618 lines
18 KiB
ArmAsm
618 lines
18 KiB
ArmAsm
# Copyright: Public domain.
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# Filename: TVCROLLDAP.agc
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# Purpose: Part of the source code for Colossus 2A, AKA Comanche 055.
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# It is part of the source code for the Command Module's (CM)
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# Apollo Guidance Computer (AGC), for Apollo 11.
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# Assembler: yaYUL
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# Contact: Ron Burkey <info@sandroid.org>.
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# Website: www.ibiblio.org/apollo.
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# Pages: 984-998
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# Mod history: 2009-05-13 RSB Adapted from the Colossus249/ file of the
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# same name, using Comanche055 page images.
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#
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# This source code has been transcribed or otherwise adapted from digitized
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# images of a hardcopy from the MIT Museum. The digitization was performed
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# by Paul Fjeld, and arranged for by Deborah Douglas of the Museum. Many
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# thanks to both. The images (with suitable reduction in storage size and
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# consequent reduction in image quality as well) are available online at
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# www.ibiblio.org/apollo. If for some reason you find that the images are
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# illegible, contact me at info@sandroid.org about getting access to the
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# (much) higher-quality images which Paul actually created.
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#
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# Notations on the hardcopy document read, in part:
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#
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# Assemble revision 055 of AGC program Comanche by NASA
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# 2021113-051. 10:28 APR. 1, 1969
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#
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# This AGC program shall also be referred to as
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# Colossus 2A
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# Page 984
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# PROGRAM NAME....TVC ROLL AUTOPILOT
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# LOG SECTION....TVCROLLDAP SUBROUTINE....DAPCSM
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# MOD BY SCHLUNDT 21 OCTOBER 1968
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#
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# FUNCTIONAL DESCRIPTION....
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#
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# *AN ADAPTATION OF THE LEM P-AXIS CONTROLLER
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# *MAINTAIN OGA WITHIN 5 DEG DEADBND OF OGAD, WHERE OGAD = OGA AS SEEN
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# BY IGNOVER (P40)
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# *MAINTAIN OGA RATE LESS THAN 0.1 DEG/SEC LIMIT CYCLE RATE
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# *SWITCHING LOGIC IN PHASE PLANE.... SEE GSOP CHAPTER 3
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# *USES T6 CLOCK TO TIME JET FIRINGS.
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# *MAXIMUM JET FIRING TIME = 2.56 SECONDS, LIMITED TO 2.5 IF GREATER
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# *MINIMUM JET FIRING TIME = 15 MS
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# *JET PAIRS FIRE ALTERNATELY
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# *AT LEAST 1/2 SECOND DELAY BEFORE A NEW JET PAIR IS FIRED
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# *JET FIRINGS MAY NOT BE EXTENDED, ONLY SHORTENED, WHEN RE-EVALUATION
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# OF A JET FIRING TIME IS MADE ON A LATER PASS
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#
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# CALLING SEQUENCE....
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#
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# *ROLLDAP CALL VIA WAITLIST, IN PARTICULAR BY TVCEXEC (EVERY 1/2 SEC)
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# WITH A 3CS DELAY TO ALLOW FREE TIME FOR OTHER RUPTS (DWNRPT, ETC.)
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#
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# NORMAL EXIT MODES.... ENDOFJOB
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#
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# ALARM OR ABORT EXIT MODES.... NONE
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#
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# SUBROUTINES CALLED.....NONE
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#
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# OTHER INTERFACES....
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#
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# *TVCEXEC SETS UP ROLLDAP TASK EVERY 1/2 SECOND AND UPDATES 1/CONACC
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# EVERY 10 SECONDS (VIA MASSPROP AND S40.15)
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# *RESTARTS SUSPEND ROLL DAP COMPUTATIONS UNTIL THE NEXT 1/2 SEC
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# SAMPLE PERIOD. (THE PART OF TVCEXECUTIVE THAT CALLS ROLL DAP IS
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# NOT RESTARTED.) THE OGAD FROM IGNITION IS MAINTAINED.
