* Proof FIXED_FIXED_CONSTANT_POOL (#207) * wip(pp. 0423-0425): Proof IMU_CALIBRATION_AND_ALIGNMENT #211 * done(pp. 0423-0455): Proof IMU_CALIBRATION_AND_ALIGNMENT #211
This commit is contained in:
Glenn Dwiyatcita
James Harris
parent
73de5c1b3a
commit
68c072a49e
@ -31,19 +31,19 @@
|
|||||||
# information. Please report any errors to info@sandroid.org.
|
# information. Please report any errors to info@sandroid.org.
|
||||||
|
|
||||||
# Page 423
|
# Page 423
|
||||||
# NAME -- IMU PERFORMANCE TESTS 2
|
# NAME- IMU PERFORMANCE TESTS 2
|
||||||
#
|
|
||||||
# DATE -- MARCH 20, 1967
|
# DATE- MARCH 20,1967
|
||||||
#
|
|
||||||
# BY -- SYSTEM TEST GROUP 864-6900 EXT. 1274
|
|
||||||
#
|
|
||||||
# MODNO. -- ZERO
|
|
||||||
#
|
#
|
||||||
|
# BY- SYSTEM TEST GROUP 864-6900 EXT. 1274
|
||||||
|
|
||||||
|
# MODNO.- ZERO
|
||||||
|
|
||||||
# FUNCTIONAL DESCRIPTION
|
# FUNCTIONAL DESCRIPTION
|
||||||
#
|
|
||||||
# POSITIONING ROUTINES FOR THE IMU PERFORMANCE TESTS AS WELL AS SOME OF
|
# POSITIONING ROUTINES FOR THE IMU PERFORMANCE TESTS AS WELL AS SOME OF
|
||||||
# THE TESTS THEMSELVES. FOR A DESCRIPTION OF THESE SUBROUTINES AND THE
|
# THE TESTS THEMSELVES. FOR A DESCRIPTION OF THESE SUBROUTINES AND THE
|
||||||
# OPERATING PROCEDURES (TYPICALLY) SEE STG MEMO 685. THEORETICAL REF. E-1973
|
# OPERATING PROCEDURES (TYPICALLY) SEE STG MEMO 685.THEORETICAL REF.E-1973
|
||||||
|
|
||||||
BANK 33
|
BANK 33
|
||||||
SETLOC IMUCAL
|
SETLOC IMUCAL
|
||||||
@ -97,9 +97,9 @@ NBPOSPL CA DEC17
|
|||||||
STORE ZNB +2
|
STORE ZNB +2
|
||||||
EXIT
|
EXIT
|
||||||
TC CHECKMM
|
TC CHECKMM
|
||||||
MM 03 # SEE IF IN OPTICAL VERIFICATION
|
MM 03 # SEE IF IN OPTICAL VERIFICATION
|
||||||
TCF +2 # NO
|
TCF +2 # NO
|
||||||
TCF SETNBPOS +1 # YES
|
TCF SETNBPOS +1 # YES
|
||||||
TC INTPRET
|
TC INTPRET
|
||||||
CALL
|
CALL
|
||||||
CALCGA
|
CALCGA
|
||||||
@ -122,7 +122,6 @@ NBPOSPL CA DEC17
|
|||||||
EXTEND
|
EXTEND
|
||||||
DCA PERFDLAY
|
DCA PERFDLAY
|
||||||
TC LONGCALL
|
TC LONGCALL
|
||||||
SBANK= LOWSUPER # RSB 2004, OH 2009: Ask Ron
|
|
||||||
EBANK= POSITON
|
EBANK= POSITON
|
||||||
2CADR GOESTIMS
|
2CADR GOESTIMS
|
||||||
|
|
||||||
@ -217,7 +216,7 @@ VERTDRFT CA 3990DEC # ABOUT 1 HOUR VERTICAL DRIFT TEST
|
|||||||
CA XSM +4 # 0 IF POSN 4
|
CA XSM +4 # 0 IF POSN 4
|
||||||
EXTEND
|
EXTEND
|
||||||
BZF PON2
|
BZF PON2
|
||||||
PON4 CS BIT5 # OFFSET PLATFORM
|
PON4 CS BIT5 # OFFSET PLATFORM
|
||||||
ADS ERCOMP1 +2
|
ADS ERCOMP1 +2
|
||||||
CA BIT5
|
CA BIT5
|
||||||
ADS ERCOMP1
|
ADS ERCOMP1
|
||||||
@ -320,7 +319,7 @@ ZEROING1 TS ZERONDX1
|
|||||||
SETLOC IMUCAL3
|
SETLOC IMUCAL3
|
||||||
BANK
|
BANK
|
||||||
ERTHRVSE DLOAD PDDL
|
ERTHRVSE DLOAD PDDL
|
||||||
SCHZEROS # PD24 = (SIN (missing) -COS (missing) 0)(OMEG/MS)
|
SCHZEROS # PD24 = (SIN -COS 0)(OMEG/MS)
