Source Code
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These source-code files are part of a reconstructed copy of Luminary 178, the
final release of the Apollo 14 Lunar Module (LM) Apollo Guidance Computer
(AGC) software.
The reconstruction began with source code of Zerlina 56, Luminary 210, and
Luminary 131, previously transcribed from digitized copies of those programs.
The code was created by combining the three, using Zerlina 56 as a base, since
it was based off of Luminary 183. The differences between the three were
carefully merged using the Luminary memos as a guide, with all changes made
after Luminary 178 being backed out. The reconstruction was verified by matching
memory-bank checksums to those listed in drawing 2021152N. Note that page numbers
in the reconstructed code match those for the baseline log section mentioned in
each file's changelog; the page numbers for a real Luminary 178 listing would
be different.
Comments from the original source code are prefixed with a single '#' symbol,
whereas comments added later are prefixed by "##" or "###". Report any errors
noted by creating an
issue report at the Virtual AGC
project's GitHub repository.
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020882,000002: ## Copyright: Public domain.
020883,000003: ## Filename: R60,R62.agc
020884,000004: ## Purpose: A section of Luminary revision 178.
020885,000005: ## It is part of the reconstructed source code for the final
020886,000006: ## release of the flight software for the Lunar Module's
020887,000007: ## (LM) Apollo Guidance Computer (AGC) for Apollo 14. The
020888,000008: ## code has been recreated from copies of Zerlina 56, Luminary
020889,000009: ## 210, and Luminary 131, as well as many Luminary memos.
020890,000010: ## It has been adapted such that the resulting bugger words
020891,000011: ## exactly match those specified for Luminary 178 in NASA
020892,000012: ## drawing 2021152N, which gives relatively high confidence
020893,000013: ## that the reconstruction is correct.
020894,000014: ## Reference: pp. 480-493
020895,000015: ## Assembler: yaYUL
020896,000016: ## Contact: Ron Burkey <info@sandroid.org>.
020897,000017: ## Website: www.ibiblio.org/apollo/index.html
020898,000018: ## Mod history: 2019-08-14 MAS Created from Zerlina 56.
020899,000019:
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020901,000021: # MOD NO: 0 DATE: 1 MAY 1968
020902,000022:
020903,000023: # MOD BY: DIGITAL DEVEL GROUP LOG SECTION R60,R62
020904,000024:
020905,000025: # FUNCTIONAL DESCRIPTION:
020906,000026:
020907,000027: # CALLED AS A GENERAL SUBROUTINE TO MANEUVER THE LM TO A SPECIFIED
020908,000028: # ATTITUDE.
020909,000029:
020910,000030: # 1. IF THE 3-AXIS FLAG IS NOT SET THE FINAL CDU ANGLES ARE
020911,000031: # CALCULATED (VECPOINT).
020912,000032:
020913,000033: # 2. THE FDAI BALL ANGLES (NOUN 18) ARE CALCULATED (BALLANGS).
020914,000034:
020915,000035: # 3. REQUEST FLASHING DISPLAY V50 N18 PLEASE PERFORM AUTO MANEUVER.
020916,000036:
020917,000037: # 4. IF PRIORITY DISPLAY FLAG IS SET DO A PHASECHANGE. THEN AWAIT
020918,000038: # ASTRONAUT RESPONSE.
020919,000039:
020920,000040: # 5. DISPLAY RESPONSE RETURNS:
020921,000041:
020922,000042: # A. ENTER - RESET 3-AXIS FLAG AND RETURN TO CLIENT.
020923,000043:
020924,000044: # B. TERMINATE - IF IN P00 GO TO STEP 5A. OTHERWISE CHECK IF R61 IS
020925,000045: # THE CALLING PROGRAM. IF IN R61 AN EXIT IS MADE TO GOTOV56. IF
020926,000046: # NOT IN R61 AN EXIT IS DONE VIA GOTOP00H.
020927,000047:
020928,000048: # C. PROCEED - CONTINUE WITH PROGRAM AT STEP 6.
020929,000049:
020930,000050: # 6. IF THE 3-AXISFLAG IS NOT SET, THE FINAL CDU ANGLES ARE CALCULATED
020931,000051: # (VECPOINT).
020932,000052:
020933,000053: # 7. THE FDAI BALL ANGLES (NOUN 18) ARE CALCULATED (BALLANGS).
020934,000054:
020935,000055: # 8. IF THE G+N SWITCH IS NOT SET GO BACK TO STEP 3.
020936,000056:
020937,000057: # 9. IF THE AUTO SWITCH IS NOT SET GO BACK TO STEP 3.
020938,000058:
020939,000059: # 10. NONFLASHING DISPLAY V06N18 (FDAI ANGLES).
020940,000060:
020941,000061: # 11. DO A PHASECHANGE.
020942,000062:
020943,000063: # 12. DO A MANEUVER CALCULATION AND ICDU DRIVE ROUTINE TO ACHIEVE FINAL
020944,000064:
020945,000065: # GIMBAL ANGLES (GOMANUR).
020946,000066: # 13. AT END OF MANEUVER GO TO STEP 3.
020947,000067:
020948,000068: # IF SATISFACTORY MANEUVER STEP 5A EXITS R60.
