2002-04-08T17:38:00.000
\header
System               = GRS
Author               = mward
Institution          = UofAz
Start_time           = 04/08/02 17:00
Stop_time            = 04/09/02 18:30
Send_time            = Mon Apr 08 17:38:00 GMT 2002
\text
Purpose:
Load GRS EEPROM sequences to setup for the thermostatic control of the CEB
Expected result:
Sequences 33b and 34b will be populated with the CEB heater on and off
sequences (temperature controlled), respectively, and sequences 31b and 32b
will be populated with the alternating duty cycle control sequences(3.2 sec on
Why it is needed:
In order to eliminate/reduce the effect of orbital (and other) temperature
Commands to be sent:
/home/grs2001/software/SC_Commands/Post-MOI_1/bce_bfl/c01grs_s31b_ceb_duty_on_
 3131,    immediate, CHG_SEQ, 48, B-31, 4
 0:    immediate, CHG_CEB_INT, 0, 16800, 1, 0
 1:    immediate, CHG_ANALOG, CEB_AGND_SPARE2, SEQUENCE, 160, 0
 2:    immediate, CEB_HTR, ON, 0
 3:    immediate, CHG_ANALOG, CEB_AGND_SPARE2, COMPARE_SETTING, 1, 0diate,
 2442, +     18000 , CHG_ANALOG, CEB_OS_TEMP_A, LESS_COMPARE_VALUE, 2506
 2480, +     18000 , CHG_ANALOG, CEB_OS_TEMP_A, GREATER_COMPARE_VALUE, 2510
 2484, +     36000 , CHG_ANALOG, CEB_OS_TEMP_A, LESS_COMPARE_VALUE, 2708
 2482, +     36000 , CHG_ANALOG, CEB_OS_TEMP_A, GREATER_COMPARE_VALUE, 2712
 2499, +     54000 , CHG_ANALOG, CEB_OS_TEMP_A, LESS_COMPARE_VALUE, 2910
 2500, +     54000 , CHG_ANALOG, CEB_OS_TEMP_A, GREATER_COMPARE_VALUE, 2914
 1128, +     54060 , EXEC_SEQ, 28, 1CTION, 6
 2371, +        35 , CHG_ANALOG, CEB_OS_TEMP_A, LESS_COMPARE_VALUE, 1481
 2376, +        35 , CHG_ANALOG, CEB_OS_TEMP_A, GREATER_COMPARE_VALUE, 1485
 1148, +        55 , EXEC_SEQ, 48, 1
 1128, +        60 , EXEC_SEQ, 28, 1
 1403, +       420 , DOOR, Open, 1, 1
 2488, +      4020 , CHG_ANALOG, CEB_MNT_RNG_TEMP_A, OUT_OF_RANGE, 2
 2489, +      4020 , CHG_ANALOG, CEB_MNT_RNG_TEMP_A, COLLECTION, 6
 2438, +      4020 , CHG_ANALOG, CEB_MNT_RNG_TEMP_A, LESS_COMPARE_VALUE, 2024
 2428, +      4020 , CHG_ANALOG, CEB_MNT_RNG_TEMP_A, GREATER_COMPARE_VALUE,
 1115, +      4040 , EXEC_SEQ, 15, 1
 2458, +      4040 , CHG_ANALOG, GAMMA_GPA_TEMP, OUT_OF_RANGE, 2
 2459, +      4040 , CHG_ANALOG, GAMMA_GPA_TEMP, COLLECTION, 6
 2451, +      4040 , CHG_ANALOG, GAMMA_GPA_TEMP, LESS_COMPARE_VALUE, 6347
 2454, +      4040 , CHG_ANALOG, GAMMA_GPA_TEMP, GREATER_COMPARE_VALUE, 6357
 1117, +      4060 , EXEC_SEQ, 17, 1