|
||||||
LATITUDE
|
LATITUDE
|
||||||
COS DCOMP
|
COS DCOMP
|
||||||
PDDL SIN
|
PDDL SIN
|
||||||
@ -377,10 +376,11 @@ SHOW1 CA POSITON
|
|||||||
CA VB06N98
|
CA VB06N98
|
||||||
TC BANKCALL
|
TC BANKCALL
|
||||||
CADR GOFLASH
|
CADR GOFLASH
|
||||||
TC ENDTEST1 # V34
|
TC ENDTEST1 # V 34
|
||||||
TC QPLACE # V33
|
TC QPLACE # V33
|
||||||
TCF SHOW1
|
TCF SHOW1
|
||||||
|
|
||||||
|
|
||||||
OC14400 OCT 14400
|
OC14400 OCT 14400
|
||||||
3990DEC = OMEG/MS
|
3990DEC = OMEG/MS
|
||||||
VB06N98 VN 0698
|
VB06N98 VN 0698
|
||||||
@ -393,6 +393,7 @@ XNBADR GENADR XNB
|
|||||||
XSMADR GENADR XSM
|
XSMADR GENADR XSM
|
||||||
OMEG/MS 2DEC .24339048
|
OMEG/MS 2DEC .24339048
|
||||||
|
|
||||||
|
|
||||||
P11OUT TC BANKCALL
|
P11OUT TC BANKCALL
|
||||||
CADR MATRXJOB # RETURN TO P11
|
CADR MATRXJOB # RETURN TO P11
|
||||||
|
|
||||||
@ -419,79 +420,78 @@ FINETIME INHINT # RETURNS WITH INTERRUPT INHIBITED
|
|||||||
TC Q
|
TC Q
|
||||||
|
|
||||||
# Page 432
|
# Page 432
|
||||||
# PROGRAM NAME: OPTIMUM PRELAUNCH ALIGNMENT CALIBRATION
|
# PROGRAM NAME-OPTIMUM PRELAUNCH ALIGNMENT CALIBRATION
|
||||||
# DATE: NOVEMBER 2 1966
|
# DATE- NOVEMBER 2 1966
|
||||||
# BY: GEORGE SCHMIDT IL 7-146 EXT. 126
|
# BY- GEORGE SCHMIDT IL 7-146 EXT. 126
|
||||||
# MOD NO 3
|
# MOD NO 3
|
||||||
#
|
|
||||||
# FUNCTIONAL DESCRIPTION
|
# FUNCTIONAL DESCRIPTION
|
||||||
#
|
|
||||||
# THIS SECTION CONSISTS OF PRELAUNCH ALIGNMENT AND GYRO DRIFT TESTS
|
# THIS SECTION CONSISTS OF PRELAUNCH ALIGNMENT AND GYRO DRIFT TESTS
|
||||||
# INTEGRATED TOGETHER TO SAVE WORDS. COMPASS IS COMPLETELY RESTART
|
# INTEGRATED TOGETHER TO SAVE WORDS. COMPASS IS COMPLETELY RESTART
|
||||||
# PROOFED EXCEPT FOR THE FIRST 30 SECONDS OR SO. PERFORMANCE TESTS OF
|
# PROOFED EXCEPT FOR THE FIRST 30 SECONDS OR SO. PERFORMANCE TESTS OF
|
||||||
# THE IRIGS IS RESTART PROOFED ENOUGH TO GIVE 75 PERCENT CONFIDENCE THAT
|
# THE IRIGS IS RESTART PROOFED ENOUGH TO GIVE 75 PERCENT CONFIDENCE THAT
|
||||||
# IF A RESTART OCCURS THE DATA WILL STILL BE GOOD. GOOD PRACTICE TO RECYCL
|
# IF A RESTART OCCURS THE DATA WILL STILL BE GOOD. GOOD PRACTICE TO RECYCL
|
||||||
# WHEN A RESTART OCCURS UNLESS IT HAPPENS NEAR THE END OF A TEST -- THEN WAIT
|
# WHEN A RESTART OCCURS UNLESS IT HAPPENS NEAR THE END OF A TEST-THEN WAIT
|
||||||
# FOR THE DATA TO FLASH.
|
# FOR THE DATA TO FLASH.
|
||||||
#
|
# A RESTART IN GYROCOMPASS DURING GYRO TORQUING CAUSES PULSES TO BE LOST
|
