diff options
author | Angelo Rossi <angelo.rossi.homelab@gmail.com> | 2023-06-21 12:04:16 +0000 |
---|---|---|
committer | Angelo Rossi <angelo.rossi.homelab@gmail.com> | 2023-06-21 12:04:16 +0000 |
commit | b18347ffc9db9641e215995edea1c04c363b2bdf (patch) | |
tree | f3908dc911399f1a21e17d950355ee56dc0919ee /benchmarks/dcn25old.dat |
Initial commit.
Diffstat (limited to 'benchmarks/dcn25old.dat')
-rw-r--r-- | benchmarks/dcn25old.dat | 836 |
1 files changed, 836 insertions, 0 deletions
diff --git a/benchmarks/dcn25old.dat b/benchmarks/dcn25old.dat new file mode 100644 index 0000000..1e6123d --- /dev/null +++ b/benchmarks/dcn25old.dat @@ -0,0 +1,836 @@ +BEGIN NEW DATA CASE
+C 1st of 4 subcases illustrates Robert Meredith's Type-68 TACS device as
+C first described in the April, 1998, newsletter. This is AUT5 data case.
+C test120a.dat (1 HERTZ AT 120% VOLTAGE)
+C without resistances
+C ENERGIZED AT ZERO TIME VIA 0.100 OHM RESISTORS -steady state
+C FREE FORMAT TIME STEP- 1000/CYCLE FOR 1.5 SECOND+
+C .000016666666, 1.500 , 60.000 , 0.,,,,,,, { Meredith's original params
+ .000066666667, .100 , 60.000 , 0.,,,,,,, { Much reduced burden on computer
+C PRN> PLT> NET> SS> MAX> SAVE> NENERG> >
+ 1 5 0 0 1 -1 0
+ 5 5 20 20 100 100 500 500
+TACS HYBRID
+C $INCLUDE aut5-tac.inc
+C $INCLUDE aut5-tck.inc { Uses new Type-68 TACS device, so much smaller file
+C TACS STEADY-STATE CORE NFLUX INITIALIZATION FOR TRANSFORMER AUT5
+C NFLUX IS PROPORTIONAL TO THE INDUCTIVE CURRENT IN THESE SWITCHES:
+C TYPE 91 TACS SOURCES DERIVED FROM NETWORK SWITCH CURRENTS:
+C <NAME> <----A---><----A---><----A---> <T START ><T STOP >
+91AUT5D1 -1.0 999.
+91AUT5D2 -1.0 999.
+91AUT5D3 -1.0 999.
+91AUT5D4 -1.0 999.
+91AUT5D5 -1.0 999.
+C ZERO-ORDER BLOCKS TO SCALE ABOVE TO NFLUX LINKED (NREF*PHI) WITHIN CORE VOLUME
+C GAIN IS BASED ON 10000-HENRY FLUX-MONITORING INDUCTANCES.
+C <NAME> +<NAME> +<NAME> +<NAME> +<NAME> +<NAME> <GAIN><FXLO><FXHI><NMLO><NMHI>
+ 0AUT5E1 +AUT5D1 1.E4
+ 0AUT5E2 +AUT5D2 1.E4
+ 0AUT5E3 +AUT5D3 1.E4
+ 0AUT5E4 +AUT5D4 1.E4
+ 0AUT5E5 +AUT5D5 1.E4
+C NEW TACS DEVICE 68 MODELS HYSTERETIC LOSS/RESIDUAL MMF COMPONENTS.
+C <IRES>68<FLUX><LOWER FLUX VAL><HIGHR FLUX VAL><LINEAR COEFF. ><SQUARED COEFF.>
+99AUT5T168AUT5E1 13.821 27.642 2.91727E-3 8.44316E-4
+99AUT5T268AUT5E1 27.642 62.194 2.43012E-3 2.53199E-4
+99AUT5T368AUT5E1 62.194 82.925 1.23361E-3 4.76044E-4
+99AUT5T468AUT5E1 82.925 103.66 1.22440E-3 5.90543E-4
+99AUT5T568AUT5E1 103.66 120.25 1.79633E-3 1.56980E-3
+99AUT5T668AUT5E1 120.25 131.34 1.44373E-3 3.08189E-3
+99AUT5T768AUT5E1 131.34 139.51 4.95355E-3 2.07092E-2
+99AUT5U168AUT5E2 13.821 27.642 2.91727E-3 8.44316E-4
+99AUT5U268AUT5E2 27.642 62.194 2.43012E-3 2.53199E-4
+99AUT5U368AUT5E2 62.194 82.925 1.23361E-3 4.76044E-4
+99AUT5U468AUT5E2 82.925 103.66 1.22440E-3 5.90543E-4
+99AUT5U568AUT5E2 103.66 120.25 1.79633E-3 1.56980E-3
+99AUT5U668AUT5E2 120.25 131.34 1.44373E-3 3.08189E-3
+99AUT5U768AUT5E2 131.34 139.51 4.95355E-3 2.07092E-2
+99AUT5V168AUT5E3 13.821 27.642 2.91727E-3 8.44316E-4
+99AUT5V268AUT5E3 27.642 62.194 2.43012E-3 2.53199E-4
+99AUT5V368AUT5E3 62.194 82.925 1.23361E-3 4.76044E-4
+99AUT5V468AUT5E3 82.925 103.66 1.22440E-3 5.90543E-4
+99AUT5V568AUT5E3 103.66 120.25 1.79633E-3 1.56980E-3
+99AUT5V668AUT5E3 120.25 131.34 1.44373E-3 3.08189E-3
+99AUT5V768AUT5E3 131.34 139.51 4.95355E-3 2.07092E-2
+99AUT5W168AUT5E4 14.120 28.239 2.69692E-3 7.64028E-4
+99AUT5W268AUT5E4 28.239 63.538 2.24656E-3 2.29122E-4
+99AUT5W368AUT5E4 63.538 84.717 1.14043E-3 4.30775E-4
+99AUT5W468AUT5E4 84.717 105.90 1.13191E-3 5.34391E-4
+99AUT5W568AUT5E4 105.90 122.84 1.66066E-3 1.42058E-3
+99AUT5W668AUT5E4 122.84 134.17 1.33473E-3 2.79024E-3
+99AUT5W768AUT5E4 134.17 142.42 4.58432E-3 1.91911E-2
+99AUT5X168AUT5E5 14.120 28.239 2.69692E-3 7.64028E-4
+99AUT5X268AUT5E5 28.239 63.538 2.24656E-3 2.29122E-4
+99AUT5X368AUT5E5 63.538 84.717 1.14043E-3 4.30775E-4
+99AUT5X468AUT5E5 84.717 105.90 1.13191E-3 5.34391E-4
+99AUT5X568AUT5E5 105.90 122.84 1.66066E-3 1.42058E-3
+99AUT5X668AUT5E5 122.84 134.17 1.33473E-3 2.79024E-3
+99AUT5X768AUT5E5 134.17 142.42 4.58432E-3 1.91911E-2
+C CURRENTS INJECTED INTO NETWORK FOR HYSTERESIS MODELING AND OTHER COMPENSATION.
