BEGIN NEW DATA CASE C BENCHMARK DC-25 C Test of Type-59 S.M., with two connected in parallel. Problem came from C Chuck Wolf of AEP on 14 Feb 1977. See Vol. VII EMTP Memoranda, 28 C January 1978, pages TDCE-13 through 16. Results of this simulation C correspond to Fig. 4 --- the case of an untransposed 765-kV line using C Procedure 1 initialization. The unbalanced Pi-circuit of transmission C line produces an unbalanced phasor solution. Load flow ("FIX SOURCE") C usage begins from power constraints for "M39." and later solutions. C For other Type-59 S.M. usage, see cases DC-26, DC-53, and DCNEW-11. C Modified with Guido's and Juan Martinez's approval during Oct., 1990. C Answers have changed. The original data case is unexecuted at end. C Answers change again 10 February 1999 following the massive changes from C TEPCO (Tokyo Electric Power Company) in Japan. See April newsletter. C But changes are negligible physically. The 2 printer plots are identical C (demonstrating 4 digit agreement for the variables considered), and most C extrema numbers differ only in the 5th or 6th decimal place. PRINTED NUMBER WIDTH, 13, 2, { Request maximum precision for 8 output columns FIX SOURCE { Declared intention to use load flow (phasor power constraints) .000200 .100 60. 60. 1 1 1 1 1 -1 5 5 20 20 100 100 C 11 PI SECTIONS OF THE R-JEF CKT 1 ROCA RJ0A 9.04 44.88 351.28 2 ROCB RJ0B 7.84 19.04 -57.6 9.2 44.56 360.88 3 ROCC RJ0C 7.68 14.96 -14.967.84 19.04 -57.6 9.04 44.88 351.28 1 RJ0A RJ1A ROCA RJ0A 2 RJ0B RJ1B 3 RJ0C RJ1C 1 RJ1A JEFA ROCA RJ0A 2 RJ1B JEFB 3 RJ1C JEFC C SYS IMP MATRIX INFA JEFA 4.891757.845 INFB JEFB 4.891757.845 INFC JEFC 4.891757.845 C LINEAR SHUNT REACTORS 300MVAR AT EACH END 0 ROCACOMROC 1950. 1 0 ROCBCOMROC 1950. 1 0 ROCCCOMROC 1950. 0COMROC 700.0 0 JEFACOMJEF 1950.0 0 JEFBCOMJEF 1950.0 0 JEFCCOMJEF 1950.0 0COMJEF 700.0 C STEP-UP TRANSFORMER AT ROCKPORT TRANSFORMER TRAN A 9999 1 MACA1 MACC1 .00071.0436824.63 2 ROCA .2280414.054441.7 TRANSFORMER TRAN A TRAN B 1 MACB1 MACA1 2 ROCB TRANSFORMER TRAN A TRAN C 1 MACC1 MACB1 2 ROCC C GENERATOR'S CAPACITANCE TO GROUND 0 MACA1 50.0 0 MACB1 50.0 0 MACC1 50. BLANK card ending all branch cards RJ0A .0501 10. 1 BLANK card ending all switch cards 14 INFA 624619. 60. -2.2 -1.0 14 INFB 624619. 60. -122.2 -1.0 14 INFC 624619. 60. 117.8 -1.0 59 MACA1 22000. 60.0 60.0 MACB1 MACC1 TOLERANCES { Only change columns 51-60: NIOMAX = 20 } 20 PARAMETER FITTING 2.0 1 1 21. 1. 722. 26. 1750. 1950. 3200. BLANK card for the Q-axis .001720594.19 1.92 1.85 .31 0.6 .26 .26 4.8 1.0 .04 .053 .12 .000001 .000001 1 1.0 .87 .0001 BLANK card ending mass cards 51 11 21 31 BLANK card ending output specifications for this S.M. only FINISH PART { End of 1st of 2 machines in parallel on the same 3-phase bus PARAMETER FITTING 2.0 1 1 21. 1. 722. 26. 1750. 1950. 