
P-HSR-PS-AR_CQS(Corr-H).38 | The design shall have water flow switches TBD |
P-HSR-PS-AR_CQS(Corr-H).39 | The water flow switch connections numbers shall be TBD |
P-HSR-PS-AR_CQS(Corr-H).40 | The design shall have access controls interlocks TBD |
P-HSR-PS-AR_CQS(Corr-H).41 | The main terminals lug details shall be TBD |
P-HSR-PS-AR_CQS(Corr-H).42 | The lead end indications shall be TBD |
P-HSR-PS-AR_CQS(Corr-H).43 | The lugs details for thermal switch and water switches shall be TBD |
P-HSR-PS-AR_CQS(Corr-H).44 | The lug details for the auxiliary windings shall be TBD |
P-HSR-PS-AR_CQS(Corr-H).45 | The A/B terminal labeling details shall be TBD Draw id |
P-HSR-PS-AR_CQS(Corr-H).46 | The magnet drawing with terminations details shall be TBD |
P-HSR-PS-AR_CQS(Corr-H).47 | The magnet polarity connections shall be TBD |
P-HSR-PS-AR_CQS(Corr-HV).1 | The number of Independent functions on the magnets being powered shall be - |
P-HSR-PS-AR_CQS(Corr-HV).2 | The maximum magnet string resistance to be powered shall be RHIC ohm |
P-HSR-PS-AR_CQS(Corr-HV).3 | The maximum magnet string inductance to be powered shall be RHIC H |
P-HSR-PS-AR_CQS(Corr-HV).4 | The magnets being powered shall be saturated RHIC Y/N |
P-HSR-PS-AR_CQS(Corr-HV).5 | < blank > |
P-HSR-PS-AR_CQS(Corr-HV).6 | The voltage to ground of the magnet being powered shall be RHIC V |
P-HSR-PS-AR_CQS(Corr-HV).7 | The nominal current of the magnets being powered shall be RHIC A |
P-HSR-PS-AR_CQS(Corr-HV).8 | The minimum current the PS must operate at shall be RHIC A |
P-HSR-PS-AR_CQS(Corr-HV).9 | The maximum current the PS must operate at shall be RHIC A |
P-HSR-PS-AR_CQS(Corr-HV).10 | The PS current type shall be DC (DC or AC) |
P-HSR-PS-AR_CQS(Corr-HV).11 | < blank > |
P-HSR-PS-AR_CQS(Corr-HV).12 | The peak waveshape di/dt during ramping shall be RHIC |
P-HSR-PS-AR_CQS(Corr-HV).13 | The full power bandwidth required shall be RHIC |
P-HSR-PS-AR_CQS(Corr-HV).14 | The ppm of full scale current (peak to peak) shall be TBD % |
P-HSR-PS-AR_CQS(Corr-HV).15 | The time period for specified stability shall be TBD s |
P-HSR-PS-AR_CQS(Corr-HV).16 | The short term stability shall be TBD A/s |
P-HSR-PS-AR_CQS(Corr-HV).17 | The long term stability shall be TBD A/s |
P-HSR-PS-AR_CQS(Corr-HV).18 | The current setpoint resolution (min size in bits) shall be TBD bits |
P-HSR-PS-AR_CQS(Corr-HV).19 | The synchronization required between PS's shall be TBD s |
P-HSR-PS-AR_CQS(Corr-HV).20 | The synchronization timing of synchronization shall be TBD s |
P-HSR-PS-AR_CQS(Corr-HV).21 | The max allowable current ripple (peak to peak) TBD A |
P-HSR-PS-AR_CQS(Corr-HV).22 | The max current ripple frequency range (Hz) TBD Hz |
P-HSR-PS-AR_CQS(Corr-HV).23 | WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz |
P-HSR-PS-AR_CQS(Corr-HV).24 | The max voltage ripple (peak to peak) shall be TBD V |
P-HSR-PS-AR_CQS(Corr-HV).25 | An NMR shall be required to measure the field TBD A/s |
P-HSR-PS-AR_CQS(Corr-HV).26 | < blank > |
P-HSR-PS-AR_CQS(Corr-HV).27 | < blank > |
P-HSR-PS-AR_CQS(Corr-HV).28 | < blank > |
P-HSR-PS-AR_CQS(Corr-HV).29 | < blank > |
P-HSR-PS-AR_CQS(Corr-HV).30 | < blank > |
P-HSR-PS-AR_CQS(Corr-HV).31 | < blank > |
P-HSR-PS-AR_CQS(Corr-HV).32 | < blank > |
P-HSR-PS-AR_CQS(Corr-HV).33 | The current required to be shunted through the magnet shall be TBD |
P-HSR-PS-AR_CQS(Corr-HV).34 | The magnet turns ratio shall be TBD |
P-HSR-PS-AR_CQS(Corr-HV).35 | The terminal voltage shall be TBD V |
P-HSR-PS-AR_CQS(Corr-HV).36 | The design shall have thermal switches TBD |
P-HSR-PS-AR_CQS(Corr-HV).37 | The thermal switch connection numbers shall be TBD |
