Apollo-11/Comanche055/RCS-CSM_DIGITAL_AUTOPILOT.agc

977 lines
24 KiB
Plaintext
Raw Normal View History

2016-07-07 08:47:26 +00:00
# Copyright: Public domain.
# Filename: RCS-CSM_DIGITAL_AUTOPILOT.agc
# Purpose: Part of the source code for Colossus 2A, AKA Comanche 055.
# It is part of the source code for the Command Module's (CM)
# Apollo Guidance Computer (AGC), for Apollo 11.
# Assembler: yaYUL
# Contact: Ron Burkey <info@sandroid.org>.
# Website: www.ibiblio.org/apollo.
# Pages: 1002-1024
# Mod history: 2009-05-13 RSB Adapted from the Colossus249/ file of the
# same name, using Comanche055 page images.
#
# This source code has been transcribed or otherwise adapted from digitized
# images of a hardcopy from the MIT Museum. The digitization was performed
# by Paul Fjeld, and arranged for by Deborah Douglas of the Museum. Many
# thanks to both. The images (with suitable reduction in storage size and
# consequent reduction in image quality as well) are available online at
# www.ibiblio.org/apollo. If for some reason you find that the images are
# illegible, contact me at info@sandroid.org about getting access to the
# (much) higher-quality images which Paul actually created.
#
# Notations on the hardcopy document read, in part:
#
# Assemble revision 055 of AGC program Comanche by NASA
# 2021113-051. 10:28 APR. 1, 1969
#
# This AGC program shall also be referred to as
# Colossus 2A
# Page 1002
# T5 INTERRUPT PROGRAM FOR THE RCS-CSM AUTOPILOT
# START OF T5 INTERRUPT PROGRAM
BANK 20
SETLOC DAPS3
BANK
COUNT 21/DAPRC
EBANK= KMPAC
REDORCS LXCH BANKRUPT # RESTART OF AUTOPILOT COMES HERE
CA T5PHASE # ON A T5 RUPT
EXTEND
BZMF +2 # IF T5PHASE +0, -0, OR -, RESET TO -
TCF +3 # IF T5PHASE +, LEAVE IT +. DO A FRESHDAP
CS ONE
TS T5PHASE
EXTEND
DCA RCSLOC
DXCH T5LOC # HOOK UP T5RUPT TO AUTOPILOT
TCF RCSATT +1
EBANK= KMPAC
RCSLOC 2CADR RCSATT
RCSATT LXCH BANKRUPT # SAVE BB
EXTEND # SAVE Q
QXCH QRUPT
CAF BIT15 # BIT15 CHAN31 = 0 IF IMU POWER IS ON AND
EXTEND # S/C CONT SW IS IN CMC (I.E., IF G/C AUTO
RAND CHAN31 # PILOT IS FULLY ENABLED)
EXTEND
BZF SETT5 # IF G/C AUTOPILOT IS FULLY ENABLED,
# GO TO SETT5
CS RCSFLAGS # IF G/C AUTOPILOT IS NOT FULLY ENABLED,
MASK BIT14
ADS RCSFLAGS # SET NORATE FLAG,
CAF POSMAX
TS HOLDFLAG # SET HOLDFLAG +,
CAF ZERO # ZERO ERRORX, ERRORY, AND ERRORZ,
TS ERRORX
TS ERRORY
TS ERRORZ
CAF BIT14
EXTEND
RAND CHAN31 # AND CHECK FREE FUNCTION (BIT14 CHAN31).
EXTEND
# Page 1003
BZF SETT5 # IF IN FREE MODE, GO TO SETT5.
TS T5PHASE # IF NOT IN FREE MODE,
CAF OCT37766 # SCHEDULE REINITIALIZATION (FRESHDAP)
TS TIME5 # IN 100 MS VIA T5RUPT
TCR ZEROJET # ZERO JET CHANNELS IN 14 MS VIA ZEROJET
TCF KMATRIX
DELTATT OCT 37770 # 80MS (TIME5)
DELTATT2 OCT 37776 # 20MS (TIME5)
ONESEK DEC 16284 # 1 SEC(TIME5)
