Source Code
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These source-code files were transcribed from a printout in Don Eyles's personal
collection, scanned by archive.org, and financially sponsored by Linden Sims.
A team of volunteers performed the transcription and proof-reading. The scanned
page images are available at
the Virtual AGC Project website, as well as higher-quality (but much larger)
images at
the Virtual AGC Project's collection in the Internet Archive. Report any problems by creating
"issues" at
the Virtual AGC Project's GitHub Repository. Notations on the program listing read, in part: GAP: ASSEMBLE REVISION 56 OF AGC PROGRAM ZERLINA BY ZOROASTER 9:12 OCT. 21,1970Note that the date is the date of the printout, not the date of the program revision. |
063668,000002: ## Copyright: Public domain.
063669,000003: ## Filename: TJET_LAW.agc
063670,000004: ## Purpose: A log section of Zerlina 56, the final revision of
063671,000005: ## Don Eyles's offline development program for the variable
063672,000006: ## guidance period servicer. It also includes a new P66 with LPD
063673,000007: ## (Landing Point Designator) capability, based on an idea of John
063674,000008: ## Young's. Neither of these advanced features were actually flown,
063675,000009: ## but Zerlina was also the birthplace of other big improvements to
063676,000010: ## Luminary including the terrain model and new (Luminary 1E)
063677,000011: ## analog display programs. Zerlina was branched off of Luminary 145,
063678,000012: ## and revision 56 includes all changes up to and including Luminary
063679,000013: ## 183. It is therefore quite close to the Apollo 14 program,
063680,000014: ## Luminary 178, where not modified with new features.
063681,000015: ## Reference: pp. 1448-1457
063682,000016: ## Assembler: yaYUL
063683,000017: ## Contact: Ron Burkey <info@sandroid.org>.
063684,000018: ## Website: www.ibiblio.org/apollo/index.html
063685,000019: ## Mod history: 2017-07-28 MAS Created from Luminary 210.
063686,000020: ## 2017-08-29 MAS Updated for Zerlina 56.
063687,000021:
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Page 1448 |
063689,000023: # PROGRAM DESCRIPTION
063690,000024:
063691,000025: # DESIGNED BY: R. D. GOSS AND P. S. WEISSMAN
063692,000026:
063693,000027: # CODED BY: P. S. WEISSMAN 28 FEBRUARY 1968
063694,000028:
063695,000029: # TJETLAW IS CALLED AS A SUBROUTINE WHEN THE LEM IS NOT DOCKED AND THE AUTOPILOT IS IN THE AUTOMATIC OR
063696,000030: # ATTITUDE-HOLD MODE TO CALCULATE THE JET-FIRING-TIME (TJET) REQUIRED FOR THE AXIS INDICATED BY AXISCTR:
063697,000031: # -1 INDICATES THE P-AXIS
063698,000032: # +0 INDICATES THE U-AXIS
063699,000033: # +1 INDICATES THE V-AXIS.
063700,000034: # THE REGISTERS E AND EDOT CONTAIN THE APPROPRIATE ATTITUDE ERROR AND ERROR RATE AND SENSETYP SHOWS WHETHER
063701,000035: # UNBALANCED COUPLES ARE PREFERRED. TJETLAW ALSO USES VARIOUS FUNCTIONS OF ACCELERATION AND DEADBAND WHICH ARE
063702,000036: # COMPUTED IN THE 1/ACCONT SECTION OF 1/ACCS AND ARE STORED IN SUCH AN ORDER THAT THEY CAN BE CONVENIENTLY
063703,000037: # ACCESSED BY INDEXING.
063704,000038: # THE SIGN OF THE REQUIRED ROTATION IS CARRIED THROUGH TJETLAW AS ROTSENSE AND IS FINALLY APPLIED TO TJET JUST
063705,000039: # PREVIOUS TO ITS STORAGE IN THE LOCATION CORRESPONDING TO THE AXIS (TJP, TJU OR TJV). THE NUMBER OF JETS THAT
063706,000040: # TJETLAW ASSUMES WILL BE USED IS INDICATED BY THE SETTING OF NUMBERT FOR THE U- OR V-AXIS. TWO JETS ARE ALWAYS
063707,000041: # ASSUMED FOR THE P-AXIS ALTHOUGH FOUR JETS WILL BE FIRED WHEN FIREFCT IS MORE NEGATIVE THAN -4.0 DEGREES
063708,000042: # (FIREFCT IS THE DISTANCE TO A SWITCH CURVE IN THE PHASE PLANE) AND A LONG FIRING IS CALLED FOR.
063709,000043: # IN ORDER TO AVOID SCALING DIFFICULTIES, SIMPLE ALGORITHMS TAGGED RUFLAW1, -2 AND -3 ARE RESORTED TO WHEN THE
063710,000044: # ERROR AND/OR ERROR RATE ARE LARGE.
063711,000045:
063712,000046: # CALLING SEQUENCE:
063713,000047: # TC TJETLAW (MUST BE IN JASK)
063714,000048: # OR
063715,000049: # INHINT (MUST BE IN JASK)
063716,000050: # TC IBNKCALL
063717,000051: # CADR TJETLAW
063718,000052: # RELINT
063719,000053:
063720,000054: # EXIT: RETURN TO Q.
063721,000055:
063722,000056: # INPUT:
063723,000057: # FROM THE CALLER: E, EDOT, AXISCTR, SENSETYP, TJP,-U,-V.
063724,000058: # FROM 1/ACCONT: 48 ERASABLES BEGINNING AT BLOCKTOP (INCLUDING FLAT, ZONE3LIM AND ACCSWU,-V).