||||||
# A RESTART IN GYROCOMPASS DURING GYRO TORQUING CAUSES PULSES TO BE LOST.
|
|
||||||
# THE PRELAUNCH ALIGNMENT TECHNIQUE IS BASICALLY THE SAME AS IN BLOCK 1
|
# THE PRELAUNCH ALIGNMENT TECHNIQUE IS BASICALLY THE SAME AS IN BLOCK 1
|
||||||
# EXCEPT THAT IT HAS BEEN SIMPLIFIED IN THE SENSE THAT SMALL ANGLE APPROX.
|
# EXCEPT THAT IT HAS BEEN SIMPLIFIED IN THE SENSE THAT SMALL ANGLE APPROX.
|
||||||
# HAVE BEEN USED. THE DRIFT TESTS USE A UNIQUE IMPLEMENTATION OF THE
|
# HAVE BEEN USED. THE DRIFT TESTS USE A UNIQUE IMPLEMENTATION OF THE
|
||||||
# OPTIMUM STATISTICAL FILTER. FOR A DESCRIPTION SEE E-1973. BOTH OF THESE
|
# OPTIMUM STATISTICAL FILTER. FOR A DESCRIPTION SEE E-1973.BOTH OF THESE
|
||||||
# ROUTINES USE STANDARD SYSTEM TEST LEADIN PROCEDURES. THE INITIALIZATION
|
# ROUTINES USE STANDARD SYSTEM TEST LEADIN PROCEDURES. THE INITIALIZATION
|
||||||
# PROCEDURE THE DRIFT TESTS IS IN THE JDC'S. THE INITIALIZATION METHOD
|
# PROCEDURE THE DRIFT TESTS IS IN THE JDC S. THE INITIALIZATION METHOD
|
||||||
# FOR GYROCOMPASS IS AN ERAS LOAD THEN A MISSION PHASE CALL.
|
# FOR GYROCOMPASS IS AN ERAS LOAD THEN A MISSION PHASE CALL.
|
||||||
# THE COMPASS ALIGNS TO Z DOWN, X DOWNRANGE, HAS THE CAPABILITY
|
# THE COMPASS ALIGNS TO Z DOWN,X DOWNRANGE, HAS THE CAPABILITY
|
||||||
# CHANGE AZIMUTH WHILE RUNNING, IS COMPENSATED FOR
|
# CHANGE AZIMUTH WHILE RUNNING , IS COMPENSATED FOR
|
||||||
# COMPONENT ERRORS, IS CAPABLE OF OPTICAL VERIFICATION (CSM ONLY).
|
# COMPONENT ERRORS,IS CAPABLE OF OPTICAL VERIFICATION( CSM ONLY).
|
||||||
#
|
|
||||||
# COMPASS ERASABLE LOAD REQUIRED
|
# COMPASS ERASABLE LOAD REQUIRED
|
||||||
#
|
|
||||||
# 1. LAUNCHAZ-DP AZIMUTH IN REV FROM NORTH OF XSM DESIRED (NOM=.2)
|
# 1-LAUNCHAZ -DP AZIMUTH IN REV FROM NORTH OF XSM DESIRED (NOM=.2)
|
||||||
# 2. LATITUDE-DP-OF LAUNCH PAD
|
# 2- LATITUDE -DP-OF LAUNCH PAD
|
||||||
# 3. AZIMUTH-DP-OF ZNB OF VEHICLE
|
# 3- AZIMUTH-DP-OF ZNB OF VEHICLE
|
||||||
# 4. IMU COMPENSATION PARAMETERS
|
# 4- IMU COMPENSATION PARAMETERS
|
||||||
# 5. AZ AND ELEVATION OF TARGETS 1,2 ****OPTIONAL****
|
# 5-AZ AND ELEVATION OF TARGETS 1,2 ****OPTIONAL****
|
||||||
#
|
|
||||||
# TO PERFORM AS PART OF COMPASS
|
# TO PERFORM AS PART OF COMPASS
|
||||||
#
|
|
||||||
# 1. OPTICAL VERIFICATION: V 65 E
|
# 1-OPTICAL VERIFICATION- V 65 E
|
||||||
# 2. AZIMUTH CHANGE: V 78 E
|
# 2-AZIMUTH CHANGE-V 78 E
|
||||||
#
|
|
||||||
# SUBROUTINES CALLED
|