P-HSR-PS-AR_CQS(Corr-HV).38 | The design shall have water flow switches TBD |
P-HSR-PS-AR_CQS(Corr-HV).39 | The water flow switch connections numbers shall be TBD |
P-HSR-PS-AR_CQS(Corr-HV).40 | The design shall have access controls interlocks TBD |
P-HSR-PS-AR_CQS(Corr-HV).41 | The main terminals lug details shall be TBD |
P-HSR-PS-AR_CQS(Corr-HV).42 | The lead end indications shall be TBD |
P-HSR-PS-AR_CQS(Corr-HV).43 | The lugs details for thermal switch and water switches shall be TBD |
P-HSR-PS-AR_CQS(Corr-HV).44 | The lug details for the auxiliary windings shall be TBD |
P-HSR-PS-AR_CQS(Corr-HV).45 | The A/B terminal labeling details shall be TBD Draw id |
P-HSR-PS-AR_CQS(Corr-HV).46 | The magnet drawing with terminations details shall be TBD |
P-HSR-PS-AR_CQS(Corr-HV).47 | The magnet polarity connections shall be TBD |
P-HSR-PS-AR_CQS(Corr-V).1 | The number of Independent functions on the magnets being powered shall be - |
P-HSR-PS-AR_CQS(Corr-V).2 | The maximum magnet string resistance to be powered shall be RHIC ohm |
P-HSR-PS-AR_CQS(Corr-V).3 | The maximum magnet string inductance to be powered shall be RHIC H |
P-HSR-PS-AR_CQS(Corr-V).4 | The magnets being powered shall be saturated RHIC Y/N |
P-HSR-PS-AR_CQS(Corr-V).5 | < blank > |
P-HSR-PS-AR_CQS(Corr-V).6 | The voltage to ground of the magnet being powered shall be RHIC V |
P-HSR-PS-AR_CQS(Corr-V).7 | The nominal current of the magnets being powered shall be RHIC A |
P-HSR-PS-AR_CQS(Corr-V).8 | The minimum current the PS must operate at shall be RHIC A |
P-HSR-PS-AR_CQS(Corr-V).9 | The maximum current the PS must operate at shall be RHIC A |
P-HSR-PS-AR_CQS(Corr-V).10 | The PS current type shall be DC (DC or AC) |
P-HSR-PS-AR_CQS(Corr-V).11 | < blank > |
P-HSR-PS-AR_CQS(Corr-V).12 | The peak waveshape di/dt during ramping shall be RHIC |
P-HSR-PS-AR_CQS(Corr-V).13 | The full power bandwidth required shall be RHIC |
P-HSR-PS-AR_CQS(Corr-V).14 | The ppm of full scale current (peak to peak) shall be TBD % |
P-HSR-PS-AR_CQS(Corr-V).15 | The time period for specified stability shall be TBD s |
P-HSR-PS-AR_CQS(Corr-V).16 | The short term stability shall be TBD A/s |
P-HSR-PS-AR_CQS(Corr-V).17 | The long term stability shall be TBD A/s |
P-HSR-PS-AR_CQS(Corr-V).18 | The current setpoint resolution (min size in bits) shall be TBD bits |
P-HSR-PS-AR_CQS(Corr-V).19 | The synchronization required between PS's shall be TBD s |
P-HSR-PS-AR_CQS(Corr-V).20 | The synchronization timing of synchronization shall be TBD s |
P-HSR-PS-AR_CQS(Corr-V).21 | The max allowable current ripple (peak to peak) TBD A |
P-HSR-PS-AR_CQS(Corr-V).22 | The max current ripple frequency range (Hz) TBD Hz |
P-HSR-PS-AR_CQS(Corr-V).23 | WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz |
P-HSR-PS-AR_CQS(Corr-V).24 | The max voltage ripple (peak to peak) shall be TBD V |
P-HSR-PS-AR_CQS(Corr-V).25 | An NMR shall be required to measure the field TBD A/s |
P-HSR-PS-AR_CQS(Corr-V).26 | < blank > |
P-HSR-PS-AR_CQS(Corr-V).27 | < blank > |
P-HSR-PS-AR_CQS(Corr-V).28 | < blank > |
P-HSR-PS-AR_CQS(Corr-V).29 | < blank > |
P-HSR-PS-AR_CQS(Corr-V).30 | < blank > |
P-HSR-PS-AR_CQS(Corr-V).31 | < blank > |
P-HSR-PS-AR_CQS(Corr-V).32 | < blank > |
P-HSR-PS-AR_CQS(Corr-V).33 | < blank > |
P-HSR-PS-AR_CQS(Corr-V).34 | < blank > |
P-HSR-PS-AR_CQS(Corr-V).35 | < blank > |
P-HSR-PS-AR_CQS(Corr-V).36 | < blank > |
P-HSR-PS-AR_CQS(Corr-V).37 | < blank > |
P-HSR-PS-AR_CQS(Corr-V).38 | < blank > |
P-HSR-PS-AR_CQS(Corr-V).39 | < blank > |
P-HSR-PS-AR_CQS(Corr-V).40 | < blank > |
P-HSR-PS-AR_CQS(Corr-V).41 | < blank > |
P-HSR-PS-AR_CQS(Corr-V).42 | < blank > |