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#
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# ERASABLE INITIALIZATION REQUIRED
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#
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# *1/CONACC (S40.15)
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# *OGAD (CDUX, AT IGNITION)
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# *OGANOW (CDUX AT TVCINIT4 AND TVCEXECUTIVE)
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# *OGAPAST (OGANOW AT TVCEXECUTIVE)
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# *ROLLFIRE = TEMREG = ROLLWORD = 0 (MRCLEAN LOOP IN TVCDAPON)
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#
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# OUTPUT....
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#
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# *ROLL JET PAIR FIRINGS
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#
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# Page 985
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# DEBRIS.... MISCELLANEOUS, SHAREABLE WITH RCS/ENTRY, IN EBANK6 ONLY
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# Page 986
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# SOME NOTES ON THE ROLL AUTOPILOT, AND IN PARTICULAR, ON ITS SWITCHING
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# LOGIC. SEE SECTION THREE OF THE GSOP (SUNDISK/COLOSSUS) FOR DETAILS.
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# SWITCHING LOGIC IN THE PHASE PLANE....
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#
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# OGARATE
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# *
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# *
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# * * * * * * * * * * * *
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# * (REGION 1, SEE TEXT BELOW)
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# * *
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# *
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# * * * * * * * (COAST) * ...PARABOLA (SWITCHING = CONTROL)
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# * * .
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# * * *
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# * * (FIRE NEG ROLL JETS)
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# * * *
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# (-DB,+LMCRATE)....* *
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# * * *
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# * * OGAERROR
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# ************************************************************************
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# * * (-AK, OGAERR)
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# * * * (REGION 6-PRIME)
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# * * (SEE TEXT BELOW)
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# * * *
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# * * ...STRAIGHT LINE
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# (FIRE POS ROLL JETS) * * * .
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# * (COAST) *
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# * * * * * * * * * * *
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# * -MINLIM
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# * *
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# *
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# * * * * * * * * * * * * * * * *
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# * -MAXLIM
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# *
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# *
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#
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# SWITCHING PARABOLAS ARE CONTROL PARABOLAS, THUS REQUIRING KNOWLEDGE OF
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# CONTROL ACCELERATION CONACC, OR ITS RECIPROCAL, 1/CONACC, THE TVC
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# ROLL DAP GAIN (SEE TVCEXECUTIVE VARIABLE GAIN PACKAGE). JET
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# FIRING TIME IS SIMPLY THAT REQUIRED TO ACHIEVE THE DESIRED OGARATE,
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# SUBJECT TO TEH LIMITATIONS DISCUSSED UNDER FUNCTIONAL DESCRIPTION,
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# ABOVE.
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#
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# THE THREE CONTROL REGIONS (+, -, AND ZERO TORQUE) ARE COMPRISED OF
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# TWELVE SUBSET REGIONS ( 1...6, AND THE CORRESPONDING 1-PRIME...
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# 5-PRIME ) SEE SECTION 3 OF THE GSOP (SUNDISK OR COLOSSUS)
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# Page 987
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#
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# GIVEN THE OPERATING POINT NOT IN THE COAST REGION, THE DESIRED OGARATE
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# IS AT THE POINT OF PENETRATION OF THE COAST REGION BY THE CONTROL
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# PARABOLA WHICH PASSES THROUGH THE OPERATING POINT. FOR REGION 3
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# DESIRED OGARATE IS SIMPLY +-MAXLIM. FOR REGIONS 1 OR 6 THE SOLUTION
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# TO A QUADRATIC IS REQUIRED (THE PENETRATION IS ALONG THE STRAIGHT
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# LINE OR MINLIM BOUNDARY SWITCH LINES). AN APPROXIMATION IS MADE
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# INSTEAD. CONSIDER AN OPERATING POINT IN REGION 6'. PASS A TANGENT TO
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# THE CONTROL PARABOLA THROUGH THE OPERATING POINT, AND FIND ITS
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# INTERSECTION WITH THE STRAIGHT LINE SECTION OF THE SWITCH CURVE...