+C PHASE LEGS HAVE CURRENTS INJECTED TO COMPENSATE COUPLING XFMR. MAGNET. AMPS.,
+C FLUX-MONITORING INDUCTANCE CURRENT AND SMALL CORE GAPS:
+99AUT5TP =+AUT5D1/( 1.30893E-2)+ 1*(+AUT5T1+AUT5T2+AUT5T3+AUT5T4+AUT5T5)
+99AUT5A5 =+AUT5TP+ 1*(+AUT5T6+AUT5T7)
+99AUT5TQ =+AUT5D2/( 1.30893E-2)+ 1*(+AUT5U1+AUT5U2+AUT5U3+AUT5U4+AUT5U5)
+99AUT5B5 =+AUT5TQ+ 1*(+AUT5U6+AUT5U7)
+99AUT5TR =+AUT5D3/( 1.30893E-2)+ 1*(+AUT5V1+AUT5V2+AUT5V3+AUT5V4+AUT5V5)
+99AUT5C5 =+AUT5TR+ 1*(+AUT5V6+AUT5V7)
+C YOKES ARE COMPENSATED FOR MONITORING INDUCTANCE CURRENTS:
+99AUT5TS =+AUT5D4+ 1*(+AUT5W1+AUT5W2+AUT5W3+AUT5W4+AUT5W5)
+99AUT501 =+AUT5TS+ 1*(+AUT5W6+AUT5W7)
+99AUT5TT =+AUT5D5+ 1*(+AUT5X1+AUT5X2+AUT5X3+AUT5X4+AUT5X5)
+99AUT502 =+AUT5TT+ 1*(+AUT5X6+AUT5X7)
+C YOKE & PHASE HYSTERETIC CURRENTS ARE EXTRACTED, EXCEPT AT GROUND:
+99AUT5B0 =-AUT501-AUT5B5
+99AUT5C0 =-AUT502-AUT5C5
+C End of $INCLUDE. File name = aut5-tck.inc
+C PARTS OF HYSTERESIS COMPONENTS FOR PLOTTING
+C FORTRAN STATEMENTS; 99= INPUT; 98= OUTPUT; 88= INSIDE
+C <NAME> =< FREE FORMAT FORTRAN TO COL 80 ----->
+C TOTAL OF ALL HYSTER INJECTIONS FOR LEGS A,B,C
+99ALLINA =+AUT5T1+AUT5T2+AUT5T3+AUT5T4+AUT5T5+AUT5T6+AUT5T7
+99ALLINB =+AUT5U1+AUT5U2+AUT5U3+AUT5U4+AUT5U5+AUT5U6+AUT5U7
+99ALLINC =+AUT5V1+AUT5V2+AUT5V3+AUT5V4+AUT5V5+AUT5V6+AUT5V7
+C
+C TYPE 90 TACS SOURCES DERIVED FROM NETWORK VOLTAGES:
+C <NAME> <----A---><----A---><----A---> <T START ><T STOP >
+C TYPE 91 TACS SOURCES DERIVED FROM NETWORK SWITCH CURRENTS (1ST NODE)
+C <NAME> <----A---><----A---><----A---> <T START ><T STOP >
+91AUT5AM 0. 999.
+91AUT5BM 0. 999.
+91AUT5CM 0. 999.
+C FORTRAN STATEMENTS; 99= INPUT; 98= OUTPUT; 88= INSIDE
+C <NAME> =< FREE FORMAT FORTRAN TO COL 80 ----->
+C NEXT IS SUM OF COUPLING OUTPUT AND ALL INJECTED AMPS - USED BY CORE MODELS
+98LEGAMP = AUT5AM + AUT5A5
+98LEGBMP = AUT5BM + AUT5B5
+98LEGCMP = AUT5CM + AUT5C5
+C NEXT IS APPARENT LEG AMPS FOR HYSTER PLOTTING
+98NETAMP = LEGAMP - ALLINA
+98NETBMP = LEGBMP - ALLINB
+98NETCMP = LEGCMP - ALLINC
+C S-BLOCKS OF ORDER 1 IN COL 2 INTEGRATE VOLTAGES TO GET FLUXES (TIMES 250.0).
+C <NAME> +<NAME> +<NAME> +<NAME> +<NAME> +<NAME> <GAIN><FXLO><FXHI><NMLO><NMHI>
+C N0 & D0><N1 & D1 ><N2 & D2 ><N3 & D3 ><N4 & D4 ><N5 & D5 ><N6 & D6 ><N7 & D7 >
+C <NAME>CD+< IN1> +< IN2> +< IN3> +< IN4> +< IN5> < A >< B >< C >< D >< E >
+C TACS OUTPUT REQUESTS - TYPE 33
+C <NAME><NAME><NAME><NAME><NAME><NAME><NAME><NAME><NAME><NAME><NAME><NAME><TY33>
+33AUT5E1 ALLINA LEGAMP NETAMP
+33AUT5E2 ALLINB LEGBMP NETBMP
+33AUT5E3 ALLINC LEGCMP NETCMP
+C 33AUT5T1 AUT5T2 AUT5T3 AUT5T4 AUT5T5 AUT5T6 AUT5
+33AUT5U1 AUT5U2 AUT5U3 AUT5U4 AUT5U5 AUT5U6 AUT5U7
+BLANK CARD ENDING ALL ATP-SORTED TACS CARDS (from blank.inc)
+C THIS MUST BE EDITED TO ADD AUT5A5 >> AUT5AM, ETC METERING
+C $INCLUDE aut5-brn.inc
+C WSM makes non-Unix by adding a card using DOS editor.
+C 3-PHASE, 3-LEG SATURABLE XFMR. MODEL FROM MODELAD.FTN - 60. HZ IMPEDANCES
+C CHANGED AUT5A5, B5, C5 TO AUT5AM, BM, CM ; NOW REQUIRES METERING SWITCHES
+C AUT5 = IDENTIFYING BUS CODE PREFIX OF INTERNAL NODES.
+C AUT5AM = NAME OF A METERING NODE ADDED AT AUT5A5
+C EACH PHASE LEG HAS 3 WINDINGS WHOSE RATED VOLTAGES AND TURNS ARE:
+C WINDING 1 (INNERMOST) = 13.130 KV. TURNS = 44.998
+C WINDING 1 INCLUDES THE EFFECT OF 0.5670 OHMS/PHASE INTERNAL (DELTA) REACTORS.
+C REACTOR RESISTANCE/PHASE MUST BE INCLUDED WITH ENTERED WINDING RESISTANCES.
