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|
BEGIN NEW DATA CASE
C BENCHMARK DC-47
C Realistic large case with Type-59 S.M. and TACS modeling, as set up and
C studied by Prof. Alfonso Capasso of the University of Rome during a 1980
C visit to BPA. There are many cascaded, 25-mile, frequency-dependent,
C 3-phase line sections that originally were represented using weighting
C functions. But such code was removed from ATP around 1986, so for years
C this case lay unused. It was resurrected during November of 1989 when Dan
C Goldsworthy of BPA supplied replacement Marti branch cards. Dimensioning
C of EMTP tables is tricky. Except for list sizes 20 and 22, twice default
C dimensioning is adequate. On the other hand 3 times default dimensioning
C of all lists fails quickly. For testing on Apollo, use: DEFAULT = 2.00,
C and the following 3 cards blank except for list 20 = 13000 and list 22 =
C 1750. Default sizes of these two are only 660 and 150, respectively.
C 20 Oct 93, the new dynamic dimensioning of Salford EMTP saves the day.
C The following five lines apply this old 1989 Apollo recommendation:
C Answers change slightly on 10 February 1999 following the massive changes
C from TEPCO (Tokyo Electric Power Company) in Japan. See April newsletter.
C Most extrema agree to 6 decimal digits or more. All printer plots are
C identical.
C 16 February 2002, add the optional NBHDSW line to the following NLS
C data structure. In fact, this does nothing since value 5.0 is the
C default. But such a declaration is critically important for some data
C that is overloaded with switches. For example, Hong Xiao's data NAVSYS
C at Texas A&M had 894 switches. If the List 6 switch limit was 2500,
C slightly more than a factor of 5.0 was required. Of course, the user
C can only expand what exists (i.e., make sure VARDIM created the same or
C greater NBHDSW space when the program was linked). Although use with
C NLS is being illustrated here, the declaration applies to LISTSIZE,
C too --- either as used prior to linking ATP, or as used at the start
C of ATP execution. The total size of NBHDSW is equal to this factor
C times the limit on switches (List 6). So, here, default List 6 is 40,
C and 5 times this ==> 200 cells of NBHDSW are available for use. Much
C more typically was created at linking time, of course.
NEW LIST SIZES
NBHDSW 5.0 { Five is the default factor for sizing switch vector NBHDSW
DEFAULT 2.0
BLANK
C 0 0 0 0 0 0 0 0 3400 13000
0 0 0 0 0 0 0 0 3540 13000
0 1750
240000 742
ABSOLUTE TACS DIMENSIONS
C Expand TACS Table 1 from 57 to 130 on 1 April 2007. Copy use from DC-2
C without worrying about probably waste that might be involved:
C 57 256 285 36 85 713 998 171 --- default
130 65 80 20 70 325 120 115
PRINTED NUMBER WIDTH, 13, 2, { Full precision on each of 8 columns of printout
.000100 .100 60.
1 3 1 0 1 -1
5 15 50 50 200 100
TACS HYBRID
C EXCITATION SYSTEM FOR THE COALSTRIP STEAM TURBINES.
C CONVERSION TO MACHINE PER UNIT SYSTEM, SQRT(3)*RF/LAF.
0VF +EFO .01862
C FEED FORWARD PATH
1EF1 -VT +UNITY -EFFBL1 195.6
1.
1. 1.3
1EFO +EF1 -4.13 4.13
1.
1. .02
C FEEDBACK PATH
1EFFBL +EFO .164
0. 1.
1. 1.
C SPEED GOVERNOR SYSTEM FOR COLSTRIP GENERATOR
C CONVERSION OMEGA PER UNIT SYSTEM
0DIFOME -UNITY +TACOME
0PS1 +UNITY -KDIFOM -PGV
0PS2 +PS1 10. -.4 .4
0KDIFOM +DIFOME 20.
1PGV +PS21 1.0 0. 1.1
1.
1.
1PGV1 +PGV 1.
1.
1. .25
1PGV2 +PGV1 1.
1.
1. 10.
1PGV3 +PGV2 1.
1.