3200. BLANK card for the Q-axis .001720594.19 1.92 1.85 .31 0.6 .26 .26 4.8 1.0 .04 .053 .12 .000001 .000001 1 1.0 .87 .0001 BLANK card ending mass cards 51 11 2 1 31 BLANK card ending output specifications for this S.M. only FINISH { End of 2nd of 2 machines in parallel on the same 3-phase bus C --------------+------------------------------ C From bus name | Names of all adjacent busses. C --------------+------------------------------ C ROCA | TERRA * RJ0A*COMROC* C RJ0A | TERRA * ROCA* RJ1A* C ROCB | TERRA * RJ0B*COMROC* C RJ0B | ROCB* RJ1B* C ROCC | TERRA * RJ0C*COMROC* C RJ0C | ROCC* RJ1C* C < < Etc. This is 1st 1/3-rd or so of table. > > BLANK card ending all source cards MACA1 MACB1 MACC1 2803162500.0 1383483900.0 20000. 25000. 50.0 80.0 C NNNOUT NITERA NFLOUT NPRINT RALCHK CFITEV CFITEA VSCALE KTAPER 1 1 0.001 2 C Max del-V: .1803 .1777 .1752 .1727 .1702 .1678 .1654 .163 .1607 .1584 C Source No. -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 C Exit the load flow iteration loop with counter NEKITE = 310. If no w C Total network loss P-loss by summing injections = 1.193636643443E+08 C 1st gen : MACA1 7882.1299837372 22944.294576661 63529.229081234 91991.00055512 C 1st gen : 21547.915921037 69.9077094 66531.054669802 46.3221669 C Id Iq Io C -5.17606386485E+04 1.11953458746E+04 -9.24170739175E-11 C Field current of the generator: 7.6127807443E+03 7.7516029040E+03 C Electromechanical torque ... : 3.4914826741E+00 3.7272751437E+00 JEFA JEFB JEFC ROCA ROCB ROCC MACA1 MACB1 MACC1 { Node voltage outputs C Step Time JEFA JEFB JEFC ROCA ROCB C C MACC1 RJ0A ROCA ROCB MACH 1 C TERRA COMROC COMROC ID C C MACH 1 MACH 1 MACH 1 MACH 1 MACH 1 C IKD IG IKQ IA IB C C MACH 1 MACH 1 MACH 1 MACH 1 MACH 2 C MANG TQ GEN ANG 1 VEL 1 ID C C MACH 2 MACH 2 MACH 2 MACH 2 MACH 2 C IKD IG IKQ IA IB C C MACH 2 MACH 2 MACH 2 MACH 2 C MANG TQ GEN ANG 1 VEL 1 C 0 0.0 595063.429 -170038.378 -430408.555 567829.8077 41131.95807 C -22602.1076 0.0 195.2036215 -347.379708 -51760.6386 C -119.013056 20.25252059 123.7786761 31764.61454 9524.516392 C .6120416955 3.491581073 210.5205098 -.56843E-13 -51760.6386 C -119.013056 20.25252059 123.7786761 31764.61454 9524.516392 C .6120416955 3.491581073 210.5205098 -.56843E-13 C 1 .2E-3 582660.0376 -124400.236 -463854.309 538020.6136 90826.69064 C -22226.8015 0.0 216.5639977 -344.847463 -51644.9311 C -124.178599 17.6951304 102.1960096 29275.66489 12850.10176 C .6122312386 3.504607103 210.5205169 .0012501818 -51644.9311 C -124.178599 17.6951304 102.1960096 29275.66489 12850.10176 C .6122312386 3.504607103 210.5205169 .0012501818 BLANK card ending selective node voltage output requests C Last step begins: 500 0.1 422565.4027 -113969.735 -360716.4 184973.5528 C Last step begins: -14207.4222 8830.876534 127.5541446 -304.110445 -70239.5493 C Last step begins: 434.079499 436.7069486 -1114.11685 41302.06075 15848.22263 C Last step begins: .5709140724 4.269726268 212.0409714 1.274775215 -70239.5493 C Last step begins: 434.079499 436.7069486 -1114.11685 41302.06075 15848.22263 C Last step begins: .5709140724 4.269726268 212.0409714 1.274775215 C Variable max : 614175.4675 689830.8087 698890.353 693955.4017 682007.8375 C 23072.26231 12386.83878 350.8889637 346.8138015 -32475.6958 C 2497.939838 999.6504516 5424.112392 45447.13214 46674.47781 C .6757375048 6.372899605 212.0409714 1.281702728 -32475.6958 C 2497.939838 999.6504516 5424.112392 45447.13214 46674.47781 C .6757375048 6.372899605 212.0409714 1.281702728 C Times of max : .0326 .0544 .0602 .0484 .004 C .0412 .0856 .0026 .0082 .0642 C .0594 .095 .062 .0478 .0866 C .0576 .0576 0.1 .0992 .0642 C .0594 .095 .062 .0478 .0866 C .0576 .0576 0.1 .0992 PRINTER PLOT 144 2. 0.0 20. MACA1 MACB1 MACC1 { Axis span: (-2.318, 2.320) 19410. 0.0100. MACH 1TQ GENMACH 2TQ GEN { Axis span: (-1.028, 6.373) BLANK card ending plot cards BEGIN NEW DATA CASE C Second of 3 subcases of DC-25 replaces the generator delta-Wye stepup C transformers (3 separate, 2-winding saturable TRANSFORMERS, originally) C by 3 Type-18 ideal transformers. Leakage is ignored during conversion. C Also, for simplicity, the Type-59 S.M. is removed, and values of the C replacement Type-14 sources are set equal to the load flow solution. C 23 February 1994, replace the three pairs of Type-14 and Type-18 C source cards by the equivalent, new IDEAL TRANSFORMER components. C 9 November 2010, replace the explicit node names 18TYP1, 18TYP2, C and 18TYP3 by blanks on the winding cards of IDEAL TRANSFORMER C components. These are default names, so ATP will supply them, and C the resulting simulation should not change in any way. The only C change to the .LIS file is on lines that document data input. C Connectivity, phasor branch flow, dT-loop heading, and batch-mode C plotting all involve these names, but are unchange. This change C is made as new logic is added to SUBR5 and OVER16 to guarantee C that ATP-supplied names do not conflict with user bus names. WSM. PRINTED NUMBER WIDTH, 13, 2, { Request maximum precision for 8 output columns .000200 .015 60. 60. 1 1 1 1 1 -1 5 5 10 10 IDEAL TRANSFORMER { Each ideal Xformer begins with this request card 1 J2A L2A 36.0 { Winding 1 has rated voltage 36 C 2 K1A M1A18TYP1 2.0 { Winding 2 has rated voltage 2 2 K1A M1A 2.0 { Winding 2 has rated voltage 2 IDEAL TRANSFORMER 1 J2B L2B 18.0 { Only the voltage ratio matters C 2 K1B M1B18TYP2 1.0 { and it is the same for all 3 2 K1B M1B 1.0 { and it is the same for all 3 IDEAL TRANSFORMER 1 J2C L2C 54.0 C 2 K1C M1C18TYP3 3.0 2 K1C M1C 3.0 C 11 PI SECTIONS OF THE R-JEF CKT 1 ROCA RJ0A 9.04 44.88 351.28 2 ROCB RJ0B 7.84 19.04 -57.6 9.2 44.56 360.88 3 ROCC RJ0C 7.68 14.96 -14.967.84 19.04 -57.6 9.04 44.88 351.28 1 RJ0A RJ1A ROCA RJ0A 2 RJ0B RJ1B 3 RJ0C RJ1C 1 RJ1A JEFA ROCA RJ0A 2 RJ1B JEFB 3 RJ1C JEFC C SYS IMP MATRIX INFA JEFA 4.891757.845 INFB JEFB 4.891757.845 INFC JEFC 4.891757.845 C LINEAR SHUNT REACTORS 300MVAR AT EACH END C 34567890123456789012345678901234567890123456789012345678901234567890 0 K1A MACA1 .00071.04368 0 K1B MACB1 .00071.04368 0 K1C MACC1 .00071.04368 0 J2A ROCA .2280414.054 0 J2B ROCB .2280414.054 0 J2C ROCC .2280414.054 0 L2AGROUND 1.E-6 0 L2BGROUND 1.E-6 0 L2CGROUND 1.E-6 0 M1A MACC1 1.E-6 0 M1B MACA1 1.E-6 0 M1C MACB1 1.E-6 0 GROUND 1.E-6 0 ROCACOMROC 1950. 1 0 ROCBCOMROC 1950. 1 0 ROCCCOMROC 1950. 0COMROC 700.0 0 JEFACOMJEF 1950.0 0 JEFBCOMJEF 1950.0 0 JEFCCOMJEF 1950.0 0COMJEF 700.0 C GENERATOR'S CAPACITANCE TO GROUND 0 MACA1 50.0 0 MACB1 50.0 0 MACC1 50. BLANK card ending all branch cards RJ0A .0501 10. 1 BLANK card ending all switch cards C Begin Type-18 sources (ideal transformers) that distinguish this subcase: C 14 J2A 1.E-20 60.0 C 18 L2A 18.0 K1A M1A18TYP1 C 14 J2B 1.E-20 60.0 C 18 L2B 18.0 K1B M1B18TYP2 C 14 J2C 1.E-20 60.0 C 18 L2C 18.0 K1C M1C18TYP3 14 INFA 624619. 60. -2.2 -1.0 14 INFB 624619. 60. -122.2 -1.0 14 INFC 624619. 60. 117.8 -1.0 14 MACA1 22944.3 60. 69.9077 -1.0 14 MACB1 22944.3 60. -50.0922 -1.0 14 MACC1 22944.3 60. -170.0922 -1.0 BLANK card ending all source cards C Total network loss P-loss by summing injections = 1.199128383848E+08 C Last gen: MACC1 -22602.10667558 22944.3 -82940.75280602 86941.876492988 C Last gen: -3947.869845313 -170.0922 26071.467394327 162.5500619 JEFA JEFB JEFC ROCA ROCB ROCC18TYP118TYP218TYP3 C Step Time JEFA JEFB JEFC ROCA ROCB C C 18TYP3 RJ0A ROCA ROCB C TERRA COMROC COMROC C 0 0.0 595774.3334 -170010.161 -431151.342 569612.3085 41241.0688 C 1889.574253 0.0 195.7951564 -348.444415 C 1 .2E-3 583329.625 -124300.015 -464630.148 539239.5467 92279.01704 C 2052.380386 0.0 217.2131016 -345.88244 BLANK card ending selective node voltage output requests C Last step: 75 .015 565929.8878 -490595.576 -77916.3691 685283.5922 -365950.758 C Last step: 216.6873929 0.0 -13.0438646 -294.203105 PRINTER PLOT 144 2. 0.0 20. 18TYP118TYP218TYP3 { Axis span: (-3.033, 3.035) BLANK card ending plot cards BEGIN NEW DATA CASE C Third of 3 subcases of DC-25 is unrelated to preceding two. It C does use saturable TRANSFORMERs, however. It is unusual in that it C uses the "TRANSFORMER THREE PHASE" option. From LEC, December, 88 .10E-3 80.E-3 1 1 1 3 1 -1 5 5 20 20 100 100 GEN1 BAS1 1. -4 3 GEN2 BAS2 1. -4 3 GEN3 BAS3 1. -4 3 NULP 1. -4 1 TRANSFORMER THREE PHASE T4 .001 TRANSFORMER 2.0 1137. T1 0.00E5 3 2. 26. 5. 63. 10. 122. 20. 225. 50. 459. 100. 702. 200. 956. 500. 1220. 1000. 1343. 2000. 1415. 5000. 1462. 10000. 1478.6 9999 1BAS1 NULP .00 1. -43.03E5 1 2BASA NULP .00 1. -43.03E5 TRANSFORMER 1.0 1137. T2 0.00E5 3 1. 