063725,000059:
063726,000060: # OUTPUT:
063727,000061: # TJP,-U OR -V, NUMBERT (DAPTEMP5), FIREFCT (DAPTEMP3).
063728,000062:
063729,000063: # DEBRIS:
063730,000064: # A, L, Q, E, EDOT, DAPTEMP1-6, DAPTREG1-4.
063731,000065:
063732,000066: # ALARM: NONE
063733,000067:
063734,000068: 17,3304 BANK 17
063735,000069: 17,2000 SETLOC DAPS2
063736,000070: 17,2000 BANK
063737,000071: 17,3304 E6,1524 EBANK= TJP
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Page 1449 |
063739,000073: 17,3304 COUNT* $$/DAPTJ
063740,000074:
063741,000075: 17,3304 00006 TJETLAW EXTEND # SAVE Q FOR RETURN.
063742,000076: 17,3305 23744 QXCH HOLDQ
063743,000077:
063744,000078: # SET INDEXERS TO CORRESPOND TO THE AXIS AND TO THE SIGN OF EDOT
063745,000079:
063746,000080: 17,3306 51505 INDEX AXISCTR # AXISDIFF(-1)=NO OF LOCATIONS BER P AND U
063747,000081: 17,3307 33755 CAF AXISDIFF # AXISDIFF(0) = 0
063748,000082: 17,3310 55745 TS ADRSDIF1 # AXISDIFF(+1)=NO OF LOCATIONS BET V AND U
063749,000083:
063750,000084: 17,3311 31427 CAE EDOT # IF EDOT NEGATIVE, PICK UP SET OF VALUES
063751,000085: 17,3312 00006 EXTEND # THAT ALLOW USE OF SAME CODING AS FOR
063752,000086: 17,3313 63320 BZMF NEGEDOT # POSITIVE EDOT.
063753,000087: 17,3314 31745 CAE ADRSDIF1 # SET A SECOND INDEXER WHICH MAY BE
063754,000088: 17,3315 55743 TS ADRSDIF2 # MODIFIED BY A DECISION FOR MAX JETS.
063755,000089: 17,3316 33757 CAF SENSOR # FOR POSITIVE EDOT, ROTSENSE IS
063756,000090: 17,3317 13330 TCF SETSENSE # INITIALIZED POSITIVE.
063757,000091:
063758,000092: 17,3320 41751 NEGEDOT CS E # IN ORDER FOR NEG EDOT CASE TO USE CODING
063759,000093: 17,3321 55751 TS E # OF POS EDOT, MUST MODIFY AS FOLLOWS:
063760,000094: 17,3322 41427 CS EDOT # 1.COMPLEMENT E AND EDOT.
063761,000095: 17,3323 55427 TS EDOT # 2.SET SENSE OF ROTATION TO NEGATIVE
063762,000096: 17,3324 34753 CAF BIT1 # (REVERSED LATER IF NECESSARY).
063763,000097: 17,3325 27745 ADS ADRSDIF1 # 3.INCREMENT INDEXERS BY ONE SO THAT
063764,000098: 17,3326 55743 TS ADRSDIF2 # THE PROPER PARAMETERS ARE ACCESSED.
063765,000099: 17,3327 43757 CS SENSOR
063766,000100: 17,3330 55737 SETSENSE TS ROTSENSE
063767,000101:
063768,000102: # TEST MAGNITUDE OF E (ATTITUDE ERROR, SINGLE-PRECISION, SCALED AT PI RADIANS):
063769,000103: # IF GREATER THAN (OR EQUAL TO) PI/16 RADIANS, GO TO THE SIMPLIFIED TJET ROUTINE.
063770,000104: # IF LESS THAN PI/16 RADIANS, RESCALE TO PI/4.
063771,000105:
063772,000106: 17,3331 31751 CAE E # PICK UP ATTITUDE ERROR FOR THIS AXIS
063773,000107: 17,3332 00006 EXTEND
063774,000108: 17,3333 74747 MP BIT5 # SHIFT RIGHT TEN BITS: IF A-REGISTER IS
063775,000109: 17,3334 10000 CCS A # ZERO, RESCALE AND TEST EDOT.
063776,000110: 17,3335 13717 TCF RUFLAW2
063777,000111: 17,3336 13340 TCF SCALEE
063778,000112: 17,3337 13663 TCF RUFLAW1
063779,000113: 17,3340 34737 SCALEE CAF BIT13 # ERROR IS IN L SCALED AT PI/16. RESCALE
063780,000114: 17,3341 00006 EXTEND # IT TO PI/4 AND SAVE IT.
063781,000115: 17,3342 70001 MP L
063782,000116: 17,3343 55751 TS E
063783,000117:
063784,000118: # TEST MAGNITUDE OF EDOT (ERROR RATE SCALED AT PI/4 RADIANS/SECOND)
063785,000119: # IF GREATER THAN (OR EQUAL TO) PI/32 RADIANS/SECOND, GO TO THE SIMPLIFIED TJET ROUTINE.
063786,000120: # IF LESS THAN PI/32 RADIANS/SECOND, THEN RESCALE TO PI/32 RADIANS/SECOND.
063787,000121:
063788,000122: 17,3344 31427 CAE EDOT # PICK UP SINGLE-PRECISION ERROR-RATE
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Page 1450 |
063790,000124: 17,3345 00006 EXTEND # FOR THIS AXIS=
063791,000125: 17,3346 74750 MP BIT4 # SHIFT RIGHT ELEVEN BITS, IF THE A-REG IS
063792,000126: 17,3347 00006 EXTEND # ZERO, THEN RESCALE AND USE FINELAW.
