Requirement Details
Electron Ion Collider
F-EIS-RCS-MAG.1
Requirement details, history, relationships and interfaces associated with requirement F-EIS-RCS-MAG.1
- CURRENT RECORD
- ARCHIVE RECORDS
- RELATIONSHIPS
Record Date: 10/10/2024 14:48 | |||
Identifier: | F-EIS-RCS-MAG.1 | WBS: | 6.03 |
Date Modified: | TBD: | FALSE | |
Status Date: | Status: | In Process | |
Description: | The magnets shall meet the requirements defined by the physics lattice. | ||
Comments: |
No archive versions
Parents | |
No parents. | |
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 > |
P-EIS-HETL-MAG-D3.39 | < blank > |
P-EIS-HETL-MAG-D3.40 | < blank > |
P-EIS-HETL-MAG-D3.41 | < blank > |
P-EIS-HETL-MAG-D3.42 | < blank > |
P-EIS-HETL-MAG-D3.43 | < blank > |
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-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 > |
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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-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 > |
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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 > |
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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-CO.1 | The number of magnet functions shall be 1 |
P-EIS-RCS-MAG-CO.2 | The field type shall be Di (Di,Qu,Sx,Oc,De,Do,Sol,Ki,Hk,Vk,Se) |
P-EIS-RCS-MAG-CO.3 | The field direction shall be V (V=vertical,H=horizontal,Z=beam direction ) |
P-EIS-RCS-MAG-CO.4 | < blank > |
P-EIS-RCS-MAG-CO.5 | < blank > |
P-EIS-RCS-MAG-CO.6 | The min gap shall be 32 m |
P-EIS-RCS-MAG-CO.7 | The good field aperture drx required shall be 20.13 m |
P-EIS-RCS-MAG-CO.8 | The good field aperture dry required shall be 7.55 m |
P-EIS-RCS-MAG-CO.9 | The mag length shall be <0.325 m |
P-EIS-RCS-MAG-CO.10 | The eff Length shall be 0.325 m |
P-EIS-RCS-MAG-CO.11 | The dipole field B shall be 0.001 T |
P-EIS-RCS-MAG-CO.12 | The dipole field B shall be 0.001 T |
P-EIS-RCS-MAG-CO.13 | The ramp rate shall be 2.2 T/s |
P-EIS-RCS-MAG-CO.14 | The field stability shall be *1000 T/s |
P-EIS-RCS-MAG-CO.15 | The harmonic reference Radius and current shall be Ir=TBD[A]\Rr=16[mm] (mm,A) |
P-EIS-RCS-MAG-CO.16 | The Field at the reference radius and current shall be Bref=0.0005 (T) |
P-EIS-RCS-MAG-CO.17 | < blank > |
P-EIS-RCS-MAG-CO.18 | The Bore multipole content shall have a 1st order of b1=10000, a1= - (10^-4) |
P-EIS-RCS-MAG-CO.19 | The Bore multipole content shall have a 2nd order of b2<0.1, a2= - (10^-4) |
P-EIS-RCS-MAG-CO.20 | The Bore multipole content shall have a 3rd order of b3<0.1, a3= - (10^-4) |
P-EIS-RCS-MAG-CO.21 | The Bore multipole content shall have a 4th order of b4<0.1, a4= - (10^-4) |
P-EIS-RCS-MAG-CO.22 | The Bore multipole content shall have a 5th order of b5<0.1, a5= - (10^-4) |
P-EIS-RCS-MAG-CO.23 | The Bore multipole content shall have a 6th order of b6<0.1, a6= - (10^-4) |
P-EIS-RCS-MAG-CO.24 | The Bore multipole content shall have a 7th order of b7<0.1, a7= - (10^-4) |
P-EIS-RCS-MAG-CO.25 | The Bore multipole content shall have a 8th order of b8<0.1, a8= - (10^-4) |
P-EIS-RCS-MAG-CO.26 | The Bore multipole content shall have a 9th order of b9<0.1, a9= - (10^-4) |
P-EIS-RCS-MAG-CO.27 | The Bore multipole content shall have a 10th order of b10<0.1, a10= - (10^-4) |
