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authorAngelo Rossi <angelo.rossi.homelab@gmail.com>2023-06-21 12:04:16 +0000
committerAngelo Rossi <angelo.rossi.homelab@gmail.com>2023-06-21 12:04:16 +0000
commitb18347ffc9db9641e215995edea1c04c363b2bdf (patch)
treef3908dc911399f1a21e17d950355ee56dc0919ee /benchmarks/dcn24.dat
Initial commit.
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+BEGIN NEW DATA CASE
+C BENCHMARK DCNEW-24
+C A collection of 19 simple cases for testing the usage of distributed line
+C modeling. Most deal with constant-parameter (K. C. Lee) modeling. Several
+C frequency-dependent test cases can be found elsewhere, such as DC-31, 41,
+C 61, DCN4, DCN7, etc.
+C 1st of 19 subcases is a test of 1-phase constant-parameter line.
+C One switch is permanently closed. No transients. Plot of
+C receiving end voltage is sinusoid.
+C DIAGNOSTIC 0 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9
+PRINTED NUMBER WIDTH, 13, 2, { Request maximum precision (for 8 output columns)
+ .000100 .020 60. 60.
+ 1 1 1 1 1 -1
+ 2 -1 5 5 20 20
+ REC .001 { Near short at receiving end to ground } 3
+-1SEND REC 0.3 0.4 12.6 100. { 1-phase distributed line
+BLANK card ending branch cards
+ GEN SEND -1.0 1.0 { Permanently closed switch at sending end
+BLANK card ending switch cards
+14GEN 100. 60. { 60-Hz phasor solution } -1.
+BLANK card ending source cards
+C Total network loss P-loss by summing injections = 5.992836086590E+01
+C GEN
+C SEND 100. 100. 1.1985672173179 1.9672525544427
+C 0.0 0.0 -1.559974114699 -52.4640241
+C Step Time REC REC SEND GEN REC
+C TERRA TERRA
+C 0 0.0 .001198266 .001198266 100. 100. 1.198266
+C 1 .1E-3 .0012585558 .0012585558 99.92894726 99.92894726 1.258555833
+ 1
+C 200 .02 .0019138946 .0019138946 30.90169944 30.90169944 1.913894577
+C Variable max : .0020173699 .0020173699 100. 100. 2.017369917
+C Times of max : .0025 .0025 0.0 0.0 .0025
+C Variable min : -.002017453 -.002017453 -99.9921044 -99.9921044 -2.01745286
+C Times of min : .0108 .0108 .0083 .0083 .0108
+ PRINTER PLOT
+ 194 4. 0.0 20. REC { Axis limits : (-2.017, 2.017)
+BLANK card ending plot cards
+BEGIN NEW DATA CASE
+C 2nd of 19 subcases involves use of trapped-charge source to initialize
+C an initially-disconnected single-phase line. Later, energize the
+C line by switch closure at 3 msec. The data was supplied by Dipl.
+C Ing. Bernd Stein of FGH (Mannheim, Germany) during April of 1986.
+PRINTED NUMBER WIDTH, 13, 2, { Request maximum precision (for 8 output columns)
+ .000100 .020 { Unlike 1st of 2 subcases, here XOPT = COPT = 0
+ 1 1 0 1 1 -1
+ 2 -1 5 5 20 20 { Switch to alternate on step 2
+ GEN SWITCH 39.8
+ SWITCH 1000.
+-1SEND REC .3055 5.819 .0121 138.
+BLANK card ending branch cards
+ SEND SWITCH .003 1.0 { Transient begins at 3 msec with closure
+BLANK card ending switch cards
+C 1 2 3 4 5 6 7 8
+C 78901234567890123456789012345678901234567890123456789012345678901234567890
+14GEN 100. 60. -1.0
+14SEND -1 -100. .001 { Trapped-charge source } 5432.
+C End multiple-frequency phasor solution data. The first source is a regular
+C 60-Hertz generator, whereas the second has f = 1/1000 Hz for trapped charge
+BLANK card ending source cards
+C Total network loss P-loss by summing injections = 4.998874616296E+00
+C Last gen: SEND -100. 100. -.17408297E-12 .10491662826E-5 .8704148513E-11
+C Last gen: 0.0 180.0 -.1049166283E-5 -90.0000095 -.5245831413E-4
+C Step Time REC SEND SWITCH GEN
+C 0 0.0 -100. -100. 99.97749233 100.
+C 1 .1E-3 -100. -100. 99.96299489 99.92894726
+C 2 .2E-3 -100. -100. 99.80645119 99.71589003
+ 1 { Request for the output of all four node voltages
+C 200 .02 138.2909745 45.09406184 45.09406184 30.90169944
+ 144 2. 0.0 20. SEND REC { Axis limits : (-2.510, 2.052)
+BLANK card ending plot cards
+BEGIN NEW DATA CASE
+C 3rd of 19 subcases to test a three-phase transposed constant-parameter
+C distributed line. Narrow format was used (also in the next sub-case)
+C initially. On May 28, 1998, Orlando Havia reported problem of a case
+C which included a transposed line with wide format. After making code
+C corrections in INDIST, we changed the current sub-case data from
+C "narrow format" to "wide format". Same results were obtained, of course.
+PRINTED NUMBER WIDTH, 12, 2, { Request maximum precision (for 8 output columns)
+ .000100 .020 60. 60.
+ 1 1 1 1 1 -1
+ 2 -1 5 5 20 20
+ RECA .001
+ RECB .001
+ RECC .001
+C -1SENDA RECA 0.3 0.4 12.6 100.
+C -2SENDB RECB .03 0.1 6.0 100.
+C -3SENDC RECC
+$VINTAGE, 1
+-1SENDA RECA 0.3 0.4 12.6 100.
+-2SENDB RECB .03 0.1 6.0 100.
+-3SENDC RECC
+$VINTAGE, 0
+BLANK card ending branch cards
+ GENA SENDA -1.0 1.0
+ GENB SENDB -1.0 1.0
+ GENC SENDC -1.0 1.0
+BLANK card ending switch cards
+14GENA 100. 1.0 -1.
+14GENB 100. 1.0 -1.
+14GENC 100. 1.0 -1.
+BLANK card ending source cards
+C Total network loss P-loss by summing injections = 4.997365737714E+02
+C Output for steady-state phasor switch currents.
+C Node-K Node-M I-real I-imag I-magn
+C GENA SENDA 0.33315772E+01 -0.73376324E-01 0.33323851E+01
+C GENB SENDB 0.33315772E+01 -0.73376324E-01 0.33323851E+01
+C GENC SENDC 0.33315772E+01 -0.73376324E-01 0.33323851E+01
+C Last gen: GENC
+C Last gen: SENDC 100. 100. 3.3315771584762 3.3323850989622
+C Last gen: 0.0 0.0 -.0733763238755 -1.2617070
+C Step Time RECC RECB RECA SENDC SENDB SENDA
+C *** Phasor I(0) = 0.3331577E+01 Switch "GENA " to "SENDA " closed
+C *** Phasor I(0) = 0.3331577E+01 Switch "GENB " to "SENDB " closed
+C *** Phasor I(0) = 0.3331577E+01 Switch "GENC " to "SENDC " closed
+C 0 0.0 .003331577 .003331577 .003331577 100. 100. 100.
+C 1 .1E-3 .003331623 .003331623 .003331623 99.9999803 99.9999803 99.9999803
+ 1
+C 200 .02 .003314635 .003314635 .003314635 99.2114701 99.2114701 99.2114701
+C Variable max:.003332408 .003332408 .003332408 100. 100. 100.
+C Times of max : .0036 .0036 .0036 0.0 0.0 0.0
+C Variable min:.003314635 .003314635 .003314635 99.2114701 99.2114701 99.2114701
+C Times of min : .02 .02 .02 .02 .02 .02
+ PRINTER PLOT
+C 144 2. 0.0 20. RECA { Axis limits : (0.000, 3.332)
+BLANK card ending plot cards
+BEGIN NEW DATA CASE
+C 4th of 19 subcases
+C Modified and simplied from BENCHMARK DCPR-13 to test the usage of
+C transposed distributed line and its reference branches
+PRINTED NUMBER WIDTH, 13, 2, { Request maximum precision (for 8 output columns)
+ 100.E-6 13.E-3 60.
+ 1 1 1 2 1 -1
+ 5 5 20 20
+-1ASW1 A5 .3 2.1146 0.645 50. 0
+-2BSW1 B5 .0268 .5397 0.021 50. 0
+-3CSW1 C5
+-1ASW1 A6 ASW1 A5
+-2BSW1 B6
+-3CSW1 C6
+ 0A5 1.
+ 0B5 1.
+ 0C5 1.
+ 0A6 1.
+ 0B6 1.
+ 0C6 1.
+BLANK card ending branch cards
+BLANK card ending switch cards
+14ASW1 303. 60. 0.0 -1.
+14BSW1 303. 60. -120.0 -1.
+14CSW1 303. 60. 120.0 -1.
+BLANK card ending source cards
+C Total network loss P-loss by summing injections = 8.795928756794E+02
+C Node Source node voltage Injected source current Injected source power
+C name Rectangular Polar Rectangular Polar P and Q MVA and P.F.
+C ASW1 303. 303. 1.9352978562803 22.293386285746 293.19762522646 3377.4480222904
+C 0.0 0.0 -22.20922543208 -85.0198618 3364.6976529601 0.0868104
+ A5 B5 C5 A6 B6 C6
+C Step Time A5 B5 C5 A6 B6 C6
+C 0 0.0 .9654332167 -10.1517405 9.186307306 .9654332167 -10.1517405 9.186307306
+C 1 .1E-3 1.385353722 -10.3220076 8.9366539 1.385353722 -10.3220076 8.9366539
+C 2 .2E-3 1.803446283 -10.4789931 8.675546863 1.803446283 -10.4789931 8.675546863
+C 3 .3E-3 2.218965817 -10.6207468 8.401781028 2.218965817 -10.6207468 8.401781028
+BLANK card ending the specification of program outputs (node voltages, here)
+C 130 .013 -10.7903488 2.749051379 8.041297426 -10.7903488 2.749051379 8.041297426
+C Variable max: 11.19141912 11.20899525 9.186307306 11.19141912 11.20899525 9.186307306
+C Times of max: .0039 .0095 0.0 .0039 .0095 0.0
+C Variable min: -11.2139841 -11.1984112 -11.197694 -11.2139841 -11.1984112 -11.197694
+C Times of min: .0123 .0012 .0067 .0123 .0012 .0067
+BLANK card ending plot cards
+BEGIN NEW DATA CASE
+C 5th of 19 subcases to test the usage of untransposed constant-
+C parameter distributed line
+PRINTED NUMBER WIDTH, 12, 2, { Request maximum precision (for 8 output columns)
+ .000100 .020 60. 60.
+ 1 1 1 1 1 -1
+ 2 -1 5 5 20 20
+ RECA .001
+ RECB .001
+ RECC .001
+$VINTAGE, 1
+-1SENDA RECA 3.01532E-01 6.91748E+02 1.19375E+05-1.38000E+02 1 3
+-2SENDB RECB 2.80361E-02 2.90916E+02 1.82804E+05-1.38000E+02 1 3
+-3SENDC RECC 2.80251E-02 2.76507E+02 1.81679E+05-1.38000E+02 1 3
+$VINTAGE, 0
+ 0.58094800 0.70710678 -0.40960438
+ 0.00000000 0.00000000 0.00000000
+ 0.57008669 0.00000000 0.81513711
+ 0.00000000 0.00000000 0.00000000
+ 0.58094800 -0.70710678 -0.40960438
+ 0.00000000 0.00000000 0.00000000
+BLANK card ending branch cards
+ GENA SENDA -1.0 1.0
+ GENB SENDB -1.0 1.0
+ GENC SENDC -1.0 1.0
+BLANK card ending switch cards
+14GENA 100. 1.0 -1.