CHAN5 EQUALS 5
CHAN6 EQUALS 6
PRIO34A = PRIO34
# CHECK PHASE OF T5 PROGRAM
#
# BECAUSE OF THE LENGTH OF THE T5 PROGRAM,IT HAS BEEN DIVIDED INTO
# THREE PARTS, T5PHASE1, T5PHASE2, AND THE JET SELECTION LOGIC,
# TO ALLOW FOR THE EXECUTION OF OTHER
# INTERRUPTS. T5PHASE IS ALSO USED IN THE INITIALIZATION OF THE AUTOPILOT
# VARIABLES AT TURN ON.
#
# THE CODING OF T5PHASE IS...
#
# + = INITIALIZE T5 RCS-CSM AUTOPILOT
# T5PHASE = +0 = PHASE2 OF THE T5 PROGRAM
# - = RESTART DAP
# -0 = PHASE1 OF THE T5 PROGRAM
SETT5 CCS T5PHASE
TCF FRESHDAP # TURN ON AUTOPILOT
TCF T5PHASE2 # BRANCH TO PHASE2 OF PROGRAM
TCF REDAP # RESTART AUTOPILOT
TS T5PHASE # PHASE 1 RESET FOR PHASE 2
CA TIME5
TS T5TIME # USED IN COMPENSATING FOR DELAYS IN T5
CAF DELTATT2 # RESET FOR T5RUPT IN 20MS FOR PHASE2
TS TIME5 # OF PROGRAM
# Page 1004
# IMU STATUS CHECK
CS IMODES33 # CHECK IMU STATUS
MASK BIT6 # BIT6 = 0 IMU OK
CCS A # BIT6 = 1 NO IMU
TCF RATEFILT
FREECHK CS RCSFLAGS # BIT14 INDICATES THAT RATES HAVE NOT BEEN
MASK BIT14 # INITIALIZED
ADS RCSFLAGS
CAF BIT14 # NO ATTITUDE REFERENCE
TS HOLDFLAG # STOP ANY AUTOMATIC STEERING AND PREPARE
# TO PICK UP CDU ANGLES UPON RESUMPTION OF
# ATTITUDE HOLD
EXTEND
RAND CHAN31 # CHECK FOR FREE MODE
EXTEND
BZF KRESUME1 # IN FREE MODE PROVIDE FREE CONTROL ONLY
TCF REINIT # .....TILT...............................
BITS4,5 OCT 30
RATEFILT CA RCSFLAGS # SEE IF RATEFILTER HAS BEEN INITIALIZED
MASK BIT14
EXTEND # IF SO, PROCEED WITH RATE DERIVATION
BZF +2
TCF KMATRIX # IF NOT, SKIP RATE DERIVATION
# RATE FILTER TIMING = 7.72 MS
#
# RATE FILTER EQUATIONS
#
#
# DRHO = DELRHO - (.1)ADOT + (1 = GAIN1)DRHO
# -1
#
# ADOT = ADOT + GAIN2 DRHO + KMJ DFT
# -1
# _ * _ _
# WHERE DELRHO = AMGB (CDU - CDU )
# -1
CAF TWO
DRHOLOOP TS SPNDX
DOUBLE
TS DPNDX
INDEX DPNDX
CS DRHO # DRHO SCALED 180 DEGS
EXTEND
INDEX ATTKALMN # PICK UP DESIRED FILTER GAIN
MP GAIN1
INDEX DPNDX
DAS DRHO # (1 -.064) DRHO
EXTEND
# Page 1005
INDEX DPNDX
DCS ADOT
DXCH KMPAC # -(.1)ADOT
CA QUARTER
TC SMALLMP
DXCH KMPAC
INDEX DPNDX
DAS DRHO
CCS SPNDX
TCF DRHOLOOP
CA CDUX # MEASURED BODY RATES--
XCH RHO
EXTEND
MSU RHO # _ * _ _
COM # DELRHO = AMGB (CDU - CDU )
# -1
ZL
DXCH DELTEMPX
CA CDUY
XCH RHO1
EXTEND
MSU RHO1
COM
TS T5TEMP # (CDUY - RHO1) SCALED 90 DEGS
EXTEND
MP AMGB1
DAS DELTEMPX # DELTEMPX = (CDUX-RHO) + AMGB1(CDUY-RHO1)
# MUST BE DOUBLE PRECISION OR WILL LOSE
# PULSES
CA AMGB4
EXTEND
MP T5TEMP
DXCH DELTEMPY
CA AMGB7
EXTEND
MP T5TEMP
DXCH DELTEMPZ
CA CDUZ
XCH RHO2
EXTEND
MSU RHO2
COM
TS T5TEMP # (CDUZ - RHO2) SCALED 90 DEGS
EXTEND
MP AMGB5
DAS DELTEMPY # DELTEMPY = AMGB4(CDUY-RHO1)
# + AMGB5(CDUZ-RHO2)
CA AMGB8
EXTEND
# Page 1006
MP T5TEMP
DAS DELTEMPZ # DELTEMPZ = AMBG7(CDUY-RHO1)
# + AMGB8(CDUZ-RHO2)
CAF TWO
ADOTLOOP TS SPNDX
DOUBLE
TS DPNDX
EXTEND
INDEX DPNDX
DCA DELTEMPX
INDEX DPNDX
DAS DRHO
EXTEND
INDEX DPNDX
DCA DELTEMPX
INDEX DPNDX
DAS MERRORX
INDEX DPNDX
CA DRHO
DOUBLE # N.B.
DOUBLE # N.B.