P-EIS-RCS-MAG-CO.28 | The Bore multipole content shall have a 11th order of b11<0.1, a11= - (10^-4) |
P-EIS-RCS-MAG-CO.29 | The Bore multipole content shall have a 12th order of b12<0.1, a12= - (10^-4) |
P-EIS-RCS-MAG-CO.30 | The Bore multipole content shall have a 13th order of b13<0.1, a13= - (10^-4) |
P-EIS-RCS-MAG-CO.31 | The Bore multipole content shall have a 14th order of b14<0.1, a14= - (10^-4) |
P-EIS-RCS-MAG-CO.32 | The Bore multipole content shall have a 15th order of b15<0.1, a15= - (10^-4) |
P-EIS-RCS-MAG-CO.33 | The Bore multipole content shall have a 16th order of b16<0.1, a16= - (10^-4) |
P-EIS-RCS-MAG-CO.34 | The dipole field B shall be T |
P-EIS-RCS-MAG-CO.35 | < blank > |
P-EIS-RCS-MAG-CO.36 | The ramp rate shall be T/s |
P-EIS-RCS-MAG-CO.37 | The field stability shall be T/s |
P-EIS-RCS-MAG-CO.38 | The harmonic reference Radius and current shall be (mm,A) |
P-EIS-RCS-MAG-CO.39 | The Field at the reference radius and current shall be (T) |
P-EIS-RCS-MAG-CO.40 | < blank > |
P-EIS-RCS-MAG-CO.41 | The Bore multipole content shall have a 1st order of b1=10000, a1= - (10^-4) |
P-EIS-RCS-MAG-CO.42 | The Bore multipole content shall have a 2nd order of b2<0.1, a2= - (10^-4) |
P-EIS-RCS-MAG-CO.43 | The Bore multipole content shall have a 3rd order of b3<0.1, a3= - (10^-4) |
P-EIS-RCS-MAG-CO.44 | The Bore multipole content shall have a 4th order of b4<0.1, a4= - (10^-4) |
P-EIS-RCS-MAG-CO.45 | The Bore multipole content shall have a 5th order of b5<0.1, a5= - (10^-4) |
P-EIS-RCS-MAG-CO.46 | The Bore multipole content shall have a 6th order of b6<0.1, a6= - (10^-4) |
P-EIS-RCS-MAG-CO.47 | The Bore multipole content shall have a 7th order of b7<0.1, a7= - (10^-4) |
P-EIS-RCS-MAG-CO.48 | The Bore multipole content shall have a 8th order of b8<0.1, a8= - (10^-4) |
P-EIS-RCS-MAG-CO.49 | The Bore multipole content shall have a 9th order of b9<0.1, a9= - (10^-4) |
P-EIS-RCS-MAG-CO.50 | The Bore multipole content shall have a 10th order of b10<0.1, a10= - (10^-4) |
P-EIS-RCS-MAG-CO.51 | The Bore multipole content shall have a 11th order of b11<0.1, a11= - (10^-4) |
P-EIS-RCS-MAG-CO.52 | The Bore multipole content shall have a 12th order of b12<0.1, a12= - (10^-4) |
P-EIS-RCS-MAG-CO.53 | The Bore multipole content shall have a 13th order of b13<0.1, a13= - (10^-4) |
P-EIS-RCS-MAG-CO.54 | The Bore multipole content shall have a 14th order of b14<0.1, a14= - (10^-4) |
P-EIS-RCS-MAG-CO.55 | The Bore multipole content shall have a 15th order of b15<0.1, a15= - (10^-4) |
P-EIS-RCS-MAG-CO.56 | The Bore multipole content shall have a 16th order of b16<0.1, a16= - (10^-4) |
P-EIS-RCS-MAG-CO.57 | The magnet shall not be designed to limit Xtalk Requirements |
P-EIS-RCS-MAG-CO.58 | < blank > |
P-EIS-RCS-MAG-CO.59 | < blank > |
P-EIS-RCS-MAG-CO.60 | < blank > |
P-EIS-RCS-MAG-CO.61 | < blank > |
P-EIS-RCS-MAG-CO.62 | < blank > |
P-EIS-RCS-MAG-CO.63 | < blank > |
P-EIS-RCS-MAG-CO.64 | < blank > |
P-EIS-RCS-MAG-CO.65 | < blank > |
P-EIS-RCS-MAG-CO.66 | < blank > |
P-EIS-RCS-MAG-CO.67 | < blank > |
P-EIS-RCS-MAG-CO.68 | < blank > |
P-EIS-RCS-MAG-CO.69 | < blank > |
P-EIS-RCS-MAG-CO.70 | < blank > |
P-EIS-RCS-MAG-CO.71 | < blank > |
P-EIS-RCS-MAG-CO.72 | < blank > |
P-EIS-RCS-MAG-CO.73 | < blank > |
P-EIS-RCS-MAG-CO.74 | < blank > |
P-EIS-RCS-MAG-CO.75 | < blank > |
P-EIS-RCS-MAG-CO.76 | < blank > |