+C WINDING 2 = 79.674 KV. TURNS = 273.052
+C WINDING 3 = 119.655 KV. TURNS = 410.072
+C INTERNAL REFERENCE = 29.179 KV. TURNS = 100.000
+C *********BEGIN USER COMMENTS ************
+C EAST GARDEN CITY AUTOTRANSFORMER*** one *** AT 345/138 KV TAP
+C ABBREVIATED HYSTERESIS MODEL; SEVEN OF POSSIBLE 11 COMPONENTS
+C .95 * .7274 SQUARE METER LEG; .97 * .7274 SQUARE METER YOKE
+C ACTUAL DELTA IS GROUNDED BETWEEN OUTER PHASES AT Y1.
+C EACH DELTA REACTOR X =.82;OR .5467 WHEN EQUALIZED; REACTOR R = .00427 EACH
+C ACTUAL DELTA WINDING R = .00510; + .002847 TO EQUALIZE = .0079467 ENTERED
+C AIR-CORE COUPLINGS FROM COUPCOIL, BASED ON SMIT DIMENSIONS.
+C B-H CURVE BASED ON ARMCO TRAN-COR H-0 from smit
+C B-H SHIFTED TO HIGHER CURRENTS IN 1.5 - 1.85 T RANGE
+C MILD OPEN HEARTH STEEL FOR TANK
+C TANK HAS 21.65 M CIRCUM; FLUX SHIELD = 3.15 M HIGH
+C 64-36 EDDY-HYST LOSS RATIO AT RATED;
+C ********** END USER COMMENTS ************
+C COUPLING, LEAKAGE IMPEDANCE & WINDING LOSS MODEL FOR TRANSFORMER AUT5:
+C <NAME><NAME><NAME><NAME>< R >< X >< R >< X >< R >< X >
+51Y1 Y2 .01016 10124.87377
+52EGCT1A 0.000 61435.16312.04458372798.88582
+53EGCHEAEGCT1A 0.000 92263.79188 0.000559873.90936.12388840864.72923
+54AUT5A1 0.000 22499.42979 0.000136528.47263 0.000205039.49115
+ 0.000 50000.88921
+55AUT5A2 0.000 22499.42071 0.000136530.26291 0.000205042.81249
+ 0.000 50000.86902 0.000 50001.52468
+56AUT5A3 0.000 22499.42350 0.000136530.70112 0.000205053.04695
+ 0.000 50000.87522 0.000 50001.68516 0.000 50004.18094
+57AUT5A4 0.000 22499.25174 0.000136528.91954 0.000205046.26382
+ 0.000 50000.49352 0.000 50001.03270 0.000 50002.52680
+ 0.000 50002.52680
+58AUT5AM 0.000 22499.02967 0.000136526.09974 0.000205035.90210
+ 0.000 50000.00000 0.000 50000.00000 0.000 50000.00000
+ 0.000 50000.00000 0.000 50000.00000
+51Y2 Y3 .01016 10124.87377
+52EGCT1B 0.000 61435.16312.04458372798.88582
+53EGCHEBEGCT1B 0.000 92263.79188 0.000559873.90936.12388840864.72923
+54AUT5B1AUT5B0 0.000 22499.42979 0.000136528.47263 0.000205039.49115
+ 0.000 50000.88921
+55AUT5B2AUT5B0 0.000 22499.42071 0.000136530.26291 0.000205042.81249
+ 0.000 50000.86902 0.000 50001.52468
+56AUT5B3AUT5B0 0.000 22499.42350 0.000136530.70112 0.000205053.04695
+ 0.000 50000.87522 0.000 50001.68516 0.000 50004.18094
+57AUT5B4AUT5B0 0.000 22499.25174 0.000136528.91954 0.000205046.26382
+ 0.000 50000.49352 0.000 50001.03270 0.000 50002.52680
+ 0.000 50002.52680
+58AUT5BMAUT5B0 0.000 22499.02967 0.000136526.09974 0.000205035.90210
+ 0.000 50000.00000 0.000 50000.00000 0.000 50000.00000
+ 0.000 50000.00000 0.000 50000.00000
+51Y3 Y1 .01016 10124.87377
+52EGCT1C 0.000 61435.16312.04458372798.88582
+53EGCHECEGCT1C 0.000 92263.79188 0.000559873.90936.12388840864.72923
+54AUT5C1AUT5C0 0.000 22499.42979 0.000136528.47263 0.000205039.49115
+ 0.000 50000.88921
+55AUT5C2AUT5C0 0.000 22499.42071 0.000136530.26291 0.000205042.81249
+ 0.000 50000.86902 0.000 50001.52468
+56AUT5C3AUT5C0 0.000 22499.42350 0.000136530.70112 0.000205053.04695
+ 0.000 50000.87522 0.000 50001.68516 0.000 50004.18094
+57AUT5C4AUT5C0 0.000 22499.25174 0.000136528.91954 0.000205046.26382
+ 0.000 50000.49352 0.000 50001.03270 0.000 50002.52680
+ 0.000 50002.52680
+58AUT5CMAUT5C0 0.000 22499.02967 0.000136526.09974 0.000205035.90210
+ 0.000 50000.00000 0.000 50000.00000 0.000 50000.00000
+ 0.000 50000.00000 0.000 50000.00000
+C PHASE LEG N-L MODELS FOR TRANSFORMER: AUT5
+C PHASE LEG CORES ARE 3.60 METERS LONG WITH AREAS OF 0.6910 SQUARE METERS
+C THE B-H CURVE USED PASSES THROUGH THE FOLLOWING (TESLA, AMP/METER) POINTS:
+C LINEAR:(0.20, 4.00) AND FULLY SATURATED:(2.00, 15000.00)
+C FOR SS CALCS EACH LEG HAS REACT. OF 15740. OHMS (AT 100.0 TURNS)
+C BASED ON SLOPE OF POINT 8 BELOW, HAVING A FLUX DENSITY OF 1.7400 TESLA.
+C HYSTERESIS CURRENT OFFSET OF 3.115 AMPS IS MODELED AT SATURATION.
+C LAMINATIONS ARE MODELED BY 8 LAYERS; EDDY LOSSES USE ENTERED CORE RESISTIVITY.