EXTEND
INDEX ATTKALMN # PICK UP DESIRED FILTER GAINS
MP GAIN2
INDEX DPNDX # ADOT + (.16)(.1)DRHO
DAS ADOT # -1
INDEX SPNDX # S/C TORQUE TO INERTIA RATIO
CA KMJ # SCALED (450)(1600)/(57.3)(16384)=1/1.3
EXTEND
INDEX SPNDX
MP DFT
INDEX DPNDX
DAS ADOT # KMJ(DFT)
CCS SPNDX
TCF ADOTLOOP # END CALCULATION OF VEHICLE RATES
KMATRIX CA ATTSEC
MASK LOW4
CCS A
TCF TENTHSEK
CAF PRIO34 # CALL FOR 1 SEC UPDATE OF TRANSFORMATION
TC NOVAC # MATRIX FROM GIMBAL AXES TO BODY AXES
EBANK= KMPAC
2CADR AMBGUPDT
CAF NINE
TENTHSEK TS ATTSEC
# Page 1007
# WHEN AUTOMATIC MANEUVERS ARE BEING PERFORMED, THE FOLLOWING ANGLE ADDITION MUST BE MADE TO PROVIDE A SMOOTH
# SEQUENCE OF ANGULAR COMMANDS TO THE AUTOPILOT--
#
# CDUXD = CDUXD + DELCDUX (DOUBLE PRECISION)
# CDUYD = CDUYD + DELCDUY (DOUBLE PRECISION)
# CDUZD = CDUZD + DELCDUZ (DOUBLE PRECISION)
#
# THE STEERING PROGRAMS:
# 1) ATTITUDE MANEUVER ROUTINE
# 2) LEM TRACKING
#
# SHOULD GENERATE THE DESIRED ANGLES (CDUXD, CDUYD, CDUZD) AS WELL AS THE INCREMENTAL ANGLES (DELCDUX, DELCDUY,
# DELCDUZ) SO THAT THE GIMBAL ANGLE COMMANDS CAN BE INTERPOLATED BETWEEN UPDATES.
#
# HOLDFLAG CODING:
#
# + = GRAB PRESENT CDU ANGLES AND STORE IN THETADX, THETADY, THETADZ
# AND PERFORM ATTITUDE HOLD ABOUT THESE ANGLES
# ALSO IGNORE AUTOMATIC STEERING
# SET = + BY
# 1) INITIALIZATION PHASE OF AUTOPILOT
# 2) OCCURANCE OF RHC COMMANDS
2016-07-07 08:47:26 +00:00
# 3) FREE MODE
# 4) SWITCH OVER TO ATTITUDE HOLD FROM AUTO
# WHILE DOING AUTOMATIC STEERING (IN THIS CASE
# HOLDFLAG IS NOT ACTUALLY SET TO +, BUT THE LOGIC
# FUNCTIONS AS IF IT WERE.)
# 5) S/C CONTROL SWITCH IS SCS
# 6) IMU POWER OFF
# +0 = IN ATTITUDE HOLD ABOUT A PREVIOUSLY ESTABLISHED REFERENCE
# - = PERFORMING AUTOMATIC MANEUVER
# -0 = NOT USED AT PRESENT
#
# NOTE THAT THIS FLAG MUST BE SET = - BY THE STEERING PROGRAM IF IT IS TO COMMAND THE AUTOPILOT.
# SINCE ASTRONAUT ACTION MAY CHANGE THE HOLDFLAG SETTING, IT SHOULD BE MONITORED BY THE STEERING PROGRAM TO
# DETERMINE IF THE AUTOMATIC SEQUENCE HAS BEEN INTERRUPTED AND IF SO, TAKE THE APPROPRIATE ACTION.
CS HOLDFLAG
EXTEND
BZMF DACNDLS # IF HOLDFLAG +0,-0,+, BYPASS AUTOMATIC
# COMMANDS.
DCDUINCR CAF TWO
DELOOP TS SPNDX
DOUBLE
TS DPNDX
EXTEND
INDEX A
DCA CDUXD
# Page 1008
DXCH KMPAC
EXTEND
INDEX DPNDX
DCA DELCDUX
TC DPADD
EXTEND
DCA KMPAC
INDEX SPNDX
TS THETADX
INDEX DPNDX
DXCH CDUXD
CCS SPNDX
TCF DELOOP
# Page 1009
# RCS-CSM AUTOPILOT ATTITUDE ERROR DISPLAY
#
# THREE TYPES OF ATTITUDE ERRORS MAY BE DISPLAYED ON THE FDAI:
#
# MODE 1) AUTOPILOT FOLLOWING ERRORS SELECTED BY V61E
# GENERATED INTERNALLY BY THE AUTOPILOT
#
# MODE 2) TOTAL ATTITUDE ERRORS SELECTED BY V62E
# WITH RESPECT TO THE CONTENTS OF N22
#
# MODE 3) TOTAL ASTRONAUT ATTITUDE ERRORS SELECTED BY V63E
# WITH RESPECT TO THE CONTENTS OF N17
#
# MODE 1 IS PROVIDED AS A MONITOR OF THE RCS DAP AND ITS ABILITY TO TRACK AUTOMATIC STEERING COMMANDS. IN THIS
# MODE THE ATTITUDE ERRORS WILL BE ZEROED WHEN THE CMC MODE SWITCH IS IN FREE.
#
# MODE 2 IS PROVIDED TO ASSIST THE CREW IN MANUALLY MANEUVERING THE S/C TO THE ATTITUDE (GIMBAL ANGLES) SPECIFIED
# IN N22. THE ATTITUDE ERRORS WRT THESE ANGLES AND THE CURRENT CDU ANGLES ARE RESOLVED INTO S/C CONTROL AXES
# AS A FLY-TO INDICATOR.