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# THE INTERSECTION DEFINES THE DESIRED OGARATE. IF THE OPERATING POINT IS
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# CLOSE TO THE SWITCH LINE, THE APPROXIMATION IS QUITE GOOD (INDEED
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# THE APPROXIMATE AND QUADRATIC SOLUTIONS CONVERGE IN THE LIMIT AS
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# THE SWITCH LINE IS APPROACHED). IF THE OPERATING POINT IS NOT CLOSE
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# TO THE SWITCH LINE, THE APPROXIMATE SOLUTION GIVES VALID TREND
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# INFORMATION (DIRECTION OF DESIRED OGARATE) AT LEAST. THE
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# RE-EVALUATION OF DESIRED OGARATE IN SUBSEQUENT ROLL DAP PASSES (1/2
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# SECOND INTERVALS) WILL BENEFIT FROM THE CONVERGENT NATURE OF THE
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# APPROXIMATION.
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#
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# FOR LARGE OGAERROR THE TANGENT INTERSECTS +-MINLIM SWITCH BOUNDARY BEFORE
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# INTERSECTING THE STRAIGHT LINE SWITCH. HOWEVER THE MINLIM IS
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# IGNORED IN COMPUTING THE FIRING TIME, SO THAT THE EXTENSION (INTO
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# THE COAST REGION) OF THE STRAIGHT LINE SWITCH IS WHAT IS FIRED TO.
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# IF THE ROLL DAP FINDS ITSELF IN THE COAST REGION BEFORE REACHING
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# THE DESIRED INTERSECTION (I.E., IN THE REGION BETWEEN THE MINLIM
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# AND THE STRAIGHT LINE SWITCH) IT WILL EXHIBIT NORMAL COAST-REGION
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# BEHAVIOR AND TURN OFF THE JETS. THE PURPOSE OF THIS FIRING POLICY
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# IS TO MAINTAIN STATIC ROLL STABILITY IN THE EVENT OF A JET
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# FAILED-ON.
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#
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# WHEN THE OPERATING POINT IS IN REGION 1 THE SAME APPROXIMATION IS
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# MADE, BUT AT AN ARTIFICIALLY-CREATED OR DUMMY OPERATING POINT,
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# DEFINED BY: OGAERROR = INTERSECTION OF CONTROL PARABOLA AND
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# OGAERROR AXIS, OGARATE = +-LMCRATE WHERE SIGN IS OPPOSITE THAT OF
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# REAL OPERATING POINT RATE. WHEN THE OPERATING POINT HAS PASSED
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# FROM REGION 1 TO REGION 6', THE DUMMY POINT IS NO LONGER REQUIRED,
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# AND THE SOLUTION REVERTS TO THAT OF A REGULAR REGION 6' POINT.
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#
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# EQUATION FOR SWITCHING PARABOLA (SEE FIGURE ABOVE)....
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# 2
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# SOGAERROR = (DB - (SOGARATE) (1/CONACC)/2) SGN(SOGARATE)
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#
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# EQUATION FOR SWITCHING STRAIGHT LINE SEGMENT....
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#
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# SOGARATE = -(-SLOPE)(SOGAERROR) - SGN(SOGARATE) INTERCEP
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#
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# WHERE INTERCEP = DB(-SLOPE) - LMCRATE
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# Page 988
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#
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# EQUATION FOR INTERSECTION, CONTROL PARABOLA, AND STRAIGHT SWITCH LINE....
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#
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# DOGADOT = NUM/DEN, WHERE
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# 2
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# NUM = (-SLOPE)(OGARATE) (1/CONACC)
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# +SGN(DELOGA)(-SLOPE)(OGAERROR - SGN(DELOGA)(DB))
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# +LMCRATE
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#
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# DEN = (-SLOPE)(LMCRATE)(1/CONACC) = SGN(DELOGA)
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# 2
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# DELOGA = OGAERROR - (DB - (OGADOT) (1/CONACC)/2)SGN(OGARATE)
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#
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# FOR REGIONS 6 AND 6-PRIME, USE ACTUAL OPERATING POINT (OGA, OGARATE)
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# FOR OGAERROR AND OGARATE IN THE INTERSECTION EQUATIONS ABOVE.