# SUBROUTINES CALLED
|
||||||
#
|
|
||||||
# DURING OPTICAL VERIFICATION (CSM ONLY) ESSENTIALLY ALL OF INFLIGHT ALIGN
|
# DURING OPTICAL VERIFICATION (CSM ONLY) ESSENTIALLY ALL OF INFLIGHT ALIGN
|
||||||
# IS CALLED IN ONE WAY OR ANOTHER. SEE THE LISTING.
|
# IS CALLED IN ONE WAY OR ANOTHER. SEE THE LISTING.
|
||||||
#
|
|
||||||
# NORMAL EXIT
|
# NORMAL EXIT
|
||||||
#
|
|
||||||
# DRIFT TESTS. LENGTHOT GOES TO ZERO-RETURN TO IMU PERF TEST2 CONTROL
|
# DRIFT TESTS- LENGTHOT GOES TO ZERO-RETURN TO IMU PERF TEST2 CONTROL
|
||||||
# GYROCOMPASS-MANY, SEE THE LISTING.
|
# GYROCOMPASS-MANY, SEE THE LISTING
|
||||||
#
|
|
||||||
# ALARMS
|
# ALARMS
|
||||||
#
|
|
||||||
# 1600 OVERFLOW IN DRIFT TEST
|
# 1600 OVERFLOW IN DRIFT TEST
|
||||||
# Page 433
|
# Page 433
|
||||||
# 1601 BAD IMU TORQUE ABORT
|
# 1601 BAD IMU TORQUE ABORT
|
||||||
# 1602 BAD OPTICS DURING VERIFICATION-RETURN TO COMPASS CSM ONLY
|
# 1602 BAD OPTICS DURING VERIFICATION-RETURN TO COMPASS CSM ONLY
|
||||||
#
|
|
||||||
# OUTPUT
|
# OUTPUT
|
||||||
#
|
|
||||||
# DRIFT TESTS: FLASHING DISPLAYS OF RESULTS-CONTROLLED IN IMU PERF TESTS 2
|
# DRIFT TESTS- FLASHING DISPLAYS OF RESULTS-CONTROLLED IN IMU PERF TESTS 2
|
||||||
# COMPASS-PROGRAM MODE LIGHTS TELL YOU WHAT PHAS OF PROGRAM YOU ARE IN
|
# COMPASS-PROGRAM MODE LIGHTS TELL YOU WHAT PHAS OF PROGRAM YOU ARE IN
|
||||||
# 01 INITIALIZING THE PLATFORM POSITION AND ERASABLE
|
# 01 INITIALIZING THE PLATFORM POSITION AND ERASABLE
|
||||||
# 02 GYROCOMPASSING
|
# 02 GYROCOMPASSING
|
||||||
# 03 DOING OPTICAL VERIFICATION (CSM)
|
# 03 DOING OPTICAL VERIFICATION (CSM)
|
||||||
|
#
|
||||||
#
|
#
|
||||||
# DEBRIS
|
# DEBRIS
|
||||||
#
|
|
||||||
# ALL CENTRALS, ALL OF EBANK XSM
|
# ALL CENTRALS,ALL OF EBANK XSM
|
||||||
|
|
||||||
# Page 434
|
# Page 434
|
||||||
# MOST OF THE ROUTINES COMMON TO ALIGNMENT AND CALIBRATION APPEAR
|
# MOST OF THE ROUTINES COMMON TO ALIGNMENT AND CALIBRATION APPEAR
|
||||||
# ON THE NEXT FEW PAGES.
|
# ON THE NEXT FEW PAGES.
|
||||||
|
|
||||||
|
|
||||||
COUNT 33/P02
|
COUNT 33/P02
|
||||||
|
|
||||||
EBANK= XSM
|
EBANK= XSM
|
||||||
@ -546,12 +546,12 @@ RSTGTS1 INHINT # COMES HERE PHASE1 RESTART
|
|||||||
# COMES HERE AT THE END OF EVERY ITERATION THROUGH DRIFT TEST OR COMPASS
|
# COMES HERE AT THE END OF EVERY ITERATION THROUGH DRIFT TEST OR COMPASS
|
||||||
|
|
||||||
# SET UP WAITLIST SECTION
|
# SET UP WAITLIST SECTION
|
||||||