P-EIS-RCS-MAG-CO.77 | < blank > |
P-EIS-RCS-MAG-CO.78 | The magnet design shall not constrain the ext. fringe field |
P-EIS-RCS-MAG-CO.79 | < blank > |
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-D0.16 | The Field at the reference radius and current shall be Bref=0.0057 (T) |
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-D0.22 | 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-D0.57 | The magnet shall not be designed to limit Xtalk Requirements |
P-EIS-RCS-MAG-D0.58 | < blank > |
P-EIS-RCS-MAG-D0.59 | < blank > |
P-EIS-RCS-MAG-D0.60 | < blank > |
P-EIS-RCS-MAG-D0.61 | < blank > |
P-EIS-RCS-MAG-D0.62 | < blank > |
P-EIS-RCS-MAG-D0.63 | < blank > |
P-EIS-RCS-MAG-D0.64 | < blank > |
P-EIS-RCS-MAG-D0.65 | < blank > |
P-EIS-RCS-MAG-D0.66 | < blank > |
P-EIS-RCS-MAG-D0.67 | < blank > |
P-EIS-RCS-MAG-D0.68 | < blank > |
P-EIS-RCS-MAG-D0.69 | < blank > |
P-EIS-RCS-MAG-D0.70 | < blank > |
P-EIS-RCS-MAG-D0.71 | < blank > |
P-EIS-RCS-MAG-D0.72 | < blank > |
P-EIS-RCS-MAG-D0.73 | < blank > |
P-EIS-RCS-MAG-D0.74 | < blank > |
P-EIS-RCS-MAG-D0.75 | < blank > |
P-EIS-RCS-MAG-D0.76 | < blank > |
P-EIS-RCS-MAG-D0.77 | < blank > |
P-EIS-RCS-MAG-D0.78 | The magnet design shall not constrain the ext. fringe field |
P-EIS-RCS-MAG-D0.79 | < blank > |
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-SXT.1 | The number of magnet functions shall be 1 |
P-EIS-RCS-MAG-SXT.2 | The field type shall be Sx (Di,Qu,Sx,Oc,De,Do,Sol,Ki,Hk,Vk,Se) |
P-EIS-RCS-MAG-SXT.3 | < blank > |
P-EIS-RCS-MAG-SXT.4 | The field rotation shall be No (No=norm, Sk=skew) |
P-EIS-RCS-MAG-SXT.5 | The min coil inner rad shall be 16 m |
P-EIS-RCS-MAG-SXT.6 | < blank > |
P-EIS-RCS-MAG-SXT.7 | The good field aperture drx required shall be 19.94 m |
P-EIS-RCS-MAG-SXT.8 | The good field aperture dry required shall be 7.52 m |
P-EIS-RCS-MAG-SXT.9 | The mag length shall be <0.5 m |
P-EIS-RCS-MAG-SXT.10 | The eff Length shall be 0.5 m |
P-EIS-RCS-MAG-SXT.11 | < blank > |
P-EIS-RCS-MAG-SXT.12 | < blank > |
P-EIS-RCS-MAG-SXT.13 | The ramp rate shall be 2.2 T/s |
P-EIS-RCS-MAG-SXT.14 | The field stability shall be *1000 T/s |
P-EIS-RCS-MAG-SXT.15 | The harmonic reference Radius and current shall be Ir=TBD[A]\Rr=16[mm] (mm,A) |
P-EIS-RCS-MAG-SXT.16 | The Field at the reference radius and current shall be Bref=TBD (T) |
P-EIS-RCS-MAG-SXT.17 | < blank > |
P-EIS-RCS-MAG-SXT.18 | The Bore multipole content shall have a 1st order of - (10^-4) |
P-EIS-RCS-MAG-SXT.19 | The Bore multipole content shall have a 2nd order of - (10^-4) |
P-EIS-RCS-MAG-SXT.20 | The Bore multipole content shall have a 3rd order of b3=10000 , a3=0 (10^-4) |
P-EIS-RCS-MAG-SXT.21 | The Bore multipole content shall have a 4th order of -10<b4<10 , 0<a4<0.2 (10^-4) |
P-EIS-RCS-MAG-SXT.22 | The Bore multipole content shall have a 5th order of -10<b5<10 , 0<a5<0.2 (10^-4) |
P-EIS-RCS-MAG-SXT.23 | The Bore multipole content shall have a 6th order of -10<b6<10 , 0<a6<0.2 (10^-4) |
P-EIS-RCS-MAG-SXT.24 | The Bore multipole content shall have a 7th order of -10<b7<10 , 0<a7<0.2 (10^-4) |
P-EIS-RCS-MAG-SXT.25 | The Bore multipole content shall have a 8th order of -10<b8<10 , 0<a8<0.2 (10^-4) |
P-EIS-RCS-MAG-SXT.26 | The Bore multipole content shall have a 9th order of -10<b9<10 , 0<a9<0.2 (10^-4) |