020949,000069: # FOR FURTHER ADJUSTMENT OF THE VEHICLE ATTITUDE ABOUT THE
020950,000070: # DESIRED VECTOR, THE ROUTINE MAY BE PERFORMED AGAIN STARTING AT
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020952,000072: # STEP 5C.
020953,000073:
020954,000074: # CALLING SEQUENCE: TC BANKCALL
020955,000075: # CADR R60LEM
020956,000076:
020957,000077: # ERASABLE INITIALIZATION REQUIRED : SCAXIS, POINTVSM (FOR VECPOINT)
020958,000078: # 3AXISFLG.
020959,000079:
020960,000080: # SUBROUTINES CALLED: VECPOINT, BALLANGS, GOPERF2R, LINUS, GODSPER,
020961,000081: # GOMANUR, DOWNFLAG, PHASCHNG, UPFLAG
020962,000082:
020963,000083: # NORMAL EXIT MODES: CAE TEMPR60 (CALLERS RETURN ADDRESS)
020964,000084: # TC BANKJUMP
020965,000085:
020966,000086: # ALARMS: NONE
020967,000087:
020968,000088: # OUTPUT: NONE
020969,000089:
020970,000090: # DEBRIS: CPHI, CTHETA, CPSI, 3AXISFLG, TBASE2
020971,000091:
020972,000092:
020973,000093: 34,2000 BANK 34
020974,000094: 26,2000 SETLOC MANUVER
020975,000095: 26,2000 BANK
020976,000096:
020977,000097: 26,2125 1163 EBANK= TEMPR60
020978,000098:
020979,000099: 26,2125 COUNT* $$/R06
020980,000100: 26,2125 04645 R60LEM TC MAKECADR
020981,000101: 26,2126 55163 TS TEMPR60
020982,000102:
020983,000103: 26,2127 34746 REDOMANN CAF 3AXISBIT
020984,000104: 26,2130 70101 MASK FLAGWRD5 # IS 3-AXIS FLAG SET
020985,000105: 26,2131 10000 CCS A
020986,000106: 26,2132 12140 TCF TOBALL # YES
020987,000107: 26,2133 06042 TC INTPRET
020988,000108: 26,2134 77624 CALL
020989,000109: 26,2135 56040 VECPOINT # TO COMPUTE FINAL ANGLES
020990,000110: 26,2136 00322 STORE CPHI # STORE FINAL ANGLES - CPHI,CTHETA,CPSI
020991,000111: 26,2137 77776 EXIT
020992,000112:
020993,000113: 26,2140 05515 TOBALL TC UPFLAG # INSURE THAT TOTAL ATTITUDE ERRORS ARE
020994,000114: 26,2141 00013 ADRES NEEDLFLG # DISPLAYED ON FDAI ERROR NEEDLES
020995,000115: 26,2142 05527 TC DOWNFLAG
020996,000116: 26,2143 00000 ADRES NEED2FLG
020997,000117: 26,2144 04616 TC BANKCALL
020998,000118: 26,2145 54274 CADR BALLANGS # TO CONVERT ANGLES TO FDAI
020999,000119: 26,2146 32262 TOBALLA CAF V06N18
021000,000120: 26,2147 04616 TC BANKCALL
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021002,000122: 26,2150 20711 CADR GOPERF2R # DISPLAY PLEASE PERFORM AUTO MANEUVER
021003,000123: 26,2151 02250 TC R61TEST
021004,000124: 26,2152 02156 TC REDOMANC # PROCEED
021005,000125: 26,2153 02203 TC ENDMANU1 # ENTER I.E. FINISHED WITH R60
021006,000126: 26,2154 02207 TC CHKLINUS # TO CHECK FOR PRIORITY DISPLAYS
021007,000127: 26,2155 05155 TC ENDOFJOB
021008,000128:
021009,000129: 26,2156 34746 REDOMANC CAF 3AXISBIT
021010,000130: 26,2157 70101 MASK FLAGWRD5 # IS 3-AXIS FLAG SET
021011,000131: 26,2160 10000 CCS A
021012,000132: 26,2161 12167 TCF TOBALLC # YES
021013,000133: 26,2162 06042 TC INTPRET
021014,000134: 26,2163 77624 CALL
021015,000135: 26,2164 56040 VECPOINT # TO COMPUTE FINAL ANGLES
021016,000136: 26,2165 00322 STORE CPHI # STORE ANGLES
021017,000137: 26,2166 77776 EXIT
021018,000138:
021019,000139: 26,2167 04616 TOBALLC TC BANKCALL
021020,000140: 26,2170 54274 CADR BALLANGS # TO CONVERT ANGLES TO FDAI
021021,000141: 26,2171 02263 TC G+N,AUTO # CHECK AUTO MODE
021022,000142: 26,2172 10000 CCS A
021023,000143: 26,2173 12146 TCF TOBALLA # NOT AUTO, GO REREQUEST AUTO MANEUVER.