+14GENB 100. 1.0 -1.
+14GENC 100. 1.0 -1.
+BLANK card ending source cards
+C Total network loss P-loss by summing injections = 3.552806493326E+02
+C Output for steady-state phasor switch currents.
+C Node-K Node-M I-real I-imag I-magn Degrees Power Reactive
+C GENA SENDA 2.42187574E+00 -3.00608892E-01 2.44046057E+00 -7.0755 1.21093787E+02 1.50304446E+01
+C GENB SENDB 2.26186151E+00 -2.55853363E-01 2.27628611E+00 -6.4537 1.13093076E+02 1.27926682E+01
+C GENC SENDC 2.42187574E+00 -3.00608892E-01 2.44046057E+00 -7.0755 1.21093787E+02 1.50304446E+01
+C First 9 output variables are electric-network voltage differences (upper voltage minus lower voltage);
+C Step Time RECC RECB RECA SENDC SENDB SENDA GENA GENB GENC
+C *** Phasor I(0) = 2.4218757E+00 Switch "GENA " to "SENDA " closed in the steady-state.
+C *** Phasor I(0) = 2.2618615E+00 Switch "GENB " to "SENDB " closed in the steady-state.
+C *** Phasor I(0) = 2.4218757E+00 Switch "GENC " to "SENDC " closed in the steady-state.
+C 0 0.0 .002421876 .002261861 .002421876 100. 100. 100. 100. 100. 100.
+C 1 .1E-3 .002422064 .002262022 .002422064 99.9999803 99.9999803 99.9999803 99.9999803 99.9999803 99.9999803
+C 2 .2E-3 .002422252 .002262182 .002422252 99.999921 99.999921 99.999921 99.999921 99.999921 99.999921
+C 3 .3E-3 .002422439 .002262341 .002422439 99.9998223 99.9998223 99.9998223 99.9998223 99.9998223 99.9998223
+ 1 { Request for output of all node voltages
+C 200 .02 .00244052 .002276156 .00244052 99.2114701 99.2114701 99.2114701 99.2114701 99.2114701 99.2114701
+C Variable max : .002440525 .002276343 .002440525 100. 100. 100. 100. 100. 100.
+C Times of max : .0197 .018 .0197 0.0 0.0 0.0 0.0 0.0 0.0
+C Variable min : .002421876 .002261861 .002421876 99.2114701 99.2114701 99.2114701 99.2114701 99.2114701 99.2114701
+C Times of min : 0.0 0.0 0.0 .02 .02 .02 .02 .02 .02
+BLANK card ending plot cards
+BEGIN NEW DATA CASE
+C 6th of 19 subcases to test the usage of untransposed distributed
+C line and its reference branches
+PRINTED NUMBER WIDTH, 13, 2, { Request maximum precision (for 8 output columns)
+ 100.E-6 500.E-6 60.
+ 1 1 1 2
+$VINTAGE, 1
+-1ASW1 A5 3.01532E-01 6.91748E+02 1.19375E+05 1.38000E+02 1 3
+-2BSW1 B5 2.80361E-02 2.90916E+02 1.82804E+05 1.38000E+02 1 3
+-3CSW1 C5 2.80251E-02 2.76507E+02 1.81679E+05 1.38000E+02 1 3
+$VINTAGE, 0
+C Note about preceding K.C. Lee branch cards. As punched by LINE CONSTANTS,
+C the length of 138 miles (4th number of each phase card) has an appended
+C minus sign. But as explained in the April, 2001, newsletter, this serves
+C no useful purpose. To illustrate that it no longer is necessary (following
+C branch data restructuring around 1997), the minus signs will be erased from
+C columns 63 here and in all following subcases. To see the original that
+C includes minus signs, see preceding subcase (unchanged). 14 December 2000
+ 0.58094800 0.70710678 -0.40960438
+ 0.00000000 0.00000000 0.00000000
+ 0.57008669 0.00000000 0.81513711
+ 0.00000000 0.00000000 0.00000000
+ 0.58094800 -0.70710678 -0.40960438
+ 0.00000000 0.00000000 0.00000000
+-1ASW1 A6 ASW1 A5
+-2BSW1 B6
+-3CSW1 C6
+ 0A5 1.
+ 0B5 1.
+ 0C5 1.
+ 0A6 1.
+ 0B6 1.
+ 0C6 1.
+BLANK card ending branch cards
+BLANK card ending switch cards
+14ASW1 303. 60. 0.0 -1.
+14BSW1 303. 60. -120.0 -1.
+14CSW1 303. 60. 120.0 -1.
+BLANK card ending source cards
+C Total network loss P-loss by summing injections = 2.046556158911E+02
+C Node Source node voltage Injected source current Injected source power
+C name Rectangular Polar Rectangular Polar P and Q MVA and P.F.
+C ASW1 303. 303. .60039311915995 7.1926653847594 90.959557552733 1089.688805791
+C 0.0 0.0 -7.167563284658 -85.2117798 1085.8858376257 0.0834730
+ A5 B5 C5 A6 B6 C6
+C First 6 output variables are electric-network voltage differences (upper voltage minus lower voltage);
+C Step Time A5 B5 C5 A6 B6 C6
+C 0 0.0 .3028039653 -3.45224148 3.184683842 .3028039653 -3.45224148 3.184683842
+C 1 .1E-3 .4433227265 -3.51422565 3.106709385 .4433227265 -3.51422565 3.106709385
+C 2 .2E-3 .5832573875 -3.57180736 3.024871794 .5832573875 -3.57180736 3.024871794
+C 3 .3E-3 .7223632078 -3.62431333 2.938735696 .7223632078 -3.62431333 2.938735696
+C 4 .4E-3 .8604425105 -3.67166896 2.848423493 .8604425105 -3.67166896 2.848423493
+C 5 .5E-3 .9972990773 -3.71380695 2.754063524 .9972990773 -3.71380695 2.754063524
+BLANK card ending the specification of program outputs (node voltages, here)
+BLANK card ending plot cards
+BEGIN NEW DATA CASE
+C 7th of 19 subcases.
+C Illustration of usage of J. Marti's freq-depent line and its reference branches
+PRINTED NUMBER WIDTH, 13, 2, { Request maximum precision (for 8 output columns)
+ 100.E-6 300.E-6 60.
+ 1 1 1 2
+C PUNCHED CARD OUTPUT OF "JMARTI SETUP" WHICH BEGAN AT 14.32.51 09/14/82
+C 1.3636 .05215 4 1.602 -20.75 50. 50.
+C 1.3636 .05215 4 1.602 -19.25 50. 50.
+C 2.3636 .05215 4 1.602 - 0.75 77.5 77.5
+C 2.3636 .05215 4 1.602 0.75 77.5 77.5
+C 3.3636 .05215 4 1.602 19.25 50. 50.
+C 3.3636 .05215 4 1.602 20.75 50. 50.
+C 0.5 2.61 4 0.386 -12.9 98.5 98.5
+C 0.5 2.61 4 0.386 12.9 98.5 98.5
+C
+C 100. 5000. 1 138. 1 3-2
+C 100. 60.00 1 138. 1 3
+C 100. .01 1 138. 1 9 10 3
+C
+-1ASW1 A5 2. -2 3 1
+ 18 0.47487144790587633736E+03
+ -0.117967342612603676E+01 -0.316671345021416945E+01 0.255662317832426673E+02
+ -0.601654631032706213E+02 -0.118825306534453652E+03 0.128169142098635430E+04
+ 0.589610442538186533E+04 0.292891488173549769E+05 0.115665757459954655E+06
+ 0.456394278488149546E+06 0.153681652821077613E+07 0.681848054466802243E+07
+ 0.155477562610202006E+08 0.231789897204889809E+08 0.143827766961221036E+08
+ 0.241524708800130989E+08 0.245049034784953832E+08 0.476808364145524129E+08
+ 0.321645453133055891E+00 0.897616891499021768E+00 0.165632367032913183E+01
+ 0.166669419493737986E+01 0.253073682990780913E+01 0.200014655383098283E+02
+ 0.124257951002701473E+03 0.657345842950598183E+03 0.278623017775457413E+04
+ 0.117145310573639467E+05 0.427410884649070877E+05 0.202553264108715757E+06
+ 0.968789502295299084E+06 0.296908522006270138E+07 0.737968316276072920E+07
+ 0.121009167337626640E+08 0.132891445947112725E+08 0.252097199908134253E+08
+ 14 0.86849922355034181931E-03
+ 0.580543547692016874E-01 0.269744993210885436E+00 0.358646519088149721E+00
+ 0.775351125410302933E+00 0.512138885239557462E+01 0.838265420474258915E+01
+ 0.700229782114550385E+02 0.393084113996385128E+03 0.138208543918962840E+04
+ 0.706160326497018531E+03 0.527246586822120662E+04 0.528343251309079615E+05
+ 0.178307801042203880E+08 -0.178914532139174500E+08
+ 0.228360173022402533E+02 0.102750699821169636E+03 0.139222638455845377E+03
+ 0.269608322018776320E+03 0.389220463867018722E+03 0.427793721751318500E+03
+ 0.132148883486994549E+04 0.277178340638843952E+04 0.449341296469570784E+04
+ 0.596603161966094024E+04 0.114714152641659587E+05 0.268314807408425590E+05
+ 0.204027813729699328E+05 0.204231841543429041E+05
+-2BSW1 B5 2. -2 3 1
+ 13 0.28580875773089406522E+03
+ 0.381761604345214016E+04 -0.269529222495194318E+04 0.445018224900628539E+03
+ 0.214658130219351907E+03 0.897325461203551775E+02 0.130480129629523390E+03
+ 0.683037485206990933E+02 0.746626715384045969E+02 0.133938729387751110E+04
+ 0.249954495902361043E+04 0.187764116219525090E+05 0.391031620802855759E+06
+ 0.562668431190421223E+07
+ 0.358668999787749571E+01 0.376679186833120605E+01 0.706439034439901437E+01
+ 0.109721634064781350E+02 0.140506334140286961E+02 0.234292596911152251E+02
+ 0.407686998675834982E+02 0.797598814775078289E+02 0.129106739969348078E+04
+ 0.242138030939135859E+04 0.182362646041542116E+05 0.379814243183306855E+06
+ 0.548808385606378759E+07
+ 13 0.74123751236187229426E-03
+ 0.192189595814863363E+02 0.210970481418782463E+01 0.383406546226866283E+02
+ 0.307999912886148377E+02 0.634013410317139090E+03 -0.253243195247046863E+03
+ 0.210540381301789816E+05 0.755533947306502050E+05 0.229576557459444489E+07
+ 0.607777584135737231E+13 -0.156620677810598129E+13 0.153143851607186420E+13
+ -0.604300997216751013E+13
+ 0.325736126030671755E+04 0.366694913707514260E+03 0.675727697588602189E+04
+ 0.516024976370228876E+04 0.249456113770459378E+05 0.115067772934717399E+06
+ 0.105205466546493019E+06 0.240930799961836921E+06 0.633276538663731131E+06
+ 0.975820481990592802E+06 0.976796302472583498E+06 0.974176721795814519E+06
+ 0.975150898517610403E+06
+-3CSW1 C5 2. -2 3 1
+ 13 0.27248404992352924125E+03
+ 0.928429573805075023E+03 0.205756155237142632E+03 0.538106630554037608E+03
+ 0.105199818376817531E+03 0.821382476778671116E+02 0.133356875032521778E+03
+ 0.654774478488469374E+02 0.612546121562179922E+02 0.905544916173387175E+02
+ 0.973244316091135204E+03 0.267481871266201051E+04 0.138566411938941123E+05
+ 0.646075558955914967E+06
+ 0.297277477955690506E+01 0.413177069940672514E+01 0.739410817322770197E+01
+ 0.103072536754267949E+02 0.135874091964585515E+02 0.234792992956042887E+02
+ 0.384075708508238121E+02 0.692539345057236435E+02 0.997101922255402791E+02
+ 0.941460937860312015E+03 0.259295974388396348E+04 0.134538093446956691E+05
+ 0.628668738677182439E+06
+ 20 0.74871165651714274120E-03
+ 0.249456855794677017E-01 0.516637614002139312E+01 0.435227595525510835E+01
+ 0.696293545843379624E+01 0.113102519337405665E+02 0.107077756312168120E+02
+ 0.136526319661978881E+02 0.103057494642840792E+03 0.647491597081196815E+03
+ 0.221213037293261823E+04 0.164010494681972204E+05 0.517776934139508076E+05
+ 0.393233870054795443E+06 -0.101893253559274247E+05 -0.173413454816459129E+06
+ 0.524218185885897590E+06 0.711044562955687729E+12 -0.559640645251973480E+12
+ 0.582892127161358521E+12 -0.734296849907947113E+12
+ 0.887741958857318814E+01 0.183177145564733675E+04 0.151655674045953921E+04
+ 0.245910936284398730E+04 0.383273362703089043E+04 0.399285585783856465E+04
+ 0.496339281485561617E+04 0.253464455063045348E+05 0.272156609769823021E+05
+ 0.475215596432249440E+05 0.149791320991727040E+06 0.333884409922466803E+06
+ 0.541583000670874084E+06 0.670984155731562481E+06 0.569769858667429973E+06
+ 0.132622344670840449E+07 0.440534234233555838E+07 0.440974768467789434E+07
+ 0.436787151891064062E+07 0.437223939042955148E+07
+ 0.57154434 0.70710678 -0.41761362
+ 0.00000000 0.00000000 0.00000000
+ 0.58879039 0.00000000 0.80696823
+ 0.00000000 0.00000000 0.00000000
+ 0.57154434 -0.70710678 -0.41761362
+ 0.00000000 0.00000000 0.00000000
+-1ASW1 A6 ASW1 A5 1
+-2BSW1 B6 1
+-3CSW1 C6 1
+ 0A5 1.