P-HSR-PS-AR_CQS(Corr-V).43 | < blank > |
P-HSR-PS-AR_CQS(Corr-V).44 | < blank > |
P-HSR-PS-AR_CQS(Corr-V).45 | < blank > |
P-HSR-PS-AR_CQS(Corr-V).46 | < blank > |
P-HSR-PS-AR_CQS(Corr-V).47 | < blank > |
P-HSR-PS-AR_CQS(Quad).1 | The number of Independent functions on the magnets being powered shall be - |
P-HSR-PS-AR_CQS(Quad).2 | The maximum magnet string resistance to be powered shall be RHIC ohm |
P-HSR-PS-AR_CQS(Quad).3 | The maximum magnet string inductance to be powered shall be RHIC H |
P-HSR-PS-AR_CQS(Quad).4 | The magnets being powered shall be saturated RHIC Y/N |
P-HSR-PS-AR_CQS(Quad).5 | < blank > |
P-HSR-PS-AR_CQS(Quad).6 | The voltage to ground of the magnet being powered shall be RHIC V |
P-HSR-PS-AR_CQS(Quad).7 | The nominal current of the magnets being powered shall be RHIC A |
P-HSR-PS-AR_CQS(Quad).8 | The minimum current the PS must operate at shall be RHIC A |
P-HSR-PS-AR_CQS(Quad).9 | The maximum current the PS must operate at shall be RHIC A |
P-HSR-PS-AR_CQS(Quad).10 | The PS current type shall be DC (DC or AC) |
P-HSR-PS-AR_CQS(Quad).11 | < blank > |
P-HSR-PS-AR_CQS(Quad).12 | The peak waveshape di/dt during ramping shall be RHIC |
P-HSR-PS-AR_CQS(Quad).13 | The full power bandwidth required shall be RHIC |
P-HSR-PS-AR_CQS(Quad).14 | The ppm of full scale current (peak to peak) shall be TBD % |
P-HSR-PS-AR_CQS(Quad).15 | The time period for specified stability shall be TBD s |
P-HSR-PS-AR_CQS(Quad).16 | The short term stability shall be TBD A/s |
P-HSR-PS-AR_CQS(Quad).17 | The long term stability shall be TBD A/s |
P-HSR-PS-AR_CQS(Quad).18 | The current setpoint resolution (min size in bits) shall be TBD bits |
P-HSR-PS-AR_CQS(Quad).19 | The synchronization required between PS's shall be TBD s |
P-HSR-PS-AR_CQS(Quad).20 | The synchronization timing of synchronization shall be TBD s |
P-HSR-PS-AR_CQS(Quad).21 | The max allowable current ripple (peak to peak) TBD A |
P-HSR-PS-AR_CQS(Quad).22 | The max current ripple frequency range (Hz) TBD Hz |
P-HSR-PS-AR_CQS(Quad).23 | WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz |
P-HSR-PS-AR_CQS(Quad).24 | The max voltage ripple (peak to peak) shall be TBD V |
P-HSR-PS-AR_CQS(Quad).25 | An NMR shall be required to measure the field TBD A/s |
P-HSR-PS-AR_CQS(Quad).26 | < blank > |
P-HSR-PS-AR_CQS(Quad).27 | < blank > |
P-HSR-PS-AR_CQS(Quad).28 | < blank > |
P-HSR-PS-AR_CQS(Quad).29 | < blank > |
P-HSR-PS-AR_CQS(Quad).30 | < blank > |
P-HSR-PS-AR_CQS(Quad).31 | < blank > |
P-HSR-PS-AR_CQS(Quad).32 | < blank > |
P-HSR-PS-AR_CQS(Quad).33 | The current required to be shunted through the magnet shall be TBD |
P-HSR-PS-AR_CQS(Quad).34 | The magnet turns ratio shall be TBD |
P-HSR-PS-AR_CQS(Quad).35 | The terminal voltage shall be TBD V |
P-HSR-PS-AR_CQS(Quad).36 | The design shall have thermal switches TBD |
P-HSR-PS-AR_CQS(Quad).37 | The thermal switch connection numbers shall be TBD |
P-HSR-PS-AR_CQS(Quad).38 | The design shall have water flow switches TBD |
P-HSR-PS-AR_CQS(Quad).39 | The water flow switch connections numbers shall be TBD |
P-HSR-PS-AR_CQS(Quad).40 | The design shall have access controls interlocks TBD |
P-HSR-PS-AR_CQS(Quad).41 | The main terminals lug details shall be TBD |
P-HSR-PS-AR_CQS(Quad).42 | The lead end indications shall be TBD |
P-HSR-PS-AR_CQS(Quad).43 | The lugs details for thermal switch and water switches shall be TBD |
P-HSR-PS-AR_CQS(Quad).44 | The lug details for the auxiliary windings shall be TBD |
P-HSR-PS-AR_CQS(Quad).45 | The A/B terminal labeling details shall be TBD Draw id |
P-HSR-PS-AR_CQS(Quad).46 | The magnet drawing with terminations details shall be TBD |
