Requirement Details
Electron Ion Collider
F-IR-ESR-LATTICE.14
Requirement details, history, relationships and interfaces associated with requirement F-IR-ESR-LATTICE.14
- CURRENT RECORD
- ARCHIVE RECORDS
- RELATIONSHIPS
- INTERFACES
Record Date: 12/06/2024 11:10 | |||
Identifier: | F-IR-ESR-LATTICE.14 | WBS: | 6.06 |
Date Modified: | TBD: | FALSE | |
Status Date: | Status: | In Process | |
Description: | The IR electron lattice design shall create a multiple of 180deg horizontal phase advance between the two crab cavities. | ||
Comments: |
No archive versions
Parents | |
No parents. | |
Children | |
P-ESR-MAG-Q50.1 | The magnet shall have a single function. |
P-ESR-MAG-Q50.4 | The magnet shall require shunt resistors for beam-based alignment , 5A at 5 GeV ( Y or N) |
P-ESR-MAG-Q50.5 | The magnet shall have a Quadrupole field. |
P-ESR-MAG-Q50.7 | The magnet shall have a normal field rotation. |
P-ESR-MAG-Q50.8 | The magnet pole tip radius shall be 40 mm. |
P-ESR-MAG-Q50.12 | The physical magnet length shall be <0.5 m. |
P-ESR-MAG-Q50.13 | The magnet model length shall be 0.5 m. |
P-ESR-MAG-Q50.16 | The magnet integrated grad field G shall be 15.774 T/m.m. |
P-ESR-MAG-Q50.19 | The harmonic reference radius at the design energy of 18 GeV shall be 25 (mm) . |
P-ESR-MAG-Q50.20 | The Field at the reference radius at the design energy of 18 GeV shall be 18.9 (T/m) . |
P-ESR-MAG-Q50.21 | The magnet bore field shall require the following multipole content: |
P-ESR-MAG-Q50.21.2 | b2 = 10000 (10^-4) |
P-ESR-MAG-Q50.21.3 | -4.45 < b3 < 0.01 (10^-4) |
P-ESR-MAG-Q50.21.4 | -5.3 < b4 < -0.4 (10^-4) |
P-ESR-MAG-Q50.21.5 | -0.65 < b5 < 0.18 (10^-4) |
P-ESR-MAG-Q50.21.6 | -3.57 < b6 < -2.86 (10^-4) |
P-ESR-MAG-Q50.21.7 | -1.50 < b7 < 1.50 (10^-4) |
P-ESR-MAG-Q50.21.8 | -1.50 < b8 < 1.50 (10^-4) |
P-ESR-MAG-Q50.21.9 | -1.50 < b9 < 1.50 (10^-4) |
P-ESR-MAG-Q50.21.10 | -1.93 < b10 < -1.88 (10^-4) |
P-ESR-MAG-Q50.21.11 | -1.50 < b11 < 1.50 (10^-4) |
P-ESR-MAG-Q50.21.12 | -1.50 < b12 < 1.50 (10^-4) |
P-ESR-MAG-Q50.21.13 | -1.50 < b13 < 1.50 (10^-4) |
P-ESR-MAG-Q50.21.14 | -0.18 < b14 < -0.16 (10^-4) |
P-ESR-MAG-Q50.27 | The magnet shall be designed to specifically constrain the external fringe field N (Yes or No) |
P-ESR-MAG-Q50.29 | The magnet shall be designed to have a splitable pole to accommodate the Vacuum beam pipe installation TBD (Yes or No) |
P-ESR-MAG-Q50.31 | The magnet shall be designed to operate reliably given the cumulative radiation dose it will experience over the lifetime of the EIC. TBD (Yes or No) |
P-ESR-MAG-Q50.32 | The Bore multipole content shall have a 15th order of b15<1 (10^-4) |
P-ESR-MAG-Q50.46 | < blank > |
P-ESR-MAG-Q50.47 | < blank > |
P-ESR-MAG-Q60.1 | The magnet shall have a single function. |
P-ESR-MAG-Q60.4 | The magnet shall require shunt resistors for beam-based alignment , 5A at 5 GeV ( Y or N) |