1. .5
0PMT +PM1 +PM2 +PM3
C POWER SYSTEM STABLIZER (PSS)
C ADD SQUARED TERMINAL VOLTAGES
0VMS +VSQA +VSQB +VSQC
C FILTER TERMINAL VOLTAGE
1VT +VRMS
1.
1. .0133
C EMTP PARAMETERS PASSED TO TACS
C TERMINAL VOLTAGE INPUTS
90CSGENA
90CSGENB
90CSGENC
C SHAFT SPEED INPUT
C SPEED SOURCE FOR TACS
92VEL1
C COMPUTATIONS
C SQUARE ROOT OF SUM OF SQUARED TERMINAL VOLTAGES.
88VRMS SQRT VMS / 26000.
C SQUARE INSTANTANEOUS TERMINAL VOLTAGES.
99VSQA CSGENA* CSGENA
99VSQB CSGENB* CSGENB
99VSQC CSGENC* CSGENC
C UNITY INITIAL INPUT TO S.M., DIVIDE BY INITIAL VF.
98EFDPP 36.4528 * VF
88PM1 .274 * PGV1
88EFFBL1 = EFFBL
88PS21 = PS2
88PM2 .243 * PGV2
88PM3 .483 * PGV3
98FACTOR 1. * PMT
C SWITCH FOR FREE-FORMAT.
99TACOME = .002651* VEL1
C FAST VALVING
33EFO VT VF EFDPP EFFBL UNITY EF1
33DIFOMEPGV PS1 PMT VEL1 TACOMEKDIFOM
C INITIAL CONDITIONS
77EF1 1.4730
77EFO 1.4730
77VT 1.0
77VRMS 1.0
77EFDPP 1.0
77EFFBL 0.0
77PS1 0.
77PGV 1.
77PGV1 1.
77PGV2 1.
77PGV3 1.
77PMT 1.
77TACOME 1.
77VEL1 376.99
BLANK card ending all TACS data
C ** SOURCE IMPEDANCE CARDS ****
0SOA BEGINA .001 1
0SOB BEGINB .001 1
0SOC BEGINC .001 1
0V2A HSA 36. 1
0V2B HSB 36. 1
0V2C HSC 36. 1
C LOAD AT THE RECEIVING END
C ** SOURCE IMPEDANCE CARDS ****
C SOURCE IMPEDANCE CARDS
C SWITCH SHUNTS
0GA G1A .001
0GB G1B .001
0GC G1C .001
0GA G5A .001
0GB G5B .001
0GC G5C .001
C 100MVAR SHUNT REACTORS
0BEGINA 7.0 3025.
0BEGINB 7.0 3025.
0BEGINC 7.0 3025.
0BVA 7.0 3025.
0BVB 7.0 3025.
0BVC 7.0 3025.
014A 7.0 3025.
014B 7.0 3025.
014C 7.0 3025.
0HSA 7.0 3025.
0HSB 7.0 3025.
0HSC 7.0 3025.
C 225 MVAR SHUNT REACTORS
05A 3.0 1344.
05B 3.0 1344.
05C 3.0 1344.
0G4A 3.0 1344.
0G4B 3.0 1344.
0G4C 3.0 1344.
C SHUNT REACTORS 100 MVAR
0BEGINA 7.0 3025.
0BEGINB 7.0 3025.
0BEGINC 7.0 3025.
0BVA 7.0 3025.
0BVB 7.0 3025.
0BVC 7.0 3025.
C * 225 MVAR
05AA 3.0 1344.
05BB 3.0 1344.
05CC 3.0 1344.
0G8A 3.0 1344.
0G8B 3.0 1344.
0G8C 3.0 1344.
C * 100 MVAR
014AA 7.0 3025.
014BB 7.0 3025.
014CC 7.0 3025.
0HSA 7.0 3025.
0HSB 7.0 3025.
0HSC 7.0 3025.
C 25- MILE SECTION CARDS. For data, see normally unused bottom on DCNEW-5.