P-HSR-PS-AR_CQS(Quad).47 | The magnet polarity connections shall be TBD |
P-HSR-PS-AR_CQS(Sxt).1 | The number of Independent functions on the magnets being powered shall be - |
P-HSR-PS-AR_CQS(Sxt).2 | The maximum magnet string resistance to be powered shall be RHIC ohm |
P-HSR-PS-AR_CQS(Sxt).3 | The maximum magnet string inductance to be powered shall be RHIC H |
P-HSR-PS-AR_CQS(Sxt).4 | The magnets being powered shall be saturated RHIC Y/N |
P-HSR-PS-AR_CQS(Sxt).5 | < blank > |
P-HSR-PS-AR_CQS(Sxt).6 | The voltage to ground of the magnet being powered shall be RHIC V |
P-HSR-PS-AR_CQS(Sxt).7 | The nominal current of the magnets being powered shall be RHIC A |
P-HSR-PS-AR_CQS(Sxt).8 | The minimum current the PS must operate at shall be RHIC A |
P-HSR-PS-AR_CQS(Sxt).9 | The maximum current the PS must operate at shall be RHIC A |
P-HSR-PS-AR_CQS(Sxt).10 | The PS current type shall be DC (DC or AC) |
P-HSR-PS-AR_CQS(Sxt).11 | < blank > |
P-HSR-PS-AR_CQS(Sxt).12 | The peak waveshape di/dt during ramping shall be RHIC |
P-HSR-PS-AR_CQS(Sxt).13 | The full power bandwidth required shall be RHIC |
P-HSR-PS-AR_CQS(Sxt).14 | The ppm of full scale current (peak to peak) shall be TBD % |
P-HSR-PS-AR_CQS(Sxt).15 | The time period for specified stability shall be TBD s |
P-HSR-PS-AR_CQS(Sxt).16 | The short term stability shall be TBD A/s |
P-HSR-PS-AR_CQS(Sxt).17 | The long term stability shall be TBD A/s |
P-HSR-PS-AR_CQS(Sxt).18 | The current setpoint resolution (min size in bits) shall be TBD bits |
P-HSR-PS-AR_CQS(Sxt).19 | The synchronization required between PS's shall be TBD s |
P-HSR-PS-AR_CQS(Sxt).20 | The synchronization timing of synchronization shall be TBD s |
P-HSR-PS-AR_CQS(Sxt).21 | The max allowable current ripple (peak to peak) TBD A |
P-HSR-PS-AR_CQS(Sxt).22 | The max current ripple frequency range (Hz) TBD Hz |
P-HSR-PS-AR_CQS(Sxt).23 | WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz |
P-HSR-PS-AR_CQS(Sxt).24 | The max voltage ripple (peak to peak) shall be TBD V |
P-HSR-PS-AR_CQS(Sxt).25 | An NMR shall be required to measure the field TBD A/s |
P-HSR-PS-AR_CQS(Sxt).26 | < blank > |
P-HSR-PS-AR_CQS(Sxt).27 | < blank > |
P-HSR-PS-AR_CQS(Sxt).28 | < blank > |
P-HSR-PS-AR_CQS(Sxt).29 | < blank > |
P-HSR-PS-AR_CQS(Sxt).30 | < blank > |
P-HSR-PS-AR_CQS(Sxt).31 | < blank > |
P-HSR-PS-AR_CQS(Sxt).32 | < blank > |
P-HSR-PS-AR_CQS(Sxt).33 | The current required to be shunted through the magnet shall be TBD |
P-HSR-PS-AR_CQS(Sxt).34 | The magnet turns ratio shall be TBD |
P-HSR-PS-AR_CQS(Sxt).35 | The terminal voltage shall be TBD V |
P-HSR-PS-AR_CQS(Sxt).36 | The design shall have thermal switches TBD |
P-HSR-PS-AR_CQS(Sxt).37 | The thermal switch connection numbers shall be TBD |
P-HSR-PS-AR_CQS(Sxt).38 | The design shall have water flow switches TBD |
P-HSR-PS-AR_CQS(Sxt).39 | The water flow switch connections numbers shall be TBD |
P-HSR-PS-AR_CQS(Sxt).40 | The design shall have access controls interlocks TBD |
P-HSR-PS-AR_CQS(Sxt).41 | The main terminals lug details shall be TBD |
P-HSR-PS-AR_CQS(Sxt).42 | The lead end indications shall be TBD |
P-HSR-PS-AR_CQS(Sxt).43 | The lugs details for thermal switch and water switches shall be TBD |
P-HSR-PS-AR_CQS(Sxt).44 | The lug details for the auxiliary windings shall be TBD |
P-HSR-PS-AR_CQS(Sxt).45 | The A/B terminal labeling details shall be TBD Draw id |
P-HSR-PS-AR_CQS(Sxt).46 | The magnet drawing with terminations details shall be TBD |
P-HSR-PS-AR_CQS(Sxt).47 | The magnet polarity connections shall be TBD |
P-HSR-PS-AR_D6.1 | The number of Independent functions on the magnets being powered shall be - |