P-EIS-RCS-MAG-SXT.27 | The Bore multipole content shall have a 10th order of -10<b10<10 , 0<a10<0.2 (10^-4) |
P-EIS-RCS-MAG-SXT.28 | The Bore multipole content shall have a 11th order of -10<b11<10 , 0<a11<0.2 (10^-4) |
P-EIS-RCS-MAG-SXT.29 | The Bore multipole content shall have a 12th order of -10<b12<10 , 0<a12<0.2 (10^-4) |
P-EIS-RCS-MAG-SXT.30 | The Bore multipole content shall have a 13th order of -10<b13<10 , 0<a13<0.2 (10^-4) |
P-EIS-RCS-MAG-SXT.31 | The Bore multipole content shall have a 14th order of -10<b14<10 , 0<a14<0.2 (10^-4) |
P-EIS-RCS-MAG-SXT.32 | The Bore multipole content shall have a 15th order of -10<b15<10 , 0<a15<0.2 (10^-4) |
P-EIS-RCS-MAG-SXT.33 | The Bore multipole content shall have a 16th order of -10<b16<10 , 0<a16<0.2 (10^-4) |
P-EIS-RCS-MAG-SXT.34 | < blank > |
P-EIS-RCS-MAG-SXT.35 | The grad field G shall be T/m(n-1) |
P-EIS-RCS-MAG-SXT.36 | The ramp rate shall be T/s |
P-EIS-RCS-MAG-SXT.37 | The field stability shall be T/s |
P-EIS-RCS-MAG-SXT.38 | The harmonic reference Radius and current shall be (mm,A) |
P-EIS-RCS-MAG-SXT.39 | The Field at the reference radius and current shall be (T) |
P-EIS-RCS-MAG-SXT.40 | < blank > |
P-EIS-RCS-MAG-SXT.41 | The Bore multipole content shall have a 1st order of - (10^-4) |
P-EIS-RCS-MAG-SXT.42 | The Bore multipole content shall have a 2nd order of - (10^-4) |
P-EIS-RCS-MAG-SXT.43 | The Bore multipole content shall have a 3rd order of b3=10000 , a3=0 (10^-4) |
P-EIS-RCS-MAG-SXT.44 | The Bore multipole content shall have a 4th order of -10<b4<10 , 0<a4<0.2 (10^-4) |
P-EIS-RCS-MAG-SXT.45 | The Bore multipole content shall have a 5th order of -10<b5<10 , 0<a5<0.2 (10^-4) |
P-EIS-RCS-MAG-SXT.46 | The Bore multipole content shall have a 6th order of -10<b6<10 , 0<a6<0.2 (10^-4) |
P-EIS-RCS-MAG-SXT.47 | The Bore multipole content shall have a 7th order of -10<b7<10 , 0<a7<0.2 (10^-4) |
P-EIS-RCS-MAG-SXT.48 | The Bore multipole content shall have a 8th order of -10<b8<10 , 0<a8<0.2 (10^-4) |
P-EIS-RCS-MAG-SXT.49 | The Bore multipole content shall have a 9th order of -10<b9<10 , 0<a9<0.2 (10^-4) |
P-EIS-RCS-MAG-SXT.50 | The Bore multipole content shall have a 10th order of -10<b10<10 , 0<a10<0.2 (10^-4) |
P-EIS-RCS-MAG-SXT.51 | The Bore multipole content shall have a 11th order of -10<b11<10 , 0<a11<0.2 (10^-4) |
P-EIS-RCS-MAG-SXT.52 | The Bore multipole content shall have a 12th order of -10<b12<10 , 0<a12<0.2 (10^-4) |
P-EIS-RCS-MAG-SXT.53 | The Bore multipole content shall have a 13th order of -10<b13<10 , 0<a13<0.2 (10^-4) |
P-EIS-RCS-MAG-SXT.54 | The Bore multipole content shall have a 14th order of -10<b14<10 , 0<a14<0.2 (10^-4) |
P-EIS-RCS-MAG-SXT.55 | The Bore multipole content shall have a 15th order of -10<b15<10 , 0<a15<0.2 (10^-4) |
P-EIS-RCS-MAG-SXT.56 | The Bore multipole content shall have a 16th order of -10<b16<10 , 0<a16<0.2 (10^-4) |
P-EIS-RCS-MAG-SXT.57 | The magnet shall not be designed to limit Xtalk Requirements |
P-EIS-RCS-MAG-SXT.58 | < blank > |
P-EIS-RCS-MAG-SXT.59 | < blank > |
P-EIS-RCS-MAG-SXT.60 | < blank > |
P-EIS-RCS-MAG-SXT.61 | < blank > |
P-EIS-RCS-MAG-SXT.62 | < blank > |
P-EIS-RCS-MAG-SXT.63 | < blank > |
P-EIS-RCS-MAG-SXT.64 | < blank > |
P-EIS-RCS-MAG-SXT.65 | < blank > |
P-EIS-RCS-MAG-SXT.66 | < blank > |
P-EIS-RCS-MAG-SXT.67 | < blank > |
P-EIS-RCS-MAG-SXT.68 | < blank > |
P-EIS-RCS-MAG-SXT.69 | < blank > |