C <++++++> Cards punched by support routine on 25-Nov-89 01.41.53 <++++++>
C JMARTI SETUP, 1.0, { Note use of PDT0 = 1 to allow reduction of ord
C BRANCH BEGINA1A BEGINB1B BEGINC1C
C LINE CONSTANTS
C 1.375 .0776 4 1.302 - 15.3 47.8 47.8
C 1.375 .0776 4 1.302 - 16.2 48.8 48.8
C 1.375 .0776 4 1.302 - 14.5 48.8 48.8
C 2.375 .0776 4 1.302 0.0 76.8 76.8
C 2.375 .0776 4 1.302 - 0.8 77.8 77.8
C 2.375 .0776 4 1.302 + 0.8 77.8 77.8
C 3.375 .0776 4 1.302 + 15.3 47.8 47.8
C 3.375 .0776 4 1.302 + 14.5 48.8 48.8
C 3.375 .0776 4 1.302 + 16.2 48.8 48.8
C 0.5 3.56 4 0.495 - 12.0 109.3 109.3
C 0.5 3.56 4 0.495 12.0 109.3 109.3
C BLANK card ending conductor cards of imbedded "LINE CONSTANTS" data
C 100. 1000. 1 25.00 1 1
C 100. 60. 1 25.00 1 1
C 100. .001 1 25.00 1 9 10 1
C BLANK card ending frequency cards of inbedded "LINE CONSTANTS" data
C BLANK card ending "LINE CONSTANTS" cases (back to "JMARTI SETUP")
C C 3456789012345678901234567890123456789012345678901234567890123456789012345678
C C LECT +0 -3
C 1
C C .30 30 0 1 1 0 0
C C .30 30 0 1 1 0 0 .0
C .30 30 0 1 3 0 0
-1BEGINA1A 2. 1.00 -2 3
14 0.47293192457610910000E+03
-0.692872546664471400E+00 -0.289997290946665200E+01 -0.642465234009757800E+01
-0.263126866758512600E+02 -0.112197664116317600E+03 0.120003724331559200E+04
0.534855106416246700E+04 0.265735664895556200E+05 0.102299437025596100E+06
0.378064088036946100E+06 0.132921127921708400E+07 0.513934786170517100E+07
0.925674681170112800E+07 0.288450507277665100E+08
0.193740761292982800E+00 0.845745890606555900E+00 0.158002669592290500E+01
0.166026211278831900E+01 0.245330041260623900E+01 0.189362602308108900E+02
0.114161260221103000E+03 0.603227605191941700E+03 0.248970479870548400E+04
0.984189709230105300E+04 0.371843313566798500E+05 0.154256975765183100E+06
0.584765486140849700E+06 0.189661890222411100E+07
16 0.14611089425809670000E-03
0.321843918913226800E+00 0.162311293633336900E+01 0.215973805406543600E+01
0.469951431259633000E+01 0.327308002733053700E+02 0.452437760931982100E+02
0.328756421277238100E+03 0.200177420834287000E+04 -0.354515696612718900E+04
0.155705219977707800E+05 0.151221170895251900E+05 0.106915368104621200E+06
-0.344719217999650700E+08 0.341080435346218900E+08 0.184594442012013500E+08
-0.182320460954986800E+08
0.120261736819556900E+03 0.586377706864171600E+03 0.785729396647819200E+03
0.153582968615116900E+04 0.292216408325832800E+04 0.197211684817117800E+04
0.646946699809216000E+04 0.153758728646538300E+05 0.336431053557711100E+05
0.298806156726226600E+05 0.626456551850810500E+05 0.108192223183447900E+06
0.203944809477644400E+06 0.204148754287121900E+06 0.227695290201973200E+06
0.227922985492175000E+06
-2BEGINB1B 2. 1.00 -2 3
11 0.24662476420370340000E+03
0.768995655381981900E+03 0.357946515159924200E+03 0.605800489377626000E+03