+ 0B5 1.
+ 0C5 1.
+ 0A6 1.
+ 0B6 1.
+ 0C6 1.
+BLANK card ending branch cards
+BLANK card ending switch cards
+14ASW1 303. 60. 0.0 -1.
+14BSW1 303. 60. -120.0 -1.
+14CSW1 303. 60. 120.0 -1.
+BLANK card ending source cards
+C Total network loss P-loss by summing injections = 2.133855256689E+02
+C Node Source node voltage Injected source current Injected source power
+C name Rectangular Polar Rectangular Polar P and Q MVA and P.F.
+C ASW1 303. 303. .67037929574644 7.1896162837701 101.56246330559 1089.2268669912
+C 0.0 0.0 -7.158294064069 -84.6498145 1084.4815507065 0.0932427
+ A5 B5 C5 A6 B6 C6
+C First 6 output variables are electric-network voltage differences (upper voltage minus lower voltage);
+C Next 6 output variables are branch currents (flowing from the upper node to the lower node);
+C Step Time A5 B5 C5 A6 B6 C6 ASW1 BSW1
+C A5 B5
+C CSW1 ASW1 BSW1 CSW1
+C C5 A6 B6 C6
+C 0 0.0 .3364801616 -3.43708937 3.192249668 .3364801616 -3.43708937 3.192249668 .3351896479 -3.30243673
+C 3.056683557 .3351896479 -3.30243673 3.056683557
+C 1 .1E-3 .4768147829 -3.49823033 3.114777824 .4768147829 -3.49823033 3.114777824 .4699942576 -3.36074443
+C 2.9818637 .4699942576 -3.36074443 2.9818637
+C 2 .2E-3 .6165162541 -3.55507115 3.033529893 .6165162541 -3.55507115 3.033529893 .6039611281 -3.41481401
+C 2.903532996 .6039611281 -3.41481401 2.903532996
+C 3 .3E-3 .7553410187 -3.60686214 2.947972502 .7553410187 -3.60686214 2.947972502 .7370685919 -3.46403253
+C 2.821077973 .7370685919 -3.46403253 2.821077973
+BLANK card ending the specification of program outputs (node voltages, here)
+BLANK card ending plot cards
+BEGIN NEW DATA CASE
+C 8th of 19 subcases.
+C Modified BENCHMARK DC-12
+C One copy of the special double-circuit is added to this subcase to
+C demonstrate the skipping of calculation of the transformation matrix
+C for continuously transposed lines once the needed matrix has already
+C been calculated before. Note that List 21 usage is shown to be 45
+C for this subcase: 6x6 + 3x3 = 45. However, before December, 1997,
+C List 21 from ATP or BPA's EMTP would be 162 = 2 x ( 6x6 + 3x3 + 6x6 )
+$NEW EPSILN, 1.E-9, { Not needed; Just added to prove the card is recognized
+C $WATCH, 25, { Illustrate extra echoing of cards to CRT periodically (every 25th)
+PRINTED NUMBER WIDTH, 12, 2, { Full precision on each of 9 columns of printout
+ .000050 .025 60.
+ 1 1 1 3 1 -1
+ 5 5 20 20 100 100
+ 0CJA X32A .01 1
+ 0CJB X32B .01 1
+ 0RAA XA .01
+ 0RAB XB .01
+ 0RAGA RAA 26. 1
+ 0RAGB RAB 26. 1
+ 0RAGC RAC 26. 1
+ 0CJGA CJA 28.
+ 0CJGB CJB 28.
+ 0CJGC CJC 28.
+ 0VC Y17C 26.
+ 0VB Y17B 26.
+ 0VA Y17A 26.
+ 0RAA YA .01 1
+ 0RAB YB .01 1
+ 0RAC YC .01 1
+ 0XC 1680.
+ 0X16B T 1.0E18 2
+ 0X16C T 1.0E18 2
+ 0X16A T 1.0E18 2
+ 0T 65. 1
+ 1XA X1A .3545 3.2009.0476
+ 2XB X1B .2599 1.543-.0088.349 3.2067.0449
+ 3XC X1C .2624 1.484-.006 .2599 1.543 -.0087.3545 3.2009.0479
+ 4YA Y1A .2619 1.128-.0008.2595 1.1848-.0018.2622 1.2824-.0025
+ .3657 3.6724 .0363
+ 5YB Y1B .2615 1.0374-.0004.2592 1.0834-.001 .2619 1.1492-.0011
+ .2624 1.5455-.0052.3656 3.6724.0361
+ 6YC Y1C .261 .9663 -.0003.2588 1.005 -.0007.2616 1.054 -.0006
+ .2623 1.3076-.002 .2624 1.551 -.0053.3656 3.6724 .036
+ 1X1A X2A 1.05749.547 .1421
+ 2X1B X2B .7752 4.602 -.026 1.042 9.564 .1353
+ 3X1C X2C .7826 4.426 -.018 .7752 4.602 -.02561.057 9.547 .1428
+ 4Y1B Y2B .7811 3.366 -.0023.7741 3.534 -.0055.7822 3.825 -.0074
+ 1.091 10.95 .1084
+ 5Y1A Y2A .7799 3.094 -.0013.7732 3.231 -.0031.7813 3.427 -.0032
+ .7827 4.609 -.01541.091 10.95 .1076
+ 6Y1C Y2C .7785 2.882 -.0009.772 2.998 -.0022.7802 3.145 -.0018
+ .7822 3.9 -.0059.7827 4.625 -.01591.091 10.95 .0357
+-1X2A X16A 0.58213.4008.00912 70.
+-2X2B X16B .034160.6790.01663 70.
+-3X2C X16C .034941.0952.01163 70.
+-4Y2A Y16A
+-5Y2B Y16B
+-6Y2C Y16C
+ 1X16C X17C .6198 5.596 .08325
+ 2X16A X17A .4545 2.698 -.0156.6110 5.606 .079
+ 3X16B X17B .459 2.5945-.0107.4545 2.6975-.0156.6198 5.596 .08325
+ 1X17C X18C X16C X17C
+ 2X17A X18A
+ 3X17B X18B
+ 1X18C X19C X16C X17C
+ 2X18A X19A
+ 3X18B X19B
+ 1X19A X20A X16C X17C
+ 2X19B X20B
+ 3X19C X20C
+ 1X20A X21A X16C X17C
+ 2X20B X21B
+ 3X20C X21C
+ 1X21A X22A X16C X17C
+ 2X21B X22B
+ 3X21C X22C
+ 1X22A X23A X16C X17C
+ 2X22B X23B
+ 3X22C X23C
+ 1X23A X24A X16C X17C
+ 2X23B X24B
+ 3X23C X24C
+ 1X24A X25A X16C X17C
+ 2X24B X25B
+ 3X24C X25C
+ 1X25A X26A X16C X17C
+ 2X25B X26B
+ 3X25C X26C
+ 1X26A X27A X16C X17C
+ 2X26B X27B
+ 3X26C X27C
+ 1X27A X28A X16C X17C
+ 2X27B X28B
+ 3X27C X28C
+ 1X28A X29A X16C X17C
+ 2X28B X29B
+ 3X28C X29C
+ 1X29A X30A X16C X17C
+ 2X29B X30B
+ 3X29C X30C
+ 1X30A X31A X16C X17C
+ 2X30B X31B
+ 3X30C X31C
+ 1X31A X32A X16C X17C
+ 2X31B X32B
+ 3X31C X32C
+C 3 July 1987. Change 3 column-80 "1"-punches to "2"-punches that do work:
+-1Y16C Y17C .316 752. 123.E3 31. 1 2
+-2Y16B Y17B .03 370. 179.E3 31. 1 2
+-3Y16A Y17A 2
+-1Z2A Z16A 0.58213.4008.00912 70.
+-2Z2B Z16B .034160.6790.01663 70.
+-3Z2C Z16C .034941.0952.01163 70.
+-4W2A W16A
+-5W2B W16B
+-6W2C W16C
+BLANK card ending branch cards
+ CJC X32C -1. .016 0.1
+ RAC XC -1. .016 0.1 2
+ X16C T -1. .2 0.
+BLANK card ending switch cards
+14VA 305418. 60. -1.5 -1.
+14VB 305418. 60. -121.5 -1.
+14VC 305418. 60. 118.5 -1.
+14RAGA 301954. 60. 0.0 -1.
+14RAGB 301954. 60. -120.0 -1.
+14RAGC 301954. 60. 120.0 -1.
+14CJGA 303109. 60. 12.0 -1.
+14CJGB 303109. 60. -108.0 -1.
+14CJGC 303109. 60. 132.0 -1.
+BLANK card ending source cards
+C Total network loss P-loss by summing injections = 4.180325863363E+08
+C Output for steady-state phasor switch currents.
+C Node-K Node-M I-real I-imag I-magn Degrees Power Reactive
+C CJC X32C -3.03835446E+02 1.96678065E+03 1.99011108E+03 98.7818 2.52324369E+08 1.09783096E+08
+C RAC XC 3.89924585E+02 1.48620772E+03 1.53650726E+03 75.2991 1.67214580E+08 1.41728176E+08
+C X16C T 2.01571906E+02 3.47025479E+03 3.47610408E+03 86.6757 3.92707235E+08 5.40318069E-07
+ X16C { Request this single node-voltage output
+C First 8 output variables are electric-network voltage differences (upper voltage minus lower voltage);
+C Next 9 output variables are branch currents (flowing from the upper node to the lower node);
+C Step Time X16B X16C X16A Y16C Y16B Y16A RAC X16C CJA
+C T T T Y17C Y17B Y17A XC X32A
+C
+C CJB RAGA RAGB RAGC RAA RAB RAC T
+C X32B RAA RAB RAC YA YB YC TERRA
+C *** Phasor I(0) = -3.0383545E+02 Switch "CJC " to "X32C " closed in the steady-state.