P-ESR-MAG-Q60.5 | The magnet shall have a Quadrupole field. |
P-ESR-MAG-Q60.7 | The magnet shall have a normal field rotation. |
P-ESR-MAG-Q60.8 | The magnet pole tip radius shall be 40 mm. |
P-ESR-MAG-Q60.12 | The physical magnet length shall be <0.6 m. |
P-ESR-MAG-Q60.13 | The magnet model length shall be 0.6 m. |
P-ESR-MAG-Q60.16 | The magnet integrated grad field G shall be 6.975 T/m.m. |
P-ESR-MAG-Q60.19 | The harmonic reference radius at the design energy of 18 GeV shall be 25 (mm) . |
P-ESR-MAG-Q60.20 | The Field at the reference radius at the design energy of 18 GeV shall be 18.9 (T/m) . |
P-ESR-MAG-Q60.21 | The magnet bore field shall require the following multipole content: |
P-ESR-MAG-Q60.21.2 | b2 = 10000 (10^-4) |
P-ESR-MAG-Q60.21.3 | -3.71 < b3 < -0.27 (10^-4) |
P-ESR-MAG-Q60.21.4 | -4.77 < b4 < 0.01 (10^-4) |
P-ESR-MAG-Q60.21.5 | -0.69 < b5 < 0.07 (10^-4) |
P-ESR-MAG-Q60.21.6 | -3.18 < b6 < -2.56 (10^-4) |
P-ESR-MAG-Q60.21.7 | -1.50 < b7 < 1.50 (10^-4) |
P-ESR-MAG-Q60.21.8 | -1.50 < b8 < 1.50 (10^-4) |
P-ESR-MAG-Q60.21.9 | -1.50 < b9 < 1.50 (10^-4) |
P-ESR-MAG-Q60.21.10 | -1.92 < b10 < -1.52 (10^-4) |
P-ESR-MAG-Q60.21.11 | -1.50 < b11 < 1.50 (10^-4) |
P-ESR-MAG-Q60.21.12 | -1.50 < b12 < 1.50 (10^-4) |
P-ESR-MAG-Q60.21.13 | -1.50 < b13 < 1.50 (10^-4) |
P-ESR-MAG-Q60.21.14 | -0.22 < b14 < -0.18 (10^-4) |
P-ESR-MAG-Q60.27 | The magnet shall be designed to specifically constrain the external fringe field N (Yes or No) |
P-ESR-MAG-Q60.29 | The magnet shall be designed to have a splitable pole to accommodate the Vacuum beam pipe installation TBD (Yes or No) |
P-ESR-MAG-Q60.31 | The magnet shall be designed to operate reliably given the cumulative radiation dose it will experience over the lifetime of the EIC. TBD (Yes or No) |
P-ESR-MAG-Q60.32 | The Bore multipole content shall have a 15th order of b15<1 (10^-4) |
P-ESR-MAG-Q60.46 | < blank > |
P-ESR-MAG-Q60.47 | < blank > |
P-ESR-MAG-Q60x2.1 | The magnet shall have a single function. |
P-ESR-MAG-Q60x2.5 | The magnet shall have a Quadrupole field. |
P-ESR-MAG-Q60x2.7 | The magnet shall have a normal field rotation. |
P-ESR-MAG-Q60x2.8 | The magnet pole tip radius shall be 67.8823 mm. |
P-ESR-MAG-Q60x2.10 | The magnet good field aperture dAx required shall be 40.4255 mm. |
P-ESR-MAG-Q60x2.11 | The magnet good field aperture dAy required shall be 20.4007 mm. |
P-ESR-MAG-Q60x2.12 | The physical magnet length shall be <1.2 m. |
P-ESR-MAG-Q60x2.13 | The magnet model length shall be 1.2 m. |
P-ESR-MAG-Q60x2.16 | The magnet integrated grad field G shall be 24.6612 T/m.m. |
P-ESR-MAG-Q60x2.18 | The magnet to magnet field variability between magnets shall be within the APS spec %. |
P-ESR-MAG-Q60x2.19 | The harmonic reference radius at the design energy of 18 GeV shall be 25 (mm) (mm,A). |
