Proof ASSEMBLY_AND_OPERATION_INFORMATION (#337)
This commit is contained in:
parent
27e2acf88a
commit
3a9b000cb4
@ -46,7 +46,7 @@
|
|||||||
# PINBALL NOUN TABLES
|
# PINBALL NOUN TABLES
|
||||||
# CSM GEOMETRY
|
# CSM GEOMETRY
|
||||||
# IMU COMPENSATION PACKAGE
|
# IMU COMPENSATION PACKAGE
|
||||||
# PINBALL GAME BUTTONS AND LIGHTS
|
# PINBALL GAME BUTTONS AND LIGHTS
|
||||||
# R60,R62
|
# R60,R62
|
||||||
# ANGLFIND
|
# ANGLFIND
|
||||||
# GIMBAL LOCK AVOIDANCE
|
# GIMBAL LOCK AVOIDANCE
|
||||||
@ -62,7 +62,7 @@
|
|||||||
# STABLE ORBIT - P38-P39
|
# STABLE ORBIT - P38-P39
|
||||||
# TROUBLE
|
# TROUBLE
|
||||||
# P11
|
# P11
|
||||||
# TP1 SEARCH
|
# TPI SEARCH
|
||||||
# P20-P25
|
# P20-P25
|
||||||
# P30,P37
|
# P30,P37
|
||||||
# P32-P33, P72-P73
|
# P32-P33, P72-P73
|
||||||
@ -77,14 +77,14 @@
|
|||||||
# P37,P70
|
# P37,P70
|
||||||
# S-BAND ANTENNA FOR CM
|
# S-BAND ANTENNA FOR CM
|
||||||
# TVCDAPS
|
# TVCDAPS
|
||||||
# TVC INITIALIZE
|
# TVCINITIALIZE
|
||||||
# Page 3
|
# Page 3
|
||||||
# TVC EXECUTIVE
|
# TVCEXECUTIVE
|
||||||
# TVC MASSPROP
|
# TVCMASSPROP
|
||||||
# TVC RESTARTS
|
# TVCRESTARTS
|
||||||
# TVC DAPS
|
# TVCDAPS
|
||||||
# TVC STROKE TEST
|
# TVCSTROKETEST
|
||||||
# TVC ROLLDAP
|
# TVCROLLDAP
|
||||||
# MYSUBS
|
# MYSUBS
|
||||||
# RCS-CSM DIGITAL AUTOPILOT
|
# RCS-CSM DIGITAL AUTOPILOT
|
||||||
# AUTOMATIC MANEUVERS
|
# AUTOMATIC MANEUVERS
|
||||||
@ -139,44 +139,44 @@
|
|||||||
|
|
||||||
# REGULAR VERBS
|
# REGULAR VERBS
|
||||||
|
|
||||||
# 00 NOT IN USE
|
# 00 NOT IN USE
|
||||||
# 01 DISPLAY OCTAL COMP 1 IN R1
|
# 01 DISPLAY OCTAL COMP 1 IN R1
|
||||||
# 02 DISPLAY OCTAL COMP 2 IN R1
|
# 02 DISPLAY OCTAL COMP 2 IN R1
|
||||||
# 03 DISPLAY OCTAL COMP 3 IN R1
|
# 03 DISPLAY OCTAL COMP 3 IN R1
|
||||||
# 04 DISPLAY OCTAL COMP 1,2 IN R1,R2
|
# 04 DISPLAY OCTAL COMP 1,2 IN R1,R2
|
||||||
# 05 DISPLAY OCTAL COMP 1,2,3 IN R1,R2,R3
|
# 05 DISPLAY OCTAL COMP 1,2,3 IN R1,R2,R3
|
||||||
# 06 DISPLAY DECIMAL IN R1 OR R1,R2 OR R1,R2,R3
|
# 06 DISPLAY DECIMAL IN R1 OR R1,R2 OR R1,R2,R3
|
||||||
# 07 DISPLAY DP DECIMAL IN R1,R2 (TEST ONLY)
|
# 07 DISPLAY DP DECIMAL IN R1,R2 (TEST ONLY)
|
||||||
# 08
|
# 08
|
||||||
# 09
|
# 09
|
||||||
# 10
|
# 10
|
||||||
# 11 MONITOR OCTAL COMP 1 IN R1
|
# 11 MONITOR OCTAL COMP 1 IN R1
|
||||||
# 12 MONITOR OCTAL COMP 2 IN R1
|
# 12 MONITOR OCTAL COMP 2 IN R1
|
||||||
# 13 MONITOR OCTAL COMP 3 IN R1
|
# 13 MONITOR OCTAL COMP 3 IN R1
|
||||||
# 14 MONITOR OCTAL COMP 1,2, IN R1,R2
|
# 14 MONITOR OCTAL COMP 1,2, IN R1,R2
|
||||||
# 15 MONITOR OCTAL COMP 1,2,3 IN R1,R2,R3
|
# 15 MONITOR OCTAL COMP 1,2,3 IN R1,R2,R3
|
||||||
# 16 MONITOR DECIMAL IN R1 OR R1,R2 OR R1,R2,R3
|
# 16 MONITOR DECIMAL IN R1 OR R1,R2 OR R1,R2,R3
|
||||||
# 17 MONITOR DP DECIMAL IN R1,R2 (TEST ONLY)
|
# 17 MONITOR DP DECIMAL IN R1,R2 (TEST ONLY)
|
||||||
# 18
|
# 18
|
||||||
# 19
|
# 19
|
||||||
# 20
|
# 20
|
||||||
# 21 LOAD COMPONENT 1 INTO R1
|
# 21 LOAD COMPONENT 1 INTO R1
|
||||||
# 22 LOAD COMPONENT 2 INTO R2
|
# 22 LOAD COMPONENT 2 INTO R2
|
||||||
# 23 LOAD COMPONENT 3 INTO R3
|
# 23 LOAD COMPONENT 3 INTO R3
|
||||||
# 24 LOAD COMPONENT 1,2 INTO R1,R2
|
# 24 LOAD COMPONENT 1,2 INTO R1,R2
|
||||||
# 25 LOAD COMPONENT 1,2,3 INTO R1,R2,R3
|
# 25 LOAD COMPONENT 1,2,3 INTO R1,R2,R3
|
||||||
# 26
|
# 26
|
||||||
# 27 DISPLAY FIXED MEMORY
|
# 27 DISPLAY FIXED MEMORY
|
||||||
# 28
|
# 28
|
||||||
# 29
|
# 29
|
||||||
# 30 REQUEST EXECUTIVE
|
# 30 REQUEST EXECUTIVE
|
||||||
# 31 REQUEST WAITLIST
|
# 31 REQUEST WAITLIST
|
||||||
# 32 RECYCLE PROGRAM
|
# 32 RECYCLE PROGRAM
|
