# Copyright: Public domain. # Filename: P61-P67.agc # Purpose: Part of the source code for Comanche, build 055. It # is part of the source code for the Command Module's # (CM) Apollo Guidance Computer (AGC), Apollo 11. # Assembler: yaYUL # Reference: pp. 789-818 # Contact: Ron Burkey # Website: http://www.ibiblio.org/apollo. # Mod history: 2009-05-12 RSB Adapted from Colossus249 file of the same # name and Comanche 055 page images. # 2009-05-20 RSB Corrections: V06N68 -> V06N74, added missing # definition of V06N74, in several # interpreter operands fixed stuff like # N-M,1 to N -M,1 # # The contents of the "Comanche055" files, in general, are transcribed # from scanned documents. # # Assemble revision 055 of AGC program Comanche by NASA # 2021113-051. April 1, 1969. # # This AGC program shall also be referred to as Colossus 2A # # Prepared by # Massachusetts Institute of Technology # 75 Cambridge Parkway # Cambridge, Massachusetts # # under NASA contract NAS 9-4065. # # Refer directly to the online document mentioned above for further # information. Please report any errors to info@sandroid.org. # Page 789 # PROGRAM: P61 # MOD NO.: 0 MAR. 13, 1967 # MOD BY: R. HIRSCHKOP # MOD NO: 1 MOD BY: RR BAIRNSFATHER DATE: 22 JUN 67 RESTARTS # MOD NO: 2 MOD BY: RR BAIRNSFATHER DATE: 17 JAN 68 COLOSSUS GSOP CHANGES # MOD NO: 3 MOD BY: RR BAIRNSFATHER DATE: 8 MAY 68 DELETE CMSM MANEUVER (PCR 50) # FUNCTION: TO CALCULATE AND DISPLAY EMS INITIALIZATION DATA # CALLING SEQUENCE: BY V37 # EXIT: TO P62 # SUBROUTINE CALLS: S61.1, S61.3, GOFLASH, FLAGUP, R02BOTH # ERASABLE INITIALIZATION: # EMSALT (-29) M .05G ALTITUDE ABOVE FISCHER ELLIPSOID PAD LOADED. # ALFAPAD /180 HYPERSONIC CM TRIM ANGLE OF ATTACK PAD LOADED # OUTPUT: THE FOLLOWING REGISTERS ARE WRITTEN IN FOR USE BY DISPLAYS # GMAX 100 GMAX (-14) G,S MAXIMUM ACCELERATION # VPRED (-7) M/CS PREDICTED VELOCITY AT 400K FT # GAMMAEI (GAMMA/360 PREDICTED GAMMA AT 400K FT # RTGO THETAH/360 RANGE ANGLE TO SPLASH FROM EMSALT EMSALT IS PAD LOADED # VIO (-7) M/CS INERTIAL VELOCITY AT EMSALT EMSALT IS PAD LOADED # TTE (-28) CS TIME TO EMSALT EMSALT IS PAD LOADED # LAT(SPL) /360 TARGET LOCATION LEFT BY DSKY # LNG(SPL) /360 TARGET LOCATION LEFT BY DSKY # HEADSUP (0) +1 = LIFT DOWN, -1 = LIFT UP LEFT BY DSKY # DEBRIS: SEE SUBROUTINES. BANK 26 SETLOC P60S BANK EBANK= AOG COUNT* $$/P61 P61 CA BIT14 # EXTENDED VERB SHOULD BE FREE THIS CLOSE TS EXTVBACT # TO V37 # LOCK OUT EXTENDED VERBS SO CAN USE TFF # ROUTINES. EXT VERB ERASE IS USED CS ONE # REMOVE IF HEADSUP EVER ON UPLINK DATA TS HEADSUP # PRELOAD TC S61.1 # CHECK STATE VECTOR AND IMU ORIENTATION # RV 60GENRET. DOES PHASCHNG, GROUP 4. CA V06N61 # LAT(SPL) LNG(SPL) HEADSUP # XXX.XX DEG XXX.XX DEG XXXXX. TC BANKCALL CADR GOFLASHR TC GOTOPOOH # Page 790 TC P61.4 TC -5 P61.3 TC PHASCHNG OCT 00014 TC ENDOFJOB P61.4 ZL CCS HEADSUP # C(HEADSUP)= +1/-1 CA BIT14 # IF HEADSUP POS,ROLLC =180 DEG.(LIFT DWN) NOOP # IF HEADSUP NEG,ROLLC =0 (LIFT UP) DXCH ROLLC # ROLLC IS USED BY S62.3: GIM ANG AT .05G TC INTPRET NEWRNVN DLOAD PIPTIME # SAVE TIME OF RN,VN TO DETERMINE IF AN STCALL MM # UPDATE HAS OCCURRED. STARTEN1 # INITIALIZE VLOAD RN STORE RONE UNIT STOVL URONE VN STORE VONE VXV UNIT URONE STORE UNI DUMPP61 DLOAD DSU MM # INITIAL VALUE OF PIPTIME PIPTIME BMN CALRB NEWRNVN # UPDATED... GO TRY AGAIN S61.2 # GET DISPLAY DATA FOR N60 AND N63 # AND RETURN IN BASIC, BELOW. P61.1 TC CLEARMRK CA V06N60 # GMAX VPRED GAMMAEI # XXX.XX G XXXXX. FPS XXX.XX DEG TC BANKCALL CADR GOFLASH TC GOTOPOOH TC P61.2 # PROCEED TC -5 P61.2 TC INTPRET # CORRECT TTE FOR TIME LAPSE DURING # ABOVE DISPLAY. RTB DSU LOADTIME # CURRENT TIME. # Page 791 MM # PIPTIME FOR RONE & VONE. DAD TTE1 # NEGATIVE OF FREE FALL TIME. STORE TTE # DECREMENTED EXIT CA V06N63 # RTGO VIO TTE # XXXX.X NM XXXXX. FPS XXBXX M,S TC BANKCALL CADR GOFLASH TC GOTOPOOH TC +2 TC P61.2 # REDO # .... THEN FALL INTO P62 # Page 792 # PROGRAM: P62 # MOD NO.: 0 MAR. 13, 1967 # MOD BY: R. HIRSCHKOP # MOD NO: 1 MOD BY: RR BAIRNSFATHER DATE: 21 MAR 67 # MOD NO: 2 MOD BY: RR BAIRNSFATHER DATE: 22 JUN 67 RESTARTS. # MOD NO: 3 MOD BY: RR BAIRNSFATHER DATE: 17 JAN 68 COLOSSUS GSOP CHANGES. # MOD NO: 4 MOD BY: RR BAIRNSFATHER DATE: 8 MAY 68 MOVE START OF DESIRED GIMBAL CALC. # FUNCTION: 1) TO NOTIFY CREW WHEN GNC SYSTEM IS PREPARED FOR CM/SM SEPARATION. # 2) TO ORIENT THE CM TO THE CORRECT ATTITUDE FOR ATMOSPHERIC ENTRY. # CALLING SEQUENCE: BY V37 OR DIRECTLY FROM P61 # EXIT: TO P63 # ERASABLE INITIALIZATION: # ALFAPAD LEFT BY PAD LOAD # LADPAD LEFT BY PAD LOAD # LODPAD LEFT BY PAD LOAD # LAT(SPL) (MAY BE CHANGED BELOW) LEFT BY DSKY, VIA P61 # LNG(SPL) (MAY BE CHANGED BELOW) LEFT BY DSKY, VIA P61 # HEADSUP (MAY BE CHANGED BELOW) LEFT BY DSKY, VIA P61 # SUBROUTINE CALLS: NEWMODEX, S61.1, CM/DAPIC, CM/DAPON, R02BOTH, GOPERF1, GOFLASH, GODSPR. COUNT* $$/P62 TC NEWMODEX # MODE CHANGE IF CAME FROM P61. MM 62 # MODE CHANGE AUTOMATIC VIA V 37. CA ONE TS DNLSTCOD P62 TC S61.1 # CHECK STATE VECTOR AND IMU ORIENTATION. TC INTPRET SSP RTB POSEXIT P62.3 # CALCULATE DESIRED .05G GIMBAL ANGLES. # WITHOUT DISPLAY. CM/DAPIC # START CM/POSE AND BODY RATE CALC # DOES 2PHSCHNG, OCT 40116, OCT 05024, OCT 13000. # CM/DAPIC SETS EBANK = EBAOG # AND RETURNS IN BASIC TO P62.2. P62.2 EXTEND DCA POSECADR # CONTINUE WITH CM/POSE AFTER AV G. DXCH AVEGEXIT CAF OCT41 # REQUEST SEPARATION TC BANKCALL CADR GOPERF1R TC GOTOPOOH TC +3 # PROCEED # Page 793 # NOTE: NODOFLAG WILL BE SET IN CM/DAPON. *** TC -5 # ENTER TC P61.3 # FOR PHASCHNG AND ENDOFJOB +3 TC POSTJUMP CADR CM/DAPON # DISABLE RCS DAP, ENABLE ENTRY DAP AND # DO ATTITUDE HOLD. # WILL IDLE UNTIL CM/POSE DOES ONE UPDATE. # CM/DAPON DOES NO PHASCHNG. P62.1 CA V06N61 # LAT(SPL) LNG(SPL) HEADSUP # XXX.XX DEG XXX.XX DEG 0000X. # TERMINATE ATTITUDE HOLD. SET UP COMMANDS: # ROLLC, ALFACOM, BETACOM. BEGIN MANEUVER TO # ENTRY ATTITUDE. TC BANKCALL CADR GOFLASH TC -3 TC +2 TC -5 TC PHASCHNG OCT 04024 # USE ENTRYVN FOR DISPLAY BELOW. # EBANK WAS SET IN CM/DAPON TO EBAOG CCS HEADSUP # C(HEADSUP) = +/- 1 CA BIT14 # IF HEADSUP POS, ROLLC=180 DEG (LIFT DWN) NOOP # IF HEADSUP NEG, ROLLC=0 DEG (LIFT UP) TS ROLLC CA ALFAPAD # NOMINAL ALFATRIM PAD LOADED, NEG. NO. ZL DXCH ALFACOM # SET ALFACOM = ALFA TRIM, BETACOM=0 CA ONE # PERMITS EXDAP2 TO CHANGE FLAG TO +0 TS P63FLAG # AS INDICATOR. STARTS UP P63. CA V06N22 # SET UP DISPLAY FOR CDU DESIRED VALUES TS ENTRYVN # FROM ENTRY ATTITUDE CALC, THAT IS # ALREADY GOING. TC UPFLAG # TURN ON ENTRY DISPLAY ADRES ENTRYDSP # ENTRYDSP = 92D BIT 13 FLAG 6 SKIP # Page 794 CS CMDAPMOD # GO DIRECTLY TO P63 IF BODY ATTITUDE MASK ONE # IS SUCH THAT THE DELAY TASK: WAKEP62 EXTEND # WILL BE OMITTED. BZF P63.1 # DISABLE GRP 4, GO TO ENDOFJOB. # (I.E., CONTINUE IF CMDAPMOD = -1, OR +0) TC P63 # PUT JOB TO SLEEP UNTIL VEHICLE MANEUVER HAS # REDUCED ALFA TO +/-45 DEG. CONSIDER REMAINING # 65 DEG (25 DEG IF ALFA NEG) TO ALFA TRIM TO # OCCUR AT 3 DEG/SEC, AND TERMINATE P62 AT THAT # TIME. # TASK WAKEP62 IS CALLED FROM ENTRY DAP. WAKEP62 CA PRIO13 TC NOVAC EBANK= AOG 2CADR P63 TC TASKOVER # EACH 2 SEC, CALCULATE GIMBAL ANGLES FOR ENTRY CON- # DITIONS THAT WILL HOLD IF REORIENTATION WERE MADE # AT PRESENT RN, VN. COME HERE FROM CM/POSE AND ALSO # IN KEPLER PHASE OF ENTRY. P62.3 SSP GOTO # SET RETURN ADDRESS SO THAT ROUTINE QPRET # GOES DIRECTLY TO ENTRY GUIDANCE EXIT ENDEXIT # THAT DOES ENTRY DISPLAY, GRP 5. S62.3 # PUT DESIRED CDU VALUES IN CPHI'S FOR # N22 DISPLAY. # Page 795 # P63 # PROGRAM: P63 # MOD NO: 0 MAR. 13, 1967 # MOD BY: R. HIRSCHKOP # MOD NO: 1 MOD BY: RR BAIRNSFATHER DATE: 22 JUN 67 RESTARTS # MOD NO: 2 MOD BY: RR BAIRNSFATHER DATE: 14 JUL 67 REVISED RESTARTS # FUNCTION: 1) TO INITIALIZE THE ENTRY EQUATIONS. # 2) TO CONTINUE TO HOLD THE CM TO THE CORRECT ATTITUDE WITH RESPECT TO THE ATMOSPHERE FOR # THE ONSET OF ENTRY