+C <NAME><NAME><NAME><NAME><I SS><P SS> (--FOR TYPE 98 N/L REACTOR--) P
+C CURRENT -----><NFLUX -------->
+98AUT5A5AUT5A6 4.912234.877
+ 0.14400 3.45524
+ 0.39528 6.91044
+ 0.81635 15.54839
+ 1.12175 20.73117
+ 1.41336 24.18640
+ 2.00198 25.91428
+ 3.13598 28.16067
+ 4.23399 30.06154
+ 8.81421 31.96448
+ 19.73322 32.83478
+ 56.33246 33.72028
+ 543.11535 34.87714
+ 1083.11535 35.20278
+ 9999
+98AUT5A6AUT5A7AUT5A5AUT5A64.912234.877
+98AUT5A7AUT5A8AUT5A5AUT5A64.912234.877
+98AUT5A8 AUT5A5AUT5A64.912234.877
+98AUT5B5AUT5B6AUT5A5AUT5A64.912234.877
+98AUT5B6AUT5B7AUT5A5AUT5A64.912234.877
+98AUT5B7AUT5B8AUT5A5AUT5A64.912234.877
+98AUT5B8AUT5B0AUT5A5AUT5A64.912234.877
+98AUT5C5AUT5C6AUT5A5AUT5A64.912234.877
+98AUT5C6AUT5C7AUT5A5AUT5A64.912234.877
+98AUT5C7AUT5C8AUT5A5AUT5A64.912234.877
+98AUT5C8AUT5C0AUT5A5AUT5A64.912234.877
+C HIGH RESISTANCE ACROSS EACH UNPARALLELED TYPE 98 ELEMENT ABOVE:
+C <NAME><NAME><----><---->RRRRRRXXXXXXCCCCCC
+ AUT5A6AUT5A5 .1E+11
+ AUT5A7AUT5A6AUT5A6AUT5A5
+ AUT5A8AUT5A7AUT5A6AUT5A5
+ AUT5B6AUT5B5AUT5A6AUT5A5
+ AUT5B7AUT5B6AUT5A6AUT5A5
+ AUT5B8AUT5B7AUT5A6AUT5A5
+ AUT5C6AUT5C5AUT5A6AUT5A5
+ AUT5C7AUT5C6AUT5A6AUT5A5
+ AUT5C8AUT5C7AUT5A6AUT5A5
+C YOKE MODELS FOR TRANSFORMER: AUT5
+C EACH TOP+BOTTOM YOKE LENGTH IS 3.40 METERS WITH AREA OF 0.7060 SQUARE METERS
+C THE B-H CURVE USED PASSES THROUGH THE FOLLOWING (TESLA, AMP/METER) POINTS:
+C LINEAR:(0.20, 4.00) AND FULLY SATURATED:(2.00, 15000.00)
+C FOR SS CALCS EACH YOKE HAS REACT. OF 17026. OHMS (AT 100.0 TURNS)
+C BASED ON SLOPE OF POINT 8 BELOW, HAVING A FLUX DENSITY OF 1.7400 TESLA.
+C HYSTERESIS CURRENT OFFSET OF 2.943 AMPS IS MODELED AT SATURATION.
+C LAMINATIONS ARE MODELED BY 8 LAYERS; EDDY LOSSES USE ENTERED CORE RESISTIVITY.
+C <NAME><NAME><NAME><NAME><I SS><P SS> (--FOR TYPE 98 N/L REACTOR--) P
+C CURRENT -----><NFLUX -------->
+98AUT501AUT50A 4.636135.606
+ 0.13600 3.52991
+ 0.37332 7.05979
+ 0.77100 15.88444
+ 1.05943 21.17924
+ 1.33484 24.70914
+ 1.89076 26.47434
+ 2.96176 28.76924
+ 3.99877 30.71116
+ 8.32457 32.65503
+ 18.63694 33.54364
+ 53.20871 34.44660
+ 512.94277 35.60585
+ 1022.94277 35.91340
+ 9999
+98AUT50AAUT50BAUT501AUT50A4.636135.606
+98AUT50BAUT50CAUT501AUT50A4.636135.606
+98AUT50CAUT5B0AUT501AUT50A4.636135.606
+98AUT502AUT50FAUT501AUT50A4.636135.606
+98AUT50FAUT50GAUT501AUT50A4.636135.606
+98AUT50GAUT50HAUT501AUT50A4.636135.606
+98AUT50HAUT5C0AUT501AUT50A4.636135.606
+C HIGH RESISTANCE ACROSS EACH UNPARALLELED TYPE 98 ELEMENT ABOVE
+C <NAME><NAME><----><---->RRRRRRXXXXXXCCCCCC
+ AUT50AAUT501AUT5A6AUT5A5
+ AUT50BAUT50AAUT5A6AUT5A5
+ AUT50CAUT50BAUT5A6AUT5A5
+ AUT50FAUT502AUT5A6AUT5A5
+ AUT50GAUT50FAUT5A6AUT5A5
+ AUT50HAUT50GAUT5A6AUT5A5
+$VINTAGE, 1
+C <NAME><NAME><----><---->RRRRRRRRRRRRRRRRXXXXXXXXXXXXXXXXCCCCCCCCCCCCCCCC P
+C SHUNT RESISTANCES FOR EDDY LOSS MODELING OF 1/8 LAMINATION THICKNESS LAYERS.
+C CROSS-FLUX CORE RESISTIVITY IS 12.00 E-8 OHM-METERS.
+C LAMINATIONS ARE 0.2286 MM THICK; MODELED LAYERS ARE 0.0286 MM THICK.
+ AUT5A5 141050.02696
+ AUT5A6 70525.01348
+ AUT5A7 70525.01348
+ AUT5A8 70525.01348
+ AUT5B5AUT5B0 141050.02696
+ AUT5B6AUT5B0 70525.01348
+ AUT5B7AUT5B0 70525.01348
+ AUT5B8AUT5B0 70525.01348
+ AUT5C5AUT5C0 141050.02696
+ AUT5C6AUT5C0 70525.01348
+ AUT5C7AUT5C0 70525.01348
+ AUT5C8AUT5C0 70525.01348
+ AUT501AUT5B0 152575.09208
+ AUT50AAUT5B0 76287.54604
+ AUT50BAUT5B0 76287.54604
+ AUT50CAUT5B0 76287.54604
+ AUT502AUT5C0 152575.09208
+ AUT50FAUT5C0 76287.54604
+ AUT50GAUT5C0 76287.54604
+ AUT50HAUT5C0 76287.54604
+C COMBINED WINDING 1-2 AND WINDING 2-3 STRAY (EDDY CUR.) LOSS MODEL:
+C 3-PHASE W1-W2 STRAY LOSSES AT RATED MVA = 636.953 KW.
+C WITH W1-W2 REF.VOLTS = 2.085 KV.; AND W2-W3 REF.VOLTS = 0.359 KV.
+ AUT5A1AUT5A2 20.47385
+ AUT5B1AUT5B2 20.47385
+ AUT5C1AUT5C2 20.47385
+C 3-PHASE W2-W3 STRAY LOSSES AT RATED MVA = 127.094 KW.
+C WITH W1-W2 REF.VOLTS = -0.495 KV.; AND W2-W3 REF.VOLTS = 7.203 KV.