P-ESR-MAG-Q60x2.20 | The Field at the reference radius at the design energy of 18 GeV shall be 18.9 (T/m) . |
P-ESR-MAG-Q60x2.21 | The magnet bore field shall require the following multipole content: |
P-ESR-MAG-Q60x2.21.1 | b1 < 1 (10^-4) |
P-ESR-MAG-Q60x2.21.2 | b2 < 1 (10^-4) |
P-ESR-MAG-Q60x2.21.3 | b3 = 10000 (10^-4) |
P-ESR-MAG-Q60x2.21.4 | -4.15 < b4 < 5.66 (10^-4) |
P-ESR-MAG-Q60x2.21.5 | -1.97 < b5 < 0.82 (10^-4) |
P-ESR-MAG-Q60x2.21.6 | -1.50 < b6 < 1.50 (10^-4) |
P-ESR-MAG-Q60x2.21.7 | -0.12 < b7 < 0.54 (10^-4) |
P-ESR-MAG-Q60x2.21.8 | -1.50 < b8 < 1.50 (10^-4) |
P-ESR-MAG-Q60x2.21.9 | -12.67 < b9 < -12.52 (10^-4) |
P-ESR-MAG-Q60x2.21.10 | -1.50 < b10 < 1.50 (10^-4) |
P-ESR-MAG-Q60x2.21.11 | -1.50 < b11 < 1.50 (10^-4) |
P-ESR-MAG-Q60x2.21.12 | -1.50 < b12 < 1.50 (10^-4) |
P-ESR-MAG-Q60x2.21.13 | -1.50 < b13 < 1.50 (10^-4) |
P-ESR-MAG-Q60x2.21.14 | -1.50 < b14 < 1.50 (10^-4) |
P-ESR-MAG-Q60x2.21.15 | -0.47 < b15 < -0.46 (10^-4) |
P-ESR-MAG-Q60x2.21.16 | -1.50 < b16 < 1.50 (10^-4) |
P-ESR-MAG-Q60x2.22 | The magnet shall not be designed to limit CrossTalk requirements. |
P-ESR-MAG-Q60x2.23 | The magnet xtalk shall be constrained as described ; within the APS spec |
P-ESR-MAG-Q60x2.27 | The magnet shall be designed to specifically constrain the external fringe field N (Yes or No) |
P-ESR-MAG-Q60x2.29 | The magnet shall be designed to have a splitable pole to accommodate the Vacuum beam pipe installation TBD (Yes or No) |
P-ESR-MAG-Q60x2.30 | The magnet shall be designed to fit within the following envelope. TBD (Yes or No) |
P-ESR-MAG-Q60x2.31 | The magnet shall be designed to operate reliably given the cumulative radiation dose it will experience over the lifetime of the EIC. TBD (Yes or No) |
P-ESR-MAG-Q80.1 | The magnet shall have a single function. |
P-ESR-MAG-Q80.4 | The magnet shall require shunt resistors for beam-based alignment , 5A at 5 GeV ( Y or N) |
P-ESR-MAG-Q80.5 | The magnet shall have a Quadrupole field. |
P-ESR-MAG-Q80.7 | The magnet shall have a normal field rotation. |
P-ESR-MAG-Q80.8 | The magnet pole tip radius shall be 40 mm. |
P-ESR-MAG-Q80.12 | The physical magnet length shall be <0.8 m. |
P-ESR-MAG-Q80.13 | The magnet model length shall be 0.8 m. |
P-ESR-MAG-Q80.16 | The magnet integrated grad field G shall be 16 T/m.m. |
P-ESR-MAG-Q80.19 | The harmonic reference radius at the design energy of 18 GeV shall be 25 (mm) . |
P-ESR-MAG-Q80.20 | The Field at the reference radius at the design energy of 18 GeV shall be 18.9 (T/m) . |
P-ESR-MAG-Q80.21 | The magnet bore field shall require the following multipole content: |
P-ESR-MAG-Q80.21.2 | b2 = 10000 (10^-4) |
P-ESR-MAG-Q80.21.3 | -4.45 < b3 < 0.59 (10^-4) |
P-ESR-MAG-Q80.21.4 | -3.92 < b4 < 0.5 (10^-4) |
P-ESR-MAG-Q80.21.5 | -0.55 < b5 < 0.14 (10^-4) |
P-ESR-MAG-Q80.21.6 | -3.85 < b6 < -3.01 (10^-4) |
P-ESR-MAG-Q80.21.7 | -1.50 < b7 < 1.50 (10^-4) |
P-ESR-MAG-Q80.21.8 | -1.50 < b8 < 1.50 (10^-4) |