||||||
# 33 PROCEED WITHOUT DSKY INPUTS
|
# 33 PROCEED WITHOUT DSKY INPUTS
|
||||||
# 34 TERMINATE FUNCTION
|
# 34 TERMINATE FUNCTION
|
||||||
# 35 TEST LIGHTS
|
# 35 TEST LIGHTS
|
||||||
# 36 REQUEST FRESH START
|
# 36 REQUEST FRESH START
|
||||||
# 37 CHANGE PROGRAM (MAJOR MODE)
|
# 37 CHANGE PROGRAM (MAJOR MODE)
|
||||||
# 38
|
# 38
|
||||||
# 39
|
# 39
|
||||||
|
|
||||||
@ -184,80 +184,80 @@
|
|||||||
|
|
||||||
# EXTENDED VERBS
|
# EXTENDED VERBS
|
||||||
|
|
||||||
# 40 ZERO CDU-S
|
# 40 ZERO CDU-S
|
||||||
# 41 COARSE ALIGN CDU-S
|
# 41 COARSE ALIGN CDU-S
|
||||||
# 42 FINE ALIGN IMU-S
|
# 42 FINE ALIGN IMU-S
|
||||||
# 43 LOAD IMU ATT ERROR METERS
|
# 43 LOAD IMU ATT ERROR METERS
|
||||||
# 44 SET SURFACE FLAG
|
# 44 SET SURFACE FLAG
|
||||||
# 45 RESET SURFACE FLAG
|
# 45 RESET SURFACE FLAG
|
||||||
# 46 ESTABLISH G&C CONTROL
|
# 46 ESTABLISH G+C CONTROL
|
||||||
# 47 MOVE LM STATE VECTOR INTO CM STATE VECTOR.
|
# 47 MOVE LM STATE VECTOR INTO CM STATE VECTOR.
|
||||||
# 48 REQUEST DAP DATA LOAD ROUTINE (R03)
|
# 48 REQUEST DAP DATA LOAD ROUTINE (R03)
|
||||||
# 49 REQUEST CREW DEFINED MANEUVER ROUTINE (R62)
|
# 49 REQUEST CREW DEFINED MANEUVER ROUTINE (R62)
|
||||||
# 50 PLEASE PERFORM
|
# 50 PLEASE PERFORM
|
||||||
# 51 PLEASE MARK
|
# 51 PLEASE MARK
|
||||||
# 52 MARK ON OFFSET LANDING SITE
|
# 52 MARK ON OFFSET LANDING SITE
|
||||||
# 53 PLEASE PERFORM ALTERNATE LOS MARK
|
# 53 PLEASE PERFORM ALTERNATE LOS MARK
|
||||||
# 54 REQUEST RENDEZVOUS BACKUP SIGHTING MARK ROUTINE (R23)
|
# 54 REQUEST RENDEZVOUS BACKUP SIGHTING MARK ROUTINE (R23)
|
||||||
# 55 INCREMENT AGC TIME (DECIMAL)
|
# 55 INCREMENT AGC TIME (DECIMAL)
|
||||||
# 56 TERMINATE TRACKING (P20 + P25)
|
# 56 TERMINATE TRACKING (P20 + P25)
|
||||||
# 57 REQUEST RENDEZVOUS SIGHTING MARK ROUTINE (R21)
|
# 57 REQUEST RENDEZVOUS SIGHTING MARK ROUTINE (R21)
|
||||||
# 58 RESET STICK FLAG
|
# 58 RESET STICK FLAG
|
||||||
# 59 PLEASE CALIBRATE
|
# 59 PLEASE CALIBRATE
|
||||||
# 60 SET ASTRONAUT TOTAL ATTITUDE (N17) TO PRESENT ATTITUDE
|
# 60 SET ASTRONAUT TOTAL ATTITUDE (N17) TO PRESENT ATTITUDE
|
||||||
# 61 DISPLAY DAP ATTITUDE ERROR
|
# 61 DISPLAY DAP ATTITUDE ERROR
|
||||||
# 62 DISPLAY TOTAL ATTITUDE ERROR (WRT N22 (THETAD))
|
# 62 DISPLAY TOTAL ATTITUDE ERROR (WRT N22 (THETAD))
|
||||||
# 63 DISPLAY TOTAL ASTRONAUT ATTITUDE ERROR (WRT N17 (CPHIX))
|
# 63 DISPLAY TOTAL ASTRONAUT ATTITUDE ERROR (WRT N17 (CPHIX))
|
||||||
# 64 REQUEST S-BAND ANTENNA ROUTINE
|
# 64 REQUEST S-BAND ANTENNA ROUTINE
|
||||||
# 65 OPTICAL VERIFICATION OF PRELAUNCH ALIGNMENT
|
# 65 OPTICAL VERIFICATION OF PRELAUNCH ALIGNMENT
|
||||||
# 66 VEHICLES ARE ATTACHED. MOVE THIS VEHICLE STATE TO OTHER VEHICLE.
|
# 66 VEHICLES ARE ATTACHED. MOVE THIS VEHICLE STATE TO OTHER VEHICLE.
|
||||||
# 67
|
# 67
|
||||||
# 68 CSM STROKE TEST ON
|
# 68 CSM STROKE TEST ON
|
||||||
# 69 CAUSE RESTART
|
# 69 CAUSE RESTART
|
||||||
# 70 UPDATE LIFTOFF TIME
|
# 70 UPDATE LIFTOFF TIME
|
||||||
# 71 UNIVERSAL UPDATE-BLOCK ADR
|
# 71 UNIVERSAL UPDATE-BLOCK ADR
|
||||||
# 72 UNIVERSAL UPDATE-SINGLE ADR
|
# 72 UNIVERSAL UPDATE-SINGLE ADR
|
||||||
# 73 UPDATE AGC TIME (OCTAL)
|
# 73 UPDATE AGC TIME (OCTAL)
|
||||||
# 74 INITIALIZE ERASABLE DUMP VIA DOWNLINK
|
# 74 INITIALIZE ERASABLE DUMP VIA DOWNLINK
|
||||||
# 75 BACKUP LIFTOFF
|
# 75 BACKUP LIFTOFF
|
||||||
# 76 SET PREFERRED ATTITUDE FLAG
|
# 76 SET PREFERRED ATTITUDE FLAG
|
||||||
# 77 RESET PREFERRED ATTITUDE FLAG
|
# 77 RESET PREFERRED ATTITUDE FLAG
|
||||||
# 78 UPDATE PRELAUNCH AZIMUTH
|
# 78 UPDATE PRELAUNCH AZIMUTH
|