P-EIS-RCS-MAG-SXT.70 | < blank > |
P-EIS-RCS-MAG-SXT.71 | < blank > |
P-EIS-RCS-MAG-SXT.72 | < blank > |
P-EIS-RCS-MAG-SXT.73 | < blank > |
P-EIS-RCS-MAG-SXT.74 | < blank > |
P-EIS-RCS-MAG-SXT.75 | < blank > |
P-EIS-RCS-MAG-SXT.76 | < blank > |
P-EIS-RCS-MAG-SXT.77 | < blank > |
P-EIS-RCS-MAG-SXT.78 | The magnet design shall not constrain the ext. fringe field |
P-EIS-RCS-MAG-SXT.79 | < blank > |
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-B1PR.1 | The RHIC magnet shall operate for EIC functions. |
P-HSR-MAG-B1PR.2 | The magnet shall require air trim coils capable of trimmig the field +- . |
P-HSR-MAG-B1PR.3 | The magnet shall require current taps for operation |
P-HSR-MAG-B1PR.4 | The magnet shall require shunt(s) for operation |
P-HSR-MAG-B1PR.5 | The magnet shall have a Dipole field. |
P-HSR-MAG-B1PR.6 | The magnet field shall have a vertical field direction |
P-HSR-MAG-B1PR.7 | < blank > |
P-HSR-MAG-B1PR.8 | < blank > |
P-HSR-MAG-B1PR.9 | The minimal magnet bore gap shall be 69 m. |
P-HSR-MAG-B1PR.10 | The magnet good field aperture drx required shall be 143.942 m. |
P-HSR-MAG-B1PR.11 | The magnet good field aperture dry required shall be 26.156 m. |
P-HSR-MAG-B1PR.12 | The physical magnet length shall be <3.7 m. |
P-HSR-MAG-B1PR.13 | The effective magnet length shall be 3.7 m. |
P-HSR-MAG-B1PR.14 | The magnet slot length shall be Within the Tech spec for the RHIC magnet B1PR . |
P-HSR-MAG-B1PR.15 | The magnet integrated dipole field B shall be 4.2na Within the Tech spec for the RHIC magnet B1PR. |
P-HSR-MAG-B1PR.16 | < blank > |
P-HSR-MAG-B1PR.17 | < blank > |
P-HSR-MAG-B1PR.18 | The magnet to magnet variability shall be TBD T/s. |
P-HSR-MAG-B1PR.19 | The magnet harmonic reference radius (Rr) and current (Ir) shall be Ir=TBD[A]\Rr=16[mm] (mm,A). |
P-HSR-MAG-B1PR.20 | The magnet field at the reference radius and current shall be Bref=TBD (T). |
P-HSR-MAG-B1PR.21 | The magnet bore field shall require the following multipole content: |
P-HSR-MAG-B1PR.21.01 | Within the Tech spec for the RHIC magnet B1PR (10^-4). |
P-HSR-MAG-B1PR.21.02 | Within the Tech spec for the RHIC magnet B1PR (10^-4). |
P-HSR-MAG-B1PR.21.03 | Within the Tech spec for the RHIC magnet B1PR (10^-4). |
P-HSR-MAG-B1PR.21.04 | Within the Tech spec for the RHIC magnet B1PR . |
P-HSR-MAG-B1PR.21.05 | Within the Tech spec for the RHIC magnet B1PR (10^-4). |
P-HSR-MAG-B1PR.21.06 | Within the Tech spec for the RHIC magnet B1PR (10^-4). |
P-HSR-MAG-B1PR.21.07 | Within the Tech spec for the RHIC magnet B1PR (10^-4). |
P-HSR-MAG-B1PR.21.08 | Within the Tech spec for the RHIC magnet B1PR (10^-4). |
P-HSR-MAG-B1PR.21.09 | Within the Tech spec for the RHIC magnet B1PR (10^-4). |
P-HSR-MAG-B1PR.21.11 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-B1PR.21.12 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-B1PR.21.13 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-B1PR.21.14 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-B1PR.21.15 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-B1PR.21.16 | N/A outside of RHIC Spec Definition (10^-4). |
P-HSR-MAG-B1PR.22 | The magnet shall not be designed to limit Crosstalk requirements. |
P-HSR-MAG-B1PR.23 | < blank > |
P-HSR-MAG-B1PR.24 | < blank > |
P-HSR-MAG-B1PR.25 | < blank > |
P-HSR-MAG-B1PR.26 | < blank > |
P-HSR-MAG-B1PR.26.01 | < blank > |