021024,000144:
021025,000145: 26,2174 32262 AUTOMANV CAF V06N18 # STATIC DISPLAY DURING AUTO MANEUVER
021026,000146: 26,2175 04616 TC BANKCALL # -
021027,000147: 26,2176 20452 CADR GODSPR # -
021028,000148: 26,2177 02207 TC CHKLINUS # TO CHECK FOR PRIORITY DISPLAYS
021029,000149:
021030,000150: 26,2200 04616 STARTMNV TC BANKCALL # PERFORM MANEUVER VIA KALCMANU
021031,000151: 26,2201 17754 CADR GOMANUR
021032,000152:
021033,000153: 26,2202 12146 ENDMANUV TCF TOBALLA # FINISHED MANEUVER.
021034,000154: 26,2203 05527 ENDMANU1 TC DOWNFLAG # RESET 3-AXIS FLAG
021035,000155: 26,2204 00124 ADRES 3AXISFLG
021036,000156: 26,2205 31163 CAE TEMPR60 # -
021037,000157: 26,2206 04640 TC BANKJUMP # -
021038,000158:
021039,000159: 26,2207 40100 CHKLINUS CS FLAGWRD4
021040,000160: 26,2210 74740 MASK PDSPFBIT # IS PRIORITY DISPLAY FLAG SET?
021041,000161: 26,2211 10000 CCS A # -
021042,000162: 26,2212 00002 TC Q # NO - EXIT
021043,000163: 26,2213 30002 CA Q
021044,000164: 26,2214 54156 TS MPAC +2 # SAVE RETURN
021045,000165: 26,2215 46250 CS THREE # OBTAIN LOCATION FOR RESTART
021046,000166: 26,2216 60133 AD BUF2 # HOLDS Q OF LAST DISPLAY
021047,000167: 26,2217 55054 TS TBASE2
021048,000168:
021049,000169: 26,2220 05364 TC PHASCHNG
021050,000170: 26,2221 00132 OCT 00132
021051,000171:
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021053,000173: 26,2222 34745 CAF BIT7
021054,000174: 26,2223 05475 TC LINUS # GO SET BITS FOR PRIORITY DISPLAY -
021055,000175: 26,2224 00156 TC MPAC +2
021056,000176:
021057,000177: 26,2225 37717 RELINUS CAF PRIO26 # RESTORE ORIGINAL PRIORITY
021058,000178: 26,2226 05146 TC PRIOCHNG
021059,000179:
021060,000180: 26,2227 34747 CAF TRACKBIT # DON'T CONTINUE R60 UNLESS TRACKFLAG ON.
021061,000181: 26,2230 70075 MASK FLAGWRD1
021062,000182: 26,2231 10000 CCS A
021063,000183: 26,2232 12245 TCF RER60
021064,000184:
021065,000185: 26,2233 34745 CAF RNDVZBIT # IS IT P20?
021066,000186: 26,2234 70074 MASK FLAGWRD0
021067,000187: 26,2235 10000 CCS A
021068,000188: 26,2236 02242 TC +4 # YES
021069,000189: 26,2237 05364 TC PHASCHNG # NO, MUST BE P25, SET 2.11 SPOT
021070,000190: 26,2240 40112 OCT 40112
021071,000191:
021072,000192: 26,2241 05155 TC ENDOFJOB
021073,000193:
021074,000194: 26,2242 05364 TC PHASCHNG # SET 2.7 SPOT FOR P20
021075,000195: 26,2243 40072 OCT 40072
021076,000196:
021077,000197: 26,2244 05155 TC ENDOFJOB
021078,000198:
021079,000199: 26,2245 05515 RER60 TC UPFLAG # SET PRIO DISPLAY FLAG AFTER RESTART
021080,000200: 26,2246 00077 ADRES PDSPFLAG
021081,000201:
021082,000202: 26,2247 01054 TC TBASE2
021083,000203:
021084,000204: 26,2250 31010 R61TEST CA MODREG # IF WE ARE IN P00 IT MUST BE V49 OR V89
021085,000205: 26,2251 00006 EXTEND
021086,000206: 26,2252 12203 BZF ENDMANU1 # THUS WE GO TO ENDEXT VIA USER
021087,000207:
021088,000208: 26,2253 30100 CA FLAGWRD4 # ARE WE IN R61 (P20 OR P25)
021089,000209: 26,2254 74740 MASK PDSPFBIT
021090,000210: 26,2255 00006 EXTEND
021091,000211: 26,2256 16001 BZF GOTOPOOH # NO
021092,000212: 26,2257 06025 TC GOTOV56 # YES
021093,000213:
021094,000214: 26,2260 20100 BIT14+7 OCT 20100 # -
021095,000215: 26,2261 00203 OCT203 OCT 203
021096,000216: 26,2262 01422 V06N18 VN 0618
021097,000217: # SUBROUTINE TO CHECK FOR G+N CONTROL, AUTO STABILIZATION
021098,000218:
021099,000219: # RETURNS WITH C(A) = + IF NOT SET FOR G+N, AUTO
021100,000220: # RETURNS WITH C(A) = +0 IF SWITCHES ARE SET
021101,000221:
021102,000222: 26,2263 00006 G+N,AUTO EXTEND
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021104,000224: 26,2264 00030 READ CHAN30