063793,000127: 17,3350 13352 BZF SCALEDOT
063794,000128: 17,3351 13725 TCF RUFLAW3
063795,000129: # *** FINELAW STARTS HERE ***
063796,000130:
063797,000131: 17,3352 23427 SCALEDOT LXCH EDOT # EDOT IS SCALED AT PI/32 RADIANS/SECOND.
063798,000132:
063799,000133: 17,3353 31427 CAE EDOT # COMPUTE (EDOT)(EDOT)
063800,000134: 17,3354 00006 EXTEND
063801,000135: 17,3355 70000 SQUARE # PRODUCT SCALED AT PI(2)/2(10) RAD/SEC.
063802,000136: 17,3356 00006 EXTEND
063803,000137: 17,3357 74737 MP BIT13 # SHIFT RIGHT TWO BITS TO RESCALE EDOTSQ
063804,000138: 17,3360 55736 TS EDOTSQ # TO PI(2)/2(8) RAD(2)/SEC(2).
063805,000139:
063806,000140: 17,3361 11751 ERRTEST CCS E # DOES BIG ERROR (THREE DEG BEYOND THE
063807,000141: 17,3362 13365 TCF +3 # DEADBAND) REQUIRE MAXIMUM JETS?
063808,000142: 17,3363 13365 TCF +2
063809,000143: 17,3364 13365 TCF +1
063810,000144: 17,3365 63760 AD -3DEG
063811,000145: 17,3366 00006 EXTEND
063812,000146: 17,3367 51745 INDEX ADRSDIF1
063813,000147: 17,3370 61600 SU FIREDB
063814,000148: 17,3371 00006 EXTEND
063815,000149: 17,3372 63377 BZMF SENSTEST # IF NOT: ARE UNBALANCED JETS PREFERRED|
063816,000150: 17,3373 34752 MAXJETS CAF TWO # IF YES : INCREMENT ADDRESS LOCATOR AND
063817,000151: 17,3374 27743 ADS ADRSDIF2 # SET SWITCH FOR JET SELECT LOGIC TO 4.
063818,000152: 17,3375 34751 CAF FOUR # (ALWAYS DO THIS FOR P-AXIS)
063819,000153: 17,3376 13402 TCF TJCALC
063820,000154: 17,3377 11500 SENSTEST CCS SENSETYP # DOES TRANSLATION PREFER MIN JETS.
063821,000155: 17,3400 13402 TCF TJCALC # YES. USE MIN-JET PARAMETERS.
063822,000156: 17,3401 13373 TCF MAXJETS # NO. GET MAX-JET PARAMETERS.
063823,000157: 17,3402 55742 TJCALC TS NUMBERT # SET TO +0,1,4 FOR (U,V-AXES) JET SELECT.
063824,000158:
063825,000159: # BEGINNING OF TJET CALCULATIONS:
063826,000160:
063827,000161: 17,3403 41736 CS EDOTSQ # SCALED AT PI(2)/2(8).
063828,000162: 17,3404 00006 EXTEND
063829,000163: 17,3405 51743 INDEX ADRSDIF2
063830,000164: 17,3406 71566 MP 1/ANET1 # .5/ACC SCALED AT 2(6)/PI SEC(2)/RADIAN.
063831,000165: 17,3407 51745 INDEX ADRSDIF1
063832,000166: 17,3410 61600 AD FIREDB # DEADBAND SCALED AT PI/4 RADIAN.
063833,000167: 17,3411 00006 EXTEND
063834,000168: 17,3412 61751 SU E # ATTITUDE ERROR SCALED AT PI/4 RADIAN.
063835,000169: 17,3413 55740 TS FIREFCT # -E-.5(EDOTSQ)/ACC-DB AT PI/4 RADIAN.
063836,000170: 17,3414 00006 EXTEND
063837,000171: 17,3415 63575 BZMF ZON1,2,3
063838,000172:
063839,000173: 17,3416 51745 ZONE4,5 INDEX ADRSDIF1
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Page 1451 |
063841,000175: 17,3417 31572 CAE 1/ACOAST # .5/ACC SCALED AT 2(6)/PI WHERE
063842,000176: 17,3420 00006 EXTEND # ACC = MAX(AMIN, AOS-).
063843,000177: 17,3421 71736 MP EDOTSQ # SCALED AT PI/2(8).
063844,000178: 17,3422 61751 AD E # SCALED AT PI/4
063845,000179: 17,3423 51745 INDEX ADRSDIF1
063846,000180: 17,3424 61602 AD COASTDB # SCALED AT PI/4 POS. FOR NEG. INTERCEPT.
063847,000181: 17,3425 00006 EXTEND # TEST E+.5(EDOTSQ)/ACC+DB AT PI/4 RADIAN.
063848,000182: 17,3426 63461 BZMF ZONE5 # IF FUNCTION NEGATIVE, FIND TJET.
063849,000183: # IF FUNCTION POSITIVE, IN ZONE 4.
063850,000184:
063851,000185: # ZONE 4 IS THE COAST REGION. HOWEVER, IF THE JETS ARE ON AND DRIVING TOWARD
063852,000186: # A. THE AXIS WITHIN + OR - (DB + FLAT) FOR DRIFTING FLIGHT, OR
063853,000187: # B. THE USUAL TARGET PARABOLA FOR POWERED FLIGHT
063854,000188: # THEN THE THRUSTERS ARE KEPT ON.