+C *** Phasor I(0) = 3.8992458E+02 Switch "RAC " to "XC " closed in the steady-state.
+C *** Phasor I(0) = 2.0157191E+02 Switch "X16C " to "T " closed in the steady-state.
+C 0 0.0 -78763.148 0.0 356989.678 20286.0902 17732.2707 17066.6167 0.0 13102.1739 380.757922
+C -18.016564 -303.41193 324.866491 159.741413 116.579991 -2.6766895 -230.18317 201.571906
+C 1 .5E-4 -68915.376 0.0 360816.716 20407.8874 17886.2544 17096.3562 0.0 8847.92818 377.20114
+C -7.6834907 -305.95716 323.27785 139.58148 116.957369 3.56749107 -222.26151 136.121972
+C 2 .1E-3 -59044.256 0.0 364517.492 20524.3074 18037.9341 17115.5471 0.0 4590.95371 373.510323
+C 2.65240363 -308.39143 321.573081 119.370765 117.291738 9.81114053 -214.25988 70.6300571
+BLANK card ending output variable requests (here, just one node voltage)
+ PRINTER PLOT { Axis limits: (-3.870, 2.119)
+ Voltage across switch (RAC,XC), which opens at 16 milliseconds.
+ 184 1. 15. 30. RAC XC Recovery voltage
+C $WATCH, 9999, { Turn off echoing of cards to CRT, in case other solutions follow
+BLANK card terminating plot cards
+BEGIN NEW DATA CASE
+C 9th of 19 subcases was added 15 October 1998, forcing the former 9th down
+C one slot to become 10th. This data is from Mrvic in Belgrade, Yugoslavia,
+C an did not have the correct number of output variables prior to Oct. 15.
+C The problem was the 4-punch in column 80 of the Type-92 nonlinear element,
+C which immediately followed a distributed line.
+ .00001 .00002
+ 1 1
+$VINTAGE, 1
+-1IN_A NG1A 3.82540E-01 8.09455E+02 2.03339E+05 50. 1
+-2IN_B NG1B 1.19938E-01 3.99423E+02 2.92989E+05 50. 1
+-3IN_C NG1C 50. 1
+$VINTAGE, 0
+92NG1A NG1AZ 4444. 4
+ 0.0 0.0
+ 0.0001 71000.
+ 0.001 118000.
+ 1000. 165000.
+ 3000. 175000.
+ 9999.
+ NG1AZ .1 1
+BLANK card ending branches
+BLANK card ending switches
+14IN_A 0 89814.62 50. -1. 1.
+BLANK card ending sources
+C Total network loss P-loss by summing injections = 2.199411143818E+02
+ NG1A
+C Step Time NG1A NG1A NG1A NG1AZ
+C NG1AZ NG1AZ TERRA
+C 0 0.0 0.0 90001.353 0.0 0.0
+C 1 .1E-4 41.7463699 90000.7723 .208732E-3 .463845E-3
+C 2 .2E-4 41.7438354 89999.6135 .626183E-3 .463822E-3
+BLANK card ending node names for voltage output
+BLANK card ending plot cards
+BEGIN NEW DATA CASE
+C 10th of 19 subcases.
+C Modified BENCHMARK DC-12
+C J. Marti representation of a 12-phase, continuously-tranposed line,
+C and a copy of it (via the usage of the reference branch feature) are
+C used to replace the original special double-circuit representation.
+$NEW EPSILN, 1.E-9, { Not needed; Just added to prove the card is recognized
+C $WATCH, 25, { Illustrate extra echoing of cards to CRT periodically (every 25th)
+PRINTED NUMBER WIDTH, 12, 2, { Full precision on each of 9 columns of printout
+ .000050 .025 60.
+ 1 1 1 3 1 -1
+ 5 5 20 20 100 100
+ 0CJA X32A .01 1
+ 0CJB X32B .01 1
+ 0RAA XA .01
+ 0RAB XB .01
+ 0RAGA RAA 26. 1
+ 0RAGB RAB 26. 1
+ 0RAGC RAC 26. 1
+ 0CJGA CJA 28.
+ 0CJGB CJB 28.
+ 0CJGC CJC 28.
+ 0VC Y17C 26.
+ 0VB Y17B 26.
+ 0VA Y17A 26.
+ 0RAA YA .01 1
+ 0RAB YB .01 1
+ 0RAC YC .01 1
+ 0XC 1680.
+ 0X16B T 1.0E18 2
+ 0X16C T 1.0E18 2
+ 0X16A T 1.0E18 2
+ 0T 65. 1
+ 1XA X1A .3545 3.2009.0476
+ 2XB X1B .2599 1.543-.0088.349 3.2067.0449
+ 3XC X1C .2624 1.484-.006 .2599 1.543 -.0087.3545 3.2009.0479
+ 4YA Y1A .2619 1.128-.0008.2595 1.1848-.0018.2622 1.2824-.0025
+ .3657 3.6724 .0363
+ 5YB Y1B .2615 1.0374-.0004.2592 1.0834-.001 .2619 1.1492-.0011
+ .2624 1.5455-.0052.3656 3.6724.0361
+ 6YC Y1C .261 .9663 -.0003.2588 1.005 -.0007.2616 1.054 -.0006
+ .2623 1.3076-.002 .2624 1.551 -.0053.3656 3.6724 .036
+ 1X1A X2A 1.05749.547 .1421
+ 2X1B X2B .7752 4.602 -.026 1.042 9.564 .1353
+ 3X1C X2C .7826 4.426 -.018 .7752 4.602 -.02561.057 9.547 .1428
+ 4Y1B Y2B .7811 3.366 -.0023.7741 3.534 -.0055.7822 3.825 -.0074
+ 1.091 10.95 .1084
+ 5Y1A Y2A .7799 3.094 -.0013.7732 3.231 -.0031.7813 3.427 -.0032
+ .7827 4.609 -.01541.091 10.95 .1076
+ 6Y1C Y2C .7785 2.882 -.0009.772 2.998 -.0022.7802 3.145 -.0018
+ .7822 3.9 -.0059.7827 4.625 -.01591.091 10.95 .0357
+C <++++++> Cards punched by support routine on 11-Nov-18 11.00.00 <++++++>
+C **** UNTRANSPOSED K.C. Lee line calculated at 6.000E+01 HZ. ****
+C LINE CONSTANTS
+C UNTRANSPOSED
+C BRANCH SENDA RECA SENDB RECB SENDC RECC SENDD RECD SENDE RECE SENDF RECF
+C 1.3636 .0561 4 0.0 1.602 -20.75 48.9 48.9
+C 2.3636 .0561 4 0.0 1.602 -19.25 48.9 48.9
+C 3.3636 .0561 4 0.0 1.602 - 0.75 76.4 76.4
+C 4.3636 .0561 4 0.0 1.602 0.75 76.4 76.4
+C 5.3636 .0561 4 0.0 1.602 19.25 48.9 48.9
+C 6.3636 .0561 4 0.0 1.602 20.75 48.9 48.9
+C 7.3636 .0561 4 0.0 1.602 129.25 48.9 48.9
+C 8.3636 .0561 4 0.0 1.602 130.75 48.9 48.9
+C 9.3636 .0561 4 0.0 1.602 149.25 76.4 76.4
+C 10.3636 .0561 4 0.0 1.602 150.75 76.4 76.4
+C 11.3636 .0561 4 0.0 1.602 169.25 48.9 48.9
+C 12.3636 .0561 4 0.0 1.602 170.75 48.9 48.9
+C 0.5 2.61 4 0.0 .386 -12.9 113.3 113.3
+C 0.5 2.61 4 0.0 .386 12.9 113.3 113.3
+C 0.5 2.61 4 0.0 .386 137.1 113.3 113.3
+C 0.5 2.61 4 0.0 .386 162.9 113.3 113.3
+C BLANK card ending conductors
+C 100. 60. 1 1 1 0 1.00 1
+C The transformation matrix was calculated at 6.00000000E+01 Hz.