||||||
# 79 REQUEST LUNAR LANDMARK SELECTION ROUTINE (R35)
|
# 79 REQUEST LUNAR LANDMARK SELECTION ROUTINE (R35)
|
||||||
# 80 UPDATE LEM STATE VECTOR
|
# 80 UPDATE LEM STATE VECTOR
|
||||||
# 81 UPDATE CSM STATE VECTOR
|
# 81 UPDATE CSM STATE VECTOR
|
||||||
# 82 REQUEST ORBIT PARAM DISPLAY (R30)
|
# 82 REQUEST ORBIT PARAM DISPLAY (R30)
|
||||||
# 83 REQUEST REND PARAM DISPLAY (R31)
|
# 83 REQUEST REND PARAM DISPLAY (R31)
|
||||||
# 84 START TARGET DELTA V (R32)
|
# 84 START TARGET DELTA V (R32)
|
||||||
# 85 REQUEST RENDEZVOUS PARAMETER DISPLAY NO. 2 (R34)
|
# 85 REQUEST RENDEZVOUS PARAMETER DISPLAY NO. 2 (R34)
|
||||||
# 86 REJECT RENDEZVOUS BACKUP SIGHTING MARK
|
# 86 REJECT RENDEZVOUS BACKUP SIGHTING MARK
|
||||||
# 87 SET VHF RANGE FLAG
|
# 87 SET VHF RANGE FLAG
|
||||||
# Page 7
|
# Page 7
|
||||||
# 88 RESET VHF RANGE FLAG
|
# 88 RESET VHF RANGE FLAG
|
||||||
# 89 REQUEST RENDEZVOUS FINAL ATTITUDE ROUTINE (R63)
|
# 89 REQUEST RENDEZVOUS FINAL ATTITUDE ROUTINE (R63)
|
||||||
# 90 REQUEST RENDEZVOUS OUT OF PLANE DISPLAY ROUTINE (R36)
|
# 90 REQUEST RENDEZVOUS OUT OF PLANE DISPLAY ROUTINE (R36)
|
||||||
# 91 DISPLAY BANK SUM
|
# 91 DISPLAY BANK SUM
|
||||||
# 92 OPERATE IMU PERFORMANCE TEST (P07)
|
# 92 OPERATE IMU PERFORMANCE TEST (P07)
|
||||||
# 93 ENABLE W MATRIX INITIALIZATION
|
# 93 ENABLE W MATRIX INITIALIZATION
|
||||||
# 94 PERFORM CYSLUNAR ATTITUDE MANEUVER (P23)
|
# 94 PERFORM CYSLUNAR ATTITUDE MANEUVER (P23)
|
||||||
# 95 NO UPDATE OF EITHER STATE VECTOR (P20 OR P22)
|
# 95 NO UPDATE OF EITHER STATE VECTOR (P20 OR P22)
|
||||||
# 96 TERMINATE INTEGRATION AND GO TO P00
|
# 96 TERMINATE INTEGRATION AND GO TO P00
|
||||||
# 97 PERFORM ENGINE FAIL PROCEDURE
|
# 97 PERFORM ENGINE FAIL PROCEDURE
|
||||||
# 98 ENABLE TRANSLUNAR INJECT
|
# 98 ENABLE TRANSLUNAR INJECT
|
||||||
# 99 PLEASE ENABLE ENGINE
|
# 99 PLEASE ENABLE ENGINE
|
||||||
|
|
||||||
# Page 8
|
# Page 8
|
||||||
# IN THE FOLLOWING NOUN LIST THE :NO LOAD: RESTRICTION MEANS THE NOUN
|
# IN THE FOLLOWING NOUN LIST THE :NO LOAD: RESTRICTION MEANS THE NOUN
|
||||||
# CONTAINS AT LEAST ONE COMPONENT WHICH CANNOT BE LOADED, I.E. OF
|
# CONTAINS AT LEAST ONE COMPONENT WHICH CANNOT BE LOADED, I.E. OF
|
||||||
# SCALE TYPE L (MIN/SEC) OR PP (2 INTEGERS).
|
# SCALE TYPE L (MIN/SEC) OR PP (2 INTEGERS).
|
||||||
# IN THIS CASE VERBS 24 AND 25 ARE NOT ALLOWED, BUT VERBS 21, 22, OR 23
|
# IN THIS CASE VERBS 24 AND 25 ARE NOT ALLOWED, BUT VERBS 21, 22 OR 23
|
||||||
# MAY BE USED TO LOAD ANY OF THE NOUN:S COMPONENTS WHICH ARE NOT OF THE
|
# MAY BE USED TO LOAD ANY OF THE NOUN:S COMPONENTS WHICH ARE NOT OF THE
|
||||||
# ABOVE SCALE TYPES.
|
# ABOVE SCALE TYPES.
|
||||||
# THE :DEC ONLY: RESTRICTION MEANS ONLY DECIMAL OPERATION IS ALLOWED ON
|
# THE :DEC ONLY: RESTRICTION MEANS ONLY DECIMAL OPERATION IS ALLOWED ON
|
||||||
# EVERY COMPONENT IN THE NOUN. (NOTE THAT :NO LOAD: IMPLIES :DEC ONLY:.)
|
# EVERY COMPONENT IN THE NOUN. (NOTE THAT :NO LOAD: IMPLIES :DEC ONLY:.)
|
||||||
|
|
||||||
# NORMAL NOUNS COMPONENTS SCALE & DECIMAL POINT RESTRICTIONS
|
# NORMAL NOUNS COMPONENTS SCALE AND DECIMAL POINT RESTRICTIONS
|
||||||
#
|
|
||||||
# 00 NOT IN USE
|
# 00 NOT IN USE
|
||||||
# 01 SPECIFY MACHINE ADDRESS (FRACTIONAL) 3COMP .XXXXX FOR EACH
|
# 01 SPECIFY MACHINE ADDRESS (FRACTIONAL) 3COMP .XXXXX FOR EACH
|
||||||
# 02 SPECIFY MACHINE ADDRESS (WHOLE) 3COMP XXXXX. FOR EACH
|
# 02 SPECIFY MACHINE ADDRESS (WHOLE) 3COMP XXXXX. FOR EACH
|
||||||
@ -276,7 +276,7 @@
|
|||||||
# 000XX. MIN MUST LOAD 3 COMPS
|
# 000XX. MIN MUST LOAD 3 COMPS
|
||||||