 2468, +      4060 , CHG_ANALOG, CEB_IS_TEMP_B, OUT_OF_RANGE, 3
 2485, +      4060 , CHG_ANALOG, CEB_IS_TEMP_B, GREATER_COMPARE_VALUE, 4095
 2475, +      4060 , CHG_ANALOG, CEB_IS_TEMP_B, SEQUENCE, 153
 2471, +      4060 , CHG_ANALOG, CEB_IS_TEMP_B, COMPARE_SETTING, 2
 2065, +      4060 , CHG_ANALOG, CEB_IS_TEMP_A, OUT_OF_RANGE, 3
 2426, +      4060 , CHG_ANALOG, CEB_IS_TEMP_A, GREATER_COMPARE_VALUE, 4484
 2418, +      4060 , CHG_ANALOG, CEB_IS_TEMP_A, SEQUENCE, 155
 2052, +      4060 , CHG_ANALOG, CEB_IS_TEMP_A, COMPARE_SETTING, 2
 1128, +      4065 , EXEC_SEQ, 28, 1Contingency
2002-04-08T17:38:00.000
\header
System               = GRS
Author               = mward
Institution          = UofAz
Start_time           = 04/08/02 17:00
Stop_time            = 04/09/02 18:30
Send_time            = Mon Apr 08 17:38:00 GMT 2002
\text
Purpose:
Load GRS EEPROM sequences to setup for the thermostatic control of the CEB
Expected result:
Sequences 33b and 34b will be populated with the CEB heater on and off
sequences (temperature controlled), respectively, and sequences 31b and 32b
will be populated with the alternating duty cycle control sequences(3.2 sec on
Why it is needed:
In order to eliminate/reduce the effect of orbital (and other) temperature
Commands to be sent:
/home/grs2001/software/SC_Commands/Post-MOI_1/bce_bfl/c01grs_s32b_ceb_duty_off
 3132,    immediate, CHG_SEQ, 48, B-32, 4
 0:    immediate, CHG_CEB_INT, 0, 3200, 1, 0
 1:    immediate, CHG_ANALOG, CEB_AGND_SPARE2, SEQUENCE, 159, 0
 2:    immediate, CEB_HTR, OFF, 0
 3:    immediate, CHG_ANALOG, CEB_AGND_SPARE2, COMPARE_SETTING, 1, 0iate,
 2442, +     18000 , CHG_ANALOG, CEB_OS_TEMP_A, LESS_COMPARE_VALUE, 2506
 2480, +     18000 , CHG_ANALOG, CEB_OS_TEMP_A, GREATER_COMPARE_VALUE, 2510
 2484, +     36000 , CHG_ANALOG, CEB_OS_TEMP_A, LESS_COMPARE_VALUE, 2708
 2482, +     36000 , CHG_ANALOG, CEB_OS_TEMP_A, GREATER_COMPARE_VALUE, 2712
 2499, +     54000 , CHG_ANALOG, CEB_OS_TEMP_A, LESS_COMPARE_VALUE, 2910
 2500, +     54000 , CHG_ANALOG, CEB_OS_TEMP_A, GREATER_COMPARE_VALUE, 2914
 1128, +     54060 , EXEC_SEQ, 28, 1CTION, 6
 2371, +        35 , CHG_ANALOG, CEB_OS_TEMP_A, LESS_COMPARE_VALUE, 1481
 2376, +        35 , CHG_ANALOG, CEB_OS_TEMP_A, GREATER_COMPARE_VALUE, 1485
 1148, +        55 , EXEC_SEQ, 48, 1
 1128, +        60 , EXEC_SEQ, 28, 1
 1403, +       420 , DOOR, Open, 1, 1
 2488, +      4020 , CHG_ANALOG, CEB_MNT_RNG_TEMP_A, OUT_OF_RANGE, 2