26. 2.5 63. 5. 122. 10. 225. 25. 459. 50. 702. 100. 956. 250. 1220. 500. 1343. 1000. 1415. 2500. 1462. 5000. 1478.6 9999 1BAS2 NULP .00 1. -43.03E5 1 2BASB NULP .00 1. -43.03E5 TRANSFORMER 2.0 1137. T3 0.00E5 3 2. 26. 5. 63. 10. 122. 20. 225. 50. 459. 100. 702. 200. 956. 500. 1220. 1000. 1343. 2000. 1415. 5000. 1462. 10000. 1478.6 9999 1BAS3 NULP .00 1. -43.03E5 1 2BASC NULP .00 1. -43.03E5 BLANK card terminates electric network branches BLANK card ends all switches 14GEN1 460000. 50. 20. -1. 14GEN2 460000. 50. 140. -1. 14GEN3 460000. 50. 260. -1. BLANK card terminates electric network sources C Total network loss P-loss by summing injections = -6.154425427667E-03 C Last gen: GEN3 -79878.16172679 460000. -2.536462187767 2.5755913419774 C Last gen: -453011.5663856 -100.0000000 .44724750518799 169.9999828 C ---- Initial flux of coil "T1 " to "NULP " = 5.00794608E+02 C ---- Initial flux of coil "T2 " to "NULP " = 9.41185994E+02 C ---- Initial flux of coil "T3 " to "NULP " = -1.44198060E+03 C Step Time GEN1 GEN2 GEN3 T1 T2 C BAS1 BAS2 BAS3 NULP NULP C C BASA BAS3 BAS2 BAS1 T2 C C T3 GEN1 GEN2 GEN3 T1 C NULP C C GEN2 GEN3 NULP BAS1 BAS2 C BAS2 BAS3 TERRA T1 T2 C 0 0.0 .8809037E-4 .8277799E-4 -.253646E-3 432258.6055 -352380.444 C 432258.6054 -79878.1615 -352380.444 432258.6055 -352380.444 C -79878.1615 432258.6056 -352380.444 -79878.1617 39.55469448 C .827779877 -2.53646213 -.827780115 .8809052313 .8277787585 C 1 .1E-3 .004398076 .0036655092 -.011739905 427103.3935 -361494.243 C 427103.3898 -65609.2978 -361494.175 427103.476 -361494.246 C -65609.0681 427103.4804 -361494.171 -65609.3095 44.90081121 C 36.65509168 -117.399051 -36.7631993 43.98076016 36.65509158 1 { Request for all node voltage outputs C !!! Tracking trouble ... number I = 0. 0.2E+01 -0.20562E+02 -0.17753E+01 C !!! Tracking trouble ... number I = 0. -0.2E+01 0.51513E+01 0.52578E+00 C 800 .08 .0055358232 .0091582724 -.372219109 432259.2816 -352380.249 C 432258.9241 -79877.7895 -352380.453 432258.6 -352380.607 C -79872.5219 432258.6056 -352380.444 -79878.1617 57.81704152 C 91.58272413 -3722.19109 -3575.25014 55.35823213 91.58272332 PRINTER PLOT 144 1. 60. 70. NULP { Axis span: ( -5.455, 5.480) BLANK card ending plot cards BEGIN NEW DATA CASE BLANK BEGIN NEW DATA CASE C BENCHMARK DC-25 C Test of Type-59 S.M., with two connected in parallel. Problem came from C Chuck Wolf of AEP on 14 Feb 1977. See Vol. VII EMTP Memoranda, 28 C January 1978, pages TDCE-13 through 16. Results of this simulation C correspond to Fig. 4 --- the case of an untransposed 765-kV line using C Procedure 1 initialization. The unbalanced Pi-circuit of transmission C line produces an unbalanced phasor solution. Load flow ("FIX SOURCE") C usage begins from power constraints for "M39." and later solutions. C For other Type-59 S.M. usage, see cases DC-26, DC-53, and DCNEW-11. C This is old data case, as it existed prior to October, 1990 changes. PRINTED NUMBER WIDTH, 13, 2, { Request maximum precision for 8 output columns FIX SOURCE { Declared intention to use load flow (phasor power constraints) .000200 .100 60. 