+ AUT5A2AUT5A3 1706.84712
+ AUT5B2AUT5B3 1706.84712
+ AUT5C2AUT5C3 1706.84712
+C TANK WALL MULTIPLE CHAINED PI MODEL RESISTANCES REFERRED TO 100.000 TURNS:
+C MODELED SURFACE LAYERS ARE 0.1279 MM THICK; RHOTANK = 15.00 E-8 O-M.
+C <NAME><NAME><----><---->RRRRRRRRRRRRRRRRXXXXXXXXXXXXXXXXCCCCCCCCCCCCCCCC P
+ AUT581 1.67957937
+ AUT582 3.35915874
+ AUT583 6.71831748
+ AUT584 13.43663496
+ AUT585 26.87326992
+ AUT586 53.74653984
+ AUT587 80.61980976
+ AUT504 161.23961952
+$VINTAGE, 0
+C TRANSFORMER TANK WALL MODEL FOR TRANSFORMER AUT5
+C TANK WALL AND VERTICAL BRACING HAS A CROSS-SECTIONAL AREA OF 0.354 SQ. METERS.
+C ITS INSIDE PERIMETER IS 21.65 METERS. ITS AVERAGE THICKNESS IS 0.016 METERS.
+C EQUIVALENT HEIGHT AFFECTED BY ZERO SEQUENCE FLUX IS ASSUMED AT 3.15 METERS.
+C THE B-H CURVE USED PASSES THROUGH THE FOLLOWING (TESLA, AMP/METER) POINTS:
+C LINEAR:(0.20, 70.00) AND FULLY SATURATED:(2.05, 75000.)
+C STEADY-STATE CALCS USE THE SLOPES AT POINTS 3 BELOW. (1.0000 TESLA)
+C <NAME><NAME><NAME><NAME><I SS><P SS> (--FOR TYPE 98 N/L REACTOR--) P
+C CURRENT ----->< FLUX -------->
+98AUT581 21.31036.333
+ 2.20500 3.54468
+ 5.04000 10.63404
+ 10.39500 17.72340
+ 22.05000 23.04042
+ 50.40000 26.58510
+ 110.25000 28.35744
+ 226.80000 30.12978
+ 441.00000 31.90212
+ 1134.00000 35.44680
+ 2362.50000 36.33297
+ 4725.00000 38.03714
+ 9999
+98AUT582AUT581 21.31018.166
+ 2.20500 1.77234
+ 5.04000 5.31702
+ 10.39500 8.86170
+ 22.05000 11.52021
+ 50.40000 13.29255
+ 110.25000 14.17872
+ 226.80000 15.06489
+ 441.00000 15.95106
+ 1134.00000 17.72340
+ 2362.50000 18.16648
+ 4725.00000 19.01857
+ 9999
+98AUT583AUT582 21.3109.0832
+ 2.20500 0.88617
+ 5.04000 2.65851
+ 10.39500 4.43085
+ 22.05000 5.76011
+ 50.40000 6.64628
+ 110.25000 7.08936
+ 226.80000 7.53245
+ 441.00000 7.97553
+ 1134.00000 8.86170
+ 2362.50000 9.08324
+ 4725.00000 9.50929
+ 9999
+98AUT584AUT583 21.3104.5416
+ 2.20500 0.44309
+ 5.04000 1.32926
+ 10.39500 2.21543
+ 22.05000 2.88005
+ 50.40000 3.32314
+ 110.25000 3.54468
+ 226.80000 3.76622
+ 441.00000 3.98777
+ 1134.00000 4.43085
+ 2362.50000 4.54162
+ 4725.00000 4.75464
+ 9999
+98AUT585AUT584 21.3102.2708
+ 2.20500 0.22154
+ 5.04000 0.66463
+ 10.39500 1.10771
+ 22.05000 1.44003
+ 50.40000 1.66157
+ 110.25000 1.77234
+ 226.80000 1.88311
+ 441.00000 1.99388
+ 1134.00000 2.21543
+ 2362.50000 2.27081
+ 4725.00000 2.37732
+ 9999
+98AUT586AUT585 21.3101.1354
+ 2.20500 0.11077
+ 5.04000 0.33231
+ 10.39500 0.55386
+ 22.05000 0.72001
+ 50.40000 0.83078
+ 110.25000 0.88617
+ 226.80000 0.94156
+ 441.00000 0.99694
+ 1134.00000 1.10771
+ 2362.50000 1.13541
+ 4725.00000 1.18866
+ 9999
+98AUT587AUT586 21.310.56770
+ 2.20500 0.05539
+ 5.04000 0.16616
+ 10.39500 0.27693
+ 22.05000 0.36001
+ 50.40000 0.41539
+ 110.25000 0.44309
+ 226.80000 0.47078
+ 441.00000 0.49847
+ 1134.00000 0.55386
+ 2362.50000 0.56770
+ 4725.00000 0.59433
+ 9999
+98AUT504AUT587 21.310.56770
+ 2.20500 0.05539
+ 5.04000 0.16616
+ 10.39500 0.27693
+ 22.05000 0.36001
+ 50.40000 0.41539
+ 110.25000 0.44309
+ 226.80000 0.47078
+ 441.00000 0.49847
+ 1134.00000 0.55386
+ 2362.50000 0.56770
+ 4725.00000 0.59433
+ 9999
+C FLUX SHIELD N-L MODEL FOR TRANSFORMER: AUT5
+C FLUX SHIELDS ARE 3.15 METERS LONG WITH AREA OF 0.3652 SQUARE METERS.
+C THE B-H CURVE USED PASSES THROUGH THE FOLLOWING (TESLA, AMP/METER) POINTS:
+C LINEAR:(0.20, 4.00) AND FULLY SATURATED:(2.00, 15000.00)
+C FOR SS CALCS EACH F.S. HAS REACT. OF 9505. OHMS (AT 100.0 TURNS)
+C BASED ON SLOPE OF POINT 8 BELOW, HAVING A FLUX DENSITY OF 1.7400 TESLA.
+C <NAME><NAME><NAME><NAME><I SS><P SS> (--FOR TYPE 98 N/L REACTOR--) P
+C CURRENT -----><NFLUX -------->
+98AUT503AUT504 2.896673.034
+ 0.12600 7.30340
+ 0.20475 14.60680
+ 0.30870 32.86530
+ 0.39690 43.82040
+ 0.50400 51.12380
+ 0.94500 54.77550
+ 1.73250 59.52271
+ 2.52000 63.53958
+ 6.30000 67.55645
+ 15.75000 69.38230
+ 47.25000 71.20815
+ 472.50000 73.03400
+ 945.00000 75.06272
+ 9999
+C RESISTANCE UNDERESTIMATING FLUX SHIELD LOSSES, EQUAL TO LINEAR REACTANCE.