P-HSR-PS-AR_D6.2 | The maximum magnet string resistance to be powered shall be RHIC ohm |
P-HSR-PS-AR_D6.3 | The maximum magnet string inductance to be powered shall be RHIC H |
P-HSR-PS-AR_D6.4 | The magnets being powered shall be saturated RHIC Y/N |
P-HSR-PS-AR_D6.5 | < blank > |
P-HSR-PS-AR_D6.6 | The voltage to ground of the magnet being powered shall be RHIC V |
P-HSR-PS-AR_D6.7 | The nominal current of the magnets being powered shall be RHIC A |
P-HSR-PS-AR_D6.8 | The minimum current the PS must operate at shall be RHIC A |
P-HSR-PS-AR_D6.9 | The maximum current the PS must operate at shall be RHIC A |
P-HSR-PS-AR_D6.10 | The PS current type shall be DC (DC or AC) |
P-HSR-PS-AR_D6.11 | < blank > |
P-HSR-PS-AR_D6.12 | The peak waveshape di/dt during ramping shall be RHIC |
P-HSR-PS-AR_D6.13 | The full power bandwidth required shall be RHIC |
P-HSR-PS-AR_D6.14 | The ppm of full scale current (peak to peak) shall be TBD % |
P-HSR-PS-AR_D6.15 | The time period for specified stability shall be TBD s |
P-HSR-PS-AR_D6.16 | The short term stability shall be TBD A/s |
P-HSR-PS-AR_D6.17 | The long term stability shall be TBD A/s |
P-HSR-PS-AR_D6.18 | The current setpoint resolution (min size in bits) shall be TBD bits |
P-HSR-PS-AR_D6.19 | The synchronization required between PS's shall be TBD s |
P-HSR-PS-AR_D6.20 | The synchronization timing of synchronization shall be TBD s |
P-HSR-PS-AR_D6.21 | The max allowable current ripple (peak to peak) TBD A |
P-HSR-PS-AR_D6.22 | The max current ripple frequency range (Hz) TBD Hz |
P-HSR-PS-AR_D6.23 | WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz |
P-HSR-PS-AR_D6.24 | The max voltage ripple (peak to peak) shall be TBD V |
P-HSR-PS-AR_D6.25 | An NMR shall be required to measure the field TBD A/s |
P-HSR-PS-AR_D6.26 | < blank > |
P-HSR-PS-AR_D6.27 | < blank > |
P-HSR-PS-AR_D6.28 | < blank > |
P-HSR-PS-AR_D6.29 | < blank > |
P-HSR-PS-AR_D6.30 | < blank > |
P-HSR-PS-AR_D6.31 | < blank > |
P-HSR-PS-AR_D6.32 | < blank > |
P-HSR-PS-AR_D6.33 | The current required to be shunted through the magnet shall be TBD |
P-HSR-PS-AR_D6.34 | The magnet turns ratio shall be TBD |
P-HSR-PS-AR_D6.35 | The terminal voltage shall be TBD V |
P-HSR-PS-AR_D6.36 | The design shall have thermal switches TBD |
P-HSR-PS-AR_D6.37 | The thermal switch connection numbers shall be TBD |
P-HSR-PS-AR_D6.38 | The design shall have water flow switches TBD |
P-HSR-PS-AR_D6.39 | The water flow switch connections numbers shall be TBD |
P-HSR-PS-AR_D6.40 | The design shall have access controls interlocks TBD |
P-HSR-PS-AR_D6.41 | The main terminals lug details shall be TBD |
P-HSR-PS-AR_D6.42 | The lead end indications shall be TBD |
P-HSR-PS-AR_D6.43 | The lugs details for thermal switch and water switches shall be TBD |
P-HSR-PS-AR_D6.44 | The lug details for the auxiliary windings shall be TBD |
P-HSR-PS-AR_D6.45 | The A/B terminal labeling details shall be TBD Draw id |
P-HSR-PS-AR_D6.46 | The magnet drawing with terminations details shall be TBD |
P-HSR-PS-AR_D6.47 | The magnet polarity connections shall be TBD |
P-HSR-PS-AR_D8.1 | The number of Independent functions on the magnets being powered shall be - |
P-HSR-PS-AR_D8.2 | The maximum magnet string resistance to be powered shall be RHIC ohm |
P-HSR-PS-AR_D8.3 | The maximum magnet string inductance to be powered shall be RHIC H |
P-HSR-PS-AR_D8.4 | The magnets being powered shall be saturated RHIC Y/N |
P-HSR-PS-AR_D8.5 | < blank > |
P-HSR-PS-AR_D8.6 | The voltage to ground of the magnet being powered shall be RHIC V |
P-HSR-PS-AR_D8.7 | The nominal current of the magnets being powered shall be RHIC A |