063855,000189:
063856,000190: 17,3427 51505 ZONE4 INDEX AXISCTR # IS THE CURRENT VALUE IN TJET NON-ZERO
063857,000191: 17,3430 41525 CS TJETU # WITH SENSE OPPOSITE TO EDOT,
063858,000192: 17,3431 00006 EXTEND # (I.E., ARE JETS ON AND FIRING TOWARD
063859,000193: 17,3432 71737 MP ROTSENSE # THE DESIRABLE STATE).
063860,000194: 17,3433 00006 EXTEND
063861,000195: 17,3434 63455 BZMF COASTTJ # NO. COAST.
063862,000196:
063863,000197: 17,3435 11554 JETSON CCS FLAT # YES. IS THIS DRIFTING OR POWERED FLIGHT|
063864,000198: 17,3436 13447 TCF DRIFT/ON # DRIFTING. GO MAKE FURTHER TEST.
063865,000199:
063866,000200: 17,3437 41740 CS FIREFCT # POWERED (OR ULLAGE). CAN TARGET PARABOLA
063867,000201: 17,3440 51745 INDEX ADRSDIF1 # BE REACHED FROM THIS POINT IN THE
063868,000202: 17,3441 61604 AD AXISDIST # PHASE PLANE|
063869,000203: 17,3442 00006 EXTEND
063870,000204: 17,3443 63455 BZMF COASTTJ # NO. SET TJET = 0.
063871,000205: 17,3444 03561 TC Z123COMP # YES. CALCULATE TJET AS THOUGH IN ZONE 1
063872,000206: 17,3445 31740 CAE FIREFCT # AFTER COMPUTING THE REQUIRED
063873,000207: 17,3446 13615 TCF ZONE1 # PARAMETERS.
063874,000208:
063875,000209: 17,3447 51745 DRIFT/ON INDEX ADRSDIF1 # CAN TARGET STRIP OF AXIS BE REACHED FROM
063876,000210: 17,3450 41600 CS FIREDB # THIS POINT IN THE PHASE PLANE|
063877,000211: 17,3451 60000 DOUBLE
063878,000212: 17,3452 61740 AD FIREFCT
063879,000213: 17,3453 00006 EXTEND
063880,000214: 17,3454 63457 BZMF +3
063881,000215: 17,3455 34755 COASTTJ CAF ZERO # NO. SET TJET = 0.
063882,000216: 17,3456 13521 TCF RETURNTJ
063883,000217:
063884,000218: 17,3457 03561 TC Z123COMP # YES. CALCULATE TJET AS THOUGH IN ZONE 2
063885,000219: 17,3460 13602 TCF ZONE2,3 # OR 3 AFTER COMPUTING REQUIRED VALUES.
063886,000220:
063887,000221: 17,3461 54001 ZONE5 TS L # TEMPORARILY STORE FUNCTION IN L.
063888,000222: 17,3462 11737 CCS ROTSENSE # MODIFY ADRSDIF2 FOR ACCESSING 1/ANET2
063889,000223: 17,3463 13467 TCF +4 # AND ACCFCTZ5, WHICH MUST BE PICKED UP
063890,000224: 17,3464 05706 TC CCSHOLE # FROM THE NEXT LOWER REGISTER IF THE
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Page 1452 |
063892,000226: 17,3465 44752 CS TWO # (ACTUAL) ERROR RATE IS NEGATIVE.
063893,000227: 17,3466 27743 ADS ADRSDIF2
063894,000228:
063895,000229: 17,3467 30001 +4 CAE L
063896,000230: 17,3470 00006 EXTEND
063897,000231: 17,3471 51743 INDEX ADRSDIF2 # TTOAXIS AND HH ARE THE PARAMETERS UPON
063898,000232: 17,3472 71575 MP ACCFCTZ5 # WHICH THE APPROXIMATIONS TO TJET ARE
063899,000233: 17,3473 20001 DDOUBL # BASED.
063900,000234: 17,3474 20001 DDOUBL
063901,000235: 17,3475 53747 DXCH HH # DOUBLE PRECISION H SCALED AT 8 SEC(2).
063902,000236: 17,3476 51743 INDEX ADRSDIF2
063903,000237: 17,3477 31567 CAE 1/ANET2 # SCALED AT 2(7)/PI SEC(2)/RAD.
063904,000238: 17,3500 00006 EXTEND
063905,000239: 17,3501 71427 MP EDOT # SCALED AT PI/2(5)
063906,000240: 17,3502 55741 TS TTOAXIS # SCALED AT 4 SEC.
063907,000241:
063908,000242: # TEST WHETHER TJET GREATER THAN 50 MSEC.
063909,000243: 17,3503 00006 EXTEND
063910,000244: 17,3504 73767 MP -.05AT2 # H - .05 TTOAXIS - .00125 G.T. ZERO
063911,000245: 17,3505 61746 AD HH # (SCALED AT 8 SEC(2) ).
063912,000246: 17,3506 67760 AD NEG2
063913,000247: 17,3507 00006 EXTEND
063914,000248: 17,3510 63536 BZMF FORMULA1
063915,000249:
063916,000250: # TEST WHETHER TJET GREATER THAN 150 MSEC.