021105,000225: 26,2265 74742 MASK BIT10
021106,000226: 26,2266 10000 CCS A
021107,000227: 26,2267 00002 TC Q # NOT IN G+N C(A) = +
021108,000228: 26,2270 00006 ISITAUTO EXTEND # CHECK FOR AUTO MODE
021109,000229: 26,2271 00031 READ CHAN31
021110,000230: 26,2272 74736 MASK BIT14
021111,000231: 26,2273 00002 TC Q # (+) = NOT IN AUTO, (+0) = AOK
021112,000232:
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021114,000234: # PROGRAM DESCRIPTION BALLANGS
021115,000235: # MOD NO. LOG SECTION R60,R62
021116,000236:
021117,000237: # WRITTEN BY RAMA M.AIYAWAR
021118,000238: # FUNCTIONAL DESCRIPTION
021119,000239:
021120,000240: # COMPUTES LM FDAI BALL DISPLAY ANGLES
021121,000241: # CALLING SEQUENCE
021122,000242:
021123,000243: # TC BALLANGS
021124,000244: # NORMAL EXIT MODE
021125,000245:
021126,000246: # TC BALLEXIT (SAVED Q)
021127,000247:
021128,000248: # ALARM OR EXIT MODE NIL
021129,000249: # SUBROUTINES CALLED
021130,000250: # CD*TR*G
021131,000251: # ARCTAN
021132,000252:
021133,000253: # INPUT
021134,000254:
021135,000255: # CPHI,CTHETA,CPSI ARE THE ANGLES CORRESPONDING TO AOG,AIG,AMG. THEY ARE
021136,000256: # SP,2S COMPLIMENT SCALED TO HALF REVOLUTION.
021137,000257: # OUTPUT
021138,000258:
021139,000259: # FDAIX,FDAIY,FDAIZ ARE THE REQUIRED BALL ANGLES SCALED TO HALF REVOLUTION
021140,000260: # SP,2S COMPLIMENT.
021141,000261: # THESE ANGLES WILL BE DISPLAYED AS DEGREES AND HUNDREDTHS, IN THE ORDER ROLL, PITCH, YAW, USING NOUNS 18 & 19.
021142,000262:
021143,000263: # ERASABLE INITIALIZATION REQUIRED
021144,000264:
021145,000265: # CPHI,CTHETA,CPSI EACH A SP REGISTER
021146,000266: # DEBRIS
021147,000267:
021148,000268: # A,L,Q,MPAC,SINCDU,COSCDU,PUSHLIST,BALLEXIT
021149,000269:
021150,000270:
021151,000271: # NOMENCLATURE: CPHI, CTHETA, & CPSI REPRESENT THE OUTER, INNER, & MIDDLE GIMBAL ANGLES, RESPECTIVELY; OR
021152,000272: # EQUIVALENTLY, CDUX, CDUY, & CDUZ.
021153,000273:
021154,000274: # NOTE: ARCTAN CHECKS FOR OVERFLOW AND SHOULD BE ABLE TO HANDLE ANY SINGULARITIES.
021155,000275:
021156,000276: 26,2000 SETLOC BAWLANGS
021157,000277: 26,2000 BANK
021158,000278:
021159,000279: 26,2274 COUNT* $$/BALL
021160,000280: 26,2274 04645 BALLANGS TC MAKECADR
021161,000281: 26,2275 55337 TS BALLEXIT
021162,000282: 26,2276 30321 CA CPHI
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021164,000284: 26,2277 54771 TS CDUSPOT +4
021165,000285: 26,2300 30322 CA CTHETA
021166,000286: 26,2301 54765 TS CDUSPOT
021167,000287: 26,2302 30323 CA CPSI
021168,000288: 26,2303 54767 TS CDUSPOT +2
021169,000289:
021170,000290: 26,2304 06042 TC INTPRET
021171,000291: 26,2305 45001 SETPD CALL
021172,000292: 26,2306 00001 0D
021173,000293: 26,2307 47511 CD*TR*G
021174,000294:
021175,000295: 26,2310 41345 DLOAD DMP
021176,000296: 26,2311 00742 SINCDUX # SIN (OGA)
021177,000297: 26,2312 00746 COSCDUZ # COS (MGA)
021178,000298:
021179,000299: 26,2313 57552 SL1 DCOMP # SCALE
021180,000300: 26,2314 65336 ARCSIN PDDL # YAW = ARCSIN(-SXCZ) INTO 0 PD
021181,000301: 26,2315 00740 SINCDUZ
021182,000302: 26,2316 14023 STODL SINTH # (SINTH = 18D IN PD)
021183,000303: 26,2317 00746 COSCDUZ
021184,000304: 26,2320 72405 DMP SL1 # RESCALE
021185,000305: 26,2321 00750 COSCDUX
021186,000306: 26,2322 34021 STCALL COSTH # (COSTH = 16D IN PD)
021187,000307: 26,2323 26506 ARCTAN
021188,000308: 26,2324 41325 PDDL DMP # ROLL = ARCTAN(SZ/CZCX) INTO 2 PD
021189,000309: 26,2325 00740 SINCDUZ
021190,000310: 26,2326 00742 SINCDUX
021191,000311: 26,2327 41512 SL2 PUSH # SXSZ INTO 4 PD