SLEEPIE TS LENGTHOT # TEST NOT OVER-DECREMENT LENGHOT
|
SLEEPIE TS LENGTHOT # TEST NOT OVER-DECREMENT LENGTHOT
|
||||||
TC PHASCHNG # CHANGE PHASE
|
TC PHASCHNG # CHANGE PHASE
|
||||||
OCT 00135
|
OCT 00135
|
||||||
CCS TORQNDX # ARE WE DOING VERTDRIFT
|
CCS TORQNDX # ARE WE DOING VERTDRIFT
|
||||||
TC EARTHR* # TRUE TORQUE SOUTH GYRO
|
TC EARTHR* # TRUE TORQUE SOUTH GYRO
|
||||||
WTLISTNT TC CHKCOMED # SEE IF COMPASS OVER
|
WTLISTNT TC CHKCOMED # SEE IF COMPASS OVER
|
||||||
TC SETGWLST
|
TC SETGWLST
|
||||||
TC ENDOFJOB
|
TC ENDOFJOB
|
||||||
|
|
||||||
@ -573,6 +573,7 @@ WTGTSMPL TC TWIDDLE
|
|||||||
RIGHTGTS CAF FOUR # SET UP NEXT WAITLIST-ALLOW SOME TIME
|
RIGHTGTS CAF FOUR # SET UP NEXT WAITLIST-ALLOW SOME TIME
|
||||||
TC WTGTSMPL # END OF WAITLIST SECTION
|
TC WTGTSMPL # END OF WAITLIST SECTION
|
||||||
|
|
||||||
|
|
||||||
# STORE AND LOAD DATA SECTIONS FOR RESTART PROOFING
|
# STORE AND LOAD DATA SECTIONS FOR RESTART PROOFING
|
||||||
|
|
||||||
25DECML EQUALS OCT31
|
25DECML EQUALS OCT31
|
||||||
@ -598,6 +599,7 @@ LOADSTDT CAF 25DECML
|
|||||||
TCF LOADSTDT +1
|
TCF LOADSTDT +1
|
||||||
TC Q
|
TC Q
|
||||||
|
|
||||||
|
|
||||||
# COMES HERE EVERY ITERATION BY A WAITLIST CALL SET IN SLEEPIE
|
# COMES HERE EVERY ITERATION BY A WAITLIST CALL SET IN SLEEPIE
|
||||||
|
|
||||||
ALLOOP CA TIME1
|
ALLOOP CA TIME1
|
||||||
@ -644,7 +646,7 @@ ALFLT1 TC LOADSTDT # COMES HERE ON RESTART
|
|||||||
CCS GEOCOMP1
|
CCS GEOCOMP1
|
||||||
TC +2
|
TC +2
|
||||||
TC NORMLOP
|
TC NORMLOP
|
||||||
TC CHKCOMED # SEE IF PRELAUNCH OVER
|
TC CHKCOMED # SEE IF PRELAUNCH OVER
|
||||||
TC BANKCALL # COMPENSATION IF IN COMPASS
|
TC BANKCALL # COMPENSATION IF IN COMPASS
|
||||||
CADR 1/PIPA
|
CADR 1/PIPA
|
||||||
NORMLOP TC INTPRET
|
NORMLOP TC INTPRET
|
||||||
@ -741,6 +743,7 @@ ALKLP LXC,1 SXA,1
|
|||||||
ALKLP
|
ALKLP
|
||||||
8D
|
8D
|
||||||
|
|
||||||
|
|
||||||
LOOSE DLOAD* PDDL* # EXTRAPOLATE SWAY VARIABLES
|
LOOSE DLOAD* PDDL* # EXTRAPOLATE SWAY VARIABLES
|
||||||
ACCWD +8D,1
|
ACCWD +8D,1
|
||||||
VLAUN +8D,1
|
VLAUN +8D,1
|
||||||
@ -760,6 +763,7 @@ LOOSE DLOAD* PDDL* # EXTRAPOLATE SWAY VARIABLES
|
|||||||
TIX,1
|
TIX,1
|
||||||
LOOSE
|
LOOSE
|
||||||
|
|
||||||
|
|
||||||
AXT,2 AXT,1 # EVALUATE SINES AND COSINES
|
AXT,2 AXT,1 # EVALUATE SINES AND COSINES
|
||||||
6
|
6
|
||||||
2
|
2
|
||||||
@ -782,12 +786,12 @@ PERFERAS EXIT
|
|||||||
CA EBANK7
|
CA EBANK7
|
||||||
EBANK= LAT(SPL)
|
EBANK= LAT(SPL)