+C <NAME><NAME><----><---->RRRRRRXXXXXXCCCCCC P
+ AUT503AUT504 9505.5
+C TANK TOP MULTIPLE CHAINED PI MODEL RESISTANCES REFERRED TO 100.000 TURNS:
+C MODELED SURFACE LAYERS ARE 0.1172 MM THICK; RHOTANK = 15.00 E-8 O-M.
+$VINTAGE, 1
+C <NAME><NAME><----><---->RRRRRRRRRRRRRRRRXXXXXXXXXXXXXXXXCCCCCCCCCCCCCCCC P
+ AUT591 2.00000000
+ AUT592 4.00000000
+ AUT593 8.00000000
+ AUT594 16.00000000
+ AUT595 32.00000000
+ AUT596 64.00000000
+ AUT597 96.00000000
+ AUT509 192.00000000
+$VINTAGE, 0
+C TRANSFORMER TANK TOP MODEL FOR TRANSFORMER AUT5
+C TANK TOP EDDY CURRENT PATH IS MODELED WITH A CIRCUMFERENCE OF 15.00 METERS.
+C AND A WIDTH OF 2.00 METERS; THICKNESS IS 0.015 METERS.
+C THE B-H CURVE USED PASSES THROUGH THE FOLLOWING (TESLA, AMP/METER) POINTS:
+C LINEAR:(0.20, 70.00) AND FULLY SATURATED:(2.05, 75000.)
+C STEADY-STATE CALCS USE THE SLOPES AT POINTS 3 BELOW.
+C <NAME><NAME><NAME><NAME><I SS><P SS> (--FOR TYPE 98 N/L REACTOR--) P
+C CURRENT ----->< FLUX -------->
+98AUT591 13.53023.062
+ 1.40000 2.25000
+ 3.20000 6.75000
+ 6.60000 11.25000
+ 14.00000 14.62500
+ 32.00000 16.87500
+ 70.00000 18.00000
+ 144.00000 19.12500
+ 280.00000 20.25000
+ 720.00000 22.50000
+ 1500.00000 23.06250
+ 3000.00000 24.14423
+ 9999
+98AUT592AUT591 13.53011.531
+ 1.40000 1.12500
+ 3.20000 3.37500
+ 6.60000 5.62500
+ 14.00000 7.31250
+ 32.00000 8.43750
+ 70.00000 9.00000
+ 144.00000 9.56250
+ 280.00000 10.12500
+ 720.00000 11.25000
+ 1500.00000 11.53125
+ 3000.00000 12.07212
+ 9999
+98AUT593AUT592 13.5305.7656
+ 1.40000 0.56250
+ 3.20000 1.68750
+ 6.60000 2.81250
+ 14.00000 3.65625
+ 32.00000 4.21875
+ 70.00000 4.50000
+ 144.00000 4.78125
+ 280.00000 5.06250
+ 720.00000 5.62500
+ 1500.00000 5.76562
+ 3000.00000 6.03606
+ 9999
+98AUT594AUT593 13.5302.8828
+ 1.40000 0.28125
+ 3.20000 0.84375
+ 6.60000 1.40625
+ 14.00000 1.82812
+ 32.00000 2.10938
+ 70.00000 2.25000
+ 144.00000 2.39062
+ 280.00000 2.53125
+ 720.00000 2.81250
+ 1500.00000 2.88281
+ 3000.00000 3.01803
+ 9999
+98AUT595AUT594 13.5301.4414
+ 1.40000 0.14063
+ 3.20000 0.42187
+ 6.60000 0.70312
+ 14.00000 0.91406
+ 32.00000 1.05469
+ 70.00000 1.12500
+ 144.00000 1.19531
+ 280.00000 1.26563
+ 720.00000 1.40625
+ 1500.00000 1.44141
+ 3000.00000 1.50901
+ 9999
+98AUT596AUT595 13.530.72070
+ 1.40000 0.07031
+ 3.20000 0.21094
+ 6.60000 0.35156
+ 14.00000 0.45703
+ 32.00000 0.52734
+ 70.00000 0.56250
+ 144.00000 0.59766
+ 280.00000 0.63281
+ 720.00000 0.70312
+ 1500.00000 0.72070
+ 3000.00000 0.75451
+ 9999
+98AUT597AUT596 13.530.36035
+ 1.40000 0.03516
+ 3.20000 0.10547
+ 6.60000 0.17578
+ 14.00000 0.22852
+ 32.00000 0.26367
+ 70.00000 0.28125
+ 144.00000 0.29883
+ 280.00000 0.31641
+ 720.00000 0.35156
+ 1500.00000 0.36035
+ 3000.00000 0.37725
+ 9999
+98AUT509AUT597 13.530.36035
+ 1.40000 0.03516
+ 3.20000 0.10547
+ 6.60000 0.17578
+ 14.00000 0.22852
+ 32.00000 0.26367
+ 70.00000 0.28125
+ 144.00000 0.29883
+ 280.00000 0.31641
+ 720.00000 0.35156
+ 1500.00000 0.36035
+ 3000.00000 0.37725
+ 9999
+C ZERO SEQUENCE MODELS ARE BASED ON AIR-CORE MODELS, PLUS DERIVED VALUE FOR
+C X100T OF 3.29690 OHMS/PHASE TANK EFFECT, REFERRED TO 100 TURNS.
+C THE (UNSHIELDED) TANK TOP IS MODELED AND HAS STRAY LOSSES.
+C THE TANK WALL IS SATURABLE; BUT ANY STRAY LOSSES ARE NOT MEASURABLE.
+C THE FLUX SHIELD IS SATURABLE AND LACKS SIGNIFICANT DISTRIBUTED GAPS.
+C COUPLING REPRESENTING TOP AND SIDE GAP REACTANCES:
+C PER-PHASE SIDE GAPS = 1.846 OHMS; TOP GAPS = 1.814 OHMS AT 100 TURNS.
+51AUT503 0.000 10.978117
+52AUT509 0.000 5.4405450.000 5.440545
+C SHUNT FLUX PATHS BYPASSING LEGS AND COILS OF EACH PHASE FOLLOW:
+C <NAME><NAME><----><---->RRRRRRXXXXXXXXXXXX
+51AUT5A4AUT5B0 0.000 7.463166
+51AUT5B4AUT5C0 0.000 7.463166
+51AUT5C4AUT503 0.000 7.463166
+C ZERO-SEQUENCE FLUXES FROM EACH PHASE TO TANK ARE EQUALIZED BY THE FOLLOWING:
+C <NAME><NAME><----><---->RRRRRRXXXXXXXXXXXXRRRRRRXXXXXXXXXXXXRRRRRRXXXXXXXXXXXX
+51AUT503AUT502 0.000 3296.896640
+52AUT502AUT501 0.000 3296.8933430.000 3296.896640
+53AUT501 0.000 3296.8933430.000 3296.8933430.000 3296.896640
+C NEXT COUPLING SUMS ZERO-SEQUENCE VOLTAGES OF OUTER WINDINGS AT NODE (0,8):
+C <NAME><NAME><----><---->RRRRRRXXXXXXXXXXXXRRRRRRXXXXXXXXXXXXRRRRRRXXXXXXXXXXXX
+51AUT5A3 0.000 354922.42080
+52AUT506 0.000 354922.065870.000 354922.42080
+51AUT5B3AUT5B0 0.000 354922.42080
+52AUT507AUT506 0.000 354922.065870.000 354922.42080
+51AUT5C3AUT5C0 0.000 354922.42080
+52AUT508AUT507 0.000 354922.065870.000 354922.42080
+C NON-DEDICATED STRAY ZERO-SEQUENCE LOSS RESISTANCE:
+C PRODUCES 158.213 KW LOSS FOR ENTERED TEST CONDITIONS.