# 0XX.XX SEC
|
# 0XX.XX SEC
|
||||||
# 12 OPTION CODE 2COMP OCTAL ONLY FOR EACH
|
# 12 OPTION CODE 2COMP OCTAL ONLY FOR EACH
|
||||||
# (USED BY EXTENDED VERBS ONLY)
|
# (USED BY EXTENDED VERBS ONLY)
|
||||||
# 13 TIG OF CDH 3COMP 00XXX. HRS DEC ONLY
|
# 13 TIG OF CDH 3COMP 00XXX. HRS DEC ONLY
|
||||||
# 000XX. MIN MUST LOAD 3 COMPS
|
# 000XX. MIN MUST LOAD 3 COMPS
|
||||||
# 0XX.XX SEC
|
# 0XX.XX SEC
|
||||||
@ -297,16 +297,12 @@
|
|||||||
# 0XX.XX SEC
|
# 0XX.XX SEC
|
||||||
# 25 CHECKLIST 3COMP XXXXX. FOR EACH
|
# 25 CHECKLIST 3COMP XXXXX. FOR EACH
|
||||||
# (USED WITH PLEASE PERFORM ONLY)
|
# (USED WITH PLEASE PERFORM ONLY)
|
||||||
|
|
||||||
# Page 9
|
# Page 9
|
||||||
|
|
||||||
# 26 PRIORITY/DELAY, ADRES, BBCON 3COMP OCTAL ONLY FOR EACH
|
# 26 PRIORITY/DELAY, ADRES, BBCON 3COMP OCTAL ONLY FOR EACH
|
||||||
# 27 SELF TEST ON/OFF SWITCH 1COMP XXXXX.
|
# 27 SELF TEST ON/OFF SWITCH 1COMP XXXXX.
|
||||||
# 28 SPARE
|
# 28 SPARE
|
||||||
# 29 XSM LAUNCH AZIMUTH 1COMP XXX.XX DEG DEC ONLY
|
# 29 XSM LAUNCH AZIMUTH 1COMP XXX.XX DEG DEC ONLY
|
||||||
|
|
||||||
# Page 10
|
# Page 10
|
||||||
|
|
||||||
# 30 TARGET CODES 3COMP XXXXX. FOR EACH
|
# 30 TARGET CODES 3COMP XXXXX. FOR EACH
|
||||||
# 31 TIME OF LANDING SITE 3COMP 00XXX. HRS DEC ONLY
|
# 31 TIME OF LANDING SITE 3COMP 00XXX. HRS DEC ONLY
|
||||||
# 000XX. MIN MUST LOAD 3 COMPS
|
# 000XX. MIN MUST LOAD 3 COMPS
|
||||||
@ -338,7 +334,7 @@
|
|||||||
|
|
||||||
# Page 11
|
# Page 11
|
||||||
|
|
||||||
# MIXED NOUNS COMPONENTS SCALE & DECIMAL POINT RESTRICTIONS
|
# MIXED NOUNS COMPONENTS SCALE AND DECIMAL POINT RESTRICTIONS
|
||||||
#
|
#
|
||||||
# 40 TIME FROM IGNITION/CUTOFF 3COMP XXBXX MIN/SEC NO LOAD, DEC ONLY
|
# 40 TIME FROM IGNITION/CUTOFF 3COMP XXBXX MIN/SEC NO LOAD, DEC ONLY
|
||||||
# VG, XXXX.X FT/SEC
|
# VG, XXXX.X FT/SEC
|
||||||
@ -361,7 +357,7 @@
|
|||||||
# 47 THIS VEHICLE WEIGHT 2COMP XXXXX. LBS DEC ONLY
|
# 47 THIS VEHICLE WEIGHT 2COMP XXXXX. LBS DEC ONLY
|
||||||
# OTHER VEHICLE WEIGHT XXXXX. LBS
|
# OTHER VEHICLE WEIGHT XXXXX. LBS
|
||||||
# 48 PITCH TRIM 2COMP XXX.XX DEG DEC ONLY
|
# 48 PITCH TRIM 2COMP XXX.XX DEG DEC ONLY
|
||||||
# YAW TRIM, XXX.XX DEG
|
# YAW TRIM, XXX.XX DEG
|
||||||
# 49 DELTA R 3COMP XXXX.X NAUT MI DEC ONLY
|
# 49 DELTA R 3COMP XXXX.X NAUT MI DEC ONLY
|
||||||
# DELTA V XXXX.X FT/SEC
|
# DELTA V XXXX.X FT/SEC
|
||||||
# VHF OR OPTICS CODE XXXXX.
|
# VHF OR OPTICS CODE XXXXX.
|
||||||
@ -373,7 +369,7 @@
|
|||||||
# 52 CENTRAL ANGLE OF ACTIVE VEHICLE 1COMP XXX.XX DEG
|
# 52 CENTRAL ANGLE OF ACTIVE VEHICLE 1COMP XXX.XX DEG
|
||||||
# 53 RANGE, 3COMP XXX.XX NAUT MI DEC ONLY
|
# 53 RANGE, 3COMP XXX.XX NAUT MI DEC ONLY
|
||||||
# RANGE RATE, XXXX.X FT/SEC
|
# RANGE RATE, XXXX.X FT/SEC
|
||||||
# PHI XXX.X DEG
|
# PHI XXX.XX DEG
|
||||||
# 54 RANGE, 3COMP XXX.XX NAUT MI DEC ONLY
|
# 54 RANGE, 3COMP XXX.XX NAUT MI DEC ONLY
|
||||||
# RANGE RATE, XXXX.X FT/SEC
|
# RANGE RATE, XXXX.X FT/SEC
|
||||||
# THETA XXX.XX DEG
|
# THETA XXX.XX DEG
|
||||||
@ -388,9 +384,7 @@
|
|||||||
# DELTA V TPF XXXX.X FT/SEC
|
# DELTA V TPF XXXX.X FT/SEC
|
||||||
# 59 DELTA VELOCITY LOS 3COMP XXXX.X FT/SEC FOR EA. DEC ONLY
|
# 59 DELTA VELOCITY LOS 3COMP XXXX.X FT/SEC FOR EA. DEC ONLY
|
||||||
# 60 GMAX, 3COMP XXX.XX G DEC ONLY
|
# 60 GMAX, 3COMP XXX.XX G DEC ONLY
|
||||||
|
|
||||||
# Page 12
|
# Page 12
|
||||||
|
|
||||||
# VPRED, XXXXX. FT/SEC
|
# VPRED, XXXXX. FT/SEC
|
||||||
# GAMMA EI XXX.XX DEG
|
# GAMMA EI XXX.XX DEG
|
||||||
# 61 IMPACT LATITUDE, 3COMP XXX.XX DEG DEC ONLY
|
# 61 IMPACT LATITUDE, 3COMP XXX.XX DEG DEC ONLY
|