0.115846813162034100E+03 0.601598942354618800E+02 0.129603353249450600E+03
0.124322546275003900E+03 0.590000752707421200E+02 0.220555895798305100E+04
0.157374743868763000E+05 0.852520795579153100E+06
0.260905187905774000E+01 0.411855521834657500E+01 0.771404316437598300E+01
0.110187727317372200E+02 0.139680485049492400E+02 0.240091291541332100E+02
0.394513496124981500E+02 0.678919942549256600E+02 0.217073311495445300E+04
0.155198039317144100E+05 0.843266115513732800E+06
10 0.13423855276504470000E-03
0.156109695496983100E+02 0.207664299896075400E+03 0.253250298139870400E+03
0.182704839566228600E+03 0.247234491946191700E+04 0.330281306977220200E+05
0.979732483249094900E+05 0.551807975650099700E+05 0.155746415195975200E+07
0.651738564168535400E+06
0.379023174699368500E+04 0.493260943720562800E+05 0.620894169605181600E+05
0.411709275865929300E+05 0.140741388619576300E+06 0.563969432263966900E+06
0.731398783309924900E+06 0.828090639159713400E+06 0.285651731185617700E+07
0.406516792268231300E+07
-3BEGINC1C 2. 1.00 -2 3
11 0.25189000703436050000E+03
0.705625882215074600E+03 0.480037666605113300E+03 0.523476975958925000E+03
0.101303478940912900E+03 0.730107254632987800E+02 0.135394935113372000E+03
0.117137840471522300E+03 0.558311320674074200E+02 0.124472273810087900E+03
0.627682104800954300E+04 0.240980689874141800E+06
0.256960827808081800E+01 0.435244353197636700E+01 0.749429585075439400E+01
0.106024369367294000E+02 0.138594221660724100E+02 0.239678957610427000E+02
0.375429307533879400E+02 0.639863500328914500E+02 0.130791036571128600E+03
0.615083978087696500E+04 0.237064293040221300E+06
14 0.13539861053437450000E-03
0.269179702767214200E+01 0.210140414716693800E+02 0.764589314809415700E+02
0.110678295975407300E+03 0.129037590729584400E+03 0.154905865724887900E+03
0.973468183688154800E+02 0.125397291104907200E+03 0.946997596373924000E+04
0.324310548935950100E+05 0.405933736771673600E+05 0.230683862157762600E+06
-0.173236283555902400E+07 0.619672413081824600E+07
0.127520846547645700E+04 0.991859082931559900E+04 0.352599882601353600E+05
0.470219434319579600E+05 0.598736861767069000E+05 0.738954426067940100E+05
0.481920080235604800E+05 0.616738461673569000E+05 0.420313332159116900E+06
0.921318128971279800E+06 0.557714717553727900E+06 0.169631694566225400E+07
0.116008957300778400E+08 0.716479108546823500E+07
0.59100946 0.70710678 -0.40296093
0.00000000 0.00000000 0.00000000
0.54901333 0.00000000 0.82173291
0.00000000 0.00000000 0.00000000
0.59100946 -0.70710678 -0.40296093
0.00000000 0.00000000 0.00000000
-11A 2A BEGINA1A
-21B 2B
-31C 2C
-12A 3A BEGINA1A
-22B 3B
-32C 3C
-13A 4A BEGINA1A
-23B 4B
-33C 4C
-14A C1A BEGINA1A
-24B C1B
-34C C1C
0C1A BVA .001 138.
0C1B BVB .001 138.
0C1C BVC .001 138.
0C2A G4A .001 70.
0C2B G4B .001 70.
0C2C G4C .001 70.
0C3A 14A 128.
0C3B 14B 128.
0C3C 14C 128.