#
# MODE 3 IS PROVIDED TO ASSIST THE CREW IN MANUALLY MANEUVERING THE S/C TO THE ATTITUDE (GIMBAL ANGLES) SPECIFIED
# IN N17. THE ATTITUDE ERRORS WRT THESE ANGLES AND THE CURRENT CDU ANGLES ARE RESOLVED INTO S/C CONTROL AXES
# AS A FLY-TO INDICATOR.
#
# V60 IS PROVIDED TO LOAD N17 WITH A SNAPSHOT OF THE CURRENT CDU ANGLES, THUS SYNCHRONIZING THE MODE 3 DISPLAY
# WITH THE CURRENT S/C ATTITUDE. THIS VERB MAY BE USED AT ANY TIME.
#
# THESE DISPLAYS WILL BE AVAILABLE IN ANY MODE (AUTO, HOLD, FREE, G+N, OR SCS) ONCE THE RCS DAP HAS BEEN
# INITIATED VIA V46E. MODE 1, HOWEVER, WILL BE MEANINGFUL ONLY IN G+N AUTO OR HOLD. THE CREW MAY PRESET (VIA
# V25N17) AN ATTITUDE REFERENCE (DESIRED GIMBAL ANGLES) INTO N17 AT ANY TIME.
DACNDLS CS RCSFLAGS # ALTERNATE BETWEEN FDAIDSP1 AND FDAIDSP2
MASK BIT4
EXTEND
BZF FDAIDSP2
FDAIDSP1 ADS RCSFLAGS
TC NEEDLER
KRESUME1 TCF RESUME # END PHASE 1
# Page 1010
# FDAI ATTITUDE ERROR DISPLAY SUBROUTINE
#
# PROGRAM DESCRIPTION: D. KEENE 5/24/67
#
# THIS SUBROUTINE IS USED TO DISPLAY ATTITUDE ERRORS ON THE FDAI VIA THE DIGITAL TO ANALOG CONVERTERS (DACS)
# IN THE CDUS. CARE IS TAKEN TO METER OUT THE APPROPRIATE NUMBER OF PULSES TO THE IMU ERROR COUNTERS AND PREVENT
# OVERFLOW, TO CONTROL THE RELAY SEQUENCING, AND TO AVOID INTERFERENCE WITH THE COARSE ALIGN LOOP WHICH ALSO USES
# THE DACS.
#
# CALLING SEQUENCE:
#
# DURING THE INITIALIZATION SECTION OF THE USER'S PROGRAM, BIT3 OF RCSFLAGS SHOULD BE SET TO INITIATE THE
# TURN-ON SEQUENCE WITHIN THE NEEDLES PROGRAM:
#
# CS RCSFLAGS # IN EBANK6
# MASK BIT3
# ADS RCSFLAGS
#
# THEREAFTER, THE ATTITUDE ERRORS GENERATED BY THE USER SHOULD BE TRANSFERED TO THE FOLLOWING LOCATIONS IN EBANK6:
2016-07-07 08:47:26 +00:00
#
# AK SCALED 180 DEGREES NOTE: THESE LOCATIONS ARE SUBJECT
# AK1 SCALED 180 DEGREES TO CHANGE
# AK2 SCALED 180 DEGREES
#
# FULL SCALED DEFLECTION CORRESPONDS TO 16 7/8 DEGREES OF ATTITUDE ERROR
# (= 384 BITS IN IMU ERROR COUNTER)
#
# A CALL TO NEEDLER WILL THEN UPDATE THE DISPLAY:
#
# INHINT
# TC IBNKCALL # NOTE: EBANK SHOULD BE SET TO E6
# CADR NEEDLER
# RELINT
#
# THIS PROCESS SHOULD BE REPEATED EACH TIME THE ERRORS ARE UPDATED. AT LEAST 3 PASSES THRU THE PRORAM ARE
# REQUIRED BEFORE ANYTHING IS ACTUALLY DISPLAYED ON THE ERROR METERS.
# NOTE: EACH CALL TO NEEDLER MUST BE SEPARATED BY AT LEAST 50MS TO ASSURE PROPER RELAY SEQUENCING.
#
# ERASABLE USED:
# AK CDUXCMD
# AK1 CDUYCMD
# AK2 CDUZCMD
# EDRIVEX A,L,Q
# EDRIVEY T5TEMP
# EDRIVEZ SPNDX
#
# SWITCHES; RCSFLAGS BITS 3,2
#
# I/O CHANNELS: CHAN12 BIT 4 (COARSE ALIGN - READ ONLY)
# Page 1011
# CHAN12 BIT 6 (IMU ERROR COUNTER ENABLE)
# CHAN14 BIT 13,14,15 (DAC ACTIVITY)
#
# SIGN CONVENTION: AK = THETAC - THETA
# WHERE THETAC = COMMAND ANGLE
# THETA = PRESENT ANGLE
NEEDLER CAF BIT4 # CHECK FOR COARSE ALIGN ENABLE
EXTEND # IF IN COARSE ALIGN DO NOT USE IMU
RAND CHAN12 # ERROR COUNTERS. DON'T USE NEEDLES
EXTEND
BZF NEEDLER1
CS RCSFLAGS # SET BIT3 FOR INITIALIZATION PASS
MASK BIT3
ADS RCSFLAGS
TC Q
NEEDLER1 CA RCSFLAGS
MASK SIX
EXTEND
BZF NEEDLES3
MASK BIT3
EXTEND
BZF NEEDLER2 # BIT3 = 0, BIT2 = 1
CS BIT6 # FIRST PASS BIT3 = 1
EXTEND # DISABLE IMU ERROR COUNTER TO ZERO DACS
WAND CHAN12 # MUST WAIT AT LEAST 60 MS. BEFORE
NEEDLE11 CS ZERO # ENABLING COUNTERS.