021192,000312: 26,2330 65205 DMP PDDL # SXSZCY INTO 4 PD
021193,000313: 26,2331 00744 COSCDUY
021194,000314: 26,2332 65205 DMP PDDL # SXSZSY INTO 6 PD
021195,000315: 26,2333 00736 SINCDUY
021196,000316: 26,2334 00750 COSCDUX
021197,000317: 26,2335 72405 DMP SL1 # CXCY
021198,000318: 26,2336 00744 COSCDUY
021199,000319: 26,2337 45425 DSU STADR # PULL UP FROM 6 PD
021200,000320: 26,2340 63756 STODL COSTH # COSTH = CXCY - SXSZSY
021201,000321: 26,2341 00736 SINCDUY
021202,000322: 26,2342 72405 DMP SL1
021203,000323: 26,2343 00750 COSCDUX # CXSY
021204,000324: 26,2344 45415 DAD STADR # PULL UP FROM 4 PD
021205,000325: 26,2345 43754 STCALL SINTH # SINTH = CXSY + SXSZCY
021206,000326: 26,2346 26506 ARCTAN # RETURNS WITH D(MPAC) = PITCH
021207,000327: 26,2347 55525 PDDL VDEF # PITCH INTO 2 PD, ROLL INTO MPAC FROM 2PD
021208,000328: 26,2350 77634 RTB # VDEF MAKES V(MPAC) = ROLL, PITCH, YAW
021209,000329: 26,2351 21621 V1STO2S
021210,000330: 26,2352 02345 STORE FDAIX # MODE IS TP
021211,000331: 26,2353 77776 EXIT
021212,000332:
021213,000333: 26,2354 31337 ENDBALL CA BALLEXIT
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021215,000335: 26,2355 04640 TC BANKJUMP
021216,000336:
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021218,000338: # PROGRAM DESCRIPTION - VECPOINT
021219,000339:
021220,000340:
021221,000341: # THIS INTERPRETIVE SUBROUTINE MAY BE USED TO POINT A SPACECRAFT AXIS IN A DESIRED DIRECTION. THE AXIS
021222,000342: # TO BE POINTED MUST APPEAR AS A HALF UNIT DOUBLE PRECISION VECTOR IN SUCCESSIVE LOCATIONS OF ERASABLE MEMORY
021223,000343: # BEGINNING WITH THE LOCATION CALLED SCAXIS. THE COMPONENTS OF THIS VECTOR ARE GIVEN IN SPACECRAFT COORDINATES.
021224,000344: # THE DIRECTION IN WHICH THIS AXIS IS TO BE POINTED MUST APPEAR AS A HALF UNIT DOUBLE PRECISION VECTOR IN
021225,000345: # SUCCESSIVE LOCATIONS OF ERASABLE MEMORY BEGINNING WITH THE ADDRESS CALLED POINTVSM. THE COMPONENTS OF THIS
021226,000346: # VECTOR ARE GIVEN IN STABLE MEMBER COORDINATES. WITH THIS INFORMATION VECPOINT COMPUTES A SET OF THREE GIMBAL
021227,000347: # ANGLES (2S COMPLEMENT) CORESPONDING TO THE CROSS-PRODUCT ROTATION BETWE EN SCAXIS AND POINTVSM AND STORES THEM
021228,000348: # IN T(MPAC) BEFORE RETURNING TO THE CALLER.
021229,000349: # THIS ROTATION, HOWEVER, MAY BRING THE S/C INTO GIMBAL LOCK. WHEN POINTING A VECTOR IN THE Y-Z PLANE,
021230,000350: # THE TRANSPONDER AXIS, OR THE AOT FOR THE LEM, THE PROGRAM WILL CORRECT THIS PROBLEM BY ROTATING THE CROSS-
021231,000351: # PRODUCT ATTITUDE ABOUT POINTVSM BY A FIXED AMOUNT SUFFICIENT TO ROTATE THE DESIRED S/C ATTITUDE OUT OF GIMBAL
021232,000352: # LOCK. IF THE AXIS TO BE POINTED IS MORE THAN 40.6 DEGREES BUT LESS THAN 60.5 DEG FROM THE +X (OR-X) AXIS,
021233,000353: # THE ADDITIONAL ROTATION TO AVOID GIMAL LOCK IS 35 DEGREES. IF THE AXIS IS MORE THAN 60.5 DEGEES FROM +X (OR -X)
021234,000354: # THE ADDITIONAL ROTATION IS 35 DEGREES. THE GIMBAL ANGLES CORRESPONDING TO THIS ATTITUDE ARE THEN COMPUTED AND
021235,000355: # STORED AS 2S COMPLIMENT ANGLES IN T(MPAC) BEFORE RETURNING TO THE CALLER.
021236,000356: # WHEN POINTING THE X-AXIS, OR THE THRUST VECTOR, OR ANY VECTOR WITHIN 40.6 DEG OF THE X-AXIS, VECPOINT
021237,000357: # CANNOT CORRECT FOR A CROSS-PRODUCT ROTATION INTO GIMBAL LOCK. IN THIS CASE A PLATFORM REALIGNMENT WOULD BE
021238,000358: # REQUIRED TO POINT THE VECTOR IN THE DESIRED DIRECTION. AT PRESENT NO INDICATION IS GIVEN FOR THIS SITUATION
021239,000359: # EXCEPT THAT THE FINAL MIDDLE GIMBAL ANGLE IN MPAC +2 IS GREATER THAN 59 DEGREES.