P-HSR-MAG-B1PR.26.02 | < blank > |
P-HSR-MAG-B1PR.26.03 | < blank > |
P-HSR-MAG-B1PR.26.04 | < blank > |
P-HSR-MAG-B1PR.26.05 | < blank > |
P-HSR-MAG-B1PR.26.06 | < blank > |
P-HSR-MAG-B1PR.26.07 | < blank > |
P-HSR-MAG-B1PR.26.08 | < blank > |
P-HSR-MAG-B1PR.26.09 | < blank > |
P-HSR-MAG-B1PR.26.11 | < blank > |
P-HSR-MAG-B1PR.26.12 | < blank > |
P-HSR-MAG-B1PR.26.13 | < blank > |
P-HSR-MAG-B1PR.26.14 | < blank > |
P-HSR-MAG-B1PR.26.15 | < blank > |
P-HSR-MAG-B1PR.26.16 | < blank > |
P-HSR-MAG-B1PR.27 | The magnet shall not be designed to constain the external fringe field. |
P-HSR-MAG-B1PR.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-MAG-WARM_DX1.1 | The RHIC magnet shall operate for EIC functions. |
P-HSR-MAG-WARM_DX1.2 | The magnet shall require air trim coils capable of trimmig the field +- . |
P-HSR-MAG-WARM_DX1.3 | The magnet shall require current taps for operation |
P-HSR-MAG-WARM_DX1.4 | The magnet shall require shunt(s) for operation |
P-HSR-MAG-WARM_DX1.5 | The magnet shall have a Dipole field. |
P-HSR-MAG-WARM_DX1.6 | The magnet field shall have a vertical field direction |
P-HSR-MAG-WARM_DX1.7 | < blank > |
P-HSR-MAG-WARM_DX1.8 | < blank > |
P-HSR-MAG-WARM_DX1.9 | The minimal magnet bore gap shall be 69 m. |
P-HSR-MAG-WARM_DX1.10 | The magnet good field aperture drx required shall be 53.64 m. |
P-HSR-MAG-WARM_DX1.11 | The magnet good field aperture dry required shall be 31.712 m. |
P-HSR-MAG-WARM_DX1.12 | The physical magnet length shall be <5 m. |
P-HSR-MAG-WARM_DX1.13 | The effective magnet length shall be 5 m. |
P-HSR-MAG-WARM_DX1.14 | The magnet slot length shall be 0 . |
P-HSR-MAG-WARM_DX1.15 | The magnet integrated dipole field B shall be 0 0. |
P-HSR-MAG-WARM_DX1.16 | < blank > |
P-HSR-MAG-WARM_DX1.17 | < blank > |
P-HSR-MAG-WARM_DX1.18 | The magnet to magnet variability shall be TBD T/s. |
P-HSR-MAG-WARM_DX1.19 | The magnet harmonic reference radius (Rr) and current (Ir) shall be Ir=TBD[A]\Rr=16[mm] (mm,A). |
P-HSR-MAG-WARM_DX1.20 | The magnet field at the reference radius and current shall be Bref=TBD (T). |
P-HSR-MAG-WARM_DX1.21 | The magnet bore field has not been determined if it required multipole content. |
P-HSR-MAG-WARM_DX1.21.01 | TBD (10^-4). |
P-HSR-MAG-WARM_DX1.21.02 | TBD (10^-4). |
P-HSR-MAG-WARM_DX1.21.03 | TBD (10^-4). |
P-HSR-MAG-WARM_DX1.21.04 | TBD . |
P-HSR-MAG-WARM_DX1.21.05 | TBD (10^-4). |
P-HSR-MAG-WARM_DX1.21.06 | TBD (10^-4). |
P-HSR-MAG-WARM_DX1.21.07 | TBD (10^-4). |
P-HSR-MAG-WARM_DX1.21.08 | TBD (10^-4). |
P-HSR-MAG-WARM_DX1.21.09 | TBD (10^-4). |
P-HSR-MAG-WARM_DX1.21.11 | TBD (10^-4). |
P-HSR-MAG-WARM_DX1.21.12 | TBD (10^-4). |
P-HSR-MAG-WARM_DX1.21.13 | TBD (10^-4). |
P-HSR-MAG-WARM_DX1.21.14 | TBD (10^-4). |
P-HSR-MAG-WARM_DX1.21.15 | TBD (10^-4). |
P-HSR-MAG-WARM_DX1.21.16 | TBD (10^-4). |
P-HSR-MAG-WARM_DX1.22 | The magnet shall not be designed to limit Crosstalk requirements. |
P-HSR-MAG-WARM_DX1.23 | < blank > |
P-HSR-MAG-WARM_DX1.24 | < blank > |
P-HSR-MAG-WARM_DX1.25 | < blank > |
P-HSR-MAG-WARM_DX1.26 | < blank > |
P-HSR-MAG-WARM_DX1.26.01 | < blank > |
P-HSR-MAG-WARM_DX1.26.02 | < blank > |
P-HSR-MAG-WARM_DX1.26.03 | < blank > |
P-HSR-MAG-WARM_DX1.26.04 | < blank > |
P-HSR-MAG-WARM_DX1.26.05 | < blank > |
P-HSR-MAG-WARM_DX1.26.06 | < blank > |
P-HSR-MAG-WARM_DX1.26.07 | < blank > |
P-HSR-MAG-WARM_DX1.26.08 | < blank > |