0C4A BVA C1A BVA
0C4B BVB C1A BVA
0C4C BVC C1A BVA
0C5A G8A C2A G4A
0C5B G8B C2A G4A
0C5C G8C C2A G4A
-15A 6A BEGINA1A
-25B 6B
-35C 6C
-16A 7A BEGINA1A
-26B 7B
-36C 7C
-17A 8A BEGINA1A
-27B 8B
-37C 8C
-18A 9A BEGINA1A
-28B 9B
-38C 9C
-19A 10A BEGINA1A
-29B 10B
-39C 10C
-110A 11A BEGINA1A
-210B 11B
-310C 11C
-111A 12A BEGINA1A
-211B 12B
-311C 12C
-112A 13A BEGINA1A
-212B 13B
-312C 13C
-113A C2A BEGINA1A
-213B C2B
-313C C2C
-1C3A 15A BEGINA1A
-2C3B 15B
-3C3C 15C
-115A 16A BEGINA1A
-215B 16B
-315C 16C
-116A 17A BEGINA1A
-216B 17B
-316C 17C
-117A 18A BEGINA1A
-217B 18B
-317C 18C
-118A HSA BEGINA1A
-218B HSB
-318C HSC
C SECOND CIRCUIT
-1BEGINA1AA BEGINA1A
-2BEGINB1BB
-3BEGINC1CC
-11AA 2AA BEGINA1A
-21BB 2BB
-31CC 2CC
-12AA 3AA BEGINA1A
-22BB 3BB
-32CC 3CC
-13AA 4AA BEGINA1A
-23BB 4BB
-33CC 4CC
-14AA C4A BEGINA1A
-24BB C4B
-34CC C4C
-15AA 6AA BEGINA1A
-25BB 6BB
-35CC 6CC
-16AA 7AA BEGINA1A
-26BB 7BB
-36CC 7CC
-17AA 8AA BEGINA1A
-27BB 8BB
-37CC 8CC
-18AA 9AA BEGINA1A
-28BB 9BB
-38CC 9CC
-19AA 10AA BEGINA1A
-29BB 10BB
-39CC 10CC
-110AA 11AA BEGINA1A
-210BB 11BB
-310CC 11CC
-111AA 12AA BEGINA1A
-211BB 12BB
-311CC 12CC
-112AA 13AA BEGINA1A
-212BB 13BB
-312CC 13CC
-113AA C5A BEGINA1A
-213BB C5B
-313CC C5C
C NO SERIES CAPS ON THE SECOND CKT OF GARRISON-HS LINE
-114AA 15AA BEGINA1A
-214BB 15BB
-314CC 15CC
-115AA 16AA BEGINA1A
-215BB 16BB
-315CC 16CC
-116AA 17AA BEGINA1A
-216BB 17BB
-316CC 17CC
-117AA 18AA BEGINA1A
-217BB 18BB
-317CC 18CC
-118AA HSA BEGINA1A
-218BB HSB
-318CC HSC
C LINE SHUNTS
0BVA 5AA .001 1
0BVB 5BB .001 1
0BVC 5CC .001 1
C 1 CKT GAR-HS LINE OUT
0SA 5A 600.
0SB 5B 600.
0SC 5C 600.
0SA S1A .001
0SB S1B .001
0SC S1C .001
0S2A 14A 600.
0S2B 14B 600.
0S2C 14C 600.
0S2A S3A .001
0S2B S3B .001
0S2C S3C .001
0G2A G4A 600.
0G2B G4B 600.
0G2C G4C 600.
0G2A G3A .001
0G2B G3B .001
0G2C G3C .001
0G6A G8A 600.
0G6B G8B 600.
0G6C G8C 600.
0G6A G7A .001
0G6B G7B .001
0G6C G7C .001
TRANSFORMER 2.0 1140. T1A 1.E5
.188 912.
.6 1026.
1.5 1106.
3.0 1163.
6.0 1208.
11.4 1244.
21. 1277.
50. 1300.
250. 1350.
9999
1BVA .1 35.6 429.
2BVS2A .1 .001 188.
3TER1A TER1B .1 .071 13.8
TRANSFORMER T1A T1B
1BVB
2BVS2B
3TER1B TER1C
TRANSFORMER T1A T1C
1BVC
2BVS2C
3TER1C TER1A
TRANSFORMER T1A T2A
1GAA
2GAS2A
3TER2A TER2B
TRANSFORMER T1A T2B
1GAB
2GAS2B
3TER2B TER2C
TRANSFORMER T1A T2C
1GAC
2GAS2C
3TER2C TER2A
C *****GENERATOR TRANSFORMER*********************
TRANSFORMER 236.9 97.5T3A 1.E+5
67.8 87.8
236.9 97.5
504.5 107.3
9999
1CSIA CSIB .0001 .001 26.
2SOA .0001 34.57 317.
TRANSFORMER T3A T3B
1CSIB CSIC
2SOB
TRANSFORMER T3A T3C
1CSIC CSIA
2SOC
TRANSFORMER T3A T3D
1CSGN1ACSGN1B
2SOA
TRANSFORMER T3A T3E
1CSGN1BCSGN1C
2SOB
TRANSFORMER T3A T3F
1CSGN1CCSGN1A
2SOC
C ***********************************************
0CSIA .1
0CSIB .1
0CSIC .1
0CSGN1A .1
0CSGN1B .1
0CSGN1C .1
C ***********************************************
0 BVS2A 529.
0 BVS2B 529.
0 BVS2C 529.
0TER1A 9500.