||||||
@ -399,7 +393,7 @@
|
|||||||
# 62 INERTIAL VEL MAG (VI), 3COMP XXXXX. FT/SEC DEC ONLY
|
# 62 INERTIAL VEL MAG (VI), 3COMP XXXXX. FT/SEC DEC ONLY
|
||||||
# ALT RATE CHANGE (HDOT), XXXXX. FT/SEC
|
# ALT RATE CHANGE (HDOT), XXXXX. FT/SEC
|
||||||
# ALT ABOVE PAD RADIUS (H) XXXX.X NAUT MI
|
# ALT ABOVE PAD RADIUS (H) XXXX.X NAUT MI
|
||||||
# 63 RANGE 297,431 TO SPLASH (RTGO), 3COMP XXXX.X NAUT MI NO LOAD, DEC ONLY
|
# 63 RANGE 297,431 TO SPLASH (RTGO), 3COMP XXXX.X NAUT MI NO LOAD, DEC ONLY
|
||||||
# PREDICTED INERT VEL (VIO), XXXXX. FT/SEC
|
# PREDICTED INERT VEL (VIO), XXXXX. FT/SEC
|
||||||
# TIME FROM 297,431 (TFE), XXBXX MIN/SEC
|
# TIME FROM 297,431 (TFE), XXBXX MIN/SEC
|
||||||
# 64 DRAG ACCELERATION, 3COMP XXX.XX G DEC ONLY
|
# 64 DRAG ACCELERATION, 3COMP XXX.XX G DEC ONLY
|
||||||
@ -417,7 +411,7 @@
|
|||||||
# 68 COMMAND BANK ANGLE (BETA), 3COMP XXX.XX DEG DEC ONLY
|
# 68 COMMAND BANK ANGLE (BETA), 3COMP XXX.XX DEG DEC ONLY
|
||||||
# INERTIAL VELOCITY (VI), XXXXX. FT/SEC
|
# INERTIAL VELOCITY (VI), XXXXX. FT/SEC
|
||||||
# ALT RATE CHANGE (RDOT) XXXXX. FT/SEC
|
# ALT RATE CHANGE (RDOT) XXXXX. FT/SEC
|
||||||
# 69 BETA 3COMP XXX.XX DEG
|
# 69 BETA 3COMP XXX.XX DEG DEC ONLY
|
||||||
# DL XXX.XX G
|
# DL XXX.XX G
|
||||||
# VL XXXXX. FT/SEC
|
# VL XXXXX. FT/SEC
|
||||||
# 70 STAR CODE, 3COMP OCTAL ONLY
|
# 70 STAR CODE, 3COMP OCTAL ONLY
|
||||||
@ -441,9 +435,7 @@
|
|||||||
# 78 SPARE
|
# 78 SPARE
|
||||||
# 79 SPARE
|
# 79 SPARE
|
||||||
# 80 TIME FROM IGNITION/CUTOFF 3COMP XXBXX MIN/SEC NO LOAD, DEC ONLY
|
# 80 TIME FROM IGNITION/CUTOFF 3COMP XXBXX MIN/SEC NO LOAD, DEC ONLY
|
||||||
|
|
||||||
# Page 13
|
# Page 13
|
||||||
|
|
||||||
# VG XXXXX. FT/SEC
|
# VG XXXXX. FT/SEC
|
||||||
# DELTA V (ACCUMULATED) XXXXX. FT/SEC
|
# DELTA V (ACCUMULATED) XXXXX. FT/SEC
|
||||||
# 81 DELTA V (LV) 3COMP XXXX.X FT/SEC FOR EACH DEC ONLY
|
# 81 DELTA V (LV) 3COMP XXXX.X FT/SEC FOR EACH DEC ONLY
|
||||||
@ -451,7 +443,7 @@
|
|||||||
# 83 DELTA V (BODY) 3COMP XXXX.X FT/SEC FOR EACH DEC ONLY
|
# 83 DELTA V (BODY) 3COMP XXXX.X FT/SEC FOR EACH DEC ONLY
|
||||||
# 84 DELTA V (OTHER VEHICLE) 3COMP XXXX.X FT/SEC FOR EACH DEC ONLY
|
# 84 DELTA V (OTHER VEHICLE) 3COMP XXXX.X FT/SEC FOR EACH DEC ONLY
|
||||||
# 85 VG (BODY) 3COMP XXXX.X FT/SEC FOR EACH DEC ONLY
|
# 85 VG (BODY) 3COMP XXXX.X FT/SEC FOR EACH DEC ONLY
|
||||||
# 86 DELTA V (LV) 3COMP XXXXX. FT/SEC FOR EACH DEC ONLY
|
# 86 DELTA V(LV) 3COMP XXXXX. FT/SEC FOR EACH DEC ONLY
|
||||||
# 87 MARK DATA SHAFT, 2COMP XXX.XX DEG
|
# 87 MARK DATA SHAFT, 2COMP XXX.XX DEG
|
||||||
# TRUNION XX.XXX DEG
|
# TRUNION XX.XXX DEG
|
||||||
# 88 HALF UNIT SUN OR PLANET VECTOR 3COMP .XXXXX FOR EACH DEC ONLY
|
# 88 HALF UNIT SUN OR PLANET VECTOR 3COMP .XXXXX FOR EACH DEC ONLY
|
||||||
@ -468,7 +460,7 @@
|
|||||||
# 93 DELTA GYRO ANGLES 3COMP XX.XXX DEG FOR EACH
|
# 93 DELTA GYRO ANGLES 3COMP XX.XXX DEG FOR EACH
|
||||||
# 94 NEW OPTICS ANGLES SHAFT 2COMP XXX.XX DEG
|
# 94 NEW OPTICS ANGLES SHAFT 2COMP XXX.XX DEG
|
||||||
# TRUNNION XX.XXX DEG
|
# TRUNNION XX.XXX DEG
|
||||||
# 95 PREFERRED ATTITUDE ICDU ANGLES 3COMP XXX.XX FOR EACH
|
# 95 PREFERRED ATTITUDE ICDU ANGLES 3COMP XXX.XX FOR FOR EACH
|
||||||
# 96 +X-AXIS ATTITUDE ICDU ANGLES 3COMP XXX.XX DEG FOR EACH
|
# 96 +X-AXIS ATTITUDE ICDU ANGLES 3COMP XXX.XX DEG FOR EACH
|
||||||
# 97 SYSTEM TEST INPUTS 3COMP XXXXX. FOR EACH
|
# 97 SYSTEM TEST INPUTS 3COMP XXXXX. FOR EACH
|
||||||
# 98 SYSTEM TEST RESULTS AND INPUTS 3COMP XXXXX.
|
# 98 SYSTEM TEST RESULTS AND INPUTS 3COMP XXXXX.
|
||||||
@ -521,7 +513,7 @@
|
|||||||