063917,000251: 17,3511 31741 CAE TTOAXIS
063918,000252: 17,3512 00006 EXTEND
063919,000253: 17,3513 73770 MP -.15AT2 # H - .15 TTOAXIS - .01125 G.T. ZERO
063920,000254: 17,3514 61746 AD HH # (SCALED AT 8 SEC(2) )
063921,000255: 17,3515 63761 AD -.0112A8
063922,000256: 17,3516 00006 EXTEND
063923,000257: 17,3517 63546 BZMF FORMULA2
063924,000258:
063925,000259: # IF TJET GREATER THAN 150 MSEC, ASSIGN IT VALUE OF 250 MSEC, SINCE THIS
063926,000260: # IS ENOUGH TO ASSURE NO SKIP NEXT CSP (100 MSEC).
063927,000261:
063928,000262: 17,3520 34741 FULLTIME CAF BIT11 # 250 MSEC SCALED AT 4 SEC.
063929,000263:
063930,000264: # RETURN TO CALLING PROGRAM WITH JET TIME SCALED AS TIME6 AND SIGNED.
063931,000265:
063932,000266: 17,3521 00006 RETURNTJ EXTEND # ALL BRANCHES TERMINATE HERE WITH TJET
063933,000267: 17,3522 71737 MP ROTSENSE # (SCALED AT 4 SEC) IN THE ACCUMULATOR.
063934,000268: 17,3523 51505 INDEX AXISCTR # ROTSENSE APPLIES SIGN AND CHANGES SCALE.
063935,000269: 17,3524 55525 TS TJETU
063936,000270: 17,3525 00006 EXTEND
063937,000271: 17,3526 51505 INDEX AXISCTR
063938,000272: 17,3527 71546 MP ACCSWU # SET SWITCH FOR JET SELECT IF ROTATION IS
063939,000273: 17,3530 30001 CAE L
063940,000274: 17,3531 00006 EXTEND # IN A SENSE FOR WHICH 1/ACCS HAS FORCED
063941,000275: 17,3532 63535 BZMF +3 # A MAX-JET CALCULATION.
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Page 1453 |
063943,000277: 17,3533 34751 CAF FOUR
063944,000278: 17,3534 55742 TS NUMBERT
063945,000279: 17,3535 01744 TC HOLDQ # RETURN VIA SAVED Q.
063946,000280:
063947,000281: # TJET = H/(.025 + TTOAXIS) FOR TJET LESS THAN 50 MSEC.
063948,000282:
063949,000283: 17,3536 43766 FORMULA1 CS -.025AT4 # .025 SEC SCALED AT 4.
063950,000284: 17,3537 61741 AD TTOAXIS # SCALED AT 4 SECONDS.
063951,000285: 17,3540 53747 DXCH HH # STORE DENOMINATOR IN FIRST WORD OF H,
063952,000286: 17,3541 00006 EXTEND # WHICH NEED NOT BE PRESERVED. PICK UP
063953,000287: 17,3542 11746 DV HH # DP H AND DIVIDE BY DENOMINATOR.
063954,000288: 17,3543 00006 EXTEND
063955,000289: 17,3544 74736 MP BIT14 # RESCALE TJET FROM 2 TO USUAL 4 SEC.
063956,000290: 17,3545 13656 TCF CHKMINTJ # CHECK THAT TJET IS NOT LESS THAN MINIMUM
063957,000291:
063958,000292: # TJET = (H + .00375)/(0.1 + TTOAXIS) FOR TJET GREATER THAN 50 MSEC.
063959,000293:
063960,000294: 17,3546 00006 FORMULA2 EXTEND
063961,000295: 17,3547 33772 DCA .00375A8 # .00375 SEC(2) SCALED AT 8.
063962,000296: 17,3550 21747 DAS HH # STORE NUMERATOR IN DP H, WHICH NEED NOT
063963,000297: # BE PRESERVED.
063964,000298: 17,3551 31741 CAE TTOAXIS # SCALED AT 4 SEC.
063965,000299: 17,3552 63762 AD .1AT4 # 0.1 SEC SCALED AT 4.
063966,000300: 17,3553 53747 DXCH HH # STORE DENOMINATOR IN FIRST WORD OF H,
063967,000301: 17,3554 00006 EXTEND # WHICH NEED NOT BE PRESERVED. PICK UP
063968,000302: 17,3555 11746 DV HH # DP NUMERATOR AND DIVIDE BY DENOMINATOR
063969,000303: 17,3556 00006 EXTEND
063970,000304: 17,3557 74736 MP BIT14 # RESCALE TJET FROM 2 TO USUAL 4 SEC.
063971,000305: 17,3560 13521 TCF RETURNTJ # END SUBROUTINE.
063972,000306:
063973,000307: # SUBROUTINIZED COMPUTATIONS REQUIRED FOR ALL ENTRIES INTO CODING FOR ZONES 1, 2, AND 3.
063974,000308:
063975,000309: # REACHED BY TC FROM 3 POINTS IN TJETLAW.
063976,000310:
063977,000311: 17,3561 41737 Z123COMP CS ROTSENSE # USED IN RETURNTJ SECTION TO RESCALE TJET
063978,000312: 17,3562 55737 TS ROTSENSE # AS TIME6 AND GIVE IT PROPER SIGN.
063979,000313: 17,3563 31427 CAE EDOT # SCALED AT PI/2(5) RAD/SEC.
063980,000314: 17,3564 00006 EXTEND
063981,000315: 17,3565 51743 INDEX ADRSDIF2
063982,000316: 17,3566 71566 MP 1/ANET1 # SCALED AT 2(7)/PI SEC(2)/RAD.
063983,000317: 17,3567 55741 TS TTOAXIS # STORE TIME-TO-AXIS SCALED AT 4 SECONDS.