P-HSR-PS-AR_D8.8 | The minimum current the PS must operate at shall be RHIC A |
P-HSR-PS-AR_D8.9 | The maximum current the PS must operate at shall be RHIC A |
P-HSR-PS-AR_D8.10 | The PS current type shall be DC (DC or AC) |
P-HSR-PS-AR_D8.11 | < blank > |
P-HSR-PS-AR_D8.12 | The peak waveshape di/dt during ramping shall be RHIC |
P-HSR-PS-AR_D8.13 | The full power bandwidth required shall be RHIC |
P-HSR-PS-AR_D8.14 | The ppm of full scale current (peak to peak) shall be TBD % |
P-HSR-PS-AR_D8.15 | The time period for specified stability shall be TBD s |
P-HSR-PS-AR_D8.16 | The short term stability shall be TBD A/s |
P-HSR-PS-AR_D8.17 | The long term stability shall be TBD A/s |
P-HSR-PS-AR_D8.18 | The current setpoint resolution (min size in bits) shall be TBD bits |
P-HSR-PS-AR_D8.19 | The synchronization required between PS's shall be TBD s |
P-HSR-PS-AR_D8.20 | The synchronization timing of synchronization shall be TBD s |
P-HSR-PS-AR_D8.21 | The max allowable current ripple (peak to peak) TBD A |
P-HSR-PS-AR_D8.22 | The max current ripple frequency range (Hz) TBD Hz |
P-HSR-PS-AR_D8.23 | WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz |
P-HSR-PS-AR_D8.24 | The max voltage ripple (peak to peak) shall be TBD V |
P-HSR-PS-AR_D8.25 | An NMR shall be required to measure the field TBD A/s |
P-HSR-PS-AR_D8.26 | < blank > |
P-HSR-PS-AR_D8.27 | < blank > |
P-HSR-PS-AR_D8.28 | < blank > |
P-HSR-PS-AR_D8.29 | < blank > |
P-HSR-PS-AR_D8.30 | < blank > |
P-HSR-PS-AR_D8.31 | < blank > |
P-HSR-PS-AR_D8.32 | < blank > |
P-HSR-PS-AR_D8.33 | The current required to be shunted through the magnet shall be TBD |
P-HSR-PS-AR_D8.34 | The magnet turns ratio shall be TBD |
P-HSR-PS-AR_D8.35 | The terminal voltage shall be TBD V |
P-HSR-PS-AR_D8.36 | The design shall have thermal switches TBD |
P-HSR-PS-AR_D8.37 | The thermal switch connection numbers shall be TBD |
P-HSR-PS-AR_D8.38 | The design shall have water flow switches TBD |
P-HSR-PS-AR_D8.39 | The water flow switch connections numbers shall be TBD |
P-HSR-PS-AR_D8.40 | The design shall have access controls interlocks TBD |
P-HSR-PS-AR_D8.41 | The main terminals lug details shall be TBD |
P-HSR-PS-AR_D8.42 | The lead end indications shall be TBD |
P-HSR-PS-AR_D8.43 | The lugs details for thermal switch and water switches shall be TBD |
P-HSR-PS-AR_D8.44 | The lug details for the auxiliary windings shall be TBD |
P-HSR-PS-AR_D8.45 | The A/B terminal labeling details shall be TBD Draw id |
P-HSR-PS-AR_D8.46 | The magnet drawing with terminations details shall be TBD |
P-HSR-PS-AR_D8.47 | The magnet polarity connections shall be TBD |
P-HSR-PS-AR_D9.1 | The number of Independent functions on the magnets being powered shall be - |
P-HSR-PS-AR_D9.2 | The maximum magnet string resistance to be powered shall be RHIC ohm |
P-HSR-PS-AR_D9.3 | The maximum magnet string inductance to be powered shall be RHIC H |
P-HSR-PS-AR_D9.4 | The magnets being powered shall be saturated RHIC Y/N |
P-HSR-PS-AR_D9.5 | < blank > |
P-HSR-PS-AR_D9.6 | The voltage to ground of the magnet being powered shall be RHIC V |
P-HSR-PS-AR_D9.7 | The nominal current of the magnets being powered shall be RHIC A |
P-HSR-PS-AR_D9.8 | The minimum current the PS must operate at shall be RHIC A |
P-HSR-PS-AR_D9.9 | The maximum current the PS must operate at shall be RHIC A |
P-HSR-PS-AR_D9.10 | The PS current type shall be DC (DC or AC) |
P-HSR-PS-AR_D9.11 | < blank > |
P-HSR-PS-AR_D9.12 | The peak waveshape di/dt during ramping shall be RHIC |
P-HSR-PS-AR_D9.13 | The full power bandwidth required shall be RHIC |
P-HSR-PS-AR_D9.14 | The ppm of full scale current (peak to peak) shall be TBD % |