0TER1B 9500.
0TER1C 9500.
0 GAS2A 400.
0 GAS2B 400.
0 GAS2C 400.
0TER2A 9500.
0TER2B 9500.
0TER2C 9500.
BLANK card ending branch cards
BVA SA -1. 1.
BVB SB -1. 1.
BVC SC -1. 1.
S1A 5A -1. 1.
S1B 5B -1. 1.
S1C 5C -1. 1.
GA S2A -1. 1.0
GB S2B -1. 1.0
GC S2C -1. 1.0
S3A 14A -1. .085
S3B 14B -1. .085
S3C 14C -1. .085
G1A G2A -1. 1.30
G1B G2B -1. 1.030
G1C G2C -1. 1.030
G3A G4A -1. 1.010
G3B G4B -1. 1.010
G3C G4C -1. 1.010
G5A G6A -1. 1.34
G5B G6B -1. 1.034
G5C G6C -1. 1.034
G7A G8A -1. 1.014
G7B G8B -1. 1.014
G7C G8C -1. 1.014
C3A .01695 1.
C *******MEASURING COALSTRIP GENERATOR ARMATURE CURRENT*******
CSGENACSIA MEASURING 1
CSGENBCSIB MEASURING 1
CSGENCCSIC MEASURING 1
C ************************************************************
BLANK card ending switch cards
C *
C *
14V2A 452000. 60. -10. -1.
14V2B 452000. 60. -130. -1.
14V2C 452000. 60. 110. -1.
59CSGENA 21229. 60. .0
CSGENB
CSGENC
TOLERANCES 20
PARAMETER FITTING 2.+00
1 1 2 819.0 26.0 1600.
BLANK CARD INDICATING NO SATURATION OF Q-AXIS OF MACHINE
.0013 .1284 1.236 1.222 .2197 .3482 .1776 .1742
4.78 .53 .041 .067 .0861
1 1.0 1.070 0.0 0.0
BLANK card
51
1 1 2 3 4 11 14
1 8 9 10
21
31
BLANK CARD
71EFDPP
72FACTOR 1
74VEL1 2
FINISH
59CSGN1A 21229. 60. 0.0
CSGN1B
CSGN1C
PARAMETER FITTING 2.+00
1 1 2 819.0 26.0 1600.
BLANK CARD INDICATING NO SATURATION OF Q-AXIS OF MACHINE
.0013 .1284 1.236 1.222 .2197 .3482 .1776 .1742
4.78 .53 .041 .067 .0861
1 1.0 1.070 0.0 0.0
BLANK
51
1 1 2 3 4 11 14
1 8 9 10
21
31
BLANK CARD
71EFDPP
72FACTOR 1
C BECAUSE THE TWO GENERATORS HAVE THE SAME SPEED IT IS NOT
C NECESSARY TO USE THE SPEED OF THE SECOND GENERATOR AS TACS SOURC
FINISH
C --------------+------------------------------
C From bus name | Names of all adjacent busses.
C --------------+------------------------------
C SOA |TERRA *TERRA *BEGINA*
C BEGINA |TERRA *TERRA *SOA *1A *1AA *
C SOB |TERRA *TERRA *BEGINB*
C BEGINB |TERRA *TERRA *SOB *1B *1BB *
C SOC |TERRA *TERRA *BEGINC*
C BEGINC |TERRA *TERRA *SOC *1C *1CC *
C V2A |HSA *
C .... Etc. (many more rows)
BLANK card ending source cards
C Total network loss P-loss by summing injections = 1.435490932846E+08
C MACH 1 Data parameters and initial conditions of next machine .....