063984,000318: 17,3570 63773 AD -TJMAX
063985,000319: 17,3571 00006 EXTEND # IS TIME TO AXIS LESS THAN 150 MSEC.
063986,000320: 17,3572 63574 BZMF +2
063987,000321: 17,3573 13520 TCF FULLTIME # NO. FIRE JETS, DO NOT CALCULATE TJET.
063988,000322: 17,3574 00002 RETURN # YES. GO ON TO FIND TJET
063989,000323:
063990,000324: 17,3575 03561 ZON1,2,3 TC Z123COMP # SUBROUTINIZED PREPARATION FOR ZONE1,2,3.
063991,000325:
063992,000326: # IF THE (NEG) DISTANCE BEYOND PARABOLA IS LESS THAN FLAT, USE SPECIAL
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Page 1454 |
063994,000328: # LOGIC TO ACQUIRE MINIMUM IMPULSE LIMIT CYCLE. DURING POWERED FLIGHT
063995,000329: # OR ULLAGE, FLAT = 0
063996,000330:
063997,000331: 17,3576 31740 CAE FIREFCT # SCALED AT PI/4 RAD.
063998,000332: 17,3577 61554 AD FLAT
063999,000333: 17,3600 00006 EXTEND
064000,000334: 17,3601 63615 BZMF ZONE1 # NOT IN SPECIAL ZONES.
064001,000335:
064002,000336: # FIRE FOR AXIS OR, IF CLOSE, FIRE MINIMUM IMPULSE. IF ON AXIS, COAST.
064003,000337:
064004,000338: 17,3602 41555 ZONE2,3 CS ZONE3LIM # HEIGHT OF MIN-IMPULSE ZONE SET BY 1/ACCS
064005,000339: 17,3603 61741 AD TTOAXIS # 35 MSEC IN DRIFTING FLIGHT
064006,000340: 17,3604 00006 EXTEND # ZERO WHEN TRYING TO ENTER GTS CONTROL.
064007,000341: 17,3605 63610 BZMF ZONE3
064008,000342: 17,3606 31741 ZONE2 CAE TTOAXIS # FIRE TO AXIS.
064009,000343: 17,3607 13521 TCF RETURNTJ
064010,000344: 17,3610 11427 ZONE3 CCS EDOT # CHECK IF EDOT IS ZERO.
064011,000345: 17,3611 34746 CAF BIT6 # FIRE A ONE-JET MINIMUM IMPULSE.
064012,000346: 17,3612 13521 TCF RETURNTJ # TJET = +0.
064013,000347: 17,3613 05706 TC CCSHOLE # CANNOT BE BECAUSE NEG EDOT COMPLEMENTED.
064014,000348: 17,3614 13521 TCF RETURNTJ # TJET = +0.
064015,000349:
064016,000350: 17,3615 00006 ZONE1 EXTEND
064017,000351: 17,3616 51745 INDEX ADRSDIF1
064018,000352: 17,3617 61604 SU AXISDIST # SCALED AT PI/4 RAD.
064019,000353: 17,3620 00006 EXTEND
064020,000354: 17,3621 51743 INDEX ADRSDIF2
064021,000355: 17,3622 71574 MP ACCFCTZ1 # SCALED AT 2(7)/PI SEC(2)/RAD.
064022,000356: 17,3623 20001 DDOUBL
064023,000357: 17,3624 20001 DDOUBL
064024,000358: 17,3625 53747 DXCH HH # DOUBLE PRECISION H SCALED AT 8 SEC(2).
064025,000359:
064026,000360: # TEST WHETHER TOTAL TIME REQUIRED GREATER THAN 150 MSEC:
064027,000361: # 2 2
064028,000362: # IS .5(.150 - TTOAXIS) - H NEGATIVE (SCALED AT 8 SECONDS )
064029,000363:
064030,000364: 17,3626 31741 CAE TTOAXIS # TTOAXIS SCALED AT 4 SECONDS.
064031,000365: 17,3627 63773 AD -TJMAX # -.150 SECOND SCALED AT 4.
064032,000366: 17,3630 00006 EXTEND
064033,000367: 17,3631 70000 SQUARE
064034,000368: 17,3632 00006 EXTEND
064035,000369: 17,3633 61746 SU HH # HIGH WORD OF H SCALED AT 8 SEC(2).
064036,000370: 17,3634 00006 EXTEND
064037,000371: 17,3635 63520 BZMF FULLTIME # YES. NEED NOT CALCULATE TJET.
064038,000372:
064039,000373: # TEST WHETHER TIME BEYOND AXIS GREATER THAN 50 MSEC TO DETERMINE WHICH APPROXIMATION TO USE.
064040,000374:
064041,000375: 17,3636 31746 CAE HH
064042,000376: 17,3637 67760 AD NEG2
064043,000377: 17,3640 00006 EXTEND
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Page 1455 |
064045,000379: 17,3641 63651 BZMF FORMULA3
064046,000380:
064047,000381: # TJET = H/0.1 + TTOAXIS + .0375 FOR APPROXIMATION OVER MORE THAN 50 MSEC.
064048,000382:
064049,000383: 17,3642 33763 CAF .1AT2 # STORE .1 SEC SCALED AT 2 FOR DIVISION.
064050,000384: 17,3643 53747 DXCH HH # DP H SCALED AT 8 SEC(2) NEED NOT BE
064051,000385: 17,3644 00006 EXTEND # PRESERVED.
064052,000386: 17,3645 11746 DV HH # QUOTIENT SCALED AT 4 SECONDS.
064053,000387: 17,3646 61741 AD TTOAXIS # SCALED AT 4 SEC.