+$VINTAGE, 1
+-1X2A X16A 1.14912E+00 1.75215E+03 1.01525E+05 1.00000E+01 1 C
+-2X2B X16B 6.19497E-02 9.62871E+02 1.65713E+05 1.00000E+01 1 C
+-3X2C X16C 5.97262E-02 5.78284E+02 1.83535E+05 1.00000E+01 1 C
+-4Y2A Y16A 5.97524E-02 5.59985E+02 1.82228E+05 1.00000E+01 1 C
+-5Y2B Y16B 5.98876E-02 5.82992E+02 1.82687E+05 1.00000E+01 1 C
+-6Y2C Y16C 5.96998E-02 5.56016E+02 1.82902E+05 1.00000E+01 1 C
+-7Z2A Z16A 5.97012E-02 1.92804E+02 1.80238E+05 1.00000E+01 1 C
+-8Z2B Z16B 5.97049E-02 1.92894E+02 1.80244E+05 1.00000E+01 1 C
+-9Z2C Z16C 5.94864E-02 1.92175E+02 1.80244E+05 1.00000E+01 1 C
+10W2A W16A 5.95010E-02 1.92143E+02 1.80241E+05 1.00000E+01 1 C
+11W2B W16B 5.97067E-02 1.92840E+02 1.80242E+05 1.00000E+01 1 C
+12W2C W16C 5.95997E-02 1.92503E+02 1.80243E+05 1.00000E+01 1 C
+$VINTAGE, 0
+ 0.30335730 -0.37506487 0.29831824 -0.10365425 -0.39860454 0.20962178
+ 0.36034135 0.33997765 0.35680566 0.32758780 0.04763939 -0.05265715
+ 0.00000000 0.00000000 0.00000000 0.00000000 0.00000000 0.00000000
+ 0.00000000 0.00000000 0.00000000 0.00000000 0.00000000 0.00000000
+ 0.29470036 -0.36058522 0.29625909 -0.10364356 -0.39806545 0.20770839
+ -0.36375595 -0.34011075 -0.35574761 -0.33324900 -0.04580113 0.05838452
+ 0.00000000 0.00000000 0.00000000 0.00000000 0.00000000 0.00000000
+ 0.00000000 0.00000000 0.00000000 0.00000000 0.00000000 0.00000000
+ 0.26415953 -0.25096956 -0.01124173 0.39829551 0.10536839 -0.41956493
+ 0.08491003 -0.02280779 0.02810499 -0.07847495 -0.49238512 -0.49092616
+ 0.00000000 0.00000000 0.00000000 0.00000000 0.00000000 0.00000000
+ 0.00000000 0.00000000 0.00000000 0.00000000 0.00000000 0.00000000
+ 0.26401132 -0.24090177 -0.01560789 0.39665770 0.10887745 -0.42016964
+ -0.08456459 0.02411961 -0.02519738 0.07618869 0.49208187 0.49249548
+ 0.00000000 0.00000000 0.00000000 0.00000000 0.00000000 0.00000000
+ 0.00000000 0.00000000 0.00000000 0.00000000 0.00000000 0.00000000
+ 0.29682413 -0.23791081 -0.40079088 -0.28385641 0.28231063 0.17321915
+ 0.33616659 -0.36633112 -0.34919591 0.36745215 0.07335095 -0.07279138
+ 0.00000000 0.00000000 0.00000000 0.00000000 0.00000000 0.00000000
+ 0.00000000 0.00000000 0.00000000 0.00000000 0.00000000 0.00000000
+ 0.30584186 -0.22734050 -0.40278216 -0.28629129 0.28284666 0.17416603
+ -0.33236556 0.36529364 0.35038662 -0.36694306 -0.07526426 0.07042439
+ 0.00000000 0.00000000 0.00000000 0.00000000 0.00000000 0.00000000
+ 0.00000000 0.00000000 0.00000000 0.00000000 0.00000000 0.00000000
+ 0.30584186 0.22734050 0.40278216 -0.28629129 0.28284666 -0.17416603
+ -0.33236556 0.36529364 -0.35038662 0.36694306 -0.07526426 -0.07042439
+ 0.00000000 0.00000000 0.00000000 0.00000000 0.00000000 0.00000000
+ 0.00000000 0.00000000 0.00000000 0.00000000 0.00000000 0.00000000
+ 0.29682413 0.23791081 0.40079088 -0.28385641 0.28231063 -0.17321915
+ 0.33616659 -0.36633112 0.34919591 -0.36745215 0.07335095 0.07279138
+ 0.00000000 0.00000000 0.00000000 0.00000000 0.00000000 0.00000000
+ 0.00000000 0.00000000 0.00000000 0.00000000 0.00000000 0.00000000
+ 0.26401132 0.24090177 0.01560789 0.39665770 0.10887745 0.42016964
+ -0.08456459 0.02411961 0.02519738 -0.07618869 0.49208187 -0.49249548
+ 0.00000000 0.00000000 0.00000000 0.00000000 0.00000000 0.00000000
+ 0.00000000 0.00000000 0.00000000 0.00000000 0.00000000 0.00000000
+ 0.26415953 0.25096956 0.01124173 0.39829551 0.10536839 0.41956493
+ 0.08491003 -0.02280779 -0.02810499 0.07847495 -0.49238512 0.49092616
+ 0.00000000 0.00000000 0.00000000 0.00000000 0.00000000 0.00000000
+ 0.00000000 0.00000000 0.00000000 0.00000000 0.00000000 0.00000000
+ 0.29470036 0.36058522 -0.29625909 -0.10364356 -0.39806545 -0.20770839
+ -0.36375595 -0.34011075 0.35574761 0.33324900 -0.04580113 -0.05838452
+ 0.00000000 0.00000000 0.00000000 0.00000000 0.00000000 0.00000000
+ 0.00000000 0.00000000 0.00000000 0.00000000 0.00000000 0.00000000
+ 0.30335730 0.37506487 -0.29831824 -0.10365425 -0.39860454 -0.20962178
+ 0.36034135 0.33997765 -0.35680566 -0.32758780 0.04763939 0.05265715
+ 0.00000000 0.00000000 0.00000000 0.00000000 0.00000000 0.00000000
+ 0.00000000 0.00000000 0.00000000 0.00000000 0.00000000 0.00000000
+ 1X16C X17C .6198 5.596 .08325
+ 2X16A X17A .4545 2.698 -.0156.6110 5.606 .079
+ 3X16B X17B .459 2.5945-.0107.4545 2.6975-.0156.6198 5.596 .08325
+ 1X17C X18C X16C X17C
+ 2X17A X18A
+ 3X17B X18B
+ 1X18C X19C X16C X17C
+ 2X18A X19A
+ 3X18B X19B
+ 1X19A X20A X16C X17C
+ 2X19B X20B
+ 3X19C X20C
+ 1X20A X21A X16C X17C
+ 2X20B X21B
+ 3X20C X21C
+ 1X21A X22A X16C X17C
+ 2X21B X22B
+ 3X21C X22C
+ 1X22A X23A X16C X17C
+ 2X22B X23B
+ 3X22C X23C
+ 1X23A X24A X16C X17C
+ 2X23B X24B
+ 3X23C X24C
+ 1X24A X25A X16C X17C
+ 2X24B X25B
+ 3X24C X25C
+ 1X25A X26A X16C X17C
+ 2X25B X26B
+ 3X25C X26C
+ 1X26A X27A X16C X17C
+ 2X26B X27B
+ 3X26C X27C
+ 1X27A X28A X16C X17C
+ 2X27B X28B
+ 3X27C X28C
+ 1X28A X29A X16C X17C
+ 2X28B X29B
+ 3X28C X29C
+ 1X29A X30A X16C X17C
+ 2X29B X30B
+ 3X29C X30C
+ 1X30A X31A X16C X17C
+ 2X30B X31B
+ 3X30C X31C
+ 1X31A X32A X16C X17C
+ 2X31B X32B
+ 3X31C X32C
+C 3 July 1987. Change 3 column-80 "1"-punches to "2"-punches that do work:
+-1Y16C Y17C .316 752. 123.E3 31. 1 2
+-2Y16B Y17B .03 370. 179.E3 31. 1 2
+-3Y16A Y17A 2
+-1g2a h16a x2a X16A
+-2G2B H16B
+-3G2C H16C
+-4I2A J16A
+-5I2B J16B
+-6I2C J16C
+-7K2A L16A
+-8K2B L16B
+-9K2C L16C
+10M2A N16A
+11M2B N16B
+12M2C N16C
+BLANK card ending branch cards
+ CJC X32C -1. .016 0.1
+ RAC XC -1. .016 0.1 2
+ X16C T -1. .2 0.
+BLANK card ending switch cards
+14VA 305418. 60. -1.5 -1.
+14VB 305418. 60. -121.5 -1.
+14VC 305418. 60. 118.5 -1.
+14RAGA 301954. 60. 0.0 -1.
+14RAGB 301954. 60. -120.0 -1.
+14RAGC 301954. 60. 120.0 -1.
+14CJGA 303109. 60. 12.0 -1.
+14CJGB 303109. 60. -108.0 -1.
+14CJGC 303109. 60. 132.0 -1.
+BLANK card ending source cards
+C Total network loss P-loss by summing injections = 5.708080191840E+08
+C Output for steady-state phasor switch currents.
+C Node-K Node-M I-real I-imag I-magn Degrees Power Reactive
+C CJC X32C -6.21065330E+02 1.57458110E+03 1.69263930E+03 111.5259 2.40322338E+08 4.96188048E+07
+C RAC XC -6.06503594E+01 2.47344060E+03 2.47418408E+03 91.4046 3.31199214E+08 1.20268815E+08
+C X16C T -6.46661404E+02 4.07264272E+03 4.12366217E+03 99.0222 5.52649166E+08 1.89871207E-06
+ X16C { Request this single node-voltage output
+C First 8 output variables are electric-network voltage differences (upper voltage minus lower voltage);
+C Next 9 output variables are branch currents (flowing from the upper node to the lower node);
+C Step Time X16B X16C X16A Y16C Y16B Y16A RAC X16C CJA
+C T T T Y17C Y17B Y17A XC X32A
+C
+C CJB RAGA RAGB RAGC RAA RAB RAC T
+C X32B RAA RAB RAC YA YB YC TERRA
+C *** Phasor I(0) = -6.2106533E+02 Switch "CJC " to "X32C " closed in the steady-state.
+C *** Phasor I(0) = -6.0650359E+01 Switch "RAC " to "XC " closed in the steady-state.
+C *** Phasor I(0) = -6.4666140E+02 Switch "X16C " to "T " closed in the steady-state.
+C 0 0.0 -63837.09 0.0 377260.007 32764.4014 24017.9784 21291.3218 0.0 -42032.991 598.323353
+C -145.40932 -352.27263 295.489606 -144.63644 283.14372 -51.233037 -83.986082 -646.6614
+C 1 .5E-4 -53711.224 0.0 381855.471 32798.4874 24089.8935 21193.2909 0.0 -47014.919 596.678913
+C -131.63008 -353.37225 289.515678 -178.84475 284.649951 -45.380437 -71.585788 -723.30645
+C 2 .1E-3 -43566.965 0.0 386316.48 32824.0043 24159.2461 21076.3336 0.0 -51980.139 594.822465
+C -117.80398 -354.34516 283.438317 -212.99004 286.055173 -39.511164 -59.16047 -799.69444
+BLANK card terminating output variables
+C 500 .025 149624.777 0.0 -298261.85 4374.68263 -18173.961 -13033.335 185947.331 -35731.867 -361.54769
+C 388.671649 166.782434 -493.57721 134.850181 -195.89164 122.275295 134.850181 -549.72103
+C Variable maxima : 540343.158 0.0 451172.573 32841.895 36778.8088 26530.3773 193304.481 268020.042 603.893663
+C 1148.19813 357.764813 431.20547 1821.97555 297.752821 465.041684 662.283206 4123.38527
+C Times of maxima : .0045 0.0 .00155 .2E-3 .0187 .01765 .0249 .0121 .0163
+C .0221 .0088 .0145 .0123 .01675 .0216 .0045 .0121
+C Variable minima : -540349.47 0.0 -451154.75 -32840.801 -24394.349 -21958.885 -184991.56 -268026.03 -603.79512
+C -744.05263 -505.82794 -730.21734 -1821.9838 -294.72028 -314.26652 -662.51315 -4123.4773
+C Times of minima : .0128 0.0 .00985 .0085 .0088 .0077 .0195 .00375 .00795
+C .013 .01895 .0223 .00395 .0091 .01295 .01285 .00375
+ PRINTER PLOT { Axis limits: (-3.870, 2.119)
+ Voltage across switch (RAC,XC), which opens at 16 milliseconds.
+ 184 1. 15. 30. RAC XC Recovery voltage
+C $WATCH, 9999, { Turn off echoing of cards to CRT, in case other solutions follow
+BLANK card terminating plot cards
+BEGIN NEW DATA CASE
+C 11th of 19 subcases illustration use of Semlyen freq-dependent line with
+C the reference branch. This may never have worked prior to correction by
+C BPA's Dr. Tsu-huei Liu on February 10, 1998.
+PRINTED NUMBER WIDTH, 13, 2, { Request maximum precision (for 8 output columns)
+ 100.E-6 20.E-3 60.
+ 1 1 1 1 1 -1
+ 5 5 20 20
+C <++++++> Cards punched by support routine on 11-Nov-18 11.00.00 <++++++>
+C SEMLYEN SETUP
+C $ERASE
+C BRANCH SENDA RECA SENDB RECB SENDC RECC
+C TOLERANCES 10 5000. { Illustration only; value of FMED actually unchang
+C 200 150 10 230 1 7 7777 0 { Semlyen miscellaneous da
+C LINE CONSTANTS
+C 1.3636 .05215 4 1.602 -20.75 50. 50.
+C 1.3636 .05215 4 1.602 -19.25 50. 50.
+C 2.3636 .05215 4 1.602 - 0.75 77.5 77.5
+C 2.3636 .05215 4 1.602 0.75 77.5 77.5
+C 3.3636 .05215 4 1.602 19.25 50. 50.
+C 3.3636 .05215 4 1.602 20.75 50. 50.