P-ESR-MAG-Q80.21.9 | -1.50 < b9 < 1.50 (10^-4) |
P-ESR-MAG-Q80.21.10 | -1.01 < b10 < -0.98 (10^-4) |
P-ESR-MAG-Q80.21.11 | -1.50 < b11 < 1.50 (10^-4) |
P-ESR-MAG-Q80.21.12 | -1.50 < b12 < 1.50 (10^-4) |
P-ESR-MAG-Q80.21.13 | -1.50 < b12 < 1.50 (10^-4) |
P-ESR-MAG-Q80.21.14 | -0.26 < b14 < -0.2 (10^-4) |
P-ESR-MAG-Q80.27 | The magnet shall be designed to specifically constrain the external fringe field N (Yes or No) |
P-ESR-MAG-Q80.29 | The magnet shall be designed to have a splitable pole to accommodate the Vacuum beam pipe installation TBD (Yes or No) |
P-ESR-MAG-Q80.31 | The magnet shall be designed to operate reliably given the cumulative radiation dose it will experience over the lifetime of the EIC. TBD (Yes or No) |
P-ESR-MAG-Q80.32 | The Bore multipole content shall have a 15th order of b15<1 (10^-4) |
P-ESR-MAG-Q80.46 | < blank > |
P-ESR-MAG-Q80.47 | < blank > |
P-ESR-MAG-Q_SKEW.1 | The magnet shall have a single function. |
P-ESR-MAG-Q_SKEW.2 | The magnet shall require trim coils capable of trimming the field within +/- TBD (%) of the Peak field. |
P-ESR-MAG-Q_SKEW.3 | The magnet shall require current taps for operation TBD ( Y or N) |
P-ESR-MAG-Q_SKEW.4 | The magnet shall require shunt(s) for operation TBD ( Y or N) |
P-ESR-MAG-Q_SKEW.5 | The magnet shall have a Quadrupole field. |
P-ESR-MAG-Q_SKEW.7 | The magnet shall have a skew field rotation. |
P-ESR-MAG-Q_SKEW.8 | The magnet pole tip radius shall be 67.8823 mm. |
P-ESR-MAG-Q_SKEW.10 | The magnet good field aperture dAx required shall be 38.1449 mm. |
P-ESR-MAG-Q_SKEW.11 | The magnet good field aperture dAy required shall be 15.2055 mm. |
P-ESR-MAG-Q_SKEW.12 | The physical magnet length shall be <0.25 m. |
P-ESR-MAG-Q_SKEW.13 | The magnet model length shall be 0.25 m. |
P-ESR-MAG-Q_SKEW.16 | The magnet integrated grad field G shall be 0 T/m.m. |
P-ESR-MAG-Q_SKEW.18 | The magnet to magnet field variability between magnets shall be TBD %. |
P-ESR-MAG-Q_SKEW.19 | The harmonic reference radius at the design energy of 18 GeV shall be TBD (mm) . |
P-ESR-MAG-Q_SKEW.20 | The field at the reference radius at the design energy of 18 GeV shall be TBD (T/m) . |
P-ESR-MAG-Q_SKEW.21 | The magnet bore field shall require the following multipole content: |
P-ESR-MAG-Q_SKEW.21.1 | b1 = b1 < 1 (10^-4) |
P-ESR-MAG-Q_SKEW.21.2 | b2 = 10000 (10^-4) |
P-ESR-MAG-Q_SKEW.21.3 | b3 < 1 (10^-4) |
P-ESR-MAG-Q_SKEW.21.4 | -1.96 < b6 < -1.26 (10^-4) |
P-ESR-MAG-Q_SKEW.21.5 | b5 < 1 (10^-4) |
P-ESR-MAG-Q_SKEW.21.6 | b6 < 1 (10^-4) |
P-ESR-MAG-Q_SKEW.21.7 | b7 < 1 (10^-4) |
P-ESR-MAG-Q_SKEW.21.8 | b8 < 1 (10^-4) |
P-ESR-MAG-Q_SKEW.21.9 | b9 < 1 (10^-4) |
P-ESR-MAG-Q_SKEW.21.10 | b10 < 1 (10^-4) |
P-ESR-MAG-Q_SKEW.21.11 | b11 < 1 (10^-4) |
P-ESR-MAG-Q_SKEW.21.12 | b12 < 1 (10^-4) |
P-ESR-MAG-Q_SKEW.21.13 | b13 < 1 (10^-4) |
P-ESR-MAG-Q_SKEW.21.14 | b14 < 1 (10^-4) |