|
||||||
TS EBANK
|
TS EBANK
|
||||||
TC LAT(SPL) # GOTO ERASABLE ONLY TO RETURN
|
TC LAT(SPL) # GO TO ERASABLE ONLY TO RETURN
|
||||||
|
|
||||||
# CAUTION
|
# CAUTION
|
||||||
#
|
|
||||||
# THE ERASABLE PROGRAM THAT DOES THE CALCULATIONS MUST BE LOADED
|
# THE ERASABLE PROGRAM THAT DOES THE CALCULATIONS MUST BE LOADED
|
||||||
# BEFORE ANY ATTEMPT IS MAKE TO RUN THE IMU PERFORMANCE TEST
|
# BEFORE ANY ATTEMPT IS MADE TO RUN THE IMU PERFORMANCE TEST
|
||||||
|
|
||||||
EBANK= LENGTHOT
|
EBANK= LENGTHOT
|
||||||
ONCEMORE CCS LENGTHOT
|
ONCEMORE CCS LENGTHOT
|
||||||
@ -825,6 +829,7 @@ TORQINCH TC PHASCHNG
|
|||||||
EXIT
|
EXIT
|
||||||
TC TORQUE # GO TO IMU2 FOR A PIPA TEST AND DISPLAY
|
TC TORQUE # GO TO IMU2 FOR A PIPA TEST AND DISPLAY
|
||||||
|
|
||||||
|
|
||||||
SOMEERRR TC ALARM
|
SOMEERRR TC ALARM
|
||||||
OCT 1600
|
OCT 1600
|
||||||
TC +3
|
TC +3
|
||||||
@ -834,14 +839,16 @@ SOMERR2 TC ALARM
|
|||||||
OCT 00005
|
OCT 00005
|
||||||
TC ENDTEST1
|
TC ENDTEST1
|
||||||
|
|
||||||
# THE FAMOUS MAGIC NUMBERS OF SCHMIDT ARE NOW PART OF AN ERASABLE LOAD
|
|
||||||
|
# THE FAMOUS MAGIC NUMBERS OF SCHMIDT ARE NOW PART OF AN ERASABLE LOAD.
|
||||||
|
|
||||||
|
|
||||||
DEC585 OCT 02222 # 1170 B+14 ORDER IS NOW IMPORTANT
|
DEC585 OCT 02222 # 1170 B+14 ORDER IS NOW IMPORTANT
|
||||||
SCHZEROS 2DEC .00000000
|
SCHZEROS 2DEC .00000000
|
||||||
2DEC .00000000
|
2DEC .00000000
|
||||||
OCT 00000
|
OCT 00000
|
||||||
ONEDPP OCT 00000
|
ONEDPP OCT 00000
|
||||||
OCT 00001 # ABOVE ORDER IS IMPORTANT
|
OCT 00001 # ABOVE ORDER IS IMPORTANT
|
||||||
|
|
||||||
INTVAL OCT 4
|
INTVAL OCT 4
|
||||||
OCT 2
|
OCT 2
|
||||||
@ -852,9 +859,9 @@ SOUPLY 2DEC .93505870 # INITIAL GAINS FOR PIP OUTPUTS
|
|||||||
|
|
||||||
77DECML DEC 77
|
77DECML DEC 77
|
||||||
ALXXXZ GENADR ALX1S -1
|