+C 0.5 2.61 4 0.386 -12.9 98.5 98.5
+C 0.5 2.61 4 0.386 12.9 98.5 98.5
+C BLANK card ending conductor cards within "LINE CONSTANTS" data
+C 100. 5000. 100. { Transient frequen
+C 100. 60.00 100. { Phasor solution frequen
+C 100. 6.00 100. 6 20 { log loopi
+C BLANK card ending frequency cards of "LINE CONSTANTS" data
+C BLANK card ending "LINE CONSTANTS" data cases
+C L= 100.0 miles, rho= 100.0, ss freq= 60.00, NSS=0, KFIT=10, KPS=2, KYC=30
+-1ASW1 A5A001 5.73657E-03 5.80501E-04 1 1 2 2 3
+ 1.29532159E+01 6.90147263E+01-1.54971081E-04 1.00826561E-03 6.00000000E+01
+ 0.00000E+00 1.99246E+04 7.80012E-01 0.00000E+00 2.39630E+03 2.19988E-01
+ 0.00000E+00 2.93896E+05-8.84697E-04 0.00000E+00 6.44826E+02-1.46889E-03
+-1BSW1 B5B001 6.99857E-03 5.37300E-04 2 2 2 2 3
+ 3.65631810E-01 3.01288921E+01-1.20641047E-05 1.41887940E-03 6.00000000E+01
+ 0.00000E+00 2.54663E+05 9.79674E-01 0.00000E+00 2.72320E+03 2.03258E-02
+ 0.00000E+00 9.43770E+03-1.26448E-04 0.00000E+00 5.92472E+01-4.28807E-04
+-1CSW1 C5C001 4.15601E-03 5.36306E-04 3 3 2 2 3
+ 1.50114817E+00 5.16927471E+01-1.74676422E-05 8.35146102E-04 6.00000000E+01
+ 0.00000E+00 6.39606E+05 9.69072E-01 0.00000E+00 2.23039E+03 3.09277E-02
+ 0.00000E+00 2.10503E+03-1.22603E-04 0.00000E+00 9.26329E+01-3.41262E-04
+ 1.00000E+00 0.00000E+00 1.00000E+00 0.00000E+00-2.75271E-01 0.00000E+00
+ 7.22689E-01 0.00000E+00 4.43389E-13 0.00000E+00 1.00000E+00 0.00000E+00
+ 1.00000E+00 0.00000E+00-1.00000E+00 0.00000E+00-2.75271E-01 0.00000E+00
+ 4.17084E-01 0.00000E+00 5.00000E-01 0.00000E+00-3.01620E-01 0.00000E+00
+ 2.29906E-01 0.00000E+00 3.55101E-13 0.00000E+00 8.34169E-01 0.00000E+00
+ 4.17084E-01 0.00000E+00-5.00000E-01 0.00000E+00-3.01620E-01 0.00000E+00
+C Following 3 lines represent a request to copy the preceding Semlyen line:
+-1A5A001A5A ASW1 A5A001
+-1B5B001B5B
+-1C5C001C5C
+ 0A5A 1. 1
+ 0B5B 1. 1
+ 0C5C 1. 1
+ 0A5A001 1.E-3
+ 0B5B001 1.E-3
+ 0C5C001 1.E-3
+BLANK card ending branch cards
+BLANK card ending switch cards
+14ASW1 303. 60. 0.0 -1.
+14BSW1 303. 60. -120.0 -1.
+14CSW1 303. 60. 120.0 -1.
+BLANK card ending source cards
+C Total network loss P-loss by summing injections = 3.478547602183E+01
+C Node Source node voltage Injected source current Injected source power
+C name Rectangular Polar Rectangular Polar P and Q MVA and P.F.
+C ASW1 303. 303. -.007672733214 2.2866979764936 -1.162419081925 346.43474343878
+C 0.0 0.0 -2.286685104002 -90.1922493 346.43279325631 -0.0033554
+ A5A B5B C5C
+C First 3 output variables are electric-network voltage differences (upper voltage minus lower voltage);
+C Next 3 output variables are branch currents (flowing from the upper node to the lower node);
+C Step Time A5A B5B C5C A5A B5B C5C
+C TERRA TERRA TERRA
+C 0 0.0 -.002405895 -2.431628 2.160402643 -.002405895 -2.431628 2.160402643
+C 1 .1E-3 .0926479698 -2.47879177 2.105633323 .0926479698 -2.47879177 2.105633323
+C 2 .2E-3 .1868259501 -2.52268804 2.047550504 .1868259501 -2.52268804 2.047550504
+C 3 .3E-3 .2807444168 -2.56299298 1.986561992 .2807444168 -2.56299298 1.986561992
+BLANK card ending the specification of program outputs (node voltages, here)
+C 200 .02 2.378651095 -1.98862739 -.684703165 2.378651095 -1.98862739 -.684703165
+C Variable max : 2.500671273 2.761895332 2.587232808 2.500671273 2.761895332 2.587232808
+C Times of max : .0042 .0096 .0151 .0042 .0096 .0151
+C Variable min : -2.50519884 -2.75808205 -2.58528784 -2.50519884 -2.75808205 -2.58528784
+C Times of min : .0125 .018 .0068 .0125 .018 .0068
+BLANK card ending plot cards
+BEGIN NEW DATA CASE
+C 12th of 19 subcases is added 11 December 2000 as first of many to illustrate
+C the current output that results from column-80 punches. This begins with
+C wide-format for a 1-phase K.C. Lee (constant-parameter) representation. For
+C all cases, line length typically is 138 miles, corresponding to BPA's
+C famous 500-kV line from John Day to Lower Monumental.
+PRINTED NUMBER WIDTH, 13, 2, { Request maximum precision (for 8 output columns)
+ 100.E-6 100.E-6 60.
+ 1 1 1 1
+$VINTAGE, 1
+-1SEND REC 3.01533E-01 6.91823E+02 1.19371E+05 1.38000E+02 1 1
+$VINTAGE, 0
+ REC 1.
+BLANK card ending branch cards
+ GEN SEND -1. 1.0 1
+BLANK card ending switch cards
+14GEN 303. 60. 0.0 -1.
+BLANK card ending source cards
+C Total network loss P-loss by summing injections = 2.099556401229E+01
+C Output for steady-state phasor switch currents.
+C Node-K Node-M I-real I-imag I-magn Degrees Power Reactive
+C GEN SEND 1.38584581E-01 -9.21004378E-01 9.31372509E-01 -81.4428 2.09955640E+01 1.39532163E+02
+C GEN
+C SEND 303. 303. .13858458093924 .93137250869232 20.995564012295 141.10293506689
+C 0.0 0.0 -.9210043777712 -81.4428358 139.53216323234 0.1487961
+ REC
+C First 1 output variables are electric-network voltage differences (upper voltage minus lower voltage);
+C Next 2 output variables are branch currents (flowing from the upper node to the lower node);
+C Step Time REC GEN SEND
+C SEND REC
+C *** Phasor I(0) = 1.3858458E-01 Switch "GEN " to "SEND " closed in the steady-state.
+C 0 0.0 .1379357038 .1385845809 .1385845809
+C 1 .1E-3 .1761761692 .173243844 .173243844
+BLANK card ending the specification of program outputs (node voltages, here)
+BLANK card ending plot cards
+BEGIN NEW DATA CASE
+C 13th of 19 subcases is like preceding, but for 3 phases rather than 1.
+C Wide format continues to be used for the K.C. branch cards. Current
+C outputs are requested for all 3 phases.
+PRINTED NUMBER WIDTH, 13, 2, { Request maximum precision (for 8 output columns)
+ 100.E-6 500.E-6 60.
+ 1 1 1 1
+$VINTAGE, 1
+-1ASW1 A5 3.01533E-01 6.91823E+02 1.19371E+05 1.38000E+02 1 1
+-2BSW1 B5 2.80266E-02 2.83599E+02 1.82176E+05 1.38000E+02 1 1
+-3CSW1 C5 1
+$VINTAGE, 0
+ 0A5 1.
+ 0B5 1.
+ 0C5 1.
+BLANK card ending branch cards
+ GENA ASW1 MEASURING 1
+ GENB BSW1 MEASURING 1
+ GENC CSW1 MEASURING 1
+BLANK card ending switch cards
+14GENA 303. 60. 0.0 -1.
+14GENB 303. 60. -120.0 -1.
+14GENC 303. 60. 120.0 -1.
+BLANK card ending source cards
+C Total network loss P-loss by summing injections = 1.021565901142E+02
+C Output for steady-state phasor switch currents.
+C Node-K Node-M I-real I-imag I-magn Degrees Power Reactive
+C GENA ASW1 2.24766975E-01 -3.62554051E+00 3.63250109E+00 -86.4525 3.40521967E+01 5.49269387E+02
+C GENB BSW1 -3.25219367E+00 1.61811634E+00 3.63250109E+00 153.5475 3.40521967E+01 5.49269387E+02
+C GENC CSW1 3.02742669E+00 2.00742416E+00 3.63250109E+00 33.5475 3.40521967E+01 5.49269387E+02
+ A5 B5
+C First 2 output variables are electric-network voltage differences (upper voltage minus lower voltage);
+C Next 6 output variables are branch currents (flowing from the upper node to the lower node);
+C Step Time A5 B5 GENA GENB GENC ASW1 BSW1 CSW1
+C ASW1 BSW1 CSW1 A5 B5 C5
+C *** Phasor I(0) = 2.2476697E-01 Switch "GENA " to "ASW1 " closed in the steady-state.
+C *** Phasor I(0) = -3.2521937E+00 Switch "GENB " to "BSW1 " closed in the steady-state.
+C *** Phasor I(0) = 3.0274267E+00 Switch "GENC " to "CSW1 " closed in the steady-state.
+C 0 0.0 .2227758056 -3.38431697 .2247669749 -3.25219367 3.027426695 .2247669749 -3.25219367 3.027426695
+C 1 .1E-3 .3649936277 -3.44526228 .3613753872 -3.31038064 2.949005255 .3613753872 -3.31038064 2.949005255
+C 2 .2E-3 .5067326952 -3.5018999 .4973255933 -3.36433648 2.86701089 .4973255933 -3.36433648 2.86701089
+C 3 .3E-3 .6477516678 -3.55356113 .6325690725 -3.41351142 2.780942346 .6325690725 -3.41351142 2.780942346
+C 4 .4E-3 .7878501498 -3.60017255 .7669136365 -3.45783557 2.69092193 .7669136365 -3.45783557 2.69092193
+C 5 .5E-3 .9268290537 -3.64166793 .9001683742 -3.49724594 2.597077567 .9001683742 -3.49724594 2.597077567
+BLANK card ending the specification of program outputs (node voltages, here)
+BLANK card ending plot cards
+BEGIN NEW DATA CASE
+C 14th of 19 subcases is like preceding, but it uses the old, narrow-format
+C branch cards for the K.C. Lee circuit.
+PRINTED NUMBER WIDTH, 13, 2, { Request maximum precision (for 8 output columns)
+ 100.E-6 500.E-6 60.
+ 1 1 1 1
+-1ASW1 A5 .30153691.821.19E5 138.0 1 1
+-2BSW1 B5 .02803283.601.82E5 138.0 1 1
+-3CSW1 C5 1
+ 0A5 1.
+ 0B5 1.
+ 0C5 1.
+BLANK card ending branch cards
+ GENA ASW1 -1. 1.0 1
+ GENB BSW1 -1. 1.0 1
+ GENC CSW1 -1. 1.0 1
+BLANK card ending switch cards
+14GENA 303. 60. 0.0 -1.
+14GENB 303. 60. -120.0 -1.
+14GENC 303. 60. 120.0 -1.
+BLANK card ending source cards
+C Total network loss P-loss by summing injections = 1.019696658302E+02
+C Output for steady-state phasor switch currents.
+C Node-K Node-M I-real I-imag I-magn Degrees Power Reactive
+C GENA ASW1 2.24355700E-01 -3.62184975E+00 3.62879196E+00 -86.4553 3.39898886E+01 5.48710237E+02
+C GENB BSW1 -3.24879174E+00 1.61662714E+00 3.62879196E+00 153.5447 3.39898886E+01 5.48710237E+02
+C GENC CSW1 3.02443604E+00 2.00522261E+00 3.62879196E+00 33.5447 3.39898886E+01 5.48710237E+02
+ A5 B5
+C First 2 output variables are electric-network voltage differences (upper voltage minus lower voltage);
+C Next 6 output variables are branch currents (flowing from the upper node to the lower node);
+C Step Time A5 B5 GENA GENB GENC ASW1 BSW1 CSW1
+C ASW1 BSW1 CSW1 A5 B5 C5
+C *** Phasor I(0) = 2.2435570E-01 Switch "GENA " to "ASW1 " closed in the steady-state.