P-ESR-MAG-Q_SKEW.21.15 | b15 < 1 (10^-4) |
P-ESR-MAG-Q_SKEW.21.16 | b16 < 1 (10^-4) |
P-ESR-MAG-Q_SKEW.22 | The magnet shall not be designed to limit CrossTalk requirements. |
P-ESR-MAG-Q_SKEW.27 | The magnet shall be designed to specifically constrain the external fringe field TBD (Yes or No) |
P-ESR-MAG-Q_SKEW.28 | The magnet shall be designed to meet the following fringe field requirements TBD |
P-ESR-MAG-Q_SKEW.29 | The magnet shall be designed to have a splitable pole to accommodate the Vacuum beam pipe installation TBD (Yes or No) |
P-ESR-MAG-Q_SKEW.30 | The magnet shall be designed to fit within the following envelope. TBD (Yes or No) |
P-ESR-MAG-Q_SKEW.31 | The magnet shall be designed to operate reliably given the cumulative radiation dose it will experience over the lifetime of the EIC. TBD (Yes or No) |
P-ESR-PS-Q60.1 | The number of Independent functions on the magnets being powered shall be 3 |
P-ESR-PS-Q60.2 | The magnet type being powered is QUADRUPOLE |
P-ESR-PS-Q60.3 | The magnet model being powered is Q60 |
P-ESR-PS-Q60.4 | Number of unique magnet strings 9 |
P-ESR-PS-Q60.5 | Quantity of magnets per unique string 1 |
P-ESR-PS-Q60.6 | The number of Independent functions on the magnets being powered shall be 1 |
P-ESR-PS-Q60.7 | The minimum magnet resistance to be powered shall be 35 mOhm |
P-ESR-PS-Q60.8 | The maximum magnet resistance to be powered shall be TBD mOhm |
P-ESR-PS-Q60.9 | The minimum magnet inductance to be powered shall be 0.02 H |
P-ESR-PS-Q60.10 | The maximum magnet inductance to be powered shall be TBD H |
P-ESR-PS-Q60.11 | The max voltage to ground of the magnet being powered shall be TBD V |
P-ESR-PS-Q60.12 | The minimum opperating current the PS must operate at shall be 6.13 A |
P-ESR-PS-Q60.13 | The maximum current the PS must operate at shall be 412 A |
P-ESR-PS-Q60.14 | The current tuning margin shall be TBD % |
P-ESR-PS-Q60.15 | The current ps reliability margin shall be TBD |
P-ESR-PS-Q60.16 | The PS current type shall be DC (DC or Ramped ) |
P-ESR-PS-Q60.17 | The full power bandwidth required shall be N/A |
P-ESR-PS-Q60.18 | The PS waveshape required shall be N/A |
P-ESR-PS-Q60.19 | The peak waveshape di/dt during ramping shall be N/A A/s |
P-ESR-PS-Q60.20 | The ppm of full scale current (rms) shall be 5 ppm |
P-ESR-PS-Q60.21 | The time period for specified stability shall be TBD s |
P-ESR-PS-Q60.22 | The short term stability shall be TBD A/s |
P-ESR-PS-Q60.23 | The long term stability shall be (1 sec to 12 hrs?) 100 A/s |
P-ESR-PS-Q60.24 | The current setpoint resolution (min size in bits) shall be TBD bits |
P-ESR-PS-Q60.25 | The synchronization required between PS's shall be TBD s |
P-ESR-PS-Q60.26 | The synchronization timing of synchronization shall be TBD s |
P-ESR-PS-Q60.27 | The max allowable current ripple (rms) of full scale current low (0-4kHz) and s 5 A |