064054,000388: 17,3647 63764 AD .0375AT4 # .0375 SEC SCALED AT 4.
064055,000389: 17,3650 13521 TCF RETURNTJ # END COMPUTATION.
064056,000390:
064057,000391: # TJET = H/.O25 + TTOAXIS FOR APPROXIMATION OVER LESS THAN 50 MSEC.
064058,000392:
064059,000393: 17,3651 43765 FORMULA3 CS -.025AT2 # STORE +.025 SEC SCALED AT 2 FOR DIVISION
064060,000394: 17,3652 53747 DXCH HH # PICK UP DP H AT 8, WHICH NEED NOT BE
064061,000395: 17,3653 00006 EXTEND # PRESERVED.
064062,000396: 17,3654 11746 DV HH # QUOTIENT SCALED AT 4 SECONDS.
064063,000397: 17,3655 61741 AD TTOAXIS # SCALED AT 4 SEC.
064064,000398:
064065,000399: # IF COMPUTED JET TIME IS LESS THAN TJMIN, TJET IS SET TO ZERO.
064066,000400: # MINIMUM IMPULSES REQUIRED IN ZONE 3 ARE NOT SUBJECT TO THIS CONSTRAINT, NATURALLY.
064067,000401:
064068,000402: 17,3656 63775 CHKMINTJ AD -TJMIN # IS COMPUTED TIME LESS THAN THE MINIMUM.
064069,000403: 17,3657 00006 EXTEND
064070,000404: 17,3660 63455 BZMF COASTTJ # YES, SET TIME TO ZERO.
064071,000405: 17,3661 63774 AD TJMIN # NO, RESTORE COMPUTED TIME.
064072,000406: 17,3662 13521 TCF RETURNTJ # END COMPUTATION.
064073,000407:
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Page 1456 |
064075,000409: # *** ROUGHLAW ***
064076,000410:
064077,000411: # BEFORE ENTRY TO RUFLAW:
064078,000412: # 1. INDEXERS ADRSDIF1 AND ADRSDIF2 ARE SET ON BASIS OF AXIS, AND SIGN OF EDOT.
064079,000413: # 2. IF EDOT WAS NEGATIVE, E AND EDOT ARE ROTATED INTO UPPER HALF-PLANE AND ROTSENSE IS MADE NEGATIVE.
064080,000414: # 3. E IS SCALED AT PI RADIANS AND EDOT AT PI/4 RAD/SEC.
064081,000415: # (EXCEPT THE RUFLAW3 ENTRY WHEN E IS AT PI/4)
064082,000416:
064083,000417: # RUFLAW1: ERROR MORE NEGATIVE THAN PI/16 RAD. FIRE TO A RATE OF 6.5 DEG/SEC (IF JET TIME EXCEEDS 20 MSEC.).
064084,000418: # RUFLAW2: ERROR MORE POSITIVE THAN PI/16 RAD. FIRE TO AN OPPOSING RATE OF 6.5 DEG/SEC.
064085,000419: # RUFLAW3: ERROR RATE GREATER THAN PI/32 RAD/SEC AND ERROR WITHIN BOUNDS. COAST IF BELOW FIREFCT, FIRE IF ABOVE
064086,000420:
064087,000421: 17,3663 43776 RUFLAW1 CS RUFRATE # DECREMENT EDOT BY .1444 RAD/SEC AT PI/4
064088,000422: 17,3664 27427 ADS EDOT # WHICH IS THE TARGET RATE
064089,000423: 17,3665 00006 EXTEND
064090,000424: 17,3666 63707 BZMF SMALRATE # BRANCH IF RATE LESS THAN TARGET.
064091,000425: 17,3667 03745 TC RUFSETUP # REVERSE ROTSENSE AND INDICATE MAX JETS.
064092,000426: 17,3670 31427 CAE EDOT # PICK UP DESIRED RATE CHANGE.
064093,000427:
064094,000428: 17,3671 00006 RUFLAW12 EXTEND # COMPUTE TJET
064095,000429: 17,3672 51743 INDEX ADRSDIF2 # =(DESIRED RATE CHANGE)/(2-JET ACCEL.)
064096,000430: 17,3673 71570 MP 1/ANET1 +2
064097,000431: 17,3674 67753 AD -1/8 # IF TJET, SCALED AT 32 SEC, EXCEEDS
064098,000432: 17,3675 00006 EXTEND # 4 SECONDS, SET TJET TO TJMAX.
064099,000433: 17,3676 63700 BZMF +2
064100,000434: 17,3677 13520 TCF FULLTIME
064101,000435: 17,3700 00006 EXTEND
064102,000436: 17,3701 13520 BZF FULLTIME
064103,000437: 17,3702 64740 AD BIT12 # RESTORE COMPUTED TJET TO ACCUMULATOR.
064104,000438: 17,3703 20001 DAS A
064105,000439: 17,3704 20001 DAS A
064106,000440: 17,3705 20001 DAS A # RESCALED TJET AT 4 SECONDS.
064107,000441: 17,3706 13656 TCF CHKMINTJ # RETURN AS FROM FINELAW.
064108,000442:
064109,000443: 17,3707 03747 SMALRATE TC RUFSETUP +2 # SET NUMBERT AND FIREFCT FOR MAXIMUM JETS
064110,000444: 17,3710 11737 CCS ROTSENSE
064111,000445: 17,3711 34753 CAF ONE # MODIFY INDEXER TO POINT TO 1/ANET
064112,000446: 17,3712 13714 TCF +2 # CORRESPONDING TO THE PROPER SENSE.