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# FOR REGIONS 1 AND 1-PRIME USE DUMMY OPERATING POINT FOR OGAERROR
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# AND OGARATE, WHERE THE DUMMY POINT IS GIVEN BY....
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#
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# OGAERROR = DELOGA + DB SGN(OGARATE)
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#
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# OGARATE = -LMCRATE SGN(OGARATE)
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#
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# NOTE, OGAERROR = OGA - OGAD USES DUMMY REGISTER OGA IN ROLL DAP CODING
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# ALSO, AT POINT WHERE DOGADOT IS COMPUTED, REGISTER DELOGA IS USED
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# AS A DUMMY REGISTER FOR THE OGAERROR IN THE NUM EQUATION ABOVE.
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# Page 989
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# ROLLDAP CODING....
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SETLOC DAPROLL
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BANK
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EBANK= OGANOW
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COUNT* $$/ROLL
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ROLLDAP CAE OGANOW # OGA RATE ESTIMATOR...SIMPLE FIRST-ORDER
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EXTEND # DIFFERENCE (SAMPLE TIME = 1/2 SEC)
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MSU OGAPAST
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EXTEND
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MP BIT5
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LXCH A
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TS OGARATE # SC.AT B-4 REV/SEC
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# COMPUTATIONS WHICH FOLLOW USE OGA FOR OGAERR (SAME REGISTER)
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# EXAMINE DURATION OF LAST ROLL FIRING IF JETS ARE NOW ON.
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DURATION CA ROLLFIRE # SAME SGN AS PRESENT TORQ,MAGN=POSMAX
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EXTEND
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BZF +2 # ROLL JETS ARE NOW OFF.
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TCF ROLLOGIC # ENTER LOGIC, JETS NOW ON.
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CAE TEMREG # EXAMINE LAST FIRING INTERVAL
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EXTEND # IF POSITIVE, DON'T FIRE
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BZF ROLLOGIC # ENTER LOGIC, JETS NOW OFF.
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CAF ZERO # JETS HAVE NOT BEEN OFF FOR 1/2 SEC. WAIT
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TS TEMREG # RESET TEMREG
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WAIT1/2 TCF TASKOVER # EXIT ROLL DAP
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# COMPUTE DB-(1/2 CONACC) (OGARATE)SQ (1/2 IN THE SCALING)
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ROLLOGIC CS OGARATE # SCALED AT 2(-4) REV/SEC
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EXTEND
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MP 1/CONACC # SCALED AT 2(+9) SEC SQ /REV
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EXTEND
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MP OGARATE
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AD DB # SCALED AT 2(+0) REV
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TS TEMREG # QUANTITY SCALED AT 2(+0) REV.
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# GET SIGN OF OGARATE
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CA OGARATE
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EXTEND
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BZMF +3 # LET SGN(0) BE NEGATIVE
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CA BIT1
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TCF +2
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CS BIT1
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TS SGNRT # + OR - 2(-14)
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# Page 990
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# CALCULATE DISTANCE FROM SWITCH PARABOLA,DELOGA
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EXTEND
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MP TEMREG # SGN(OGARATE) TEMREG NOW IN L
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CS L
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AD OGA # SCALED AT 2(+0) REV
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DELOGAC TS DELOGA # SC.AT B+0 REV, PLUS TO RIGHT OF C-PARAB
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# EXAMINE SGN(DELOGA) AND CREATE CA OR CS INSTR. DEPENDING UPON SIGN.
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EXTEND
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BZMF +3
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CAF PRIO30 # = CA (30000)
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TCF +2
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CAF BIT15 # = CS (40000)
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TS I
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INDEX I # TSET ON I SGN(OGARATE)
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0 SGNRT # CA OR CS
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COM
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EXTEND
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REG1TST BZMF ROLLON # IF REGION 1 (DELOGA OGARATE SAME SIGN)
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# NO JET FIRE YET. TEST FOR MAX OGARATE.