P-ESR-PS-Q60.28 | The max allowable current ripple (rms) of full scale current high (4kHz-1MHz) 5 A |
P-ESR-PS-Q60.29 | The max current ripple frequency range (Hz) TBD Hz |
P-ESR-PS-Q60.30 | WRT to the ripple frequency the following resonant frequencies shall be avoided TBD Hz |
P-ESR-PS-Q60.31 | The max voltage ripple (peak to peak) shall be TBD V |
P-ESR-PS-Q60.32 | An NMR in a reference magnet shall be required to measure the field TBD A/s |
P-ESR-PS-Q60.33 | The current required to be shunted through the magnet shall be TBD |
P-ESR-PS-Q60.34 | The magnet turns ratio shall be TBD |
P-ESR-PS-Q60.35 | The terminal voltage shall be TBD V |
P-ESR-PS-Q60.36 | The design shall have thermal switches TBD |
P-ESR-PS-Q60.37 | The thermal switch connection numbers shall be TBD |
P-ESR-PS-Q60.38 | The design shall have water flow switches TBD |
P-ESR-PS-Q60.39 | The water flow switch connections numbers shall be TBD |
P-ESR-PS-Q60.40 | The design shall have access controls interlocks TBD |
P-ESR-PS-Q60.41 | The main terminals lug details shall be TBD |
P-ESR-PS-Q60.42 | The lead end indications shall be TBD |
P-ESR-PS-Q60.43 | The lugs details for thermal switch and water switches shall be TBD |
P-ESR-PS-Q60.44 | The lug details for the auxiliary windings shall be TBD |
P-ESR-PS-Q60.45 | The A/B terminal labeling details shall be TBD |
P-ESR-PS-Q60.46 | The magnet drawing with terminations details shall be TBD Draw id |
P-ESR-PS-Q60.47 | The magnet polarity connections shall be TBD |
P-ESR-PS-Q80.1 | The number of Independent functions on the magnets being powered shall be 4 |
P-ESR-PS-Q80.2 | The magnet type being powered is QUADRUPOLE |
P-ESR-PS-Q80.3 | The magnet model being powered is Q80 |
P-ESR-PS-Q80.4 | Number of unique magnet strings 151 |
P-ESR-PS-Q80.5 | Quantity of magnets per unique string 1, 4, 7 |
P-ESR-PS-Q80.6 | The number of Independent functions on the magnets being powered shall be 1 |
P-ESR-PS-Q80.7 | The minimum magnet resistance to be powered shall be 44, 176, 308 mOhm |
P-ESR-PS-Q80.8 | The maximum magnet resistance to be powered shall be TBD mOhm |
P-ESR-PS-Q80.9 | The minimum magnet inductance to be powered shall be 0.027, 0.108, 0.189 H |
P-ESR-PS-Q80.10 | The maximum magnet inductance to be powered shall be TBD H |
P-ESR-PS-Q80.11 | The max voltage to ground of the magnet being powered shall be TBD V |
P-ESR-PS-Q80.12 | The minimum opperating current the PS must operate at shall be 0, 191.19, 76.08 A |
P-ESR-PS-Q80.13 | The maximum current the PS must operate at shall be 412, 192.12, 92.74 A |
P-ESR-PS-Q80.14 | The current tuning margin shall be TBD % |
P-ESR-PS-Q80.15 | The current ps reliability margin shall be TBD |
P-ESR-PS-Q80.16 | The PS current type shall be DC (DC or Ramped ) |
P-ESR-PS-Q80.17 | The full power bandwidth required shall be N/A |