TS AK # ZERO THE INPUTS ON FIRST PASS
TS AK1
TS AK2
TS EDRIVEX # ZERO THE DISPLAY REGISTERS
TS EDRIVEY
TS EDRIVEZ
TS CDUXCMD # ZERO THE OUT COUNTERS
TS CDUYCMD
TS CDUZCMD
CS SIX # RESET RCSFLAGS FOR PASS2
MASK RCSFLAGS
AD BIT2
TS RCSFLAGS
TC Q # END PASS1
NEEDLER2 CAF BIT6 # ENABLE IMU ERROR COUNTERS
EXTEND
WOR CHAN12
CS SIX # RESET RCSFLAGS TO DISPLAY ATTITUDE
# Page 1012
MASK RCSFLAGS # ERRORS WAIT AT LEAST 4 MS FOR
TS RCSFLAGS # RELAY CLOSURE
TC Q
NEEDLES3 CAF BIT6 # CHECK TO SEE IF IMU ERROR COUNTER
EXTEND # IS ENABLED
RAND CHAN12
EXTEND # IF NOT RECYCLE NEEDLES
BZF NEEDLER +5
NEEDLES CAF TWO
DACLOOP TS SPNDX
CS QUARTER
EXTEND
INDEX SPNDX
MP AK
TS L
CCS A
CA DACLIMIT
TCF +2
CS DACLIMIT
AD L
TS T5TEMP # OVFLO CHK
TCF +4
INDEX A # ON OVERFLOW LIMIT OUTPUT TO +-384
CAF DACLIMIT
TS L
INDEX SPNDX
CS EDRIVEX # CURRENT VALUE OF DAC
AD L
INDEX SPNDX
ADS CDUXCMD
INDEX SPNDX
LXCH EDRIVEX
CCS SPNDX
TCF DACLOOP
CAF 13,14,15
EXTEND
WOR CHAN14 # SET DAC ACTIVITY BITS
TC Q
REINIT CAF DELAY200 # ........TILT LOGIC
TS TIME5 # REINITIALIZE DAP IN 200MS
TS T5PHASE
TCF RESUME
DELAY200 DEC 16364 # 200MS
DEC -384
# Page 1013
DACLIMIT DEC 16000
DEC 384
# Page 1014
# INITIALIZATION PROGRAM FOR RCS-CSM AUTOPILOT
#
# THE FOLLOWING QUANTITIES WILL BE ZEROED AND SHOULD APPEAR IN CONSECUTIVE LOCATIONS IN MEMORY AFTER WBODY
#
# WBODY (+1) DFT TAU2
# WBODY1 (+1) DFT1 BIAS
# WBODY2 (+1) DFT2 BIAS1
# ADOT (+1) DRHO (+1) BIAS2
# ADOT1 (+1) DRHO1 (+1) ERRORX
# ADOT2 (+1) DRHO2 (+1) ERRORY
# MERRORX (+1) ATTSEC ERRORZ
# MERRORY (+1) TAU
# MERRORZ (+1) TAU1
FRESHDAP CAF ONE # RESET HOLDFLAG TO STOP AUTOMATIC
TS HOLDFLAG # STEERING AND PREPARE TO PICK UP AN
# ATTITUDE HOLD REFERENCE
REDAP TC IBNKCALL # DECODE DAPDATR1, DAPDATR2 FOR DEADBANDS
CADR S41.2 # RATES, QUADFAILS, QUAD MANAGEMENT
TC IBNKCALL # DECODE IXX, IAVG, AND CONVERT
CADR S40.14 # TO AUTOPILOT GAINS
CAF NO.T5VAR # NO. LOCATIONS TO BE ZEROED MINUS ONE
ZEROT5 TS SPNDX # ZERO ALL NECESSARY ERASABLE REGISTERS
CAF ZERO
INDEX SPNDX
TS WBODY
CCS SPNDX
TCF ZEROT5
TCR ZEROJET
CS ZERO
TS CHANTEMP # INITIALIZE MINIMUM IMPULSE CONTROL
TS CH31TEMP # INITIALIZE RHC POSITION MEMORY FOR
# MANUAL RATE MODES
CAF =.24
TS SLOPE # INITIALIZE SWITCHING LOGIC SLOPE
CAF FOUR
TS T5TIME # PHASE 0 RESETS FOR PHASE 2 INTERRUPT IN
# 60 MS. PHASE 2 RESETS FOR PHASE 1 RUPT
# IN (80MS - T5TIME(40MS)). THEREFORE
# PHASE 1 (RATEFILTER) BEGINS CYCLING 100
# MS FROM NOW AND EVERY 100MS THEREAFTER.
CAF ELEVEN
TS ATTKALMN # RESET TO PICK UP KALMAN FILTER TAINS
# TO INITIALIZE THE S/C ANGULAR RATES
# Page 1015
CA CDUX