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INDEX I
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0 OGARATE # CA OR CS...BOTH MUST BE NEG. HERE
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TS IOGARATE # I.E., I OGARATE
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AD MAXLIM # SCALED AT 2(-4) REV/SEC
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EXTEND
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REG3TST BZMF RATELIM # IF REGION 3 (RATES TOO HIGH, FIRE JETS)
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# COMPUTATION OF I((-SLOPE)OGA + OGARATE) - INTERCEPT: NOTE THAT STR. LINE
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# SWITCH SLOPE IS (SLOPE) DEG/SEC/DEG, A NEG. QUANTITY
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CA OGARATE
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EXTEND
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MP BIT14
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TS TEMREG
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CA OGA
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EXTEND
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MP -SLOPE
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DDOUBL
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DDOUBL
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DDOUBL # (OGA ERROR MUST BE LESS THAN +-225 DEG)
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AD TEMREG
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INDEX I
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0 A # I((-SLOPE)OGA+OGARATE) AT 2(-3)REV/SEC
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COM
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# Page 991
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AD INTERCEP # SCALED AT 2(-3) REV.
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COM
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EXTEND
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REG2TST BZMF NOROLL # IP REGION 2 (COAST SIDE OF STRT LINE)
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# CHECK TO SEE IF OGARATE IS ABOVE MINLIM
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CA IOGARATE # ALWAYS NEGATIVE
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AD MINLIM # SCALED AT 2(-4) REV/SEC.
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EXTEND
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REG4TST BZMF NOROLL # IF REGION 4 (COAST SIDE OF MINLIM)
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# ALL AREAS CHECKED EXCEPT LAST AREA...NO FIRE IN THIS SMALL SEGMENT
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INDEX I
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0 OGA
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COM
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AD DB
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COM
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EXTEND
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REG5TST BZMF NOROLL # IF REGION 5 (COAST SIDE OF DB)
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# JETS MUST FIRE NOW. OGARATE IS NEG. (OR VICE VERSA). USE DIRECT STR. LINE.
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# DELOGA AND DELOGART ARE USED AS DUMMY VARIABLES IN THE SOLUTION OF A
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# STRAIGHT LINE APPROXIMATION TO A QUADRATIC SOLUTION OF THE INTERSECTION
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# OF THE CONTROL PARABOLA AND THE STRAIGHT-LINE SWITCH LINE. THE STRAIGHT
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# LINE IS THE TANGENT TO THE CONTROL PARABOLA AT THE OPERATING POINT. (FOR
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# OPERATING POINTS IN REGIONS 6 AND 6')
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REGION6 CAE OGA # USE ACTUAL OPERATING POINT FOR TANGENT
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TS DELOGA # ACTUAL STATE
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CA OGARATE
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TS DELOGART # ACTUAL STATE, I.E., DEL OGARATE
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TCF ONROLL
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# JETS ALSO FIRE FROM HERE EXCEPT OGARATE IS POS (VICE VERSA), USE INDIRECT
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# STRAIGHT LINE ESTABLISHED BY TANGENT TO A CONTROL PARABOLA AT ((DELOGA
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# + DB SGN(DELOGA) ), -LMCRATE SGN(DELOGA) ) (THIS IS THE DUMMY
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# OPERATING POINT FOR OPERATING POINTS IN REGIONS 1 AND 1')
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ROLLON INDEX I
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0 DB
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ADS DELOGA # DELOGA WAS DIST. FROM SWITCH PARABOLA
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CS LMCRATE # LIMIT CYCLE RATE AT 2(-4) REV/SEC
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INDEX I
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0 A
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TS DELOGART # EVALUATE STATE FOR INDIRECT LINE.
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# Page 992
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# SOLVE STRAIGHT LINES SIMULTANEOUSLY TO OBTAIN DESIRED OGARATE.