DECELERATION. ROLL ANGLE IS LIFT UP/DOWN AS SPECIFIED BY HEADSUP. # 3) TO SENSE .05G. # CALLING SEQUENCE: DIRECTLY FROM P62 # EXIT: TO ENDOFJOB # SUBROUTINE CALLS: NEWMODEX, GODSPR COUNT* $$/P63 P63 TC NEWMODEX MM 63 # ARRIVE WITH EBANK = AOG. CA ENTCADR # CONTINUE AT STARTENT AFTER CM/POSE. # AT END OF STATEMENT, CHANGE ADDRESS IN GOTOADDR # TO CONTINUE AT SCALEPOP THEREAFTER. TS POSEXIT CA V06N64 # G VI R TO SPLSH # XXX.XX G XXXX. FPS XXXX.X NM TS ENTRYVN # FOR DISPLAY CALL IN OVERNOUT CS ONE # IN CASE FLAG IS LEFT AT +1 BY DAP. THE TS P63FLAG # -1 ASSURES THAT EXO-ATM DAP WILL NOT # CALL P63 OUT OF SEQUENCE IN P66. TC PHASCHNG # THIS IS REQUIRED TO PRESERVE CLEANDSP OCT 00004 # RETURN IN EVENT OF AN EXTENDED VERB TC BANKCALL # FLUSH 'N22' DISPLAY, IF ON, (OMIT CADR CLEANDSP # DISPLAY DURING 'STARTENT' PASS.) P63.1 TC PHASCHNG OCT 00004 # DISABLE. DISPLAY RESTARTED VIA ENTRY. TC ENDOFJOB V06N60 VN 0660 V06N61 VN 0661 V06N63 VN 0663 # Page 796 V06N64 VN 0664 ENTCADR CADR STARTENT EBANK= RTINIT # TO CARRY OVER INTO ENTRY STEERING. POSECADR 2CADR CM/POSE # Page 797 # PROGRAM: P64 # MOD NO: 1 SEPT. 19, 1967 # MOD BY: R. HIRSCHKOP # MOD NO: 2 MOD BY: RR BAIRNSFATHER DATE: 8 MAY 68 REVISED COMMENTS FOR COLOSSUS # FUNCTION: 1. TO START ENTRY GUIDANCE AT .05G SELECTING ROLL ATTITUDE, CONSTANT DRAG LEVEL, AND # DRAG THRESHOLD, KA, WHICH ARE KEYED TO THE .05G POINT. # 2. SELECT FINAL PHASE P67 IF V < 27000 FPS WHEN .2G OCCURS. # 3. ITERATE FOR UP-CONTROL SOLUTION P65 IF V > 27000 FPS AND IF ALTITUDE RATE AND DRAG # LEVEL CONDITIONS ARE SATISFIED. ENTER P65 WHEN CONSTANT DRAG CONTROLLER HAS BROUGHT RANGE # AS PREDICTED TO WITHIN 25 NM OF DESIRED RANGE. # 4. SELECT FINAL PHASE P67 IF NO UP-CONTROL SOLUTION EXISTS WITH VL > 18000 FPS. # CALLING SEQUENCE: BY RTB FROM REENTRY CONTROL # EXIT: BACK TO REENTRY CONTROL. # SUBROUTINE CALLS: NEWMODEX BANK 25 SETLOC P60S1 BANK # THIS DISPLAY IS CALLED EACH PASS THROUGH STEERING. RESTART PROTECTION IS VIA STEERING. COUNT* $$/P64 P64 TC NEWMODEX # ENTER VIA RTB WHEN .05G IS EXCEEDED. MM 64 CA V06N74 # ROLLC VI D # XXX.XX DEG XXXXX. FPS XXX.XX G TS ENTRYVN # DISPLAY VIA OVERNOUT. TC DANZIG # ... AND CONTINUE IN INITROLL ... V06N74 VN 0674 # Page 798 # PROGRAM: P65 # MOD NO: 0 MOD BY: RR BAIRNSFATHER DATE: 17 JAN 68 COLOSSUS GSOP ADDITION. # FUNCTION: TO CONTINUE ENTRY GUIDANCE, USING THE UP-CONTROL PHASE TO STEER TO A CONTROLLED EXIT # CONDITION. THIS PHASE TERMINATES A) IF D < Q7 FPSS, GOTO TO P66. # B) IF RDOT NEG, AND IF V < VL +500 FPS, GO TO P67. # CALLING SEQUENCE: BY RTB FROM REENTRY CONTROL # EXIT: BACK TO REENTRY CONTROL, OR TO ENDOFJOB. # SUBROUTINE CALLS: NEWMODEX COUNT* $$/P65 P65 TC NEWMODEX # ENTER VIA RTB WHEN RANGE < 25 N M OF MM 65 # TARGET. CA PRIO13 TC NOVAC EBANK= ENTRYVN 2CADR P65.1 TC 2PHSCHNG # 2 PHASE CHG REQUIRED TO PREVENT RE- OCT 00554 # STARTING FLASHING DISPLAY TWICE. OCT 10035 # 4.55 SPOT AND SERVICER, HERE. TC INTPRET SSP RTB GOTOADDR # CHANGE ENTRY MODE TO UPCONTRL. UPCONTRL REFAZE10 # GO HERE TO REESTABLISH ENTRY SEQUENCER. # AND CONTINUE AT UPCONTRL... P65.1 TC DOWNFLAG ADRES ENTRYDSP # ENTRYDSP = 92D BIT 13 FLAG 6 CA V16N69 # ROLLC DL (Q7) VL TC BANKCALL # XXX.XX DEG XXX.XX G XXXXX. FPS CADR GOFLASHR TC -3 # NODOFLAG IS SET ... TC +3 TC -5 TC P61.3 # EST. GRP 4 FOR DISPLAY AND DO ENDOFJOB # IF PROCEED, CONTINUE TC UPFLAG ADRES ENTRYDSP # ENTRYDSP = 92D BIT 13 FLAG 6 TC P63.1 # DISABLE GRP 4, START UP ENTRY DISPLAY # N06V68 VIA OVERNOUT, AS USED IN P64 V16N69 VN 1669 # Page 799 # PROGRAM: P66 # MOD NO: 0 MOD BY: RR BAIRNSFATHER DATE: 17 JAN 68 COLOSSUS GSOP ADDITIONS # FUNCTION: KEEP CM ATTITUDE IN TRIM TO THE RELATIVE VELOCITY VECTOR. ENTRY GUIDANCE STOPS GENERATING # ROLL COMMANDS UNTIL DRAG BUILDS UP TO Q7+0.5 FPSS. # CALLING SEQUENCE: VIA RTB FROM REENTRY CONTROL. # EXIT: BACK TO REENTRY CONTROL. # SUBROUTINE CALLS: NEWMODEX COUNT* $$/P66 P66 TC NEWMODEX # ENTER VIA