+C *** Phasor I(0) = -3.2487917E+00 Switch "GENB " to "BSW1 " closed in the steady-state.
+C *** Phasor I(0) = 3.0244360E+00 Switch "GENC " to "CSW1 " closed in the steady-state.
+C 0 0.0 .2223643001 -3.38104477 .2243557004 -3.24879174 3.024436039 .2243557004 -3.24879174 3.024436039
+C 1 .1E-3 .3644492408 -3.44194246 .3608247082 -3.30692783 2.946103123 .3608247082 -3.30692783 2.946103123
+C 2 .2E-3 .50605606 -3.49853389 .4966370192 -3.36083496 2.864197938 .4966370192 -3.36083496 2.864197938
+C 3 .3E-3 .6469437457 -3.55015371 .6317435818 -3.40996615 2.77822257 .6317435818 -3.40996615 2.77822257
+C 4 .4E-3 .7869120891 -3.59672857 .7659524022 -3.4542516 2.688299197 .7659524022 -3.4542516 2.688299197
+C 5 .5E-3 .9257621872 -3.63819228 .8990727624 -3.49362837 2.594555603 .8990727624 -3.49362837 2.594555603
+BLANK card ending the specification of program outputs (node voltages, here)
+BLANK card ending plot cards
+BEGIN NEW DATA CASE
+C 15th of 19 subcases is like preceding 13th in that it is wide format and it
+C has current output of all 3 K.C. Lee phases. But the 13th was transposed
+C whereas this is untransposed (note the minus sign on the length of 138 miles
+C and the number of phases in column 79 --- two characteristic differences).
+PRINTED NUMBER WIDTH, 13, 2, { Request maximum precision (for 8 output columns)
+ 100.E-6 500.E-6 60.
+ 1 1 1 1
+$VINTAGE, 1
+-1ASW1 A5 3.01532E-01 6.91748E+02 1.19375E+05 1.38000E+02 1 31
+-2BSW1 B5 2.80361E-02 2.90916E+02 1.82804E+05 1.38000E+02 1 31
+-3CSW1 C5 2.80251E-02 2.76507E+02 1.81679E+05 1.38000E+02 1 31
+$VINTAGE, 0
+ 0.58094800 0.70710678 -0.40960438
+ 0.00000000 0.00000000 0.00000000
+ 0.57008669 0.00000000 0.81513711
+ 0.00000000 0.00000000 0.00000000
+ 0.58094800 -0.70710678 -0.40960438
+ 0.00000000 0.00000000 0.00000000
+ 0A5 1.
+ 0B5 1.
+ 0C5 1.
+BLANK card ending branch cards
+ GENA ASW1 -1. 1.0 1
+ GENB BSW1 -1. 1.0 1
+ GENC CSW1 -1. 1.0 1
+BLANK card ending switch cards
+14GENA 303. 60. 0.0 -1.
+14GENB 303. 60. -120.0 -1.
+14GENC 303. 60. 120.0 -1.
+BLANK card ending source cards
+C Total network loss P-loss by summing injections = 1.023278079456E+02
+C Output for steady-state phasor switch currents.
+C Node-K Node-M I-real I-imag I-magn Degrees Power Reactive
+C GENA ASW1 3.00196560E-01 -3.58378164E+00 3.59633269E+00 -85.2118 4.54797788E+01 5.42942919E+02
+C GENB BSW1 -3.31711311E+00 1.64521103E+00 3.70269614E+00 153.6197 3.54149452E+01 5.59839425E+02
+C GENC CSW1 3.04992391E+00 1.92423276E+00 3.60620404E+00 32.2483 2.14330840E+01 5.45919337E+02
+ A5 B5
+C First 2 output variables are electric-network voltage differences (upper voltage minus lower voltage);
+C Next 6 output variables are branch currents (flowing from the upper node to the lower node);
+C Step Time A5 B5 GENA GENB GENC ASW1 BSW1 CSW1
+C ASW1 BSW1 CSW1 A5 B5 C5
+C *** Phasor I(0) = 3.0019656E-01 Switch "GENA " to "ASW1 " closed in the steady-state.
+C *** Phasor I(0) = -3.3171131E+00 Switch "GENB " to "BSW1 " closed in the steady-state.
+C *** Phasor I(0) = 3.0499239E+00 Switch "GENC " to "CSW1 " closed in the steady-state.
+C 0 0.0 .3028039653 -3.45224148 .3001965596 -3.31711311 3.049923907 .3001965596 -3.31711311 3.049923907
+C 1 .1E-3 .4433227265 -3.51422565 .4351711184 -3.37627258 2.974621043 .4351711184 -3.37627258 2.974621043
+C 2 .2E-3 .5832573875 -3.57180736 .5693890004 -3.43110981 2.895709537 .5693890004 -3.43110981 2.895709537
+C 3 .3E-3 .7223632078 -3.62431333 .7027977494 -3.48107125 2.81268307 .7027977494 -3.48107125 2.81268307
+C 4 .4E-3 .8604425105 -3.67166896 .8352077844 -3.52608589 2.725659627 .8352077844 -3.52608589 2.725659627
+C 5 .5E-3 .9972990773 -3.71380695 .9664309434 -3.56608978 2.634762871 .9664309434 -3.56608978 2.634762871
+BLANK card ending the specification of program outputs (node voltages, here)
+BLANK card ending plot cards
+BEGIN NEW DATA CASE
+C 16th of 19 subcases is like preceding subcase, but narrow-format rather
+C than wide format.
+PRINTED NUMBER WIDTH, 13, 2, { Request maximum precision (for 8 output columns)
+ 100.E-6 500.E-6 60.
+ 1 1 1 1
+-1ASW1 A5 .30153691.751.19E5138.0 1 3 1
+-2BSW1 B5 .02804290.921.83E5138.0 1 3 1
+-3CSW1 C5 .02803276.511.82E5138.0 1 3 1
+ 0.58094800 0.70710678 -0.40960438
+ 0.00000000 0.00000000 0.00000000
+ 0.57008669 0.00000000 0.81513711
+ 0.00000000 0.00000000 0.00000000
+ 0.58094800 -0.70710678 -0.40960438
+ 0.00000000 0.00000000 0.00000000
+ 0A5 1.
+ 0B5 1.
+ 0C5 1.
+BLANK card ending branch cards
+ GENA ASW1 -1. 1.0 1
+ GENB BSW1 -1. 1.0 1
+ GENC CSW1 -1. 1.0 1
+BLANK card ending switch cards
+14GENA 303. 60. 0.0 -1.
+14GENB 303. 60. -120.0 -1.
+14GENC 303. 60. 120.0 -1.
+BLANK card ending source cards
+C Total network loss P-loss by summing injections = 1.026297675962E+02
+C Output for steady-state phasor switch currents.
+C Node-K Node-M I-real I-imag I-magn Degrees Power Reactive
+C GENA ASW1 3.02008125E-01 -3.58827965E+00 3.60096650E+00 -85.1890 4.57542310E+01 5.43624367E+02
+C GENB BSW1 -3.32346237E+00 1.64788748E+00 3.70957346E+00 153.6262 3.55447426E+01 5.60875207E+02
+C GENC CSW1 3.05443322E+00 1.92605659E+00 3.61099104E+00 32.2346 2.13307940E+01 5.46649127E+02
+ A5 B5
+C First 2 output variables are electric-network voltage differences (upper voltage minus lower voltage);
+C Next 6 output variables are branch currents (flowing from the upper node to the lower node);
+C Step Time A5 B5 GENA GENB GENC ASW1 BSW1 CSW1
+C ASW1 BSW1 CSW1 A5 B5 C5
+C *** Phasor I(0) = 3.0200813E-01 Switch "GENA " to "ASW1 " closed in the steady-state.
+C *** Phasor I(0) = -3.3234624E+00 Switch "GENB " to "BSW1 " closed in the steady-state.
+C *** Phasor I(0) = 3.0544332E+00 Switch "GENC " to "CSW1 " closed in the steady-state.
+C 0 0.0 .3045651846 -3.45834382 .3020081254 -3.32346237 3.054433225 .3020081254 -3.32346237 3.054433225
+C 1 .1E-3 .4452424723 -3.52041215 .4371493736 -3.38271232 2.979054128 .4371493736 -3.38271232 2.979054128
+C 2 .2E-3 .5853352634 -3.57807608 .5715325316 -3.43763659 2.900064351 .5715325316 -3.43763659 2.900064351
+C 3 .3E-3 .724596261 -3.63065537 .7051035107 -3.48767578 2.816953424 .7051035107 -3.48767578 2.816953424
+C 4 .4E-3 .8628275678 -3.6780753 .837672499 -3.53275879 2.729839452 .837672499 -3.53275879 2.729839452
+C 5 .5E-3 .9998327493 -3.72026849 .9690511089 -3.57282156 2.638846228 .9690511089 -3.57282156 2.638846228
+BLANK card ending the specification of program outputs (node voltages, here)
+BLANK card ending plot cards
+BEGIN NEW DATA CASE
+C 17th of 19 subcases is the same basic 3-phase configuration, but with
+C the K.C. Lee modeling replaced by JMARTI modeling.
+PRINTED NUMBER WIDTH, 13, 2, { Request maximum precision (for 8 output columns)
+ 100.E-6 500.E-6 60.
+ 1 1 1 1
+C PUNCHED CARD OUTPUT OF "JMARTI SETUP" WHICH BEGAN AT 14.32.51 09/14/82
+C 1.3636 .05215 4 1.602 -20.75 50. 50.
+C 1.3636 .05215 4 1.602 -19.25 50. 50.
+C 2.3636 .05215 4 1.602 - 0.75 77.5 77.5
+C 2.3636 .05215 4 1.602 0.75 77.5 77.5
+C 3.3636 .05215 4 1.602 19.25 50. 50.
+C 3.3636 .05215 4 1.602 20.75 50. 50.