# 34 DSPTEM1 K
|
# 34 DSPTEM1 K
|
||||||
# 35 TTOGO K
|
# 35 TTOGO K
|
||||||
# 36 TIME2 K
|
# 36 TIME2 K
|
||||||
# 37 TTP1 K
|
# 37 TTPI K
|
||||||
# 38 TET K
|
# 38 TET K
|
||||||
# 39 T3TOT4 K
|
# 39 T3TOT4 K
|
||||||
|
|
||||||
@ -577,9 +569,7 @@
|
|||||||
# 57 1 DELTAR Q
|
# 57 1 DELTAR Q
|
||||||
# 58 1 POSTTPI Q
|
# 58 1 POSTTPI Q
|
||||||
# 2 DELVTPI S
|
# 2 DELVTPI S
|
||||||
|
|
||||||
# Page 16
|
# Page 16
|
||||||
|
|
||||||
# 3 DELVTPF S
|
# 3 DELVTPF S
|
||||||
# 59 1 DVLOS S
|
# 59 1 DVLOS S
|
||||||
# 2 DVLOS +2 S
|
# 2 DVLOS +2 S
|
||||||
@ -630,9 +620,7 @@
|
|||||||
# 75 1 DIFFALT Q
|
# 75 1 DIFFALT Q
|
||||||
# 2 T1TOT2 L
|
# 2 T1TOT2 L
|
||||||
# 3 T2TOT3 L
|
# 3 T2TOT3 L
|
||||||
|
|
||||||
# Page 17
|
# Page 17
|
||||||
|
|
||||||
# 76 SPARE
|
# 76 SPARE
|
||||||
# 77 SPARE
|
# 77 SPARE
|
||||||
# 78 SPARE
|
# 78 SPARE
|
||||||
@ -660,9 +648,9 @@
|
|||||||
# 3 DELVLVC +4 P
|
# 3 DELVLVC +4 P
|
||||||
# 87 1 MRKBUF1 +3 D
|
# 87 1 MRKBUF1 +3 D
|
||||||
# 2 MRKBUF1 +5 J
|
# 2 MRKBUF1 +5 J
|
||||||
# 88 1 STARSAV ZZ
|
# 88 1 STARSAV3 ZZ
|
||||||
# 2 STARSAV +2 ZZ
|
# 2 STARSAV3 +2 ZZ
|
||||||
# 3 STARSAV +4 ZZ
|
# 3 STARSAV3 +4 ZZ
|
||||||
# 89 1 LANDLAT G
|
# 89 1 LANDLAT G
|
||||||
# 2 LANDLONG G
|
# 2 LANDLONG G
|
||||||
# 3 LANDALT JJ
|
# 3 LANDALT JJ
|
||||||
@ -683,9 +671,7 @@
|
|||||||
# 3 PRAXIS +2 D
|
# 3 PRAXIS +2 D
|
||||||
# 96 1 CPHIX D
|
# 96 1 CPHIX D
|
||||||
# 2 CPHIX +1 D
|
# 2 CPHIX +1 D
|
||||||
|
|
||||||
# Page 18
|
# Page 18
|
||||||
|
|
||||||
# 3 CPHIX +2 D
|
# 3 CPHIX +2 D
|
||||||
# 97 1 DSPTEM1 C
|
# 97 1 DSPTEM1 C
|
||||||
# 2 DSPTEM1 +1 C
|
# 2 DSPTEM1 +1 C
|
||||||
@ -750,9 +736,7 @@
|
|||||||
# LOADED.
|
# LOADED.
|
||||||
#
|
#
|
||||||
# -K-
|
# -K-
|
||||||
|
|
||||||
# Page 20
|
# Page 20
|
||||||
|
|
||||||
# TIME (HR, MIN, SEC) 00XXX. HR DP BIT 1 OF LOW REGISTER =
|
# TIME (HR, MIN, SEC) 00XXX. HR DP BIT 1 OF LOW REGISTER =
|
||||||
# 000XX. MIN -2
|
# 000XX. MIN -2
|
||||||
# 0XX.XX SEC 10 SEC
|
# 0XX.XX SEC 10 SEC
|
||||||
@ -795,16 +779,14 @@
|
|||||||
# 2 METERS/CENTI-SEC
|
# 2 METERS/CENTI-SEC
|
||||||
#
|
#
|
||||||
# -Q-
|
# -Q-
|
||||||
# POSITION 4 XXXX.XX NAUTICAL MILES DP BIT 1 OF LOW REGISTER =
|
# POSITION 4 XXXX.X NAUTICAL MILES DP BIT 1 OF LOW REGISTER =
|
||||||
# 2 METERS
|
# 2 METERS
|
||||||
#
|
#
|
||||||
# -S-
|
# -S-
|
||||||
# VELOCITY 3 XXXX.X FT/SEC DP BIT 1 OF HIGH REGISTER =
|
# VELOCITY 3 XXXX.X FT/SEC DP BIT 1 OF HIGH REGISTER =
|
||||||
# -7
|
# -7
|
||||||
# 2 METERS/CENTI-SEC
|
# 2 METERS/CENTI-SEC
|
||||||
|
|
||||||
# Page 21
|
# Page 21
|
||||||
|
|
||||||
# -T- -2
|
# -T- -2
|
||||||
# G XXX.XX G SP BIT 1 = 10 G
|
# G XXX.XX G SP BIT 1 = 10 G
|
||||||
# (MAX 163.83)
|
# (MAX 163.83)
|
||||||
@ -846,7 +828,7 @@
|
|||||||
# 2 INTEGERS +XXBYY DP BIT 1 OF HIGH REGISTER =
|
# 2 INTEGERS +XXBYY DP BIT 1 OF HIGH REGISTER =
|
||||||
# (B IS A BLANK 1 UNIT OF XX
|
# (B IS A BLANK 1 UNIT OF XX
|
||||||
# POSITION. DECIMAL BIT 1 OF LOW REGISTER =
|
# POSITION. DECIMAL BIT 1 OF LOW REGISTER =
|
||||||
# ONLY, DISPLAY, OR 1 UNIT OF YY
|
# ONLY, DISPLAY OR 1 UNIT OF YY
|
||||||
# MONITOR ONLY. CANNOT (EACH REGISTER MUST
|
# MONITOR ONLY. CANNOT (EACH REGISTER MUST
|
||||||
# BE LOADED.) CONTAIN A POSITIVE INTEGER
|
# BE LOADED.) CONTAIN A POSITIVE INTEGER
|
||||||
# (MAX 99B99) LESS THAN 100)
|
# (MAX 99B99) LESS THAN 100)
|
||||||
@ -855,9 +837,7 @@
|
|||||||
# VELOCITY/2VS XXXXX. FEET/SEC DP FRACTIONAL PART OF
|
# VELOCITY/2VS XXXXX. FEET/SEC DP FRACTIONAL PART OF
|
||||||
# (MAX 51532.) 2VS FEET/SEC
|