RTB WHEN D < Q7 FPSS MM 66 CA V06N22 # OGA IGA MGA # XXX.XX DEG XXX.XX DEG XXX.XX DEG TC P66END # IN CASE CAME FROM P65, GO TO DISABLE GRP 4, # AND SET ENTRYDSP TO DO DISPLAY VIA # OVERNOUT. # ... AND CONTINUE AT KEP2 # Page 800 # PROGRAM: P67 # MOD NO: 0 MAR. 16, 1967 # MOD BY: R. HIRSCHKOP # FUNCTION: TO TERMINATE STEERING WHEN THE CM VELOCITY WRT EARTH = 1000 FT/SEC # CALLING SEQUENCE: # EXIT: TO P00H # SUBROUTINE CALLS: GOFLASH # THIS DISPLAY IS CALLED EACH PASS THROUGH STEERING. RESTART PROTECTION IS VIA STEERING. COUNT* $$/P67 P67 TC NEWMODEX # ENTER VIA RTB MM 67 CA V06N66 # ROLLC XRNGERR DNRNGERR # XXX.XX DEG XXXX.X NM XXXX.X NM P66END TS ENTRYVN # DISPLAY VIA OVERNOUT. TC UPFLAG # (IN CASE CAME FROM P65. ENTRY DISPLAY ADRES ENTRYDSP # WILL FLUSH FLASHING DISP. IF STILL ON) # BIT 13 FLAG 6 KILLGRP4 TC PHASCHNG # DISABLE GRP4, IN CASE CAME FROM HUNTEST. OCT 00004 # (COME TO KILLGRP4 VIA RTB, RET TO CALLER) TC DANZIG # ... AND CONTINUE AT PREDICT3 ... V06N66 VN 0666 BANK 26 SETLOC P60S2 BANK P67.1 CA V16N67 # RTOGO LAT LONG # XXXX.X NM XXX.XX DEG XXX.XX DEG TC BANKCALL CADR GOFLASH TC +3 # EFFECTIVE GOTOPOOH TC +2 TC P67.1 # REDO CS THREE # TURN OFF ENTRY DAP INHINT MASK CM/FLAGS # CM/DSTBY, GAMDIFSW TS CM/FLAGS RELINT EXTEND DCA SERVCAD2 # Page 801 DXCH AVEGEXIT TCF GOTOPOOH # Page 802 P67.2 VLOAD CLEAR # CALC PRESENT LAT, LONG, ALT. RN ERADFLAG # USE PAD RAD FOR ALT. (NOT SEEN ANYWAY) STODL ALPHAV PIPTIME # USE TIME OF RN CLEAR CALL LUNAFLAG LAT-LONG P67.3 RTB # ENTRY EXIT THAT OMITS DISPLAY. SERVNOUT V16N67 VN 1667 OCT41 = 33DEC SERVCAD2 = SERVCAD1 # Page 803 # SUBROUTINE NAME: S61.1 # MOD NO: 0 DATE: 21 FEB 67 # MOD BY: RR BAIRNSFATHER LOG SECTION: P61-P67 # MOD NO: 1 MOD BY: RR BAIRNSFATHER DATE: 22 JUN 67 RESTARTS. # FUNCTIONAL DESCRIPTION: CALLED BY BOTH P61 AND P62 # FIRST, TEST TO SEE IF AVERAGEG IS ON. IF NOT, UPDATE THE STATE VECTOR TO PRESENT TIME + TOLERANCE # AND TURN ON AVERAGEG AT THAT TIME, AND CONTINUE. OTHERWISE CONTINUE: SEE IF IMU Y AXIS IS # WITHIN 30 DEG OF VAR. IF YES, EXIT SUBROUTINE S61.1. IF SO, SEE IF -Y AXIS OF IMU IS WITHIN # 30 DEG OF VAR. IF YES, DISPLAY ALARM: 01427 IMU REVERSED. # IF NO, DISPLAY ALARM: 01426 IMU UNSATISFACTORY. # IN EITHER OF THESE LAST 2 CASES, WAIT 10 SEC AND THEN EXIT SUBROUTINE S61.1. # # REMARK: THERE WILL BE A SHORT 10 SEC DELAY IF AN ALARM EXIT IS TAKEN. THE DELAY FOR INTEGRATION IS # AS SHORT AS CAN BE MADE, BUT IS ARBITRARY SINCE IT DEPENDS ON THE AGE OF THE STATE VECTOR. # # CALLING SEQUENCE: CALL # S61.1 # # C(MPAC) UNSPECIFIED # PUSHLOC UNSPECIFIED # # SUBROUTINES CALLED: LOADTIME, CSMPREC, TPAGTREE, # WAITLIST, JOBSLEEP, JOBWAKE, PREREAD, ALARM, GODSPR, BANKCALL, DELAYJOB # # NORMAL EXIT MODES: RVQ # # ALARMS: 01426 IMU UNSATISFACTORY # 01427 IMU REVERSED # # OUTPUT: POSSIBLE ALARMS # POSSIBLY TDEC1, RATT, VATT, RN, VN # # ERASABLE INITIALIZATION REQUIRED: # AVEGFLAG AVERAGEG ON OR OFF LEFT BY SERVICER # PIPTIME (-28) CS TIME OF PIPA UPDATE LEFT BY READACCS # RN (-29) M STATE VECTOR LEFT BY AVERAGEG # VN (-7) M/CS STATE VECTOR LEFT BY AVERAGEG # REFSMMAT (-1) .5 REF TO SM MATRIX LEFT BY LAST IMU ALIGNMENT # # DEBRIS: QPRET # POSSIBLY PIPTIME1, RATT, VATT, TDEC1, RN1, VN1, QTEMP, X1 IF UPDATED # PUSH LIST LOCS USED BY CSMPREC EBANK= AOG # FOR 60GENRET, S61DT BANK 26 SETLOC P60S3 BANK COUNT* $$/S61.1 S61.1 EXTEND QXCH 60GENRET # SAVE RET ADDR IN EB 6 TC BANKCALL CADR R02BOTH TC INTPRET # Page 804 BON CALRB AVEGFLAG # IS AVERAGEG ON S61.1A # YES MIDTOAV2 # GET FUTURE STATE VECTOR SOON AS CAN CA MPAC +1 # RETURN INHINTED *** TS S61DT # FOR RESTART. TC WAITLIST EBANK= DVCNTR 2CADR S61.1C TC PHASCHNG OCT 40434 TC ENDOFJOB S61.1C CA PRIO13 TC FINDVAC EBANK= AOG 2CADR S61.1A -1 EXTEND DCA SERVCAD1 # HE WHO START AVERAGEG MUST SERVICE DXCH AVEGEXIT # THE EXIT. TC 2PHSCHNG OCT 00454 OCT 00415 CA EBENTRY # SET EB= 7 FOR PREREAD. TS EBANK TC POSTJUMP CADR PREREAD # PREREAD