60. 1 1 1 1 1 -1 5 5 20 20 100 100 C 11 PI SECTIONS OF THE R-JEF CKT 1 ROCA RJ0A 9.04 44.88 351.28 2 ROCB RJ0B 7.84 19.04 -57.6 9.2 44.56 360.88 3 ROCC RJ0C 7.68 14.96 -14.967.84 19.04 -57.6 9.04 44.88 351.28 1 RJ0A RJ1A ROCA RJ0A 2 RJ0B RJ1B 3 RJ0C RJ1C 1 RJ1A JEFA ROCA RJ0A 2 RJ1B JEFB 3 RJ1C JEFC C SYS IMP MATRIX INFA JEFA 4.891757.845 INFB JEFB 4.891757.845 INFC JEFC 4.891757.845 C LINEAR SHUNT REACTORS 300MVAR AT EACH END 0 ROCACOMROC 1950. 1 0 ROCBCOMROC 1950. 1 0 ROCCCOMROC 1950. 0COMROC 700.0 0 JEFACOMJEF 1950.0 0 JEFBCOMJEF 1950.0 0 JEFCCOMJEF 1950.0 0COMJEF 700.0 C STEP-UP TRANSFORMER AT ROCKPORT TRANSFORMER TRAN A 9999 1 MACA1 MACC1 .00071.0436824.63 2 ROCA .2280414.054441.7 TRANSFORMER TRAN A TRAN B 1 MACB1 MACA1 2 ROCB TRANSFORMER TRAN A TRAN C 1 MACC1 MACB1 2 ROCC C GENERATOR'S CAPACITANCE TO GROUND 0 MACA1 50.0 0 MACB1 50.0 0 MACC1 50. BLANK card ending all branch cards RJ0A .0501 10. 1 BLANK card ending all switch cards 14 INFA 624619. 60. -2.2 -1.0 14 INFB 624619. 60. -122.2 -1.0 14 INFC 624619. 60. 117.8 -1.0 59 MACA1 22000. 60.0 60.0 MACB1 MACC1 TOLERANCES { Only change columns 51-60: NIOMAX = 20 } 20 PARAMETER FITTING 2.0 1 1 21. 1. 722. 26. 1750. 1950. 3200. BLANK card for the Q-axis .001720594.19 1.92 1.85 .31 0.6 .26 .26 4.8 1.0 .04 .053 .12 .000001 .000001 1 1.0 .87 .0001 BLANK card ending mass cards 51 11 21 31 BLANK card ending output specifications for this S.M. only FINISH PART { End of 1st of 2 machines in parallel on the same 3-phase bus PARAMETER FITTING 2.0 1 1 21. 1. 722. 26. 1750. 1950. 3200. BLANK card for the Q-axis .001720594.19 1.92 1.85 .31 0.6 .26 .26 4.8 1.0 .04 .053 .12 .000001 .000001 1 1.0 .87 .0001 BLANK card ending mass cards 51 11 2 1 31 BLANK card ending output specifications for this S.M. only FINISH { End of 2nd of 2 machines in parallel on the same 3-phase bus C --------------+------------------------------ C From bus name | Names of all adjacent busses. C --------------+------------------------------ C ROCA | TERRA * RJ0A*COMROC* C RJ0A | TERRA * ROCA* RJ1A* C ROCB | TERRA * RJ0B*COMROC* C RJ0B | ROCB* RJ1B* C ROCC | TERRA * RJ0C*COMROC* C RJ0C | ROCC* RJ1C* C < < Etc. This is 1st 1/3-rd or so of table. > > BLANK card ending all source cards MACA1 MACB1 MACC1 2803162500.0 1383483900.0 20000. 25000. 