TS RHO
CA CDUY
TS RHO1
CA CDUZ
TS RHO2
CAF ZERO # RESET AUTOPILOT TO BEGIN EXECUTING
TS T5PHASE # PHASE2 OF PROGRAM
CS IMODES33 # CHECK IMU STATUS
MASK BIT6 # IF BIT6 = 0 IMU IN FINE ALIGN
CCS A # IF BIT6 = 1 IMU NOT READY
TCF IMUAOK
TS ATTKALMN # CANNOT USE IMU
CAF RCSINITB # PROVIDE FREE CONTROL ONLY
TCF RCSSWIT # DON'T START UP RATE FILTER
# SIGNAL NO RATE FILTER
IMUAOK CAF PRIO34 # START MATRIX INITIALIZATION
TC NOVAC # BYPASS IF IMU NOT IN FINE ALIGN
EBANK= KMPAC
2CADR AMBGUPDT
CAF RCSINIT # CLEAR BIT14 --ASSUME WE HAVE A GOOD IMU
RCSSWIT TS RCSFLAGS # CLEAR BIT1 --INITIALIZE T6 PROGRAM
# SET BIT3 --INITIALIZE NEEDLES
# CLEAR BIT4 --RESET FOR FDAIDSP1
CAF T5WAIT60 # NEXT T5RUPT 60 MS FROM NOW TO ALLOW IMU
# ERROR COUNTER TO ZERO.
# (MINIMUM DELAY = 15 MS)
TS TIME5 # SINCE ATTKALMN IS +11, PROGRAM WILL THEN
TC RESUME # PICK UP THE KALMAN FILTER GAINS. RATE
# FILTER WILL BEGIN OPERATING ZOOMS FROM
# NOW
# CONSTANTS USED IN INITIALIZATION PROGRAM
NO.T5VAR DEC 36
=.24 DEC .24 # = SLOPE OF 0.6/SEC
RCSINIT OCT 00004
RCSINITB OCT 20004
T5WAIT60 DEC 16378 # = 6 CS
EBANK= KMPAC
T6ADDR 2CADR T6START
ZEROJET CAF ELEVEN # ZERO BLAST2, BLAST1, BLAST, YWORD2,
TS SPNDX # YWORD1, PWORD2, PWORD1, RWORD2,
CAF ZERO # AND RWORD1
# Page 1016
INDEX SPNDX
TS RWORD1
CCS SPNDX
TCF ZEROJET +1
CAF FOUR
TS BLAST1 +1
CAF ELEVEN
TS BLAST2 +1
CS BIT1
MASK RCSFLAGS
TS RCSFLAGS # RESET BIT1 OF RCSFLAGS TO 0
EXTEND
DCA T6ADDR
DXCH T6LOC
CAF =+14MS # ENABLE T6RUPT TO SHUT OFF JETS IN 14 MS.
TS TIME6
CAF BIT15
EXTEND
WOR CHAN13
TC Q
T5PHASE2 CCS ATTKALMN # IF (+) INITIALIZE RATE ESTIMATE
TCF KALUPDT
TCF +2 # ONLY IF ATTKALMN POSITIVE
TCF +1
CA DELTATT2 # RESET FOR PHASE3 IN 20 MS
XCH TIME5 # (JET SELECTION LOGIC)
ADS T5TIME # TO COMPENSATE FOR DELAYS IN T5RUPT
CA RCSFLAGS # IF A HIGH RATE AUTO MANEUVER IS IN
MASK BIT15 # PROGRESS (BIT 15 OF RCSFLAGS SET), SET
EXTEND # ATTKALMN TO -1
BZF NOHIAUTO # OTHERWISE SET ATTKALMN TO 0.
CS ONE
NOHIAUTO TS ATTKALMN
# Page 1017
# MANUAL ROTATION COMMANDS
CS OCT01760 # RESET FORCED FIRING BITS (BITS 10 TO 5
MASK RCSFLAGS # OF RCSFLAGS) TO ZERO
TS RCSFLAGS
EXTEND
READ CHAN31
TS L
CA CH31TEMP
EXTEND
RXOR LCHAN
MASK MANROT # = OCT00077
EXTEND
BZMF NOCHANGE
LXCH A
TS CH31TEMP # SAVE CONTENTS OF CHANNEL 31 IN CH31TEMP
CA L
EXTEND
MP BIT5 # PUT BITS 6-1 OF A IN BITS 10-5 OF L
CA L
ADS RCSFLAGS # SET FORCED FIRING BITS FOR AXES WITH
# CHANGES IN COMMAND. BITS 10,9 FOR
# ROLL, BITS 8,7 FOR YAW, BITS 6,5 FOR
# PITCH
CS RCSFLAGS # SET RATE DAMPING FLAGS (BITS 13,12, AND
MASK OCT16000 # 11 OF RCSFLAGS)