064113,000447: 17,3713 37761 CAF NEGONE
064114,000448: 17,3714 27743 ADS ADRSDIF2
064115,000449:
064116,000450: 17,3715 41427 CS EDOT # (.144 AT PI/4 - EDOT)=DESIRED RATE CHNG.
064117,000451: 17,3716 13671 TCF RUFLAW12
064118,000452:
064119,000453: 17,3717 03745 RUFLAW2 TC RUFSETUP # REVERSE ROTSENSE AND INDICATE MAX JETS.
064120,000454: 17,3720 33776 CAF RUFRATE
064121,000455: 17,3721 61427 AD EDOT # (.144 AT PI/4 + EDOT)=DESIRED RATE CHNG.
064122,000456: 17,3722 54000 TS A # IF OVERFLOW SKIP, FIRE FOR FULL TIME.
064123,000457: 17,3723 13671 TCF RUFLAW12 # OTHERWISE, COMPUTE JET TIME.
064124,000458: 17,3724 13520 TCF FULLTIME
064125,000459:
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Page 1457 |
064127,000461: 17,3725 03745 RUFLAW3 TC RUFSETUP # EXECUTE COMMON RUFLAW SUBROUTINE.
064128,000462: 17,3726 51745 INDEX ADRSDIF1
064129,000463: 17,3727 41600 CS FIREDB # CALCULATE DISTANCE FROM SWITCH CURVE
064130,000464: 17,3730 61751 AD E # 1/ANET1*EDOT*EDOT +E - FIREDB = 0
064131,000465: 17,3731 00006 EXTEND # SCALED AT 4 PI RADIANS
064132,000466: 17,3732 74741 MP BIT11
064133,000467: 17,3733 57427 XCH EDOT
064134,000468: 17,3734 00006 EXTEND
064135,000469: 17,3735 70000 SQUARE
064136,000470: 17,3736 00006 EXTEND
064137,000471: 17,3737 51745 INDEX ADRSDIF1
064138,000472: 17,3740 71570 MP 1/ANET1 +2
064139,000473: 17,3741 61427 AD EDOT
064140,000474: 17,3742 00006 EXTEND
064141,000475: 17,3743 63455 BZMF COASTTJ # COAST IF BELOW IT.
064142,000476: 17,3744 13520 TCF FULLTIME # FIRE FOR FULL PERIOD IF ABOVE IT.
064143,000477:
064144,000478: # SUBROUTINE USED IN ALL ENTRIES TO ROUGHLAW.
064145,000479:
064146,000480: 17,3745 41737 RUFSETUP CS ROTSENSE # REVERSE ROTSENSE WHEN ENTER HERE.
064147,000481: 17,3746 55737 TS ROTSENSE
064148,000482: 17,3747 34751 +2 CAF FOUR # REQUIRE MAXIMUM (2) JETS IN U,V-AXES.
064149,000483: 17,3750 55742 TS NUMBERT
064150,000484: 17,3751 34735 CAF NEGMAX # SUGGEST MAXIMUM (4) JETS IN P-AXIS.
064151,000485: 17,3752 55740 TS FIREFCT
064152,000486: 17,3753 00002 TC Q
064153,000487:
064154,000488: # CONSTANTS FOR TJETLAW
064155,000489:
064156,000490: 17,3754 77757 DEC -16 B-14 # AXISDIFF(INDEX) = NUMBER OF REGISTERS
064157,000491: 17,3755 00000 AXISDIFF DEC +0 B-14 # BETWEEN STORED 1/ACCS PARAMETERS FOR
064158,000492: 17,3756 00020 DEC 16 B-14 # THE INDEXED AXIS AND THE U-AXIS.
064159,000493: 17,3757 14400 SENSOR OCT 14400 # RATIO OF TJET SCALING WITHIN TJETLAW
064160,000494: # (4 SEC) TO SCALING FOR T6 (10.24 SEC).
064161,000495: 17,3760 75673 -3DEG DEC -.06667 # -3.0 DEGREES SCALED AT 45.
064162,000496: 17,3761 77750 -.0112A8 DEC -.00141 # -.01125 SEC(2) SCALED AT 8.
064163,000497: 17,3762 00632 .1AT4 DEC .025 # 0.1 SECOND SCALED AT 4.
064164,000498: 17,3763 01463 .1AT2 DEC .05 # 0.1 SEC SCALED AT 2.
064165,000499: 17,3764 00232 .0375AT4 DEC .00938 # .0375 SEC SCALED AT 4.
064166,000500: 17,3765 77462 -.025AT2 DEC -.0125 # -.025 SEC SCALED AT 2.
064167,000501: 17,3766 77631 -.025AT4 DEC -.00625
064168,000502: 17,3767 77145 -.05AT2 DEC -.025
064169,000503: 17,3770 75462 -.15AT2 DEC -.075
064170,000504: 17,3771 00007 25605 .00375A8 2DEC .00375 B-3
064171,000505:
064172,000506: 17,3773 76631 -TJMAX DEC -.0375 # LARGEST CALCULATED TIME. .150 SEC AT 4.
064173,000507: 17,3774 00122 TJMIN DEC .005 # SMALLEST ALLOWABLE TIME. .020 SEC AT 4.
064174,000508: 17,3775 77655 -TJMIN DEC -.005
064175,000509: 17,3776 04476 RUFRATE DEC .1444 # CORRESPONDS TO TARGET RATE OF 6.5 DEG/S.
End of include-file TJET_LAW.agc. Parent file is MAIN.agc