P-HSR-PS-AR_D9.15 | The time period for specified stability shall be TBD s |
P-HSR-PS-AR_D9.16 | The short term stability shall be TBD A/s |
P-HSR-PS-AR_D9.17 | The long term stability shall be TBD A/s |
P-HSR-PS-AR_D9.18 | The current setpoint resolution (min size in bits) shall be TBD bits |
P-HSR-PS-AR_D9.19 | The synchronization required between PS's shall be TBD s |
P-HSR-PS-AR_D9.20 | The synchronization timing of synchronization shall be TBD s |
P-HSR-PS-AR_D9.21 | The max allowable current ripple (peak to peak) TBD A |
P-HSR-PS-AR_D9.22 | The max current ripple frequency range (Hz) TBD Hz |
P-HSR-PS-AR_D9.23 | WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz |
P-HSR-PS-AR_D9.24 | The max voltage ripple (peak to peak) shall be TBD V |
P-HSR-PS-AR_D9.25 | An NMR shall be required to measure the field TBD A/s |
P-HSR-PS-AR_D9.26 | < blank > |
P-HSR-PS-AR_D9.27 | < blank > |
P-HSR-PS-AR_D9.28 | < blank > |
P-HSR-PS-AR_D9.29 | < blank > |
P-HSR-PS-AR_D9.30 | < blank > |
P-HSR-PS-AR_D9.31 | < blank > |
P-HSR-PS-AR_D9.32 | < blank > |
P-HSR-PS-AR_D9.33 | The current required to be shunted through the magnet shall be TBD |
P-HSR-PS-AR_D9.34 | The magnet turns ratio shall be TBD |
P-HSR-PS-AR_D9.35 | The terminal voltage shall be TBD V |
P-HSR-PS-AR_D9.36 | The design shall have thermal switches TBD |
P-HSR-PS-AR_D9.37 | The thermal switch connection numbers shall be TBD |
P-HSR-PS-AR_D9.38 | The design shall have water flow switches TBD |
P-HSR-PS-AR_D9.39 | The water flow switch connections numbers shall be TBD |
P-HSR-PS-AR_D9.40 | The design shall have access controls interlocks TBD |
P-HSR-PS-AR_D9.41 | The main terminals lug details shall be TBD |
P-HSR-PS-AR_D9.42 | The lead end indications shall be TBD |
P-HSR-PS-AR_D9.43 | The lugs details for thermal switch and water switches shall be TBD |
P-HSR-PS-AR_D9.44 | The lug details for the auxiliary windings shall be TBD |
P-HSR-PS-AR_D9.45 | The A/B terminal labeling details shall be TBD Draw id |
P-HSR-PS-AR_D9.46 | The magnet drawing with terminations details shall be TBD |
P-HSR-PS-AR_D9.47 | The magnet polarity connections shall be TBD |
P-HSR-PS-B1PR.1 | The number of Independent functions on the magnets being powered shall be - |
P-HSR-PS-B1PR.2 | The maximum magnet string resistance to be powered shall be RHIC ohm |
P-HSR-PS-B1PR.3 | The maximum magnet string inductance to be powered shall be RHIC H |
P-HSR-PS-B1PR.4 | The magnets being powered shall be saturated RHIC Y/N |
P-HSR-PS-B1PR.5 | < blank > |
P-HSR-PS-B1PR.6 | The voltage to ground of the magnet being powered shall be RHIC V |
P-HSR-PS-B1PR.7 | The nominal current of the magnets being powered shall be RHIC A |
P-HSR-PS-B1PR.8 | The minimum current the PS must operate at shall be RHIC A |
P-HSR-PS-B1PR.9 | The maximum current the PS must operate at shall be RHIC A |
P-HSR-PS-B1PR.10 | The PS current type shall be DC (DC or AC) |
P-HSR-PS-B1PR.11 | < blank > |
P-HSR-PS-B1PR.12 | The peak waveshape di/dt during ramping shall be RHIC |
P-HSR-PS-B1PR.13 | The full power bandwidth required shall be RHIC |
P-HSR-PS-B1PR.14 | The ppm of full scale current (peak to peak) shall be TBD % |
P-HSR-PS-B1PR.15 | The time period for specified stability shall be TBD s |
P-HSR-PS-B1PR.16 | The short term stability shall be TBD A/s |
P-HSR-PS-B1PR.17 | The long term stability shall be TBD A/s |
P-HSR-PS-B1PR.18 | The current setpoint resolution (min size in bits) shall be TBD bits |
P-HSR-PS-B1PR.19 | The synchronization required between PS's shall be TBD s |
P-HSR-PS-B1PR.20 | The synchronization timing of synchronization shall be TBD s |