P-ESR-PS-Q80.18 | The PS waveshape required shall be N/A |
P-ESR-PS-Q80.19 | The peak waveshape di/dt during ramping shall be N/A A/s |
P-ESR-PS-Q80.20 | The ppm of full scale current (rms) shall be 5 ppm |
P-ESR-PS-Q80.21 | The time period for specified stability shall be TBD s |
P-ESR-PS-Q80.22 | The short term stability shall be TBD A/s |
P-ESR-PS-Q80.23 | The long term stability shall be (1 sec to 12 hrs?) 100 A/s |
P-ESR-PS-Q80.24 | The current setpoint resolution (min size in bits) shall be TBD bits |
P-ESR-PS-Q80.25 | The synchronization required between PS's shall be TBD s |
P-ESR-PS-Q80.26 | The synchronization timing of synchronization shall be TBD s |
P-ESR-PS-Q80.27 | The synchronization timing of synchronization shall be TBD s |
P-ESR-PS-Q80.28 | The synchronization timing of synchronization shall be TBD s |
P-ESR-PS-Q80.29 | The synchronization timing of synchronization shall be TBD s |
P-ESR-PS-Q80.30 | The synchronization timing of synchronization shall be TBD s |
P-ESR-PS-Q80.31 | The synchronization timing of synchronization shall be TBD s |
P-ESR-PS-Q80.32 | The synchronization timing of synchronization shall be TBD s |
P-ESR-PS-Q80.33 | The current required to be shunted through the magnet shall be TBD |
P-ESR-PS-Q80.34 | The magnet turns ratio shall be TBD |
P-ESR-PS-Q80.35 | The terminal voltage shall be TBD V |
P-ESR-PS-Q80.36 | The design shall have thermal switches TBD |
P-ESR-PS-Q80.37 | The thermal switch connection numbers shall be TBD |
P-ESR-PS-Q80.38 | The design shall have water flow switches TBD |
P-ESR-PS-Q80.39 | The water flow switch connections numbers shall be TBD |
P-ESR-PS-Q80.40 | The design shall have access controls interlocks TBD |
P-ESR-PS-Q80.41 | The main terminals lug details shall be TBD |
P-ESR-PS-Q80.42 | The lead end indications shall be TBD |
P-ESR-PS-Q80.43 | The lugs details for thermal switch and water switches shall be TBD |
P-ESR-PS-Q80.44 | The lug details for the auxiliary windings shall be TBD |
P-ESR-PS-Q80.45 | The A/B terminal labeling details shall be TBD |
P-ESR-PS-Q80.46 | The magnet drawing with terminations details shall be TBD Draw id |
P-ESR-PS-Q80.47 | The magnet polarity connections shall be TBD |
P-HSR-MAG-AR_CQS(Corr-H).29 | The magnet shall be design is TBD to have a splittable pole. |
P-HSR-MAG-AR_CQS(Corr-HV).29 | The magnet shall be design is TBD to have a splittable pole. |
P-HSR-MAG-AR_CQS(Corr-V).29 | The magnet shall be design is TBD to have a splittable pole. |
P-HSR-MAG-AR_CQS(Quad).29 | The magnet shall be design is TBD to have a splittable pole. |
P-HSR-MAG-AR_CQS(Sxt).29 | The magnet shall be design is TBD to have a splittable pole. |
P-HSR-MAG-AR_D6.29 | The magnet shall be design is TBD to have a splittable pole. |
P-HSR-MAG-AR_D8.29 | The magnet shall be design is TBD to have a splittable pole. |