021240,000360:
021241,000361: # CALLING SEQUENCE -
021242,000362: # 1) LOAD SCAXIS, POINTVSM
021243,000363: # 2) CALL
021244,000364: # VECPOINT
021245,000365:
021246,000366: # RETURNS WITH
021247,000367:
021248,000368: # 1) DESIRED OUTER GIMBAL ANGLE IN MPAC
021249,000369: # 2) DESIRED INNER GIMBAL ANGLE IN MPAC +1
021250,000370: # 3) DESIRED MIDDLE GIMBAL ANGLE IN MPAC +2
021251,000371:
021252,000372:
021253,000373: # ERASABLES USED -
021254,000374:
021255,000375: # 1) SCAXIS 6
021256,000376: # 2) POINTVSM 6
021257,000377: # 3) MIS 18
021258,000378: # 4) DEL 18
021259,000379: # 5) COF 6
021260,000380: # 6) VECQTEMP 1
021261,000381: # 7) ALL OF VAC AREA 43
021262,000382:
021263,000383: # TOTAL 99
021264,000384:
021265,000385: 27,2000 SETLOC VECPT
021266,000386: 27,2000 BANK
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021268,000388: 27,2032 COUNT* $$/VECPT
021269,000389:
021270,000390: 27,2032 E6,1675 EBANK= BCDU
021271,000391:
021272,000392: 27,2032 40020 VECPNT1 STQ BOV # THIS ENTRY USES DESIRED CDUS
021273,000393: 27,2033 03324 VECQTEMP # NOT PRESENT-ENTER WITH CDUD'S IN MPAC
021274,000394: 27,2034 56035 VECPNT2
021275,000395: 27,2035 52164 VECPNT2 AXC,2 GOTO
021276,000396: 27,2036 03245 MIS
021277,000397: 27,2037 56046 STORANG
021278,000398: 27,2040 40020 VECPOINT STQ BOV # SAVE RETURN ADDRESS
021279,000399: 27,2041 03324 VECQTEMP
021280,000400: 27,2042 56043 VECLEAR # AND CLEAR OVFIND
021281,000401: 27,2043 47164 VECLEAR AXC,2 RTB
021282,000402: 27,2044 03245 MIS # READ THE PRESENT CDU ANGLES AND
021283,000403: 27,2045 44403 READCDUK # STORE THEM IN PD25, 26, 27
021284,000404: 27,2046 34032 STORANG STCALL 25D
021285,000405: 27,2047 44410 CDUTODCM # S/C AXES TO STABLE MEMBER AXES (MIS)
021286,000406: 27,2050 61375 VLOAD VXM
021287,000407: 27,2051 03773 POINTVSM # RESOLVE THE POINTING DIRECTION VF INTO
021288,000408: 27,2052 03246 MIS # INITIAL S/C AXES ( VF = POINTVSM)
021289,000409: 27,2053 77656 UNIT
021290,000410: 27,2054 00035 STORE 28D
021291,000411: # PD 28 29 30 31 32 33
021292,000412: 27,2055 53435 VXV UNIT # TAKE THE CROSS PRODUCT VF X VI
021293,000413: 27,2056 03765 SCAXIS # WHERE VI = SCAXIS
021294,000414: 27,2057 57400 BOV VCOMP
021295,000415: 27,2060 56170 PICKAXIS
021296,000416: 27,2061 17270 STODL COF # CHECK MAGNITUDE
021297,000417: 27,2062 00045 36D # OF CROSS PRODUCT
021298,000418: 27,2063 50025 DSU BMN # VECTOR, IF LESS
021299,000419: 27,2064 14417 DPB-14 # THAN B-14 ASSUME
021300,000420: 27,2065 56170 PICKAXIS # UNIT OPERATION
021301,000421: 27,2066 50375 VLOAD DOT # INVALID.