DOES TC TASKOVER. TC INTPRET S61.1A BOVB VLOAD TCDANZIG # TURN OFF OVFIND, IF ON VN # VN (-7) M/CS VXV MXV RN # RN (-29) M REFSMMAT # .5 UNIT MATRIX UNIT DLOAD MPAC +3 # GET COS(THETA)/2 BMN DAD S61.1B # DO TEST ON -YSM C(30)LIM # = 1.0 -.5 COS(30) BOVB RTB RETRN1 RETRN3 # Page 805 S61.1B DCOMP DAD C(30)LIM # = 1.0 - .5 COS(30) BOVB EXIT RETRN2 RETRN3 TC ALARM OCT 01426 # IMU UNSATISFACTORY TC RETRN2 +2 RETRN2 TC ALARM OCT 01427 # IMU REVERSED +2 CAF V05N09 TC BANKCALL CADR GODSPR # DO DISPLAY CA 10SECS TC BANKCALL CADR DELAYJOB RETRN1 TC 60GENRET EBANK= DVCNTR SERVCAD1 2CADR SERVEXIT C(30)LIM 2DEC .566985 # = 1.0 - .5 COS(30) 10SECS DEC 1000 # 1000 CS 60SECDP 2DEC 6000 B-28 # 6000 CS # Page 806 # PROGRAM NAME: S61.2 DATE: 14 FEB 67 # MOD NO: 1 LOG SECTION: P61-P67 # MOD BY: NORTH / BAIRNSFATHER # MOD NO: 2 MOD BY: NORTH/BAIRNSFATHER DATE: 11 MAY 67 ADD 2ND ITER FOR ERAD AT 400K FT. # MOD NO: 3 MOD BY: RR BAIRNSFATHER DATE: 21 NOV 67 VARIABLE MU ADDED. # MOD NO: 4 MOD BY: RR BAIRNSFATHER DATE: 21 MAR 68 DIFFERENT EARTH/MOON SCALES IN TFF'S # # FUNCTIONAL DESCRIPTION: CALLED IN P61. PROVIDES DISPLAYS FOR NOUNS N60 AND N63 . # PROGRAM CALCULATES ENTRY DISPLAY OF MAXIMUM ACCELERATION EXPECTED (GMAX) AND ALSO THE EXPECTED # INERTIAL VELOCITY (VPRED) AND ENTRY ANGLE (GAMMAEI) THAT WILL OBTAIN AT 400K FT ABOVE THE FISCHER # ELLIPSOID. PROGRAM ALSO CALCULATES A SECOND DISPLAY RELATIVE TO THE EMSALT ABOVE FISCHER ELLIPSOID # AND CONSISTS OF RANGE TO SPLASH FROM NOW (RTGO) , PREDICTED INERTIAL VELOCITY (VIO) , AND THE TIME TO # GO FROM NOW (TTE) . # # CALLING SEQUENCE: CALL # S61.2 # C(MPAC) UNSPECIFIED # PUSHLOC WILL BE SET TO ZERO. # # SUBROUTINES CALLED: TFFCONIC, CALCTFF, TFF/TRIG, FISHCALC, GETERAD, VGAMCALC # # NORMAL EXIT MODES: RTB, P61.1 # # ALARMS: NONE # # OUTPUT: THE FOLLOWING REGISTERS ARE WRITTEN IN FOR USE BY DISPLAYS # GMAX 100 GMAX (-14) G,S MAXIMUM ACCELERATION # VPRED (-7) M/CS PREDICTED VELOCITY AT 400K FT # GAMMAEI GAMMA/360 PREDICTED GAMMA AT 400K FT # FOR TM, DP(GAMMAEI) = (GAMMAEI, RTGO) / 360 # RTGO THETAH/360 RANGE ANGLE TO SPLASH FROM EMSALT EMSALT IS PAD LOADED. # VIO (-7) M/CS INTERTIAL VELOCITY AT EMSALT EMSALT IS PAD LOADED. # TTE (-28) CS TIME TO EMSALT EMSALT IS PAD LOADED. # PUSHLOC = 0 # CONIC PARAMETERS STORED IN VAC AREA (SEE TFF SUBROUTINES) # # ERASABLE INITIALIZATION REQUIRED: # RONE (-29) M STATE VECTOR LEFT BY USER # VONE (-7) M/CS STATE VECTOR LEFT BY USER # URONE UR/2 LEFT BY USER # UNI (-1) UNIT NORMAL V*R LEFT BY ENTRY / P61 # THETAH THETAH/360 RANGE ANGLE LEFT BY ENTRY / P61 # UNITW (0) UNIT POLAR VECTOR LEFT BY PAD LOAD # EMSALT (-29) M EMS INTERFACE ALTITUDE LEFT BY PAD LOAD # ORBITAL REENTRY: 284843 FT., LUNAR REENTRY: 297431 FT. # # DEBRIS: QPRET, # ALL PDL LOCATIONS ABOVE 12D, INCLUDING X1,X2,S1,S2 # ALSO PDL+0 ... PDL+5, WHERE INITIAL PUSHLOC = PDL # Page 807 # THE FOLLOWING PUSH LIST LOCATIONS HAVE BEEN RESERVED FOR TFF ROUTINES AND ARE REPEATED HERE FOR CONVENIENCE. # OF COURSE FOR S61.2 USAGE, EARTH ORIGIN SCALING IS USED. # # BELOW E: IS USED FOR EARTH ORIGIN SCALE # M: IS USED FOR MOON ORIGIN SCALE # # RTERM = 18D TERMINAL RADIUS M E: (-29) M: (-27) # NRTERM = 16D TERMINAL RADIUS M E: (-29+NR) # M: (-27+NR) # RMAG1 = 12D PRESENT RADIUS M E: (-29) M: (-27) # NRMAG = 32D PRESENT RADIUS M E: (-29+NR) # M: (-27+NR) # SDELF/2 SIN(THETA) / 2 # CDELF/2 = 14D COS(THETA) / 2 # TFFX = 34D X, ARGUMENT OF SERIES T(X) # TFFTEM = 36D ARG FOR TRANSFER ANGLE CALCULATION # TFFNP = 28D LC P M E: (-38+2NR) M: (-36+2NR) # TFF/RTMU= 30D 1/SQRT(MU) E: (17) M: (14) # TFFVSQ = 20D -(VN.VN/MU) 1/M E: (20) M: (18) # Page 808 BANK 34 SETLOC P60S2 BANK COUNT* $$/S61.2 # PDL LEFT AT ZERO BY TARGETING S61.2 DLOAD DSU EMSALT 290KFT BPL DLOAD LUNENT 1/RTMU # ESTABLISH MU FOR ORBITAL ENTRIES CALLCON CALL TFFCONIC # FILL VAC AREA WITH CONIC PARAMETERS DLOAD CALL RTRIAL # 1ST GUESS AT TERMINAL RADIUS (-29) CALCTFF # SAVES MPAC IN RTERM (18D) CALL # CALC SDELF/2, CDELF/2 TFF/TRIG # RETURN WITH S(THETA) IN MPAC CALL # GET FISCHER RADIUS (-29) M FISHCALC # ANS IN MPAC AND IN ERADM DAD CALL EMSALT CALCTFF # SAVES MPAC IN RTERM (18D) DCOMP # NEGATIVE AS IN COUNTDOWN STORE TTE1 # DECR TTE FROM BASB TTE1. (RESTART) # DNLIST AND DSKY WILL USE TTE. STCALL TTE # LET MISS CONTRL DECR BY ELAPSED TIME # TTE= TIME FROM NOW TO EMSALT +FISCHER TFF/TRIG # S(THETA) IN MPAC ON RETURNING # AND THETA= RANGE FROM NOW TO EMSALT CALL FISHCALC CALL VRCALC CALL DISPTARG CALL DISPTARG STCALL RTGO # Page 809 VGAMCALC DMP # MPAC = GAMMA # PDL0 HAS VGAM. BDDV DAD VEMSCON # -HS D 180/PI (-14) 0 # VGAM FROM PDL0 STODL VIO # PREDICTED VELOCITY AT EMSALT. # GAMMA AND VGAM AT 300K FT ARE REQUIRED BY GMAX # ALGORITHM. ERADM # EARTH RADIUS FROM GETERAD (-29) M # = FISCHER RADIUS (-29) DAD 300KFT # M (-29) STCALL RTERM # TERMINAL RADIUS M (-29) PREVGAM # VGAMCALC WITH NEW RTERM # VBAR = (V(FPS) - 36KF/S) / 20 F/S # GMAX = (4/(1 + 4.8 VBARSQ))(GAM - 6.05 - 2.4 VBARSQ) - 10(L/D - .3) + 10 ASSUME L/D = 0.3, BANK =0. # GMAXCALC PDDL DSU # GAM TO PDL2 0 # VGAM IS IN PDL0 (-7) 36KFT/S # (-7) M/CS DDV DSQ 20KFT/S # (-6) M/CS STORE 0 # VBARSQ (-2) TO PDL0 DMP DAD KR1 # GAM, POS DOWN, FROM PDL2 DAD DMP -6.05DEG KR2 PDDL # XCH PDL+0 FOR VBARSQ (-2) DDV DAD KR4 DP2(-4) BDDV # NUM FROM PDL+0 DAD BPL KR3 +3 DLOAD HI6ZEROS STODL GMAX # 100 GMAX (-14) # Page 810 # DISPLAY USES GMAX AS SP, SO LO WORD IS WRITTEN OVER BY VPRED. ERADM # = FISCHER RADIUS (-29) M DAD CALL # 2 ND ITERATION FOR FISCHER RADIUS 400KFT CALCTFF # ESTABLISH TRANSFER ANGLE DATA. CALL TFF/TRIG # GET SIN, COS DELF CALL FISHCALC # GET CORRESPONDING FISCHER RADIUS. DAD LXA,2 # SAVE HI-WORD FOR DOWNLIST. 400KFT # M (-29) RTGO # (RANGE ANGLE FROM EMSALT) / 360 STCALL RTERM PREVGAM # VGAMCALC WITH NEW RTERM DCOMP SXA,2 # HI-WORD OF EACH ON DOWNLIST. MPAC +1 STODL GAMMAEI # CONIC GAMMA/360 AT 400K FT. (HI-WORD) # CONIC RTGO/360 FROM EMSALT (LOW-WORD) # FOR TM, DP(GAMMAEI) = (GAMMA, RTGO) / 360 # VGAM FROM PDL+0 (-7) STADR STORE VPRED # CONIC VELOCITY AT 400K FT RTB P61.1 # PDL BACK TO ZERO. LUNENT DLOAD GOTO 1/RTMUE # ESTABLISH MU FOR LUNAR TYPE ENTRIES CALLCON 290KFT 2DEC 88392.0 B-29 KTETA1 2DEC* .421844723 E2 B-14* # 110 2PI/16384(163.84) 36KFT/S 2DEC 109.728 B-7 # (-7) M/CS = 36 KFT/S (-7) 20KFT/S 2DEC 121.92 B-7 # (-6) M/CS = 2 20KFT/S (-7) KR1 2DEC -.026666667 # = -2.4 4 / 360 -6.05DEG 2DEC -.016805556 # = -6.05 / 360 KR2 2DEC .54931641 # = (360/4) 100 (-14) = 9000 B-14 KR3 2DEC 1000 B-14 # = 100 (10.0) (-14) G,S # Page 811 # ASSUMES L/D = 0.3, BANK =0. RTRIAL 2DEC 6460097.18 B-29 # RPAD +264643 FT =21 194 545 FT # RPAD DEFINED AS 20 909 901.57 FT =6 373 336 M 400KFT 2DEC 121920 B-29 # METERS # 300KFT 2DEC 91440 B-29 # (-29) M # EMSALT 2DEC 86759.2 B-29 # 284643 FT (-29) M (ORBITAL REENTRY) # EMSALT 2DEC 90657 B-29 # 297431 FT (-29) M (LUNAR REENTRY) KR4 2DEC .833333333 300KFT EQUALS MINPERE VEMSCON 2DEC -.0389676 B-14 # = -HS D / 2 PI (-14) M SQ / CS SQ # = -16369 .05G 32.2 .3048 .3048/2 PI (-14) # Page 812 # SUBROUTINE NAME: FISHCALC (USED BY S61.2) DATE: 01.21.67 # MOD NO: 0 LOG SECTION: P61-P67 # MOD BY: MORTH / BAIRNSFATHER # MOD NO: 1 MOD BY: RR BAIRNSFATHER DATE: 11 MAY 67 INCLUDE GETERAD CALL # # FUNCTIONAL DESCRIPTION: GIVEN THE PRESENT POSITION, UNITR, CALCULATE A NEW UNITR THAT IS ROTATED THROUGH # TRANSFER ANGLE, THETA, ALONG THE TRAJECTORY. THEN CALCULATE SIN(LAT) AND USE TO OBTAIN FISCHER RADIUS. # SINCE FISHCALC USED UNI (LEFT BY ENTRY) EARTH SCALING IS ASSUMED. (WILL IMPROVE FOR SUITABLE TENNANT) # # CALLING SEQUENCE: CALL # FISHCALC # ENTER WITH .5 SIN(THETA) IN MPAC. # PUSHLOC IS AT PDL+0, AN ARBITRARY BASE VALUE IF LEQ 8D # # SUBROUTINES CALLED: GET ERAD # # NORMAL EXIT MODE: RVQ # # EXIT MODES: NONE # # OUTPUT: ERADM (-29) M IN MPAC ON RETURNING # NEW UNIT VECTOR NOT SAVED. # SIN(LAT) NOT SAVED. # PUSHLOC