+C 0.5 2.61 4 0.386 -12.9 98.5 98.5
+C 0.5 2.61 4 0.386 12.9 98.5 98.5
+C
+C 100. 5000. 1 138. 1 3-2
+C 100. 60.00 1 138. 1 3
+C 100. .01 1 138. 1 9 10 3
+C
+-1ASW1 A5 2. -2 3 1
+ 18 0.47487144790587633736E+03
+ -0.117967342612603676E+01 -0.316671345021416945E+01 0.255662317832426673E+02
+ -0.601654631032706213E+02 -0.118825306534453652E+03 0.128169142098635430E+04
+ 0.589610442538186533E+04 0.292891488173549769E+05 0.115665757459954655E+06
+ 0.456394278488149546E+06 0.153681652821077613E+07 0.681848054466802243E+07
+ 0.155477562610202006E+08 0.231789897204889809E+08 0.143827766961221036E+08
+ 0.241524708800130989E+08 0.245049034784953832E+08 0.476808364145524129E+08
+ 0.321645453133055891E+00 0.897616891499021768E+00 0.165632367032913183E+01
+ 0.166669419493737986E+01 0.253073682990780913E+01 0.200014655383098283E+02
+ 0.124257951002701473E+03 0.657345842950598183E+03 0.278623017775457413E+04
+ 0.117145310573639467E+05 0.427410884649070877E+05 0.202553264108715757E+06
+ 0.968789502295299084E+06 0.296908522006270138E+07 0.737968316276072920E+07
+ 0.121009167337626640E+08 0.132891445947112725E+08 0.252097199908134253E+08
+ 14 0.86849922355034181931E-03
+ 0.580543547692016874E-01 0.269744993210885436E+00 0.358646519088149721E+00
+ 0.775351125410302933E+00 0.512138885239557462E+01 0.838265420474258915E+01
+ 0.700229782114550385E+02 0.393084113996385128E+03 0.138208543918962840E+04
+ 0.706160326497018531E+03 0.527246586822120662E+04 0.528343251309079615E+05
+ 0.178307801042203880E+08 -0.178914532139174500E+08
+ 0.228360173022402533E+02 0.102750699821169636E+03 0.139222638455845377E+03
+ 0.269608322018776320E+03 0.389220463867018722E+03 0.427793721751318500E+03
+ 0.132148883486994549E+04 0.277178340638843952E+04 0.449341296469570784E+04
+ 0.596603161966094024E+04 0.114714152641659587E+05 0.268314807408425590E+05
+ 0.204027813729699328E+05 0.204231841543429041E+05
+-2BSW1 B5 2. -2 3 1
+ 13 0.28580875773089406522E+03
+ 0.381761604345214016E+04 -0.269529222495194318E+04 0.445018224900628539E+03
+ 0.214658130219351907E+03 0.897325461203551775E+02 0.130480129629523390E+03
+ 0.683037485206990933E+02 0.746626715384045969E+02 0.133938729387751110E+04
+ 0.249954495902361043E+04 0.187764116219525090E+05 0.391031620802855759E+06
+ 0.562668431190421223E+07
+ 0.358668999787749571E+01 0.376679186833120605E+01 0.706439034439901437E+01
+ 0.109721634064781350E+02 0.140506334140286961E+02 0.234292596911152251E+02
+ 0.407686998675834982E+02 0.797598814775078289E+02 0.129106739969348078E+04
+ 0.242138030939135859E+04 0.182362646041542116E+05 0.379814243183306855E+06
+ 0.548808385606378759E+07
+ 13 0.74123751236187229426E-03
+ 0.192189595814863363E+02 0.210970481418782463E+01 0.383406546226866283E+02
+ 0.307999912886148377E+02 0.634013410317139090E+03 -0.253243195247046863E+03
+ 0.210540381301789816E+05 0.755533947306502050E+05 0.229576557459444489E+07
+ 0.607777584135737231E+13 -0.156620677810598129E+13 0.153143851607186420E+13
+ -0.604300997216751013E+13
+ 0.325736126030671755E+04 0.366694913707514260E+03 0.675727697588602189E+04
+ 0.516024976370228876E+04 0.249456113770459378E+05 0.115067772934717399E+06
+ 0.105205466546493019E+06 0.240930799961836921E+06 0.633276538663731131E+06
+ 0.975820481990592802E+06 0.976796302472583498E+06 0.974176721795814519E+06
+ 0.975150898517610403E+06
+-3CSW1 C5 2. -2 3 1
+ 13 0.27248404992352924125E+03
+ 0.928429573805075023E+03 0.205756155237142632E+03 0.538106630554037608E+03
+ 0.105199818376817531E+03 0.821382476778671116E+02 0.133356875032521778E+03
+ 0.654774478488469374E+02 0.612546121562179922E+02 0.905544916173387175E+02
+ 0.973244316091135204E+03 0.267481871266201051E+04 0.138566411938941123E+05
+ 0.646075558955914967E+06
+ 0.297277477955690506E+01 0.413177069940672514E+01 0.739410817322770197E+01
+ 0.103072536754267949E+02 0.135874091964585515E+02 0.234792992956042887E+02
+ 0.384075708508238121E+02 0.692539345057236435E+02 0.997101922255402791E+02
+ 0.941460937860312015E+03 0.259295974388396348E+04 0.134538093446956691E+05
+ 0.628668738677182439E+06
+ 20 0.74871165651714274120E-03
+ 0.249456855794677017E-01 0.516637614002139312E+01 0.435227595525510835E+01
+ 0.696293545843379624E+01 0.113102519337405665E+02 0.107077756312168120E+02
+ 0.136526319661978881E+02 0.103057494642840792E+03 0.647491597081196815E+03
+ 0.221213037293261823E+04 0.164010494681972204E+05 0.517776934139508076E+05
+ 0.393233870054795443E+06 -0.101893253559274247E+05 -0.173413454816459129E+06
+ 0.524218185885897590E+06 0.711044562955687729E+12 -0.559640645251973480E+12
+ 0.582892127161358521E+12 -0.734296849907947113E+12
+ 0.887741958857318814E+01 0.183177145564733675E+04 0.151655674045953921E+04
+ 0.245910936284398730E+04 0.383273362703089043E+04 0.399285585783856465E+04
+ 0.496339281485561617E+04 0.253464455063045348E+05 0.272156609769823021E+05
+ 0.475215596432249440E+05 0.149791320991727040E+06 0.333884409922466803E+06
+ 0.541583000670874084E+06 0.670984155731562481E+06 0.569769858667429973E+06
+ 0.132622344670840449E+07 0.440534234233555838E+07 0.440974768467789434E+07
+ 0.436787151891064062E+07 0.437223939042955148E+07
+ 0.57154434 0.70710678 -0.41761362
+ 0.00000000 0.00000000 0.00000000
+ 0.58879039 0.00000000 0.80696823
+ 0.00000000 0.00000000 0.00000000
+ 0.57154434 -0.70710678 -0.41761362
+ 0.00000000 0.00000000 0.00000000
+ 0A5 1.
+ 0B5 1.
+ 0C5 1.
+BLANK card ending branch cards
+ GENA ASW1 -1. 1.0 1
+ GENB BSW1 -1. 1.0 1
+ GENC CSW1 -1. 1.0 1
+BLANK card ending switch cards
+14GENA 303. 60. 0.0 -1.
+14GENB 303. 60. -120.0 -1.
+14GENC 303. 60. 120.0 -1.
+BLANK card ending source cards
+C Total network loss P-loss by summing injections = 1.066927628344E+02
+C Output for steady-state phasor switch currents.
+C Node-K Node-M I-real I-imag I-magn Degrees Power Reactive
+C GENA ASW1 3.35189648E-01 -3.57914703E+00 3.59480814E+00 -84.6498 5.07812317E+01 5.42240775E+02
+C GENB BSW1 -3.30243673E+00 1.62411674E+00 3.68019613E+00 153.8123 3.70708395E+01 5.56315950E+02
+C GENC CSW1 3.05668356E+00 1.90837679E+00 3.60350057E+00 31.9777 1.88406917E+01 5.45605132E+02
+ A5 B5
+C First 2 output variables are electric-network voltage differences (upper voltage minus lower voltage);
+C Next 6 output variables are branch currents (flowing from the upper node to the lower node);
+C Step Time A5 B5 GENA GENB GENC ASW1 BSW1 CSW1
+C ASW1 BSW1 CSW1 A5 B5 C5
+C *** Phasor I(0) = 3.3518965E-01 Switch "GENA " to "ASW1 " closed in the steady-state.
+C *** Phasor I(0) = -3.3024367E+00 Switch "GENB " to "BSW1 " closed in the steady-state.
+C *** Phasor I(0) = 3.0566836E+00 Switch "GENC " to "CSW1 " closed in the steady-state.
+C 0 0.0 .3364801616 -3.43708937 .3351896479 -3.30243673 3.056683557 .3351896479 -3.30243673 3.056683557
+C 1 .1E-3 .4768147829 -3.49823033 .4699942576 -3.36074443 2.9818637 .4699942576 -3.36074443 2.9818637
+C 2 .2E-3 .6165162541 -3.55507115 .6039611281 -3.41481401 2.903532996 .6039611281 -3.41481401 2.903532996
+C 3 .3E-3 .7553410187 -3.60686214 .7370685919 -3.46403253 2.821077973 .7370685919 -3.46403253 2.821077973
+C 4 .4E-3 .8930920166 -3.65352808 .8691280945 -3.50832883 2.734614537 .8691280945 -3.50832883 2.734614537
+C 5 .5E-3 1.029573754 -3.69500248 .9999522851 -3.54763983 2.644265375 .9999522851 -3.54763983 2.644265375
+BLANK card ending the specification of program outputs (node voltages, here)
+BLANK card ending plot cards
+BEGIN NEW DATA CASE
+C 19th of 19 subcases is like preceding 14th subcase. But that had normal
+C K. C. Lee modeling whereas this is distortionless (note "1" in column 54).
+C End of subcases that were added 11 December 2000 to illustrate selective
+C current output as should be explained in the April, 2001, newsletter.
+PRINTED NUMBER WIDTH, 13, 2, { Request maximum precision (for 8 output columns)
+ 100.E-6 500.E-6 60.
+ 1 1 1 1
+-1ASW1 A5 .30153691.821.19E5 138.0 1 1 1
+-2BSW1 B5 .02803283.601.82E5 138.0 1 1 1
+-3CSW1 C5 1 1
+ 0A5 1.
+ 0B5 1.
+ 0C5 1.
+BLANK card ending branch cards
+ GENA ASW1 -1. 1.0 1
+ GENB BSW1 -1. 1.0 1
+ GENC CSW1 -1. 1.0 1
+BLANK card ending switch cards
+14GENA 303. 60. 0.0 -1.
+14GENB 303. 60. -120.0 -1.
+14GENC 303. 60. 120.0 -1.
+BLANK card ending source cards
+C Total network loss P-loss by summing injections = 6.310523799541E+01
+C Output for steady-state phasor switch currents.
+C Node-K Node-M I-real I-imag I-magn Degrees Power Reactive
+C GENA ASW1 1.38845408E-01 -3.63039320E+00 3.63304732E+00 -87.8098 2.10350793E+01 5.50004569E+02
+C GENB BSW1 -3.21343544E+00 1.69495295E+00 3.63304732E+00 152.1902 2.10350793E+01 5.50004569E+02
+C GENC CSW1 3.07459003E+00 1.93544025E+00 3.63304732E+00 32.1902 2.10350793E+01 5.50004569E+02
+ A5 B5
+C First 2 output variables are electric-network voltage differences (upper voltage minus lower voltage);
+C Next 6 output variables are branch currents (flowing from the upper node to the lower node);
+C Step Time A5 B5 GENA GENB GENC ASW1 BSW1 CSW1
+C ASW1 BSW1 CSW1 A5 B5 C5
+C *** Phasor I(0) = 1.3884541E-01 Switch "GENA " to "ASW1 " closed in the steady-state.
+C *** Phasor I(0) = -3.2134354E+00 Switch "GENB " to "BSW1 " closed in the steady-state.
+C *** Phasor I(0) = 3.0745900E+00 Switch "GENC " to "CSW1 " closed in the steady-state.
+C 0 0.0 .1332050671 -3.34378386 .1388454081 -3.21343544 3.074590029 .1388454081 -3.21343544 3.074590029
+C 1 .1E-3 .2756872129 -3.40778338 .2757125121 -3.27455462 2.998842112 .2757125121 -3.27455462 2.998842112
+C 2 .2E-3 .4178019673 -3.46751877 .4120284659 -3.33148445 2.919455988 .4120284659 -3.33148445 2.919455988
+C 3 .3E-3 .5593230022 -3.52232662 .5477589048 -3.38368006 2.835921157 .5477589048 -3.38368006 2.835921157
+C 4 .4E-3 .7000492086 -3.57212905 .6827109483 -3.43106728 2.748356327 .6827109483 -3.43106728 2.748356327
+C 5 .5E-3 .8397806067 -3.61685529 .8166928222 -3.47357875 2.656885933 .8166928222 -3.47357875 2.656885933
+BLANK card ending the specification of program outputs (node voltages, here)
+BLANK card ending plot cards
+BEGIN NEW DATA CASE
+BLANK