+$VINTAGE, 1
+C <NAME><NAME><----><---->RRRRRRRRRRRRRRRRXXXXXXXXXXXXXXXXCCCCCCCCCCCCCCCC P
+ AUT508 354.92242080
+$VINTAGE, 0
+C TIME-STEP-DAMPING BRANCHES ACROSS MAJOR AIR GAPS FOR HARMONIC ORDER: 500.0
+C <NAME><NAME><----><---->RRRRRRXXXXXXCCCCCC
+ AUT5A4AUT5B0 373.16 .00142
+ AUT5B4AUT5C0 373.16 .00142
+ AUT5C4AUT503 373.16 .00142
+ AUT501 164.84 .00322
+ AUT501AUT502 164.84 .00322
+ AUT502AUT503 164.84 .00322
+C 10000-HENRY FLUX MONITORING INDUCTANCES TO INITIALIZE TACS.
+C <NAME><NAME><----><---->RRRRRRXXXXXXXXXXXXRRRRRRXXXXXXXXXXXXRRRRRRXXXXXXXXXXXX
+51AUT5A5AUT5D1 3769911.185
+51AUT5B5AUT5D2 3769911.185
+51AUT5C5AUT5D3 3769911.185
+51AUT501AUT5D4 3769911.185
+51AUT502AUT5D5 3769911.185
+C End of $INCLUDE. File name = aut5-brn.inc
+$VINTAGE, 1
+C <NAME><NAME><----><---->RRRRRRRRRRRRRRRRXXXXXXXXXXXXXXXXCCCCCCCCCCCCCCCC P
+C CORNER GROUND DELTA
+ Y1 1000.
+C ENERGIZE VIA 100 OHM RESISTANCES FOR DAMPING
+C 0.1 ohm is now essential; 100 is too large relative to xl
+ SRC2A EGCT1A .1
+ SRC2B EGCT1B .1
+ SRC2C EGCT1C .1
+$VINTAGE, 0
+BLANK CARD ENDING ALL ATP-SORTED BRANCH CARDS (from blank.inc)
+C $INCLUDE aut5-swx.inc
+C WSM touches using DOS editor to make readable.
+C MEAS. SWITCHES TO MONITOR CURRENT IN 10000-HENRY CORE FLUX-MONITORING INDUCTS.
+C <NAME><NAME><T CLOSE ><T. OPEN ><AMP MARG> 67890123 MEASURING 56789012345678 P
+ AUT5D1 MEASURING
+ AUT5D2AUT5B0 MEASURING
+ AUT5D3AUT5C0 MEASURING
+ AUT5D4AUT5B0 MEASURING
+ AUT5D5AUT5C0 MEASURING
+C End of $INCLUDE. File name = aut5-swx.inc
+C ********************************************* STUDY-DEPENDENT CABLE SWITCHING:
+C SWITCH CARD: COL 1-2 IS 0 FOR ORDINARY & GAUSS. STATISTICS SWITCHES, NOT TACS.
+C CLOSING, OPENING TIMES AND STATISTICS PARAMETERS BELOW ARE IN SECONDS.
+C <NAME><NAME><T CLOSE ><T. OPEN ><AMP MARG> 67890123 MEASURING 56789012345678 P
+C <NAME><NAME><GAUS AVG><GAUS SIG><AMP MARG> STATISTICS P
+C METERS INTERNAL CURRENT OF PHASE LEG A,B,C
+ AUT5AMAUT5A5 MEASURING 1
+ AUT5BMAUT5B5 MEASURING 1
+ AUT5CMAUT5C5 MEASURING 1
+C ENERGIZED AT ZERO
+ SRCA SRC2A MEASURING 1
+ SRCB SRC2B MEASURING 1
+ SRCC SRC2C MEASURING 1
+C ENERGIZED AT ZERO PLUS
+C SRCA SRC2A .0001 999. 1.
+C SRCB SRC2B .0001 999. 1.
+C SRCC SRC2C .0001 999. 1.
+BLANK CARD ENDING ALL ATP-SORTED SWITCH CARDS (from blank.inc)
+$LISTON
+C $INCLUDE aut5-src.inc
+C WSM touches file with DOS editor to make it into a DOS file
+C TACS-CONTROLLED SOURCES FOR HYSTERESIS/RESIDUAL MMF IN TRANSFORMER AUT5
+C <NAME> *= VOLTAGE IF POSITIVE; CURRENT IF NEGATIVE
+60AUT5A5-1
+60AUT5B5-1
+60AUT5C5-1
+60AUT5B0-1
+60AUT5C0-1
+60AUT501-1
+60AUT502-1
+C End of $INCLUDE. File name = aut5-src.inc
+C *= VOLTAGE IF POSITIVE; CURRENT IF NEGATIVE
+C <NAME> <CRESTVAL><FREQ ><ANGLE > <T START ><T STOP >
+C 138 KV L-L = 112676.5 V CREST or 1877.94 at 1 hertz
+C 40 percent = 751.17
+C 60 percent = 1126.76
+C 80 percent = 1502.35
+C 100 percent = 1877.94
+C 120 percent = 2253.53
+14SRCA 1 2253.53 1. 0. -1.0 999.
+14SRCB 1 2253.53 1. -120. -1.0 999.
+14SRCC 1 2253.53 1. -240. -1.0 999.
+BLANK CARD ENDING ALL ATP-SORTED SOURCE CARDS (from blank.inc)
+C <BUS ><VOLT><MON.><FOR ><NODE>< >< >< >< >< >< >< >< >
+ EGCT1A EGCT1B EGCT1C
+BLANK CARD ENDING ALL ATP-SORTED OUTPUT CARDS (from blank.inc)
+ 193.01 0.0 0.1 BRANCH
+ TACS ALLINATACS ALLINBTACS ALLINC
+BEGIN NEW DATA CASE
+C 2nd of 4 subcases.
+C "FREQUENCY SCAN" use, with subsequent plotting of phasors vs. frequency.