ADS RCSFLAGS
NOCHANGE CS CH31TEMP
MASK MANROT
EXTEND
BZMF AHFNOROT # IF NO MANUAL COMMANDS, GO TO AHFNOROT
TS HOLDFLAG # SET HOLDFLAG +
TC STICKCHK # WHEN THE RHC IS OUT OF DETENT, PMANNDX,
# YMANNDX, AND RMANNDX ARE ALL SET, BY
# MEANS OF STICKCHK, TO 0, 1, OR 2 FOR NO,
# +, OR - ROTATION RESPECTIVELY AS
# COMMANDED BY THE RHC.
#
# HOWEVER, IT IS WELL TO NOTE THAT AFTER
# THE RHC IS RETURNED TO DETENT, THE
# PROGRAM BRANCHES TO AHFNOROT AND AVOIDS
# STICKCHK SO PMANNDX, YMANNDX, AND
# RMANNDX ARE NOT RESET TO ZERO BUT RATHER
# LEFT SET TO THEIR LAST OUT OF DETENT
# Page 1018
# VALUES.
CS FLAGWRD1 # SET STIKFLAG TO INFORM STEERING
MASK BIT14 # PROGRAMS (P20) THAT ASTRONAUT HAS
ADS FLAGWRD1 # ASSUMED ROTATIONAL CONTROL OF SPACECRAFT
CAF BIT14
EXTEND
RAND CHAN31
EXTEND
BZMF FREEFUNC
CA RCSFLAGS # EXAMINE RCSFLAGS TO SEE IF RATE FILTER
MASK BIT14 # HAS BEEN INITIALIZED
CCS A # IF SO, PROCEED WITH MANUAL RATE COMMANDS
TCF REINIT # .....TILT, RECYCLE TO INITIALIZE FILTER
CS FIVE # IF MANUAL MANEUVER IS AT HIGH RTE, SET
AD RATEINDX # ATTKALMN TO -1.
EXTEND # OTHERWISE, LEAVE ATTKALMN ALONE.
BZMF +3
CS ONE
TS ATTKALMN
CAF TWO # AUTO-HOLD MANUAL ROTATION
SETWBODY TS SPNDX
DOUBLE
TS DPNDX
INDEX SPNDX # RMANNDX = 0 NO ROTATION
CA RMANNDX # = 1 + ROTATION
EXTEND # = 2 - ROTATION
BZF NORATE # IF NO ROTATION COMMAND ON THIS AXIS,
# GO TO NORATE.
AD RATEINDX # RATEINDX = 0 0.05 DEG/SEC
TS Q # = 2 0.2 DEG/SEC
INDEX Q # = 4 0.5 DEG/SEC
CA MANTABLE -1 # = 6 2.0 DEG/SEC
EXTEND
MP BIT9 # MULTIPLY MANTABLE BY 2 TO THE -6
INDEX DPNDX # TO GET COMMANDED RATE.
DXCH WBODY # SET WBODY TO COMMANDED RATE.
CA RCSFLAGS
MASK OCT16000 # IS RATE DAMPING COMPLETED (BITS 13,12 AND
EXTEND # 11 OF RCSFLAGS ALL ZERO.) IF SO, GO TO
BZF MERUPDAT # MERUPDAT TO UPDATE CUMULATIVE ATTITUDE
# ERROR.
# Page 1019
ZEROER CA ZERO # ZEROER ZEROS MERRORS
ZL
INDEX DPNDX
DXCH MERRORX
TCF SPNDXCHK
NORATE ZL
INDEX DPNDX
DXCH WBODY # ZERO WBODY FOR THIS AXIS
CA RCSFLAGS
MASK OCT16000
EXTEND # IS RATE DAMPING COMPLETED
BZF SPNDXCHK # YES, KEEP CURRENT MERRORX GO TO SPNDXCHK
TCF ZEROER # NO, GO TO ZEROER
MERUPDAT INDEX Q # MERRORX=MERRORX+MEASURED CHANGE IN ANGLE
CS MANTABLE -1 # -COMMANDED CHANGE IN ANGLE
EXTEND # THE ADDITION OF MEASURED CHANGE IN ANGLE
MP BIT7 # HAS ALREADY BEEN DONE IN THE RATE FILTER
INDEX DPNDX # COMMANDED CHANGE IN ANGLE = WBODY TIMES
DAS MERRORX # .1SEC = MANTABLE ENTRY TIMES 2 TO THE -8
SPNDXCHK INDEX DPNDX
CA MERRORX
INDEX SPNDX
TS ERRORX # ERRORX = HIGH ORDER WORD OF MERRORX
CCS SPNDX
TCF SETWBODY
TCF JETS
OCT01760 OCT 01760 # FORCED FIRING BITS MASK
OCT01400 OCT 01400 # ROLL FORCED FIRING MASK ORDER OF
OCT00060 OCT 00060 # PITCH FORCED FIRING MASK DEFINITION
OCT00300 OCT 00300 # YAW FORCED FIRING MASK MUST BE
# PRESERVED
# FOR INDEXING
MANROT OCT 77