# (MAX 51532.) 2VS FEET/SEC
|
||||||
# (VS = 25766.1973)
|
# (VS = 25766.1973)
|
||||||
|
|
||||||
# Page 22
|
# Page 22
|
||||||
|
|
||||||
# -VV-
|
# -VV-
|
||||||
# POSITION8 XXXX.X NAUT MI DP BIT 1 OF LOW REGISTER =
|
# POSITION8 XXXX.X NAUT MI DP BIT 1 OF LOW REGISTER =
|
||||||
# -28
|
# -28
|
||||||
@ -884,9 +864,9 @@
|
|||||||
|
|
||||||
# Page 23
|
# Page 23
|
||||||
|
|
||||||
# ALARM CODES FOR 504
|
# ALARM CODES FOR 504
|
||||||
|
|
||||||
# REPORT DEFICIENCIES TO JOHN SUTHERLAND @ MIT 617-864-6900 X1458
|
# REPORT DEFICIENCIES TO JOHN SUTHERLAND @ MIT 617-864-6900 X1458
|
||||||
|
|
||||||
# *9 *18 *60 *25 COLUMN
|
# *9 *18 *60 *25 COLUMN
|
||||||
#
|
#
|
||||||
@ -913,7 +893,7 @@
|
|||||||
# 00207 ISS TURNON REQUEST NOT PRESENT FOR 90 SEC T4RUPT ALARM
|
# 00207 ISS TURNON REQUEST NOT PRESENT FOR 90 SEC T4RUPT ALARM
|
||||||
# 00210 IMU NOT OPERATING IMU MODE SWITCH, IMU-2, R02, P51 ALARM,VARALARM
|
# 00210 IMU NOT OPERATING IMU MODE SWITCH, IMU-2, R02, P51 ALARM,VARALARM
|
||||||
# 00211 COARSE ALIGN ERROR - DRIVE > 2 DEGREES IMU MODE SWITCH ALARM
|
# 00211 COARSE ALIGN ERROR - DRIVE > 2 DEGREES IMU MODE SWITCH ALARM
|
||||||
# 00212 PIPA FAIL BUT PIPA IS NOT BEING USED IMU MODE SWITCH,T4RUPT ALARM
|
# 00212 PIPA FAIL BUT PIPA IS NOT BEING USED IMU MODE SWITCH,T4RPT ALARM
|
||||||
# 00213 IMU NOT OPERATING WITH TURN-ON REQUEST T4RUPT ALARM
|
# 00213 IMU NOT OPERATING WITH TURN-ON REQUEST T4RUPT ALARM
|
||||||
# 00214 PROGRAM USING IMU WHEN TURNED OFF T4RUPT ALARM
|
# 00214 PROGRAM USING IMU WHEN TURNED OFF T4RUPT ALARM
|
||||||
# 00215 PREFERRED ORIENTATION NOT SPECIFIED P52,P54 ALARM
|
# 00215 PREFERRED ORIENTATION NOT SPECIFIED P52,P54 ALARM
|
||||||
@ -922,9 +902,9 @@
|
|||||||
# 00401 DESIRED GIMBAL ANGLES YIELD GIMBAL LOCK IMF ALIGN, IMU-2 ALARM
|
# 00401 DESIRED GIMBAL ANGLES YIELD GIMBAL LOCK IMF ALIGN, IMU-2 ALARM
|
||||||
# 00404 TARGET OUT OF VIEW - TRUN ANGLE > 90 DEG R52 PRIOLARM
|
# 00404 TARGET OUT OF VIEW - TRUN ANGLE > 90 DEG R52 PRIOLARM
|
||||||
# 00405 TWO STARS NOT AVAILABLE P52,P54 ALARM
|
# 00405 TWO STARS NOT AVAILABLE P52,P54 ALARM
|
||||||
# 00406 REND NAVIGATION NOT OPERATING P21,R23 ALARM
|
# 00406 REND NAVIGATION NOT OPERATING R21,R23 ALARM
|
||||||
# 00407 AUTO OPTICS REQUEST TRUN ANGLE > 50 DEG. R52 ALARM
|
# 00407 AUTO OPTICS REQUEST TRUN ANGLE > 50 DEG. R52 ALARM
|
||||||
# 00421 W-MATRIX OVERFLOW INTEGRV ALARM
|
# 00421 W-MATRIX OVERFLOW INTEGRV VARALARM
|
||||||
# 00430 * INTEG. ABORT DUE TO SUBSURFACE S. V. ALL CALLS TO INTEG POODOO
|
# 00430 * INTEG. ABORT DUE TO SUBSURFACE S. V. ALL CALLS TO INTEG POODOO
|
||||||
# 00600 IMAGINARY ROOTS ON FIRST ITERATION P32, P72 VARALARM
|
# 00600 IMAGINARY ROOTS ON FIRST ITERATION P32, P72 VARALARM
|
||||||
# 00601 PERIGEE ALTITUDE LT PMIN1 P32,P72, VARALARM
|
# 00601 PERIGEE ALTITUDE LT PMIN1 P32,P72, VARALARM
|
||||||
@ -934,16 +914,14 @@
|
|||||||
# 00605 NUMBER OF ITERATIONS EXCEEDS LOOP MAXIMUM P32,P72,P37 VARALARM
|
# 00605 NUMBER OF ITERATIONS EXCEEDS LOOP MAXIMUM P32,P72,P37 VARALARM
|
||||||
# 00606 DV EXCEEDS MAXIMUM P32,P72 VARALARM
|
# 00606 DV EXCEEDS MAXIMUM P32,P72 VARALARM
|
||||||
# 00607 * NO SOLN FROM TIME-THETA OR TIME-RADIUS TIMETHET,TIMERAD POODOO
|
# 00607 * NO SOLN FROM TIME-THETA OR TIME-RADIUS TIMETHET,TIMERAD POODOO
|
||||||
|
|
||||||
# Page 24
|
# Page 24
|
||||||
|
|
||||||
# 00610 * LAMBDA LESS THAN UNITY P37 POODOO
|
# 00610 * LAMBDA LESS THAN UNITY P37 POODOO
|
||||||
# 00611 NO TIG FOR GIVEN ELEV ANGLE P34,P74 VARALARM
|
# 00611 NO TIG FOR GIVEN ELEV ANGLE P34,P74 VARALARM
|
||||||