P-HSR-PS-B1PR.21 | The max allowable current ripple (peak to peak) TBD A |
P-HSR-PS-B1PR.22 | The max current ripple frequency range (Hz) TBD Hz |
P-HSR-PS-B1PR.23 | WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz |
P-HSR-PS-B1PR.24 | The max voltage ripple (peak to peak) shall be TBD V |
P-HSR-PS-B1PR.25 | An NMR shall be required to measure the field TBD A/s |
P-HSR-PS-B1PR.26 | < blank > |
P-HSR-PS-B1PR.27 | < blank > |
P-HSR-PS-B1PR.28 | < blank > |
P-HSR-PS-B1PR.29 | < blank > |
P-HSR-PS-B1PR.30 | < blank > |
P-HSR-PS-B1PR.31 | < blank > |
P-HSR-PS-B1PR.32 | < blank > |
P-HSR-PS-B1PR.33 | The current required to be shunted through the magnet shall be TBD |
P-HSR-PS-B1PR.34 | The magnet turns ratio shall be TBD |
P-HSR-PS-B1PR.35 | The terminal voltage shall be TBD V |
P-HSR-PS-B1PR.36 | The design shall have thermal switches TBD |
P-HSR-PS-B1PR.37 | The thermal switch connection numbers shall be TBD |
P-HSR-PS-B1PR.38 | The design shall have water flow switches TBD |
P-HSR-PS-B1PR.39 | The water flow switch connections numbers shall be TBD |
P-HSR-PS-B1PR.40 | The design shall have access controls interlocks TBD |
P-HSR-PS-B1PR.41 | The main terminals lug details shall be TBD |
P-HSR-PS-B1PR.42 | The lead end indications shall be TBD |
P-HSR-PS-B1PR.43 | The lugs details for thermal switch and water switches shall be TBD |
P-HSR-PS-B1PR.44 | The lug details for the auxiliary windings shall be TBD |
P-HSR-PS-B1PR.45 | The A/B terminal labeling details shall be TBD Draw id |
P-HSR-PS-B1PR.46 | The magnet drawing with terminations details shall be TBD |
P-HSR-PS-B1PR.47 | The magnet polarity connections shall be TBD |
P-HSR-PS-BXDS01A.1 | The number of Independent functions on the magnets being powered shall be - |
P-HSR-PS-BXDS01A.2 | The maximum magnet string resistance to be powered shall be RHIC ohm |
P-HSR-PS-BXDS01A.3 | The maximum magnet string inductance to be powered shall be RHIC H |
P-HSR-PS-BXDS01A.4 | The magnets being powered shall be saturated RHIC Y/N |
P-HSR-PS-BXDS01A.5 | < blank > |
P-HSR-PS-BXDS01A.6 | The voltage to ground of the magnet being powered shall be RHIC V |
P-HSR-PS-BXDS01A.7 | The nominal current of the magnets being powered shall be RHIC A |
P-HSR-PS-BXDS01A.8 | The minimum current the PS must operate at shall be RHIC A |
P-HSR-PS-BXDS01A.9 | The maximum current the PS must operate at shall be RHIC A |
P-HSR-PS-BXDS01A.10 | The PS current type shall be DC (DC or AC) |
P-HSR-PS-BXDS01A.11 | < blank > |
P-HSR-PS-BXDS01A.12 | The peak waveshape di/dt during ramping shall be RHIC |
P-HSR-PS-BXDS01A.13 | The full power bandwidth required shall be RHIC |
P-HSR-PS-BXDS01A.14 | The ppm of full scale current (peak to peak) shall be TBD % |
P-HSR-PS-BXDS01A.15 | The time period for specified stability shall be TBD s |
P-HSR-PS-BXDS01A.16 | The short term stability shall be TBD A/s |
P-HSR-PS-BXDS01A.17 | The long term stability shall be TBD A/s |
P-HSR-PS-BXDS01A.18 | The current setpoint resolution (min size in bits) shall be TBD bits |
P-HSR-PS-BXDS01A.19 | The synchronization required between PS's shall be TBD s |
P-HSR-PS-BXDS01A.20 | The synchronization timing of synchronization shall be TBD s |
P-HSR-PS-BXDS01A.21 | The max allowable current ripple (peak to peak) TBD A |
P-HSR-PS-BXDS01A.22 | The max current ripple frequency range (Hz) TBD Hz |
P-HSR-PS-BXDS01A.23 | WRT the ripple frequency the following resonant frequencies shall be avoided TBD Hz |
P-HSR-PS-BXDS01A.24 | The max voltage ripple (peak to peak) shall be TBD V |
P-HSR-PS-BXDS01A.25 | An NMR shall be required to measure the field TBD A/s |
P-HSR-PS-BXDS01A.26 | < blank > |
P-HSR-PS-BXDS01A.27 |