P-HSR-MAG-WARM_DX1.26.09 | < blank > |
P-HSR-MAG-WARM_DX1.26.11 | < blank > |
P-HSR-MAG-WARM_DX1.26.12 | < blank > |
P-HSR-MAG-WARM_DX1.26.13 | < blank > |
P-HSR-MAG-WARM_DX1.26.14 | < blank > |
P-HSR-MAG-WARM_DX1.26.15 | < blank > |
P-HSR-MAG-WARM_DX1.26.16 | < blank > |
P-HSR-MAG-WARM_DX1.27 | The magnet shall not be designed to constain the external fringe field. |
P-HSR-MAG-WARM_DX1.28 | <blank> |
P-HSR-MAG-WARM_DX2.1 | The RHIC magnet shall operate for EIC functions. |
P-HSR-MAG-WARM_DX2.2 | The magnet shall require air trim coils capable of trimmig the field +- . |
P-HSR-MAG-WARM_DX2.3 | The magnet shall require current taps for operation |
P-HSR-MAG-WARM_DX2.4 | The magnet shall require shunt(s) for operation |
P-HSR-MAG-WARM_DX2.5 | The magnet shall have a Dipole field. |
P-HSR-MAG-WARM_DX2.6 | The magnet field shall have a vertical field direction |
P-HSR-MAG-WARM_DX2.7 | < blank > |
P-HSR-MAG-WARM_DX2.8 | < blank > |
P-HSR-MAG-WARM_DX2.9 | The minimal magnet bore gap shall be 69 m. |
P-HSR-MAG-WARM_DX2.10 | The magnet good field aperture drx required shall be 54.944 m. |
P-HSR-MAG-WARM_DX2.11 | The magnet good field aperture dry required shall be 33.812 m. |
P-HSR-MAG-WARM_DX2.12 | The physical magnet length shall be <6 m. |
P-HSR-MAG-WARM_DX2.13 | The effective magnet length shall be 6 m. |
P-HSR-MAG-WARM_DX2.14 | The magnet slot length shall be 0 . |
P-HSR-MAG-WARM_DX2.15 | The magnet integrated dipole field B shall be 0 0. |
P-HSR-MAG-WARM_DX2.16 | < blank > |
P-HSR-MAG-WARM_DX2.17 | < blank > |
P-HSR-MAG-WARM_DX2.18 | The magnet to magnet variability shall be TBD T/s. |
P-HSR-MAG-WARM_DX2.19 | The magnet harmonic reference radius (Rr) and current (Ir) shall be Ir=TBD[A]\Rr=16[mm] (mm,A). |
P-HSR-MAG-WARM_DX2.20 | The magnet field at the reference radius and current shall be Bref=TBD (T). |
P-HSR-MAG-WARM_DX2.21 | The magnet bore field has not been determined if it required multipole content. |
P-HSR-MAG-WARM_DX2.21.01 | TBD (10^-4). |
P-HSR-MAG-WARM_DX2.21.02 | TBD (10^-4). |
P-HSR-MAG-WARM_DX2.21.03 | TBD (10^-4). |
P-HSR-MAG-WARM_DX2.21.04 | TBD (10^-4). |
P-HSR-MAG-WARM_DX2.21.05 | TBD (10^-4). |
P-HSR-MAG-WARM_DX2.21.06 | TBD (10^-4). |
P-HSR-MAG-WARM_DX2.21.07 | TBD (10^-4). |
P-HSR-MAG-WARM_DX2.21.08 | TBD (10^-4). |
P-HSR-MAG-WARM_DX2.21.09 | TBD (10^-4). |
P-HSR-MAG-WARM_DX2.21.11 | TBD (10^-4). |
P-HSR-MAG-WARM_DX2.21.12 | TBD (10^-4). |
P-HSR-MAG-WARM_DX2.21.13 | TBD (10^-4). |
P-HSR-MAG-WARM_DX2.21.14 | TBD (10^-4). |
P-HSR-MAG-WARM_DX2.21.15 | TBD (10^-4). |
P-HSR-MAG-WARM_DX2.21.16 | TBD (10^-4). |
P-HSR-MAG-WARM_DX2.22 | TBD (10^-4). |
P-HSR-MAG-WARM_DX2.23 | < blank > |
P-HSR-MAG-WARM_DX2.24 | < blank > |
P-HSR-MAG-WARM_DX2.25 | < blank > |
P-HSR-MAG-WARM_DX2.26 | < blank > |
P-HSR-MAG-WARM_DX2.26.01 | < blank > |
P-HSR-MAG-WARM_DX2.26.02 | < blank > |
P-HSR-MAG-WARM_DX2.26.03 | < blank > |
P-HSR-MAG-WARM_DX2.26.04 | < blank > |
P-HSR-MAG-WARM_DX2.26.05 | < blank > |
P-HSR-MAG-WARM_DX2.26.06 | < blank > |
P-HSR-MAG-WARM_DX2.26.07 | < blank > |
P-HSR-MAG-WARM_DX2.26.08 | < blank > |
P-HSR-MAG-WARM_DX2.26.09 | < blank > |
P-HSR-MAG-WARM_DX2.26.11 | < blank > |
P-HSR-MAG-WARM_DX2.26.12 | < blank > |
P-HSR-MAG-WARM_DX2.26.13 | < blank > |
P-HSR-MAG-WARM_DX2.26.14 | < blank > |
P-HSR-MAG-WARM_DX2.26.15 | < blank > |