OCT16000 OCT 16000 # RATE DAMPING FLAGS MASK
MANTABLE DEC .0071111
DEC -.0071111
DEC .028444
DEC -0.028444
DEC .071111
DEC -.071111
DEC .284444
DEC -.284444
=+14MS DEC 23
FREEFUNC INDEX RMANNDX # ACCELERATION
# Page 1020
CA FREETAU # COMMANDS
TS TAU
INDEX PMANNDX
CA FREETAU # FREETAU 0 SEC
TS TAU1 # +1 +0.10 SEC
INDEX YMANNDX # +2 -0.10 SEC
CA FREETAU # (+3) 0 SEC
TS TAU2
TCF T6PROGM
FREETAU DEC 0
DEC 480
DEC -480
DEC 0
T6PROGM CAF ZERO # FOR MANUAL ROTATIONS
TS ERRORX
TS ERRORY
TS ERRORZ
TCF T6PROG
# Page 1021
DEC .2112 # FILTER GAIN FOR TRANSLATION, LEM ON
DEC .8400 # FILTER GAIN FOR TRANSLATION 2(ZETA)WN DT
DEC .2112 # FILTER GAIN FOR 4 DEGREE/SEC MANEUVERS
GAIN1 DEC .0640 # KALMAN FILTER GAINS FOR INITIALIZATION
DEC .3180 # OF ATTITUDE RATES
DEC .3452
DEC .3774
DEC .4161
DEC .4634
DEC .5223
DEC .5970
DEC .6933
DEC .8151
DEC .9342
DEC .0174 # FILTER GAIN FOR TRANSLATION, LEM ON
DEC .3600 # FILTER GAIN FOR TRANSLATION (WN)(WN)DT
DEC .0174 # FILTER GAIN FOR 4 DEGREE/SEC MANEUVERS
GAIN2 DEC .0016 # SCALED 10
DEC .0454
DEC .0545
DEC .0666
DEC .0832
DEC .1069
DEC .1422
DEC .1985
DEC .2955
DEC .4817
DEC .8683
STICKCHK TS T5TEMP
MASK THREE # INDICES FOR MANUAL ROTATION
TS PMANNDX
CA T5TEMP
EXTEND # MAN RATE 0 0 RATE (DP)
MP QUARTER # +1 + RATE (DP)
TS T5TEMP # +2 - RATE (DP)
MASK THREE # (+3) 0 RATE (DP)
TS YMANNDX
CA T5TEMP
EXTEND
MP QUARTER
TS RMANNDX
TC Q
KALUPDT TS ATTKALMN # INITIALIZATION OF ATTITUDE RATES USING
# KALMAN FILTER TAKES 1.1 SEC
CA DELTATT # =1SEC - 80MS
AD T5TIME # + DELAYS
# Page 1022
TS TIME5
TCF +3
CAF DELTATT2 # SAFETY PLAY TO ASSURE
TS TIME5 # A T5RUPT
KRESUME2 CS ZERO # RESET FOR PHASE1
TS T5PHASE # RESUME INTERRUPTED PROGRAM
TCF RESUME
FDAIDSP2 CS BIT4 # RESET FOR FDAIDSP1
MASK RCSFLAGS
TS RCSFLAGS
CS FLAGWRD0 # ON - DISPLAY ONE OF THE TOTAL ATTITUDE
MASK BIT9 # ERRORS
EXTEND
BZF FDAITOTL
EXTEND
DCS ERRORX # OFF - DISPLAY AUTOPILOT FOLLOWING ERROR
DXCH AK
CS ERRORZ
TS AK2
TCF RESUME # END PHASE 1
FDAITOTL CA FLAGWRD9
MASK BIT6
EXTEND
BZF WRTN17 # IS N22ORN17 (BIT6 OF FLAGWRD9) = 0
# IF SO, GO TO WRTN17
WRTN22 EXTEND # OTHERWISE, CONTINUE ON TO WRTN22 AND
DCA CTHETA # GET SET TO COMPUTE TOTAL ATTITUDE
DXCH WTEMP # ERROR WRT N22 BY PICKING UP THE THREE
CA CPHI # COMPONENTS OF N22
GETAKS EXTEND # COMPUTE TOTAL ATTITUDE ERROR FOR
MSU CDUX # DISPLAY ON FDAI ERROR NEEDLES
TS AK
CA WTEMP
EXTEND
MSU CDUY
TS T5TEMP
EXTEND
MP AMGB1
ADS AK
CA T5TEMP
EXTEND
MP AMGB4
# Page 1023
TS AK1
CA T5TEMP
EXTEND
MP AMGB7
TS AK2
CA WTEMP +1
EXTEND
MSU CDUZ
TS T5TEMP
EXTEND
MP AMGB5
ADS AK1
CA T5TEMP
EXTEND
MP AMGB8
ADS AK2
TCF RESUME # END PHASE1 OF RCS DAP
WRTN17 EXTEND # GET SET TO COMPUTE TOTAL ASTRONAUT
DCA CPHIX +1 # ATTITUDE ERROR WRT N17 BY PICKING UP
DXCH WTEMP # THE THREE COMPONENTS OF N17
CA CPHIX
TCF GETAKS
# Page 1024 (empty page)