AT PDL+0 # # ERASABLE INITIALIZATION REQUIRED: # SDELF/2 =SIN(THETA) / 2, IN MPAC LEFT BY TFF/TRIG # CDELF/2 =COS(THETA) / 2, STORED IN PDL 14D LEFT BY TFF/TRIG # RONE (-29) M LEFT BY USER # VONE (-7) M/CS LEFT BY USER # URONE UR/2 LEFT BY USER # UNI .5 UNIT(V*R) LEFT BY ENTRY / P61 # UNITW UNIT NORTH POLE LEFT BY PAD LOAD # # DEBRIS: QPRET, PDL+0 ... PDL+5 # _ _ _ FISHCALC PDVL VXV # URPR = UR CDELF + UHOR SDELF URONE UNI VXSC VSL1 # SIN(THETA) / 2 FROM PDL+0 PDVL VXSC # TO PDL+0, +5 URONE CDELF/2 # COS(THETA) / 2 VAD STADR STORE URH # FOR USE IN RTGO FROM EMS DISPLAY DOT SL1 UNITW # PULL UNIT VECTOR UNIT NORTH STORE ALPHAV +4 # = .5 SIN(LAT) DUMPFISH GOTO GETERAD # SAVES FISCHER RAD (-29) M IN ERADM AND # IN MPAC. RETURNS TO CALLER VIO QPRET. # Page 813 # SUBROUTINE NAME: VGAMCALC (USED BY S61.2) DATE: 01.21.67 # MOD NO: 0 LOG SECTION: P61-P67 # MOD BY: MORTH / BAIRNSFATHER # MOD NO: 1 MOD BY: RR BAIRNSFATHER DATE: 11 APR 67 # MOD NO: 2 MOD BY: RR BAIRNSFATHER DATE: 21 NOV 67 VARIABLE MU ADDED. # MOD NO: 3 MOD BY: RR BAIRNSFATHER DATE: 21 MAR 68 ACCEPT DIFFERENT EARTH/MOON SCALE # # FUNCTIONAL DESCRIPTION: EARTH CENTERED VIS VIVA CALCULATION OF TERMINAL VELOCITY AND GAMMA (REL TO # HORIZONTAL) GIVEN THE SCALAR QUANTITIES: PRESENT RADIUS AND VELOCITY AND THE TERMINAL RADIUS. # THE USER MUST APPEND PROPER SIGN TO GAMMA, SINCE IT IS CALCULATED AS A POSITIVE NUMBER. # THE EQUATIONS ARE # # VGAM = SQRT(VN VN/MU + 2(RN-RTERM)/(RN RTERM) ) RTMU # # COSGAM = H / RTERM VGAM = SQRT (LCP) / (RTERM VGAM/RTMU) # # VGAMCALC ASSUMES THAT THE TERMINAL RADIUS IS LESS THAN THE PRESENT RADIUS. BOTH CALCTFF AND CALCTPER # MAKE THIS ASSUMPTION. # # CALLING SEQUENCE: CALL STCALL RTERM # VGAMCALC PREVGAM # PUSHLOC AT PDL+0, ARBITRARY IF LEQ 12D # C(MPAC) UNSPECIFIED C(MPAC)=NEW RTERM # # SUBROUTINES CALLED: NONE # # NORMAL EXIT MODE: RVQ # # ALARMS: NONE # # OUTPUT: GAMMA / 360 IN MPAC, POSITIVE NUMBER # VGAM E: (-7) M: (-5) M/CS IN PDL+0 # PUSHLOC AT PDL+2 # # ERASABLE INITIALIZATION REQD: # TFF/RTMU E: (17) M: (14) 1/SQRT(MU) LEFT BY TFFCONIC # RMAG1 E: (-29) M: (-27) M PRESENT RADIUS LENGTH LEFT BY TFFCONIC # NRMAG E: (-29+NR) M NORM LENGTH OF PRESENT POSITION LEFT BY TFFCONIC # M: (-27+NR) # RTERM E: (-29) M: (-27) M TERMINAL RADIUS LENGTH LEFT BY CALCTFF # NRTERM E: (-29+NR) M NORM LENGTH OF TERMINAL RADIUS LEFT BY CALCTFF # M: (-27+NR) # TFFVSQ E: (20) M: (18) 1/M -(V SQ/MU): PRESENT VELOCITY, NORM LEFT BY TFFCONIC # TFFNP E: (-38+2NR) M LCP, SEMI-LATUS RECTUM, WEIGHT NR LEFT BY TFFCONIC # M: (-36+2NR) # # DEBRIS: QPRET, PDL+0 ... PDL+3 # RTERM, NRTERM IF PREVGAM ENTERED. # Page 814 PREVGAM SL* # ENTER WITH NEW RTERM IN MPAC # E: (-29) M: (-27) 0,1 # X1 = -NR STORE NRTERM # RTERM M E: (-29+NR) M: (-27+NR) VGAMCALC DLOAD DMP NRMAG # RMAG M E: (-29+NR) M: (-27+NR) NRTERM # RTERM M E: (-29+NR) M: (-27+NR) PDDL DSU # RMAG RTERM M E: (-58+2NR) M: (-54+2NR) NRMAG # RMAG M E: (-29+NR) M: (-27+NR) NRTERM # RTERM M E: (-29+NR) M: (-27+NR) SL* DDV # 2(RN-RTERM) E: (-30+NR) M: (-28+NR) 0 -8D,1 # (-8+NR) # PUSH UP PRODUCT. DSU TFFVSQ # -(V SQ/MU) E: (20) M: (18) SQRT PUSH # SAVE VGAM/RT(MU) FOR NOW. E: (10) M: (9) DDV PDDL # XCH PDL+0, LEAVING VGAM FOR OUTPUT. # VGAM TO PDL M/CS E: (-7) M: (-2) TFF/RTMU # E: (17) M: (14) DMP PDDL # RTERM VGAM/RTMU E: (-19+NR) M: (-18+NR) NRTERM # RTERM M E: (-29+NR) M: (-27+NR) TFFNP # LC P =H.H/MU M E: (-38+2NR) M: (-36+2NR) SQRT DDV # E: (-19+NR) M: (-18+NR) # PUSH UP DEN E: (-19+NR) M: (-18+NR) # USE DDV OVFL AS LIMITER (|COS| <1.0) SR1 ACOS DUMPVGAM RVQ # CALLER MUST SUPPLY OWN SIGN ... # 22W 27MS # Page 815 # SUBROUTINE NAME: TFF/TRIG (USED BY S61.2) DATE: 01.17.67 # MOD NO: 0 LOG SECTION: P61-P67 # MOD BY: RR BAIRNSFATHER # MOD NO: 1 MOD BY: RR BAIRNSFATHER DATE: 14 APR 67 # MOD NO: 2 MOD BY: RR BAIRNSFATHER DATE: 21 MAR 68 ACCEPT DIFFERENT EARTH/MOON SCALE # # FUNCTIONAL DESCRIPTION: USED BY ENTRY DISPLAY TO