 2489, +      4020 , CHG_ANALOG, CEB_MNT_RNG_TEMP_A, COLLECTION, 6
 2438, +      4020 , CHG_ANALOG, CEB_MNT_RNG_TEMP_A, LESS_COMPARE_VALUE, 2024
 2428, +      4020 , CHG_ANALOG, CEB_MNT_RNG_TEMP_A, GREATER_COMPARE_VALUE,
 1115, +      4040 , EXEC_SEQ, 15, 1
 2458, +      4040 , CHG_ANALOG, GAMMA_GPA_TEMP, OUT_OF_RANGE, 2
 2459, +      4040 , CHG_ANALOG, GAMMA_GPA_TEMP, COLLECTION, 6
 2451, +      4040 , CHG_ANALOG, GAMMA_GPA_TEMP, LESS_COMPARE_VALUE, 6347
 2454, +      4040 , CHG_ANALOG, GAMMA_GPA_TEMP, GREATER_COMPARE_VALUE, 6357
 1117, +      4060 , EXEC_SEQ, 17, 1
 2468, +      4060 , CHG_ANALOG, CEB_IS_TEMP_B, OUT_OF_RANGE, 3
 2485, +      4060 , CHG_ANALOG, CEB_IS_TEMP_B, GREATER_COMPARE_VALUE, 4095
 2475, +      4060 , CHG_ANALOG, CEB_IS_TEMP_B, SEQUENCE, 153
 2471, +      4060 , CHG_ANALOG, CEB_IS_TEMP_B, COMPARE_SETTING, 2
 2065, +      4060 , CHG_ANALOG, CEB_IS_TEMP_A, OUT_OF_RANGE, 3
 2426, +      4060 , CHG_ANALOG, CEB_IS_TEMP_A, GREATER_COMPARE_VALUE, 4484
 2418, +      4060 , CHG_ANALOG, CEB_IS_TEMP_A, SEQUENCE, 155
 2052, +      4060 , CHG_ANALOG, CEB_IS_TEMP_A, COMPARE_SETTING, 2
 1128, +      4065 , EXEC_SEQ, 28, 1Contingency
2002-04-08T17:38:00.000
\header
System               = GRS
Author               = mward
Institution          = UofAz
Start_time           = 04/08/02 17:00
Stop_time            = 04/09/02 18:30
Send_time            = Mon Apr 08 17:38:00 GMT 2002
\text
Purpose:
Load GRS EEPROM sequences to setup for the thermostatic control of the CEB
Expected result:
Sequences 33b and 34b will be populated with the CEB heater on and off
sequences (temperature controlled), respectively, and sequences 31b and 32b
will be populated with the alternating duty cycle control sequences(3.2 sec on
Why it is needed:
In order to eliminate/reduce the effect of orbital (and other) temperature
Commands to be sent:
/home/grs2001/software/SC_Commands/Post-MOI_1/bce_bfl/c01grs_s33b_ceb_htr_on_1
 3133,    immediate, CHG_SEQ, 36, B-33, 3
 0:    immediate, EXEC_SEQ, 31, 1, 0
 1:    immediate, CHG_ANALOG, CEB_PS2_TEMP, SEQUENCE, 162, 0
 2:    immediate, CHG_ANALOG, CEB_PS2_TEMP, COMPARE_SETTING, 2, 0CHG_ANALOG,
CEB_AGND_SPARE2, COMPARE_SETTING, 1, 0iate, CHG_ANALOG, CEB_OS_TEMP_A,
 2442, +     18000 , CHG_ANALOG, CEB_OS_TEMP_A, LESS_COMPARE_VALUE, 2506
 2480, +     18000 , CHG_ANALOG, CEB_OS_TEMP_A, GREATER_COMPARE_VALUE, 2510