C "CSGENA" Unit 1
C Id Iq Io
C -2.09832081140E+04 1.82690972572E+04 8.06549008735E-10
C Field current of the generator in units ... Total dc component
C 2.4585598153E+03 2.4539876356E+03
C Electromechanical torque of the generator ... total dc component
C 1.9154270026E+00 1.8933493498E+00
C ---- Initial flux of coil "T1A " to " " = 3.74851587E+02
C ---- Initial flux of coil "T1B " to " " = -1.16312212E+03
C Warning. Preceding flux exceeds the 1st segment. This means that the stead
C ---- Initial flux of coil "T1C " to " " = 7.91924375E+02
C ---- Initial flux of coil "T3A " to "CSIB " = 4.87345928E+01
C ---- Initial flux of coil "T3B " to "CSIC " = -9.75282819E+01
C Warning. Preceding flux exceeds the 1st segment. This means that the stead
C ---- Initial flux of coil "T3C " to "CSIA " = 4.87941256E+01
C ---- Initial flux of coil "T3D " to "CSGN1B" = 4.87345928E+01
C ---- Initial flux of coil "T3E " to "CSGN1C" = -9.75282819E+01
C Warning. Preceding flux exceeds the 1st segment. This means that the stead
C ---- Initial flux of coil "T3F " to "CSGN1A" = 4.87941256E+01
BEGINABEGINBBEGINC
BVA BVB BVC GA GB GC
G4A G4B G4C G8A G8B G8C
C2A C2B C2C 10A 10B 10C 6A 6B 6C
C5A C5B C5C 10AA 10BB 10CC 6AA 6BB 6CC
CSIA CSIB CSIC CSGN1ACSGN1BCSGN1CSOA SOB SOC
C Step Time BEGINA BEGINB BEGINC BVA BVB
C
C
C GC G4A G4B G4C G8A
C
C
C C2B C2C 10A 10B 10C
C
C
C C5A C5B C5C 10AA 10BB
C
C
C 6CC CSIA CSIB CSIC CSGN1A
C
C
C SOB SOC CSGENA CSGENB CSGENC
C CSIA CSIB CSIC
C
C V2A V2B V2C BVA BVB
C HSA HSB HSC 5AA 5BB
C
C MACH 1 MACH 1 MACH 1 MACH 1 MACH 1
C I0 IF IA IB IC
C
C MACH 1 MACH 2 MACH 2 MACH 2 MACH 2
C VEL 1 ID IQ I0 IF
C
C MACH 2 MACH 2 MACH 2 MACH 2 TACS
C EFD TQ GEN ANG 1 VEL 1 EFO
C
C TACS TACS TACS TACS TACS
C EFFBL UNITY EF1 DIFOME PGV
C
C TACS TACS
C TACOME KDIFOM
C *** Phasor I(0) = 9.3141980E+02 Switch "BVA " to "SA " closed
C *** Phasor I(0) = -2.1484379E+02 Switch "BVB " to "SB " closed
C *** Phasor I(0) = -7.3079055E+02 Switch "BVC " to "SC " closed
C *** Phasor I(0) = 9.3142027E+02 Switch "S1A " to "5A " closed
C *** Phasor I(0) = -2.1484535E+02 Switch "S1B " to "5B " closed
C *** Phasor I(0) = -7.3078946E+02 Switch "S1C " to "5C " closed
C *** Phasor I(0) = 1.8917593E+03 Switch "GA " to "S2A " closed
C *** Phasor I(0) = -7.0729311E+02 Switch "GB " to "S2B " closed
C *** Phasor I(0) = -1.1803057E+03 Switch "GC " to "S2C " closed
C *** Phasor I(0) = 1.8917596E+03 Switch "S3A " to "14A " closed
C *** Phasor I(0) = -7.0729599E+02 Switch "S3B " to "14B " closed
C *** Phasor I(0) = -1.1803032E+03 Switch "S3C " to "14C " closed
C *** Phasor I(0) = -9.4587964E+02 Switch "G1A " to "G2A " closed
C *** Phasor I(0) = 3.5364656E+02 Switch "G1B " to "G2B " closed
C *** Phasor I(0) = 5.9015285E+02 Switch "G1C " to "G2C " closed
C *** Phasor I(0) = -9.4587982E+02 Switch "G3A " to "G4A " closed
C *** Phasor I(0) = 3.5364800E+02 Switch "G3B " to "G4B " closed
C *** Phasor I(0) = 5.9015160E+02 Switch "G3C " to "G4C " closed