50.0 80.0 C NNNOUT NITERA NFLOUT NPRINT RALCHK CFITEV CFITEA VSCALE KTAPER 1 0.001 2 C 1 0.001 { Load flow misc. data card C Max del-V: .1803 .1777 .1752 .1727 .1702 .1678 .1654 .163 .1607 .1584 C Source No. -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 C Exit the load flow iteration loop with counter NEKITE = 310. If no w C Total network loss P-loss by summing injections = 1.193636643443E+08 C 1st gen : MACA1 7882.1299837372 22944.294576661 63529.229081234 91991.00055512 C 1st gen : 21547.915921037 69.9077094 66531.054669802 46.3221669 C Id Iq Io C -5.17606386485E+04 1.11953458746E+04 -9.24170739175E-11 C Field current of the generator: 7.6127807443E+03 7.7516029040E+03 C Electromechanical torque ... : 3.4914826741E+00 3.7272751437E+00 JEFA JEFB JEFC ROCA ROCB ROCC MACA1 MACB1 MACC1 { Node voltage outputs C Step Time JEFA JEFB JEFC ROCA ROCB C C MACC1 RJ0A ROCA ROCB MACH 1 C TERRA COMROC COMROC ID C C MACH 1 MACH 1 MACH 1 MACH 1 MACH 1 C IKD IG IKQ IA IB C C MACH 1 MACH 1 MACH 1 MACH 1 MACH 2 C MANG TQ GEN ANG 1 VEL 1 ID C C MACH 2 MACH 2 MACH 2 MACH 2 MACH 2 C IKD IG IKQ IA IB C C MACH 2 MACH 2 MACH 2 MACH 2 C MANG TQ GEN ANG 1 VEL 1 C 0 0.0 595063.429 -170038.378 -430408.555 567829.8077 41131.95807 C -22602.1076 0.0 195.2036215 -347.379708 -51760.6386 C -109.687843 23.46046976 120.5175269 31764.61454 9524.516392 C .6133720135 3.491482674 210.5205098 0.0 -51760.6386 C -109.687843 23.46046976 120.5175269 31764.61454 9524.516392 C .6133720135 3.491482674 210.5205098 0.0 C 1 .2E-3 582660.0313 -124400.23 -463854.308 538017.7227 90829.37154 C -22226.4607 0.0 216.563941 -344.847412 -51636.0369 C -114.822396 20.58268373 99.63923976 29275.32656 12850.25969 C .6135456896 3.503754264 210.5205169 .0012527763 -51636.0369 C -114.822396 20.58268373 99.63923976 29275.32656 12850.25969 C .6135456896 3.503754264 210.5205169 .0012527763 BLANK card ending selective node voltage output requests C Last step begins: 500 0.1 422384.6068 -116060.664 -360408.406 181592.8113 C Last step begins: -14206.7591 8837.628536 127.4636953 -301.640745 -70527.6268 C Last step begins: 403.5072445 488.6707412 -1237.27694 41166.26379 16455.65357 C Last step begins: .5742173844 4.349309756 212.0422101 1.276736936 -70527.6268 C Last step begins: 403.5072445 488.6707412 -1237.27694 41166.26379 16455.65357 C Last step begins: .5742173844 4.349309756 212.0422101 1.276736936 C Variable max : 613982.7179 691015.2085 697406.805 693742.3285 682016.8965 C 23071.3002 12401.73671 350.8166252 346.8830178 -32144.4616 C 2306.637425 1158.85933 5312.553787 45431.60834 47102.76399 C .677541522 6.397682896 212.0422101 1.285133368 -32144.4616 C 2306.637425 1158.85933 5312.553787 45431.60834 47102.76399 C .677541522 6.397682896 212.0422101 1.285133368 C Times of max : .0326 .0544 .0602 .0484 .004 C .0412 .0856 .0026 .0416 .0642 C .0594 .095 .0618 .0478 .0866 C .0576 .0576 0.1 .0992 .0642 C .0594 .095 .0618 .0478 .0866 C .0576 .0576 0.1 .0992 PRINTER PLOT 144 2. 0.0 20. MACA1 MACB1 MACC1 { Axis span: (-2.318, 2.320) 19410. 0.0100. MACH 1TQ GENMACH 2TQ GEN { Axis span: (-1.066, 6.398) BLANK card ending plot cards