+C This test case uses uniform frequency spacing. It basically like DC-51,
+C but involves some variations of output and batch-mode plotting.
+PRINTED NUMBER WIDTH, 8, 2, { Each column of width 8 includes 2 blank bytes
+FREQUENCY SCAN, 60., 10., 280., 0, { 60 < f < 280 Hz in 10-Hz increments
+CHANGE PLOT FREQUENCY { Request to vary frequency of plot points and .PL4 file
+ 5 5 10 3 20 1 { On step 5, change to 5, etc.
+ 0.1 0.0 { dT of col 1-8 is not used; TMAX of 9-16 ==> no simulation
+ 1 1 1 0 1 -1
+ 5 5 10 3 20 1
+C Note: 1-punch in col. 80 of the following card was replaced by LIN002 below.
+C This illustrates a second way to order current output: by branch name.
+C When the user does not name branches himself, NMAUTO = 1 means the
+C program will provide default names. The first branch is LIN001, so
+C this should be used to replace the column-80 punch. But this branch
+C is in series with the 2nd branch, and has no shunt leakage, so the
+C same current can be found from the second branch (name LIN002). This
+C alternative is more interesting since it shows current output seems to
+C be possible for the 1-phase, constant-parameter distributed model.
+ GEN SEND 3.0 40.
+-1SEND MID .306 5.82 .012 20. { 20 miles of line from DC-37
+ 1MID REC 34.372457.68.15781 { 10 miles of Pi from DC-3
+ EARTH 200. 1
+C The preceding branch has a 1-punch in column 80 for current output. If a 3
+C had instead been used, branch voltage would have been produced, too. Note
+C it would be equal to the node voltage of node EARTH. No choice of polarity
+C is possible, this way. More interesting is the "-5" request below, which
+C allows polarity reversal (a minus sign will be added).
+BLANK card ending branches
+C Note: 1-punch in col. 80 of the following card was replaced by SWT001 below.
+C This illustrates a second way to order current output: by switch name.
+ REC EARTH MEASURING
+BLANK card ending (here, non-existent) switches
+14GEN 100. 60. -1.
+BLANK card ending sources
+C Requests for output variables follow. About currents, there is no control
+C over location in the output vector. Switch currents always precede branch
+C currents, and both are in natural order (of component number). But order of
+C voltages is controlled by the user. Note requests for node voltages have
+C been split, and in between there is a request for a voltage difference.
+C This is the order in the output vector, note. Yet, all voltage requests
+C made here (after the blank card ending source cards) follow all that might
+C have been made with column-80 punches on branch or switch cards.
+ GEN SEND MID REC
+-5 EARTH { -5 ==> 2A6 name pairs for voltage differences (branch V)
+-1SWT001LIN002 { -1 ==> Branch/switch current out; use A6 component names
+ EARTH { Node voltage. Note branch voltage 2 lines above has opposite polarity
+BLANK card ending node voltage outputs
+ PRINTER PLOT
+C Note the peculiar 60 units/inch on the following plot cards. This is not
+C a mistake. With 6 lines/inch of the printer plot, & the F-scan frequency
+C increment of 10 Hz, there will be exactly one line for each freq step:
+ 14660. 60.280. GEN SEND MID REC
+ 19660. 60.280. SEND MID EARTH REC
+BLANK card ending plot cards
+BEGIN NEW DATA CASE
+C 3rd of 4 subcases illustrates IF-THEN-ENDIF for conditional data
+C assembly as described in the July, 1998, newsletter. Environment
+C variable RESISTOR must be set prior to use, in order. to avoid
+C an error stop. This can not be set internally, unfortunately.
+PRINTED NUMBER WIDTH, 9, 2,
+POWER FREQUENCY, 50.,
+ .0001 .020 50.
+ 1 1 1 1 1 -1
+ 5 5 20 20
+C 1st of 2 identical, disconnected networks uses manually-defined branches:
+C IF ( RESISTOR .EQ. 'ONEHALF' ) SET VARIABLE { Execute OS command SET RESISTOR=ONEHALF
+IF ( RESISTOR .EQ. 'ONEHALF' ) THEN { If user wants to use resistive alternative:
+ GEN TRAN 0.5 { 1st of 3 alternatives is resistor
+ELSEIF ( RESISTOR .EQ. 'ZERO' ) THEN { If user wants to use resistive alternative:
+ GEN TRAN 0.0 { 2nd of 3 alternatives is illegal resistor
+ELSE { Alternatively (if environment variable RESISTOR is not YES):
+ GEN TRAN 0.5 { 3rd of 3 alternatives is inductor
+ENDIF { Terminate 5-line IF statement that uses RESISTOR to choose the model
+ TRAN 0.5
+BLANK card ending program branch cards.
+BLANK card terminating program switch cards (none, for this case)
+14GEN 1.414 50. 0.0 -1.
+BLANK card terminating program source cards.
+ GEN TRAN
+BLANK card ending program output-variable requests.
+BLANK card ending all plot cards
+BEGIN NEW DATA CASE
+C BENCHMARK DC-4
+C 4th of 4 subcases is modification of DC-4 as used by SPY @5. But that
+C required SPY. Beginning 23 Aug 1998, parametric studies can be run
+C using higher-level batch-mode commands. See October, 1998, newsletter.
+C Following request carries params MAXKNT IOPCVP
+POCKET CALCULATOR VARIES PARAMETERS 5 1 { Loop five times
+PRINTED NUMBER WIDTH, 13, 2, { Request maximum precision (for 8 output columns)
+ .020 12.0
+ 1 1 0 0 1 -1 1
+ 5 5 20 20 100 100
+$PARAMETER { This will be serviced by CIMAGE just as any other $-card would be
+MILLIH = 50000. - ( KNT - 1.0 ) * 5000. { Gives L =50, 45, 40, 35, & 30K mHenry
+BLANK card ends $PARAMETER definitions that are processed just b4 branch cards
+ BRANCH NAME:First { Even though name could go on next card, use this instead
+ GEN TRAN 5.0MILLIH { $PARAMETER will define this inductance
+ TRAN NAME R-mag 1.E4
+93TRAN NAME Magnet .005 30. 3
+ 0.0 0.0 { 1st point being origin is request to reflect
+ .005 30.
+ .01 40.
+ .02 45.
+ .10 50.
+ 5.0 100.
+ 9999
+ TRAN LOADG 255. 5.E4 3
+ LOADG 1.E-6
+BLANK card ending program branch cards.
+BLANK card terminating program switch cards (none, for this case)
+14GEN 70. .1591549 -1.
+BLANK card terminating program source cards.
+ GEN TRAN
+BLANK card ending program output-variable requests.
+BLANK card ending all plot cards { In fact, ignored until the final shot
+BEGIN NEW DATA CASE
+BLANK
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