 2484, +     36000 , CHG_ANALOG, CEB_OS_TEMP_A, LESS_COMPARE_VALUE, 2708
 2482, +     36000 , CHG_ANALOG, CEB_OS_TEMP_A, GREATER_COMPARE_VALUE, 2712
 2499, +     54000 , CHG_ANALOG, CEB_OS_TEMP_A, LESS_COMPARE_VALUE, 2910
 2500, +     54000 , CHG_ANALOG, CEB_OS_TEMP_A, GREATER_COMPARE_VALUE, 2914
 1128, +     54060 , EXEC_SEQ, 28, 1CTION, 6
 2371, +        35 , CHG_ANALOG, CEB_OS_TEMP_A, LESS_COMPARE_VALUE, 1481
 2376, +        35 , CHG_ANALOG, CEB_OS_TEMP_A, GREATER_COMPARE_VALUE, 1485
 1148, +        55 , EXEC_SEQ, 48, 1
 1128, +        60 , EXEC_SEQ, 28, 1
 1403, +       420 , DOOR, Open, 1, 1
 2488, +      4020 , CHG_ANALOG, CEB_MNT_RNG_TEMP_A, OUT_OF_RANGE, 2
 2489, +      4020 , CHG_ANALOG, CEB_MNT_RNG_TEMP_A, COLLECTION, 6
 2438, +      4020 , CHG_ANALOG, CEB_MNT_RNG_TEMP_A, LESS_COMPARE_VALUE, 2024
 2428, +      4020 , CHG_ANALOG, CEB_MNT_RNG_TEMP_A, GREATER_COMPARE_VALUE,
 1115, +      4040 , EXEC_SEQ, 15, 1
 2458, +      4040 , CHG_ANALOG, GAMMA_GPA_TEMP, OUT_OF_RANGE, 2
 2459, +      4040 , CHG_ANALOG, GAMMA_GPA_TEMP, COLLECTION, 6
 2451, +      4040 , CHG_ANALOG, GAMMA_GPA_TEMP, LESS_COMPARE_VALUE, 6347
 2454, +      4040 , CHG_ANALOG, GAMMA_GPA_TEMP, GREATER_COMPARE_VALUE, 6357
 1117, +      4060 , EXEC_SEQ, 17, 1
 2468, +      4060 , CHG_ANALOG, CEB_IS_TEMP_B, OUT_OF_RANGE, 3
 2485, +      4060 , CHG_ANALOG, CEB_IS_TEMP_B, GREATER_COMPARE_VALUE, 4095
 2475, +      4060 , CHG_ANALOG, CEB_IS_TEMP_B, SEQUENCE, 153
 2471, +      4060 , CHG_ANALOG, CEB_IS_TEMP_B, COMPARE_SETTING, 2
 2065, +      4060 , CHG_ANALOG, CEB_IS_TEMP_A, OUT_OF_RANGE, 3
 2426, +      4060 , CHG_ANALOG, CEB_IS_TEMP_A, GREATER_COMPARE_VALUE, 4484
 2418, +      4060 , CHG_ANALOG, CEB_IS_TEMP_A, SEQUENCE, 155
 2052, +      4060 , CHG_ANALOG, CEB_IS_TEMP_A, COMPARE_SETTING, 2
 1128, +      4065 , EXEC_SEQ, 28, 1Contingency
2002-04-08T17:38:00.000
\header
System               = GRS
Author               = mward
Institution          = UofAz
Start_time           = 04/08/02 17:00
Stop_time            = 04/09/02 18:30
Send_time            = Mon Apr 08 17:38:00 GMT 2002
\text
Purpose:
Load GRS EEPROM sequences to setup for the thermostatic control of the CEB
Expected result:
Sequences 33b and 34b will be populated with the CEB heater on and off
sequences (temperature controlled), respectively, and sequences 31b and 32b
will be populated with the alternating duty cycle control sequences(3.2 sec on
Why it is needed:
In order to eliminate/reduce the effect of orbital (and other) temperature
Commands to be sent:
/home/grs2001/software/SC_Commands/Post-MOI_1/bce_bfl/c01grs_s34b_ceb_htr_off_
 3134,    immediate, CHG_SEQ, 60, B-34, 5
 0:    immediate, CHG_ANALOG, CEB_AGND_SPARE2, COMPARE_SETTING, 0, 0
 1:    immediate, CEB_HTR, OFF, 0
 2:    immediate, CHG_ANALOG, CEB_PS2_TEMP, SEQUENCE, 161, 0
 3:    immediate, CHG_ANALOG, CEB_PS2_TEMP, COMPARE_SETTING, 1, 0
 4:    immediate, CHG_CEB_INT, 0, 1000, 1, 02442, +     18000 , CHG_ANALOG,
 2480, +     18000 , CHG_ANALOG, CEB_OS_TEMP_A, GREATER_COMPARE_VALUE, 2510
 2484, +     36000 , CHG_ANALOG, CEB_OS_TEMP_A, LESS_COMPARE_VALUE, 2708
 2482, +     36000 , CHG_ANALOG, CEB_OS_TEMP_A, GREATER_COMPARE_VALUE, 2712
 2499, +     54000 , CHG_ANALOG, CEB_OS_TEMP_A, LESS_COMPARE_VALUE, 2910
 2500, +     54000 , CHG_ANALOG, CEB_OS_TEMP_A, GREATER_COMPARE_VALUE, 2914
 1128, +     54060 , EXEC_SEQ, 28, 1CTION, 6
 2371, +        35 , CHG_ANALOG, CEB_OS_TEMP_A, LESS_COMPARE_VALUE, 1481
 2376, +        35 , CHG_ANALOG, CEB_OS_TEMP_A, GREATER_COMPARE_VALUE, 1485
 1148, +        55 , EXEC_SEQ, 48, 1
 1128, +        60 , EXEC_SEQ, 28, 1
 1403, +       420 , DOOR, Open, 1, 1
 2488, +      4020 , CHG_ANALOG, CEB_MNT_RNG_TEMP_A, OUT_OF_RANGE, 2
 2489, +      4020 , CHG_ANALOG, CEB_MNT_RNG_TEMP_A, COLLECTION, 6
 2438, +      4020 , CHG_ANALOG, CEB_MNT_RNG_TEMP_A, LESS_COMPARE_VALUE, 2024
 2428, +      4020 , CHG_ANALOG, CEB_MNT_RNG_TEMP_A, GREATER_COMPARE_VALUE,
 1115, +      4040 , EXEC_SEQ, 15, 1
 2458, +      4040 , CHG_ANALOG, GAMMA_GPA_TEMP, OUT_OF_RANGE, 2
 2459, +      4040 , CHG_ANALOG, GAMMA_GPA_TEMP, COLLECTION, 6
 2451, +      4040 , CHG_ANALOG, GAMMA_GPA_TEMP, LESS_COMPARE_VALUE, 6347
 2454, +      4040 , CHG_ANALOG, GAMMA_GPA_TEMP, GREATER_COMPARE_VALUE, 6357
 1117, +      4060 , EXEC_SEQ, 17, 1
 2468, +      4060 , CHG_ANALOG, CEB_IS_TEMP_B, OUT_OF_RANGE, 3
 2485, +      4060 , CHG_ANALOG, CEB_IS_TEMP_B, GREATER_COMPARE_VALUE, 4095
 2475, +      4060 , CHG_ANALOG, CEB_IS_TEMP_B, SEQUENCE, 153
 2471, +      4060 , CHG_ANALOG, CEB_IS_TEMP_B, COMPARE_SETTING, 2
 2065, +      4060 , CHG_ANALOG, CEB_IS_TEMP_A, OUT_OF_RANGE, 3
 2426, +      4060 , CHG_ANALOG, CEB_IS_TEMP_A, GREATER_COMPARE_VALUE, 4484
 2418, +      4060 , CHG_ANALOG, CEB_IS_TEMP_A, SEQUENCE, 155
 2052, +      4060 , CHG_ANALOG, CEB_IS_TEMP_A, COMPARE_SETTING, 2
 1128, +      4065 , EXEC_SEQ, 28, 1Contingency