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ONROLL EXTEND # DELOGART IN ACC. ON ARRIVAL
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MP 1/CONACC
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DOUBLE
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EXTEND
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MP -SLOPE
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TS TEMREG # 2(-SLOPE)RATE /CONACC
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EXTEND
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MP DELOGART
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TS DELOGART # 2(-SLOPE)(RATESQ)/CONACC
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CS BIT11
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INDEX I
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0 A
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RATEDEN ADS TEMREG # DENOMINATOR COMPLETED
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INDEX I
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0 DELOGA
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COM
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AD DB
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COM
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EXTEND
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MP -SLOPE
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ADS DELOGART
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CA LMCRATE
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EXTEND
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MP BIT11
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RATENUM AD DELOGART # NUMERATOR COMPLETED
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XCH L # PLACE NUMERATOR IN L FOR OVERFL. CHECK
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CA ZERO
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EXTEND
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DV TEMREG # OVERFLOW, IF ANYTHING, NOW APPEARS IN A
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EXTEND
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BZF DVOK # NO OVERFLOW....(0,L)/TEMREG = 0,L
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MINLIMAP CCS A
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CAF POSMAX # POSITIVE OVERFLOW
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TCF ROLLSET
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CS POSMAX # NEGATIVE OVERFLOW
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TCF ROLLSET
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DVOK LXCH A # PUT NUMERATOR BACK INTO A, 0 INTO L
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EXTEND
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DV TEMREG # RESULT OF DIVISION IS DESIRED OGARATE
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TCF ROLLSET # (SCALED AT B-4 REV/SEC)
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RATELIM CS MAXLIM
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INDEX I
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# Page 993
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0 A # IF I = CA, DESIRED RATE IS -MAXLIM
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# COMPUTE JET FIRE TIME, BASED ON DESIRED RATE MINUS PRESENT RATE
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ROLLSET TS TEMREG # STORE DESIRED OGARATE (SCALED B-4)
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EXTEND
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SU OGARATE # RATE DIFF. SCALED AT 2(-4) REV/SEC
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TS TEMREG # OVERFLOW PROTECT
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TCF +3 # " "
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INDEX A # " "
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CS LIMITS # " "
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EXTEND
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MP T6SCALE # T6SCALE = 8/10.24
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EXTEND
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MP 1/CONACC # SCALED AT B+9 SECSQ/REV (MAX < .60)
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DDOUBL
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DDOUBL
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TS TEMREG # OVERFLOW PROTECT
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TCF +3 # " "
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INDEX A # " "
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CS LIMITS # " "
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TS TEMREG # JET FIRE TIME AT 625 MICROSEC/BIT
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EXTEND # POS MEANS POSITIVE ROLL TORQUE.
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BZF NOROLL
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# JET FIRE TIME IS NZ, TEST FOR JETS NOW ON.
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CAE TEMREG # DESIRED CHANGE IN OGARATE
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|
EXTEND
|
|
MP ROLLFIRE # (SGN OF TORQUE: ZERO IF JETS NOW OFF)
|
|
CCS A
|
|
TCF MOREROLL # CONTINUE FIRING WITH PRESENT POLARITY
|
|
TCF NEWROLL # START NEW FIRING NOW, PLUS
|
|
TCF NOROLL # TERMINATE OLD FIRING, NEW SIGN REQUESTED
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|
TCF NEWROLL # START NEW FIRING NOW, MINUS
|
|
|
|
# CONTINUE PRESENT FIRING
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|
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MOREROLL CAF ZERO
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TS I # USE TEMP. AS MOREROLL SWITCH