021302,000422: 27,2067 03765 SCAXIS
021303,000423: 27,2070 00035 28D
021304,000424: 27,2071 65552 SL1 ARCCOS
021305,000425: 27,2072 77624 COMPMATX CALL # NOW COMPUTE THE TRANSFORMATION FROM
021306,000426: 27,2073 44527 DELCOMP # FINAL S/C AXES TO INITIAL S/C AXES MFI
021307,000427: 27,2074 75160 AXC,1 AXC,2
021308,000428: 27,2075 03245 MIS # COMPUTE THE TRANSFORMATION FROM FINAL
021309,000429: 27,2076 02230 KEL # S/C AXES TO STABLE MEMBER AXES
021310,000430: 27,2077 77624 CALL # MFS = MIS MFI
021311,000431: 27,2100 44312 MXM3 # (IN PD LIST)
021312,000432:
021313,000433: 27,2101 51545 DLOAD ABS
021314,000434: 27,2102 00007 6 # MFS6 = SIN(CPSI) $2
021315,000435: 27,2103 50025 DSU BMN
021316,000436: 27,2104 14404 SINGIMLC # = SIN(59 DEGS) $2
021317,000437: 27,2105 56160 FINDGIMB # /CPSI/ LESS THAN 59 DEGS
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021319,000439: # I.E. DESIRED ATTITUDE NOT IN GIMBAL LOCK
021320,000440:
021321,000441: 27,2106 51545 DLOAD ABS # CHECK TO SEE IF WE ARE POINTING
021322,000442: 27,2107 03765 SCAXIS # THE THRUST AXIS
021323,000443: 27,2110 51025 DSU BPL
021324,000444: 27,2111 14406 SINVEC1 # SIN 49.4 DEGS $2
021325,000445: 27,2112 56160 FINDGIMB # IF SO, WE ARE TRYING TO POINT IT INTO
021326,000446: 27,2113 77775 VLOAD # GIMBAL LOCK, ABORT COULD GO HERE
021327,000447: 27,2114 77626 STADR
021328,000448: 27,2115 50515 STOVL MIS +12D
021329,000449: 27,2116 77626 STADR # STORE MFS (IN PD LIST) IN MIS
021330,000450: 27,2117 50523 STOVL MIS +6
021331,000451: 27,2120 77626 STADR
021332,000452: 27,2121 50531 STOVL MIS
021333,000453: 27,2122 03254 MIS +6 # INNER GIMBAL AXIS IN FINAL S/C AXES
021334,000454: 27,2123 57444 BPL VCOMP # LOCATE THE IG AXIS DIRECTION CLOSEST TO
021335,000455: 27,2124 56125 IGSAMEX # FINAL X S/C AXIS
021336,000456:
021337,000457: 27,2125 50035 IGSAMEX VXV BMN # FIND THE SHORTEST WAY OF ROTATING THE
021338,000458: 27,2126 03765 SCAXIS # S/C OUT OF GIMBAL LOCK BY A ROTATION
021339,000459: 27,2127 56134 U=SCAXIS # ABOUT +- SCAXIS, I.E. IF (IG (SGN MFS3)
021340,000460: # X SCAXIS . XF) LESS THAN 0, U = SCAXIS
021341,000461: # OTHERWISE U = -SCAXIS
021342,000462:
021343,000463: 27,2130 57575 VLOAD VCOMP
021344,000464: 27,2131 03765 SCAXIS
021345,000465: 27,2132 37270 STCALL COF # ROTATE ABOUT -SCAXIS
021346,000466: 27,2133 56137 CHEKAXIS
021347,000467: 27,2134 77775 U=SCAXIS VLOAD
021348,000468: 27,2135 03765 SCAXIS
021349,000469: 27,2136 03270 STORE COF # ROTATE ABOUT + SCAXIS
021350,000470: 27,2137 51545 CHEKAXIS DLOAD ABS
021351,000471: 27,2140 03765 SCAXIS # SEE IF WE ARE POINTING THE AOT
021352,000472: 27,2141 51025 DSU BPL
021353,000473: 27,2142 14410 SINVEC2 # SIN 29.5 DEGS $2
021354,000474: 27,2143 56147 PICKANG1 # IF SO, ROTATE 50 DEGS ABOUT +- SCAXIS
021355,000475: 27,2144 52145 DLOAD GOTO # IF NOT, MUST BE POINTING THE TRANSPONDER
021356,000476: 27,2145 14414 VECANG2 # OR SOME VECTOR IN THE Y, OR Z PLANE
021357,000477: 27,2146 56151 COMPMFSN # IN THIS CASE ROTATE 35 DEGS TO GET OUT
021358,000478: # OF GIMBAL LOCK (VECANG2 $360)
021359,000479: 27,2147 77745 PICKANG1 DLOAD
021360,000480: 27,2150 14412 VECANG1 # = 50 DEGS $ 360
021361,000481: 27,2151 77624 COMPMFSN CALL
021362,000482: 27,2152 44527 DELCOMP # COMPUTE THE ROTATION ABOUT SCAXIS TO
021363,000483: 27,2153 75160 AXC,1 AXC,2 # BRING MFS OUT OF GIMBAL LOCK
021364,000484: 27,2154 03245 MIS
021365,000485: 27,2155 02230 KEL
021366,000486: 27,2156 77624 CALL # COMPUTE THE NEW TRANSFORMATION FROM
021367,000487: 27,2157 44312 MXM3 # DESIRED S/C AXES TO STABLE MEMBER AXES
021368,000488: # WHICH WILL ALIGN VI WITH VF AND AVOID
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021370,000490: # GIMBAL LOCK
021371,000491: 27,2160 45160 FINDGIMB AXC,1 CALL
021372,000492: 27,2161 00000 0 # EXTRACT THE COMMANDED CDU ANGLES FROM
021373,000493: 27,2162 44654 DCMTOCDU # THIS MATRIX
021374,000494: 27,2163 40234 RTB SETPD
021375,000495: 27,2164 21621 V1STO2S # CONVERT TO 2:S COMPLEMENT
021376,000496: 27,2165 00001 0
021377,000497: 27,2166 77650 GOTO
021378,000498: 27,2167 03324 VECQTEMP # RETURN TO CALLER
021379,000499:
021380,000500: 27,2170 50375 PICKAXIS VLOAD DOT # IF VF X VI = 0, FIND VF . VI
021381,000501: 27,2171 00035 28D
021382,000502: 27,2172 03765 SCAXIS
021383,000503: 27,2173 72240 BMN TLOAD
021384,000504: 27,2174 54356 ROT180
021385,000505: 27,2175 00032 25D
021386,000506: 27,2176 77650 GOTO # IF VF = VI, CDU DESIRED = PRESENT CDU
021387,000507: 27,2177 03324 VECQTEMP # PRESENT CDU ANGLES
021388,000508:
021389,000509: 35,2000 BANK 35
021390,000510: 26,2000 SETLOC MANUVER1
021391,000511: 26,2000 BANK
021392,000512: 26,2356 47375 ROT180 VLOAD VXV # IF VF, VI ANTIPARALLEL, 108 DEG ROTATION
021393,000513: 26,2357 03254 MIS +6 # IS REQUIRED. Y STABLE MEMBER AXIS IN
021394,000514: 26,2360 06466 HIDPHALF # INITIAL S/C AXES.