C *** Phasor I(0) = -9.4587964E+02 Switch "G5A " to "G6A " closed
C *** Phasor I(0) = 3.5364656E+02 Switch "G5B " to "G6B " closed
C *** Phasor I(0) = 5.9015285E+02 Switch "G5C " to "G6C " closed
C *** Phasor I(0) = -9.4587982E+02 Switch "G7A " to "G8A " closed
C *** Phasor I(0) = 3.5364800E+02 Switch "G7B " to "G8B " closed
C *** Phasor I(0) = 5.9015160E+02 Switch "G7C " to "G8C " closed
C *** Phasor I(0) = 2.2639721E+04 Switch "CSGENA" to "CSIA " closed
C *** Phasor I(0) = -1.2935334E+04 Switch "CSGENB" to "CSIB " closed
C *** Phasor I(0) = -9.7043863E+03 Switch "CSGENC" to "CSIC " closed
C 0 0.0 404269.4395 -36345.7247 -367765.459 424359.4611 -84333.1188
C -289436.093 451772.5587 -159713.498 -289437.588 451772.5587
C -187973.815 -252930.485 447042.9429 -145948.56 -298112.48
C 443329.9408 -187973.815 -252930.485 447042.9429 -145948.56
C -331794.91 21229. -10614.5 -10614.5 21229.
C -36343.631 -367766.638 22639.72062 -12935.3343 -9704.38629
C -1927.84839 998.3131661 907.993979 931.4197995 -214.843795
C .806549E-9 2458.559762 22639.72062 -12935.3343 -9704.38629
C -.002099483 -20983.2062 18269.09946 -.134425E-8 2458.559762
C -428.682116 1.91542705 134.2452118 -.002099483 1.473
C 0.0 1.0 1.473 0.0 1.0
C 1.0 0.0
C 1 .1E-3 397129.7612 -20133.32 -376846.599 418465.6003 -67710.5661
C -302506.957 448484.4919 -143505.185 -302508.399 448484.4919
C -172703.477 -266495.267 443279.2437 -129655.083 -310805.237
C 441481.0763 -172703.477 -266495.267 443279.2437 -129655.083
C -343039.501 21237.96722 -10136.0111 -11101.9561 21237.96722
C -20131.4818 -376847.601 22692.68415 -12202.5948 -10490.0893
C -1930.51013 937.527959 970.8510997 920.1216638 -179.573848
C -.31225E-10 2458.019684 22692.68415 -12202.5948 -10490.0893
C -.006347691 -20963.4593 18287.60729 -.45505E-10 2458.019684
C -428.682116 1.915678723 134.2451876 -.006347691 1.472999717
C -.463451E-7 1.0 1.472886675 -.613373E-3 1.0
C .9993866272 -.012267455
BLANK card ending program output variables (just node voltages, here)
C *** Open switch "S3B " to "14B " after 9.23000000E-02 sec.
C 1000 0.1 456587.9539 72810.69446 -528451.693 518738.6488 36108.45381
C -580084.928 558077.5006 -89099.3773 -580088.607 558077.5006
C -82089.0245 -595679.834 559039.9578 -24740.4007 -590969.55
C 554457.9176 -82089.0245 -595679.834 559039.9578 -24740.4007
C -563417.016 24790.5224 -9299.2942 -15491.2282 24790.5224
C 72810.84876 -528449.542 4177.258464 9977.667495 -14154.926
C -899.895095 -123.78439 364.4939864 -20.5855009 671.1300102
C -.325876E-9 1692.849684 4177.258464 9977.667495 -14154.926
C .5571416296 8388.658546 15716.096 -.325264E-9 1692.849684
C -541.656604 .5784421055 135.2190602 .5571416296 1.862272185
C .0620160273 1.0 1.931667198 .8804374E-3 1.000154281
C 1.000880437 .0176087484
PRINTER PLOT
194 4. 12. 50. MACH 1TQ GEN { Axis limits: (-0.316, 3.238)
194 4. 12. 50. MACH 2VEL 1 { Axis limits: (-0.835, 2.206)
BLANK card ending plot cards
BEGIN NEW DATA CASE
BLANK
|