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|
TCF MAXTFIRE
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|
|
|
# START NEW FIRING BUT CHECK IF GREATER THAN MIN FIRE TIME.
|
|
|
|
NEWROLL CCS TEMREG # CALL THIS T6FIRE
|
|
AD ONE
|
|
TCF +2
|
|
AD ONE
|
|
COM # -MAG(T6FIRE)
|
|
AD TMINFIRE # TMINFIRE-MAG(T6FIRE)
|
|
# Page 994
|
|
COM
|
|
EXTEND
|
|
MINTST BZMF NOROLL # IF NOT GREATER THAN TMINFIRE (NEW FIRE)
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|
|
|
# PROCEED WITH NEW FIRING BUT NOT LONGER THAN TMAXFIRE
|
|
|
|
MAXTFIRE CA TEMREG
|
|
EXTEND
|
|
MP 1/TMXFIR # I.E., 1/TMAXFIRE
|
|
EXTEND
|
|
MAXTST BZF NOMXFIRE # IF LESS THAN TMAXFIRE
|
|
|
|
CCS A
|
|
CAF TMAXFIRE # USE MAXIMUM
|
|
TCF +2
|
|
CS TMAXFIRE # USE MAXIMUM
|
|
TS TEMREG
|
|
|
|
# SET UP SIGN OF REQUIRED TORQUE
|
|
|
|
NOMXFIRE CCS TEMREG # FOR TORQUE SIGN
|
|
CA POSMAX # POSITIVE TORQUE REQUIRED
|
|
TCF +2
|
|
CA NEGMAX # NEGATIVE TORQUE REQUIRED
|
|
TS ROLLFIRE # SET ROLLFIRE FOR + OR - TORQUE
|
|
|
|
COM # COMPLEMENT... POS. FOR NEG. TORQUE
|
|
EXTEND
|
|
BZMF +3 # POSITIVE TORQUE REQUIRED
|
|
CS TEMREG
|
|
TS TEMREG
|
|
|
|
FIRELOOK CA I # IS IT MOREROLL
|
|
EXTEND
|
|
BZF FIREPLUG # YES
|
|
TCF JETROLL # MAG(T6FIRE) NOW IN TEMREG
|
|
|
|
FIREPLUG CAE TIME6 # CHECK FOR EXTENDED FIRING
|
|
EXTEND
|
|
SU TEMREG
|
|
EXTEND
|
|
EXTENTST BZMF TASKOVER # IF EXTENSION WANTED, DON'T, EXIT ROLL DAP
|
|
TCF JETROLL
|
|
|
|
NOROLL CS ZERO # COAST....(NEG ZERO FOR TIME6)
|
|
TS ROLLFIRE # NOTE, JETS CAN FIRE NEXT PASS
|
|
TS TEMREG
|
|
|
|
JETROLL EXTEND
|
|
DCA NOROL1T6
|
|
# Page 995
|
|
DXCH T6LOC
|
|
CA TEMREG # ENTER JET FIRING TIME
|
|
TS TIME6
|
|
|
|
CA I # I=0 IF MOREROLL, KEEP SAME JETS ON
|
|
EXTEND
|
|
SAMEJETS BZF TASKOVER # IF JETS ON KEEP SAME JETS. EXIT ROLL DAP
|
|
|
|
CCS ROLLFIRE
|
|
TCF +TORQUE
|
|
TCF T6ENABL
|
|
TCF -TORQUE
|
|
TCF T6ENABL
|
|
|
|
# PROCEED WITH + TORQUE
|
|
|
|
+TORQUE CA ROLLWORD # WHAT WAS THE LAST +TORQUE COMBINATION
|
|
MASK BIT1 # WAS IT NO.9-11
|
|
EXTEND
|
|
BZF NO.9-11 # NOT 9-11, SO USE IT THIS TIME
|
|
|
|
NO.13-15 CS BIT1
|
|
MASK ROLLWORD
|
|
TS ROLLWORD # CHANGE BIT 1 TO ZERO
|
|
CAF +ROLL2
|
|
EXTEND
|
|
WRITE CHAN6