CALCULATE SIN(THETA), COS(THETA) FROM DATA LEFT IN # PDL BY TFF SUBROUTINES. THE EQNS ARE # # COS(THETA) = 1-2 ABS(ARG) / (RN RTERM (1+X) ) # 2 # SIN(THETA) = SGN(ARG) SQRT(1-COS (THETA) ) # # WHERE THETA = TRANSFER ANGLE # AND ARG = P Z ABS(Z) IF ALFA ZZ LEQ 1 # ARG = (P / ALFA) SGN(Q1 + R 1/Z) IF ALFA Z Z G 1 # AND ARG HAS BEEN AFFIXED WITH THE SIGN OF SIN(THETA) # # CALLING SEQUENCE: CALL # TFF/TRIG # PUSHLOC AT PDL+0, ARBITRARY IF NOT EQ 14D # C(MPAC) UNSPECIFIED # # SUBROUTINES CALLED: NONE # # NORMAL EXIT MODES: RVQ # # ALARMS: NONE # # OUTPUT: C(MPAC) = .5 SIN(THETA) # CDELF/2 = .5 COS(THETA) (IN PDL 14D) # PUSHLOC AT PDL+0 # # ERASABLE INITIALIZATION REQUIRED: # TFFX X LEFT BY CALCTFF OR CALCTPER # TFFTEM E: (-59+2NR) ARG LEFT BY CALCTFF OR CALCTPER # M: (-55+2NR) WHERE ARG = LCF ZZ SGN(DELF) OR ARG = LCP/ALFA SGN(DELF) # NRTERM E: (-29+NR) M NORM LENGTH OF TERMINAL RADIUS LEFT BY CALCTFF OR CALCTPER # M: (-27+NR) # NRMAG E: (-29+NR) M NORM LENGTH OF PRESENT POSITION LEFT BY TFFCONIC # M: (-27+NR) # # DEBRIS: QPRET, CDELF/2 BANK 27 SETLOC P60S5 BANK TFF/TRIG DLOAD SR1 TFFX DAD DMP HIDPHALF NRMAG # RMAG M E: (-29+NR) M: (-27+NR) DMP BDDV NRTERM # RTERM M E: (-29+NR) M: (-27+NR) TFFTEM # P ZSQ OR P/ALFA E: (-59+2NR) M: (-55+2NR) ABS BDSU # THE SIGN IS FOR SDELF. HIDPHALF STORE CDELF/2 # .5 COS(THETA) DSQ DCOMP # KEEP HONEST FOR SQRT. # Page 816 DAD SQRT HIDP1/4 DUMPTRIG SIGN RVQ TFFTEM # AFFIX SIGN(DELE/2) # RETURN WITH .5 SIN(THETA) IN MPAC # 16W 15MS DISPTARG STQ # C(MPAC = TRGO ESTIMATE 60GENRET DMP DSU KTETA1 TTE1 STCALL DTEAROT EARROT2 CALL VRCALC GOTO 60GENRET VRCALC VLOAD DOT URH RT SL2 ACOS RVQ # END OF PROGRAM S61.2 # Page 817 # PROGRAM DESCRIPTION S62.3 DATE 10JAN67 # MOD NO 1: LOG SECTION P60-P67 # MOD BY ZELDIN # MOD NO: 2 MOD BY: RR BAIRNSFATHER DATE: 15 MAY 67 CHANGED TO REF COORDS. # MOD NO: 3 MOD BY: RR BAIRNSFATHER DATE: 17 JAN 68 ALFAPAD CHANGES MADE. # # FUNCTIONAL DESCRIPTION # # COMPUTE DESIRED GIMBAL ANGLES FOR ENTRY ATTITUDE # THE FOLLOWING TRAJECTORY TRIAD IS AVAILABLE IN MEMORY AND IS COMPUTED EACH 2 SECONDS BY CM/POSE IN # REFERENCE COORDINATES (V = VELOCITY RELATIVE TO EARTH): # # UXA = -UNIT(V) # UYA = UNIT(V*R) # UZA = UXA*UYA # # GENERATE A DESIRED BODY TRIAD FOR TRIMMED FLIGHT WITH RESPECT TO THE RELATIVE VELOCITY VECTOR, USING # ROLL COMMAND AND TRIM ANGLE OF ATTACK: # # UXD = UNIT(UYD*UXA) SIN(ALFATRIM) + UXA COS(ALFATRIM) # UYD = UYA COS(ROLLC) + UZA SIN(ROLLC) # UZD = UXD * UYD # # USE THE DESIRED SET (IN REFERENCE COORDS) AND REFSMMAT TO CALL CALCGA AND OBTAIN GIMBAL ANGLES # IN 2S, C IN MPAC, +2 AND THETAD, +2. # # CALLING SEQUENCE # # L CALL # L+1 S62.3 # # NORMAL EXIT MODE # # RETURN VIA QPRET DIRECTLY FROM CALCGA. # # SUBROUTINES CALLED # # CALCGA # # ALARM OR ABORT MODES # # NONE # # ERASABLE INITIALIZATION REQUIRED # # ROLLC ROLL COMMAND DP 1'S COMP AT 1REV # ALFAPAD SP 1'S C / 180 LEFT BY PAD LOAD ALFATRIM IS NEGATIVE. # UXA/2 REF COORDS LEFT BY CM/POSE # UYA/2 REF COORDS LEFT BY CM/POSE # UZA/2 REF COORDS LEFT BY CM/POSE # # OUTPUT # # CPHI GIMBAL ANGLES (O,I,M) 2'S COMP TP (O,I,M)/180 # # DEBRIS # # QTEMP, QPRET, PUSHLIST BANK 10 SETLOC P60S4 BANK # Page 818 COUNT* $$/S62.3 S62.3 SETPD SLOAD 0 ALFAPAD # ALFATRIM / 180, ALFA IS NEG. SR1 PUSH COS PDDL # XCH PDL, COS TO PDL0 SIN PDDL # SIN TO PDL2 ROLLC COS VXSC UYA/2 # REF COORDS PDDL SIN # PUSH VECTOR INTO PDL4...9 ROLLC VXSC VAD UZA/2 # REF COORDS # VECTOR FROM PDL4...9 VSL1 STORE YNB # = UYD REF COORDS VXV VSL1 UXA/2 # REF COORDS VXSC PDDL # SIN TRIM FROM PDL2 # XCH PDL0 FOR COS TRIM VXSC VAD UXA/2 # REF COORDS # FROM PDL0 VSL1 STORE XNB # X SC AXIS (.5 UNIT) REF COORDS VXV VSL1 YNB STOVL ZNB # Z SC IN REF COOR. SCALED AT 2 REFSMMAT STOVL XSM REFSMMAT +6 STOVL YSM REFSMMAT +12D STORE ZSM CLEAR GOTO CPHIFLAG # CAUSE CALCGA TO STORE ANS IN TP CPHI CALCGA # CALCGA WILL RETURN TO ORIGINAL CALLER # VIA QPRET WITH 2'S COMP. ANGLES IN CPHI