ALXXXZ GENADR ALX1S -1
|
||||||
|
|
||||||
# GYROCOMPASS PORTIONS FINISH THIS LOG SECTION
|
# GYROCOMPASS PORTIONS FINISH THIS LOG SECTION
|
||||||
|
|
||||||
|
|
||||||
COUNT 33/P01
|
COUNT 33/P01
|
||||||
|
|
||||||
# INITIALIZATION SECTION
|
# INITIALIZATION SECTION
|
||||||
@ -868,7 +875,7 @@ GTSCPSS CA FLAGWRD1 # CALLED BY V37
|
|||||||
OCT 1521 # NODO ALARM FOR P01 - P11 ALREADY DONE
|
OCT 1521 # NODO ALARM FOR P01 - P11 ALREADY DONE
|
||||||
|
|
||||||
GTSCPSSA CAF ONE
|
GTSCPSSA CAF ONE
|
||||||
TS GEOCOMP1 # THIS IS THE LEAD IN FOR COMPASS
|
TS GEOCOMP1 # THIS IS THE LEAD IN FOR COMPASS.
|
||||||
CA 1/PIPAGT
|
CA 1/PIPAGT
|
||||||
TS 1/PIPADT
|
TS 1/PIPADT
|
||||||
NXXTENN CA BIT8
|
NXXTENN CA BIT8
|
||||||
@ -894,7 +901,7 @@ SETUPGC CA DEC17
|
|||||||
TC GEOIMUTT # GO TO IMU2 FOR FURTHER INITIALIZATION
|
TC GEOIMUTT # GO TO IMU2 FOR FURTHER INITIALIZATION
|
||||||
|
|
||||||
|
|
||||||
POSN17C EXTEND # COMPASS POSITION Z DOWN, X DOWNRANGE
|
POSN17C EXTEND # COMPASS POSITION Z DOWN,X DOWNRANGE
|
||||||
QXCH QPLACE # FROM NORTH IN REVOLUTIONS + CLOCKWISE
|
QXCH QPLACE # FROM NORTH IN REVOLUTIONS + CLOCKWISE
|
||||||
CS HALF # ALL THIS TO INITIALIZE MATRIX
|
CS HALF # ALL THIS TO INITIALIZE MATRIX
|
||||||
TS ZSM
|
TS ZSM
|
||||||
@ -912,7 +919,7 @@ POSN17C EXTEND # COMPASS POSITION Z DOWN, X DOWNRANGE
|
|||||||
TC QPLACE
|
TC QPLACE
|
||||||
|
|
||||||
# Page 444
|
# Page 444
|
||||||
# JOB DONE EVERY ITERATION THROUGH COMPASS PROGRAM. SET BY TASK ALLOOP
|
# JOB DONE EVERY ITERATION THROUGH COMPASS PROGRAM.SET BY TASK ALLOOP
|
||||||
|
|
||||||
COUNT 33/P02
|
COUNT 33/P02
|
||||||
|
|
||||||
@ -1074,7 +1081,7 @@ CHKCOMED INHINT
|
|||||||
RELINT
|
RELINT
|
||||||
GOBKCALB TC Q
|
GOBKCALB TC Q
|
||||||
|
|
||||||
PRELTERM CA PRIO22 # PRELAUNCH DONE -- SET UP P11
|