|
|
TCF T6ENABL
|
|
|
|
NO.9-11 CAF BIT1 # 1ST + JETS TO FIRE (MRCLEAN OS ROLLWORD)
|
|
ADS ROLLWORD # CHANGE BIT 1 TO ONE
|
|
CAF +ROLL1
|
|
EXTEND
|
|
WRITE CHAN6
|
|
TCF T6ENABL
|
|
|
|
-TORQUE CA ROLLWORD # WHAT WAS LAST -TORQUE COMBINATION
|
|
MASK BIT2 # WAS IT NO.12-10
|
|
EXTEND
|
|
BZF NO.12-10 # NOT 12-10, SO USE IT THIS TIME
|
|
|
|
NO.16-14 CS BIT2
|
|
MASK ROLLWORD
|
|
TS ROLLWORD # CHANGE BIT 2 TO ZERO
|
|
CAF -ROLL2
|
|
EXTEND
|
|
WRITE CHAN6
|
|
TCF T6ENABL
|
|
|
|
NO.12-10 CAF BIT2 # 1ST -JETS TO FIRE (MRCLEAN OS ROLLWORD)
|
|
# Page 996
|
|
ADS ROLLWORD # CHANGE BIT 2 TO ONE
|
|
CAF -ROLL1
|
|
EXTEND
|
|
WRITE CHAN6
|
|
|
|
T6ENABL CAF BIT15
|
|
EXTEND
|
|
WOR CHAN13
|
|
RDAPEND TCF TASKOVER # EXIT ROLL DAP
|
|
|
|
# Page 997
|
|
# THIS T6 TASK SHUTS OFF ALL ROLL JETS
|
|
|
|
NOROLL1 LXCH BANKRUPT # SHUT OFF ALL (ROLL) JETS, (A T6 TASK
|
|
CAF ZERO # CALLED BY "JETROLL")
|
|
TS ROLLFIRE # ZERO INDICATES JETS NOW OFF
|
|
EXTEND
|
|
KILLJETS WRITE CHAN6
|
|
TCF NOQRSM
|
|
|
|
# Page 998
|
|
# CONSTANTS FOR ROLL AUTOPILOT....
|
|
|
|
EBANK= BZERO
|
|
NOROL1T6 2CADR NOROLL1
|
|
|
|
DB DEC .01388889 # DEAD BAND (5 DEG), SC.AT B+0 REV
|
|
|
|
-SLOPE DEC 0.2 # -SWITCHLINE SLOPE(0.2 PER SEC) SC.AT B+0
|
|
# PER SEC
|
|
LMCRATE DEC .00027778 B+4 # LIMIT CYCLE RATE (0.1 DEG/SEC) SC.AT
|
|
# B-4 REV/SEC
|
|
INTERCEP DEC .0025 B+3 # DB(-SLOPE) - LMCRATE, SC.AT B-3 REV/SC
|
|
|
|
MINLIM DEC .00277778 B+4 # RATELIM,MIN (1DEG/SEC), SC.AT B-4 REV/SC
|
|
|
|
1/MINLIM DEC 360 B-18 # RECIPROCAL THEREOF, SHIFTED 14 RIGHT
|
|
|
|
MAXLIM DEC .01388889 B+4 # RATELIM,MAX (5DEG/SEC), SC.AT B-4 REV/SC
|
|
|
|
# The following two were B+4.---RSB 2009.
|
|
TMINFIRE DEC 1.5 B-10 # 15 MS. (14MIN), SC.AT 16 BITS/CS
|
|
|
|
TMAXFIRE DEC 250 B-10 # 2.5 SEC, SC.AT 16 BITS/CS
|
|
|
|
1/TMXFIR = BIT3 # RECIPROCAL THEREOF, SHIFTED 14 RIGHT,
|
|
# ROUNDS TO OCT00004, SO ALLOWS 2.56
|
|
# SEC FIRINGS BEFORE APPLYING LIMIT
|
|
T6SCALE = PRIO31 # (B+3) (16 BITS/CS) (100CS/SEC)
|
|
|
|
+ROLL1 = FIVE # ONBITS FOR JETS 9 AND 11
|
|
+ROLL2 = OCT120 # ONBITS FOR JETS 13 AND 15
|
|
-ROLL1 = TEN # ONBITS FOR JETS 12 AND 10
|
|
-ROLL2 OCT 240 # ONBITS FOR JETS 16 AND 14
|
|
|