P-HSR-MAG-WARM_DX2.26.16 | < blank > |
P-HSR-MAG-WARM_DX2.27 | The magnet shall not be designed to constain the external fringe field. |
P-HSR-MAG-WARM_DX2.28 | <blank> |
P-HSR-MAG-WARM_QUAD.1 | The RHIC magnet shall operate for EIC functions. |
P-HSR-MAG-WARM_QUAD.2 | The magnet shall require air trim coils capable of trimmig the field +- . |
P-HSR-MAG-WARM_QUAD.3 | The magnet shall require current taps for operation |
P-HSR-MAG-WARM_QUAD.4 | The magnet shall require shunt(s) for operation |
P-HSR-MAG-WARM_QUAD.5 | The magnet shall have a Quadrupole field. |
P-HSR-MAG-WARM_QUAD.6 | < blank > |
P-HSR-MAG-WARM_QUAD.7 | The magnet shall have a normal field rotation. |
P-HSR-MAG-WARM_QUAD.8 | The minimal magnet inscribe radius shall be 34.5 m. |
P-HSR-MAG-WARM_QUAD.9 | < blank > |
P-HSR-MAG-WARM_QUAD.10 | The magnet good field aperture drx required shall be 82.658 m. |
P-HSR-MAG-WARM_QUAD.11 | The magnet good field aperture dry required shall be 27.63 m. |
P-HSR-MAG-WARM_QUAD.12 | The physical magnet length shall be <0.9 m. |
P-HSR-MAG-WARM_QUAD.13 | The effective magnet length shall be 0.9 m. |
P-HSR-MAG-WARM_QUAD.14 | The magnet slot length shall be 0 . |
P-HSR-MAG-WARM_QUAD.15 | < blank > |
P-HSR-MAG-WARM_QUAD.16 | < blank > |
P-HSR-MAG-WARM_QUAD.17 | < blank > |
P-HSR-MAG-WARM_QUAD.18 | The magnet to magnet variability shall be TBD T/s. |
P-HSR-MAG-WARM_QUAD.19 | The magnet harmonic reference radius (Rr) and current (Ir) shall be Ir=TBD[A]\Rr=16[mm] (mm,A). |
P-HSR-MAG-WARM_QUAD.20 | The magnet field at the reference radius and current shall be Bref=TBD (T). |
P-HSR-MAG-WARM_QUAD.21 | The magnet bore field has not been determined if it required multipole content. |
P-HSR-MAG-WARM_QUAD.21.01 | TBD (10^-4). |
P-HSR-MAG-WARM_QUAD.21.02 | TBD (10^-4). |
P-HSR-MAG-WARM_QUAD.21.03 | TBD (10^-4). |
P-HSR-MAG-WARM_QUAD.21.04 | TBD . |
P-HSR-MAG-WARM_QUAD.21.05 | TBD (10^-4). |
P-HSR-MAG-WARM_QUAD.21.06 | TBD (10^-4). |
P-HSR-MAG-WARM_QUAD.21.07 | TBD (10^-4). |
P-HSR-MAG-WARM_QUAD.21.08 | TBD (10^-4). |
P-HSR-MAG-WARM_QUAD.21.09 | TBD (10^-4). |
P-HSR-MAG-WARM_QUAD.21.11 | TBD (10^-4). |
P-HSR-MAG-WARM_QUAD.21.12 | TBD (10^-4). |
P-HSR-MAG-WARM_QUAD.21.13 | TBD (10^-4). |
P-HSR-MAG-WARM_QUAD.21.14 | TBD (10^-4). |
P-HSR-MAG-WARM_QUAD.21.15 | TBD (10^-4). |
P-HSR-MAG-WARM_QUAD.21.16 | TBD (10^-4). |
P-HSR-MAG-WARM_QUAD.22 | The magnet shall not be designed to limit Crosstalk requirements. |
P-HSR-MAG-WARM_QUAD.23 | < blank > |
P-HSR-MAG-WARM_QUAD.24 | < blank > |
P-HSR-MAG-WARM_QUAD.25 | < blank > |
P-HSR-MAG-WARM_QUAD.26 | < blank > |
P-HSR-MAG-WARM_QUAD.26.01 | < blank > |
P-HSR-MAG-WARM_QUAD.26.02 | < blank > |
P-HSR-MAG-WARM_QUAD.26.03 | < blank > |
P-HSR-MAG-WARM_QUAD.26.04 | < blank > |
P-HSR-MAG-WARM_QUAD.26.05 | < blank > |
P-HSR-MAG-WARM_QUAD.26.06 | < blank > |
P-HSR-MAG-WARM_QUAD.26.07 | < blank > |
P-HSR-MAG-WARM_QUAD.26.08 | < blank > |
P-HSR-MAG-WARM_QUAD.26.09 | < blank > |
P-HSR-MAG-WARM_QUAD.26.11 | < blank > |
P-HSR-MAG-WARM_QUAD.26.12 | < blank > |
P-HSR-MAG-WARM_QUAD.26.13 | < blank > |
P-HSR-MAG-WARM_QUAD.26.14 | < blank > |
P-HSR-MAG-WARM_QUAD.26.15 | < blank > |
P-HSR-MAG-WARM_QUAD.26.16 | < blank > |
P-HSR-MAG-WARM_QUAD.27 | The magnet shall not be designed to constain the external fringe field. |
P-HSR-MAG-WARM_QUAD.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 |