PRELTERM CA PRIO22 # PRELAUNCH DONE - SET UP P11
|
||||||
TC PRIOCHNG # INCREASE PRIORITY HIGHER THAN SERVICER
|
TC PRIOCHNG # INCREASE PRIORITY HIGHER THAN SERVICER
|
||||||
INHINT
|
INHINT
|
||||||
TC POSTJUMP
|
TC POSTJUMP
|
||||||
@ -1105,9 +1112,9 @@ GCOMPVER TC PHASCHNG # OPTICAL VERIFICATION ROUTINE
|
|||||||
SETNBPOS TC NBPOSPL
|
SETNBPOS TC NBPOSPL
|
||||||
TC BANKCALL
|
TC BANKCALL
|
||||||
CADR MKRELEAS
|
CADR MKRELEAS
|
||||||
OPTDATA CAF BIT1 # CALLS FOR AZIMUTH AND ELEVATION OF TARGET
|
OPTDATA CAF BIT1 # CALLS FOR AZIMUTH AND ELEVATION OF TARGE
|
||||||
ZL # 1, THEN TARGET 2
|
ZL # T 1,THEN TARGET 2
|
||||||
LXCH RUN # AZIMUTH CLOCKWISE FROM NORTH TO TARGET
|
LXCH RUN # AZIMUTH CLOCKWSE FROM NORTH TO TARGET
|
||||||
TS DSPTEM1 +2 # ELEVATION MEASURED FROM HORIZONTAL
|
TS DSPTEM1 +2 # ELEVATION MEASURED FROM HORIZONTAL
|
||||||
EXTEND
|
EXTEND
|
||||||
INDEX RUN
|
INDEX RUN
|
||||||
@ -1130,7 +1137,8 @@ VN0641 VN 0641
|
|||||||
TCF +4
|
TCF +4
|
||||||
CAF TWO
|
CAF TWO
|
||||||
TS L
|
TS L
|
||||||
TCF OPTDATA +2 # MPAC 1ST PASS=0 2ND PASS=2
|
TCF OPTDATA +2 # MPAC 1ST PASS=0 2ND PASS=2
|
||||||
|
|
||||||
|
|
||||||
TC CONTIN33
|
TC CONTIN33
|
||||||
|
|
||||||
@ -1138,7 +1146,7 @@ V05N30E VN 0530
|
|||||||
|
|
||||||
TC INTPRET # UNDYNAMIC ASSEMBLER
|
TC INTPRET # UNDYNAMIC ASSEMBLER
|
||||||
TAR/EREF AXT,1 AXT,2 # TARGET VECTOR
|
TAR/EREF AXT,1 AXT,2 # TARGET VECTOR
|
||||||
2 # SIN(EL) -COS(AZ)COS(EL) SIN(AZ)COS(EL)
|
2 # SIN(EL) -COS(AZ)COS(EL) SIN(AZ)COS(EL
|
||||||
12D
|
12D
|
||||||
SSP SETPD
|
SSP SETPD
|
||||||
S2
|
S2
|
||||||
@ -1396,4 +1404,3 @@ VN0629 VN 0629
|
|||||||
|
|
||||||
# Page 455
|
# Page 455
|
||||||
# *** END OF COMAID .029 ***
|
# *** END OF COMAID .029 ***
|
||||||
|
|
||||||
|
|||||||
Loading…
Reference in New Issue
Block a user