P-HSR-MAG-AR_D9.29 | The magnet shall be design is TBD to have a splittable pole. |
P-HSR-MAG-BXDS01A.29 | The magnet shall be design is TBD to have a splittable pole. |
P-HSR-MAG-CORR_0.5m.29 | The magnet shall be design is TBD to have a splittable pole. |
P-HSR-MAG-CQS(Sxt).29 | The magnet shall be design is TBD to have a splittable pole. |
P-HSR-MAG-D5I.29 | The magnet shall be design is TBD to have a splittable pole. |
P-HSR-MAG-D5O.29 | The magnet shall be design is TBD to have a splittable pole. |
P-HSR-MAG-D5O_D5I.29 | The magnet shall be design is TBD to have a splittable pole. |
P-HSR-MAG-D6.29 | The magnet shall be design is TBD to have a splittable pole. |
P-HSR-MAG-D8.29 | The magnet shall be design is TBD to have a splittable pole. |
P-HSR-MAG-D8_IR02.29 | The magnet shall be design is TBD to have a splittable pole. |
P-HSR-MAG-D8_IR06.29 | The magnet shall be design is TBD to have a splittable pole. |
P-HSR-MAG-D9.29 | The magnet shall be design is TBD to have a splittable pole. |
P-HSR-MAG-H5_QS3.29 | The magnet shall be design is TBD to have a splittable pole. |
P-HSR-MAG-IR_Q5.29 | The magnet shall be design is TBD to have a splittable pole. |
P-HSR-MAG-IR_Q6.29 | The magnet shall be design is TBD to have a splittable pole. |
P-HSR-MAG-IR_Q8.29 | The magnet shall be design is TBD to have a splittable pole. |
P-HSR-MAG-IR_Q9.29 | The magnet shall be design is TBD to have a splittable pole. |
P-HSR-MAG-IR_VKICKER_0.25.29 | The magnet shall be design is TBD to have a splittable pole. |
P-HSR-MAG-KA3.29 | The magnet shall be design is TBD to have a splittable pole. |
P-HSR-MAG-Q1.29 | The magnet shall be design is TBD to have a splittable pole. |
P-HSR-MAG-Q2.29 | The magnet shall be design is TBD to have a splittable pole. |
P-HSR-MAG-Q3.29 | The magnet shall be design is TBD to have a splittable pole. |
P-HSR-MAG-Q3PR.29 | The magnet shall be design is TBD to have a splittable pole. |
P-HSR-MAG-Q4.29 | The magnet shall be design is TBD to have a splittable pole. |
P-HSR-MAG-Q4PR.29 | The magnet shall be design is TBD to have a splittable pole. |
P-HSR-MAG-Q5.29 | The magnet shall be design is TBD to have a splittable pole. |
P-HSR-MAG-Q5PR.29 | The magnet shall be design is TBD to have a splittable pole. |
P-HSR-MAG-Q7.29 | The magnet shall be design is TBD to have a splittable pole. |
P-HSR-MAG-Q8.29 | The magnet shall be design is TBD to have a splittable pole. |
P-HSR-MAG-Q9.29 | The magnet shall be design is TBD to have a splittable pole. |
P-HSR-MAG-SLOWKICK_CORR.29 | The magnet shall be design is TBD to have a splittable pole. |
P-HSR-MAG-TQ1.29 | The magnet shall be design is TBD to have a splittable pole. |
P-HSR-MAG-TQ2.29 | The magnet shall be design is TBD to have a splittable pole. |
P-HSR-MAG-TQ3.29 | The magnet shall be design is TBD to have a splittable pole. |
This function not yet implemented.