# 00612 STATE VECTOR IN WRONG SPHERE OF INFLUENCE P37 VARALARM
|
# 00612 STATE VECTOR IN WRONG SPHERE OF INFLUENCE P37 VARALARM
|
||||||
# 00613 REENTRY ANGLE OUT OF LIMITS P37 VARALARM
|
# 00613 REENTRY ANGLE OUT OF LIMITS P37 VARALARM
|
||||||
# 00777 PIPA FAIL CAUSED ISS WARNING. T4RUPT VARALARM
|
# 00777 PIPA FAIL CAUSED ISS WARNING. T4RUPT VARALARM
|
||||||
# 01102 CMC SELF TEST ERROR ALARM2
|
# 01102 CMC SELF TEST ERROR ALARM2
|
||||||
# 01103 * UNUSED CCS BRANCH EXECUTED ABORT ALARM2
|
# 01103 * UNUSED CCS BRANCH EXECUTED ABORT POODOO
|
||||||
# 01104 * DELAY ROUTINE BUSY EXEC BAILOUT
|
# 01104 * DELAY ROUTINE BUSY EXEC BAILOUT
|
||||||
# 01105 DOWNLINK TOO FAST T4RUPT ALARM
|
# 01105 DOWNLINK TOO FAST T4RUPT ALARM
|
||||||
# 01106 UPLINK TOO FAST T4RUPT ALARM
|
# 01106 UPLINK TOO FAST T4RUPT ALARM
|
||||||
@ -1000,7 +978,7 @@
|
|||||||
# 00204 PERFORM SPS GIMBAL TRIM
|
# 00204 PERFORM SPS GIMBAL TRIM
|
||||||
# 00403 SWITCH OPTICS TO MANUAL OR ZERO
|
# 00403 SWITCH OPTICS TO MANUAL OR ZERO
|
||||||
# SWITCH DENOTES CHANGE POSITION OF A CONSOLE SWITCH
|
# SWITCH DENOTES CHANGE POSITION OF A CONSOLE SWITCH
|
||||||
# PERFORM DENOTES START OF END OF A TASK
|
# PERFORM DENOTES START OR END OF A TASK
|
||||||
# KEY IN DENOTES KEY IN OF DATA THRU THE DSKY
|
# KEY IN DENOTES KEY IN OF DATA THRU THE DSKY
|
||||||
|
|
||||||
# Page 26
|
# Page 26
|
||||||
@ -1013,20 +991,20 @@
|
|||||||
# CONJUNCTION WITH VERB04NOUN06 TO REQUEST THE ASTRONAUT TO LOAD INTO
|
# CONJUNCTION WITH VERB04NOUN06 TO REQUEST THE ASTRONAUT TO LOAD INTO
|
||||||
# COMPONENT R2 THE OPTION HE DESIRES.
|
# COMPONENT R2 THE OPTION HE DESIRES.
|
||||||
|
|
||||||
# *9 *17 #52 #11 #25 COLUMN
|
# *9 *17 #52 #11 #25 COLUMN
|
||||||
#
|
#
|
||||||
# OPTION
|
# OPTION
|
||||||
# CODE PURPOSE INPUT FOR COMPONENT 2 PROGRAM(S) APPLICABILITY
|
# CODE PURPOSE INPUT FOR COMPONENT 2 PROGRAM(S) APPLICABILITY
|
||||||
#
|
#
|
||||||
# 00001 SPECIFY IMU ORIENTATION 1=PREF 2=NOM 3=REFSMMAT P50'S ALL
|
# 00001 SPECIFY IMU ORIENTATION 1=PREF 2=NOM 3=REFSMMAT P50'S ALL
|
||||||
# 00002 SPECIFY VEHICLE 1=THIS 2=OTHER P21,R30 ALL
|
# 00002 SPECIFY VEHICLE 1=THIS 2=OTHER P21,R30 ALL
|
||||||
# 00003 SPECIFY TRACKING ATTITUDE 1=PREFERRED 2=OTHER R63 ALL
|
# 00003 SPECIFY TRACKING ATTITUDE 1=PREFERRED 2=OTHER R63 ALL
|
||||||
# 00004 SPECIFY RADAR 1=RR 2=LR R04 SUNDANCE + LUMINARY
|
# 00004 SPECIFY RADAR 1=RR 2=LR R04 SUNDANCE + LUMINARY
|
||||||
# 00005 SPECIFY SOR PHASE 1=FIRST 2=SECOND P38 COLOSSUS + LUMINARY
|
# 00005 SPECIFY SOR PHASE 1=FIRST 2=SECOND P38 COLOSSUS + LUMINARY
|
||||||
# 00006 SPECIFY RR COARSE ALIGN OPTION 1=LOCKON 2=CONTINUOUS DESIG. V41N72 SUNDANCE + LUMINARY
|
# 00006 SPECIFY RR COARSE ALIGN OPTION 1=LOCKON 2=CONTINUOUS DESIG. V41N72 SUNDANCE + LUMINARY
|
||||||
# 00007 SPECIFY PROPULSION SYSTEM 1=SPS 2=RCS P37 COLOSSUS
|
# 00007 SPECIFY PROPULSION SYSTEM 1=SPS 2=RCS P37 COLOSSUS
|
||||||
# 00010 SPECIFY ALIGNMENT MODE 0=ANY TIME 1=REFSMMAT +G P57 LUMINARY
|
# 00010 SPECIFY ALIGNMENT MODE 0=ANY TIME 1=REFSMMAT +G P57 LUMINARY
|
||||||
# 2=TWO BODIES 3=ONE BODY + G
|
# 2=TWO BODIES 3=ONE BODY + G
|
||||||
# 00011 SPEC. SEPARATION MONITOR PHASE 1=DELTAV 2=STATE VECTOR UPDATE P46 LUMINARY
|
# 00011 SPECIFY SEPARATION MONITOR PHASE 1=DELTAV 2=STATE VECTOR UPDATE P46 LUMINARY
|
||||||
# 00012 SPECIFY CSM ORBIT OPTION 1=NO ORBIT CHANGE 2=CHANGE P22 LUMINARY
|
# 00012 SPECIFY CSM ORBIT OPTION 1=NO ORBIT CHANGE 2=CHANGE P22 LUMINARY
|
||||||
# ORBIT TO PASS OVER LM
|
# ORBIT TO PASS OVER LM
|
||||||
|
Loading…
Reference in New Issue
Block a user