021395,000515: 26,2361 47256 UNIT VXV # FIND Y(SM) X X(I)
021396,000516: 26,2362 03765 SCAXIS # FIND UNIT(VI X UNIT(Y(SM) X X(I)))
021397,000517: 26,2363 40056 UNIT BOV # I.E. PICK A VECTOR IN THE PLANE OF X(I),
021398,000518: 26,2364 54400 PICKX # Y(SM) PERPENDICULAR TO VI
021399,000519: 26,2365 17270 STODL COF
021400,000520: 26,2366 00045 36D # CHECK MAGNITUDE
021401,000521: 26,2367 50025 DSU BMN # OF THIS VECTOR.
021402,000522: 26,2370 14417 DPB-14 # IF LESS THAN B-14,
021403,000523: 26,2371 54400 PICKX # PICK X-AXIS.
021404,000524: 26,2372 77775 VLOAD
021405,000525: 26,2373 03270 COF
021406,000526: 26,2374 17270 XROT STODL COF
021407,000527: 26,2375 06466 HIDPHALF
021408,000528: 26,2376 77650 GOTO
021409,000529: 26,2377 56072 COMPMATX
021410,000530: 26,2400 52175 PICKX VLOAD GOTO # PICK THE XAXIS IN THIS CASE
021411,000531: 26,2401 06466 HIDPHALF
021412,000532: 26,2402 54374 XROT
021413,000533: 26,2403 15555 35172 SINGIMLC 2DEC .4285836003 # =SIN(59) $2
021414,000534:
021415,000535: 26,2405 14113 36326 SINVEC1 2DEC .3796356537 # =SIN(49.4) $2
021416,000536:
021417,000537: 26,2407 07701 35703 SINVEC2 2DEC .2462117800 # =SIN(29.5) $2
021418,000538:
021419,000539: 26,2411 04343 21616 VECANG1 2DEC .1388888889 # = 50 DEGREES $360
021420,000540:
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021422,000542: 26,2413 03070 34344 VECANG2 2DEC .09722222222 # = 35 DEGREES $360
021423,000543:
021424,000544: 26,2415 00000 1BITDP OCT 0 # KEEP THIS BEFORE DPB(-14) *********
021425,000545: 26,2416 00001 DPB-14 OCT 00001
021426,000546: 26,2417 00000 OCT 00000
021427,000547:
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021429,000549: # ROUTINE FOR INITIATING AUTOMATIC MANEUVER VIA KEYBOARD (V49)
021430,000550:
021431,000551:
021432,000552: 34,2000 BANK 34
021433,000553: 23,2000 SETLOC R62
021434,000554: 23,2000 BANK
021435,000555: 23,2103 E6,1675 EBANK= BCDU
021436,000556:
021437,000557: 23,2103 COUNT* $$/R62
021438,000558:
021439,000559: 23,2103 23,2103 R62DISP EQUALS R62FLASH
021440,000560:
021441,000561: 23,2103 35010 R62FLASH CAF V06N22 # FLASH V06N22 AND
021442,000562: 23,2104 04616 TC BANKCALL # ICDU ANGLES
021443,000563: 23,2105 20477 CADR GOFLASH
021444,000564: 23,2106 15503 TCF ENDEXT # TERMINATE
021445,000565: 23,2107 12111 TCF GOMOVE # PROCEED
021446,000566: 23,2110 12103 TCF R62FLASH # ENTER
021447,000567:
021448,000568: # ASTRONAUT MAY LOAD NEW ICDUS AT THIS
021449,000569: # POINT
021450,000570: 23,2111 05515 GOMOVE TC UPFLAG # SET FOR 3-AXIS MANEUVER
021451,000571: 23,2112 00124 ADRES 3AXISFLG
021452,000572:
021453,000573: 23,2113 04616 TC BANKCALL
021454,000574: 23,2114 54125 CADR R60LEM
021455,000575: 23,2115 15503 TCF ENDEXT # END R62
021456,000576:
End of include-file R60,R62.agc. Parent file is MAIN.agc