Running: ./testmodel.py --libraries=/home/hudson/saved_omc/libraries/.openmodelica/libraries --ompython_omhome=/usr ScalableTestGrids_noopt_ScalableTestGrids.Models.Type1.Type1_reduced_N_2_M_4.conf.json loadFile("/home/hudson/saved_omc/libraries/.openmodelica/libraries/ModelicaServices 4.0.0+maint.om/package.mo", uses=false) loadFile("/home/hudson/saved_omc/libraries/.openmodelica/libraries/Complex 4.0.0+maint.om/package.mo", uses=false) loadFile("/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica 3.2.3+maint.om/package.mo", uses=false) loadFile("/home/hudson/saved_omc/libraries/.openmodelica/libraries/PowerGrids 1.0.3/package.mo", uses=false) loadFile("/home/hudson/saved_omc/libraries/.openmodelica/libraries/ScalableTestGrids 1.1.0-master/package.mo", uses=false) Using package ScalableTestGrids with version 1.1.0 (/home/hudson/saved_omc/libraries/.openmodelica/libraries/ScalableTestGrids 1.1.0-master/package.mo) Using package PowerGrids with version 1.0.3 (/home/hudson/saved_omc/libraries/.openmodelica/libraries/PowerGrids 1.0.3/package.mo) Using package Modelica with version 3.2.3 (/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica 3.2.3+maint.om/package.mo) Using package Complex with version 4.0.0 (/home/hudson/saved_omc/libraries/.openmodelica/libraries/Complex 4.0.0+maint.om/package.mo) Using package ModelicaServices with version 4.0.0 (/home/hudson/saved_omc/libraries/.openmodelica/libraries/ModelicaServices 4.0.0+maint.om/package.mo) Running command: "" <> buildModelFMU(ScalableTestGrids.Models.Type1.Type1_reduced_N_2_M_4,fileNamePrefix="ScalableTestGrids_noopt_ScalableTestGrids_Models_Type1_Type1_reduced_N_2_M_4",fmuType="me",version="2.0",platforms={"static"}) "" <> buildModelFMU(ScalableTestGrids.Models.Type1.Type1_reduced_N_2_M_4,fileNamePrefix="ScalableTestGrids_noopt_ScalableTestGrids_Models_Type1_Type1_reduced_N_2_M_4",fmuType="me",version="2.0",platforms={"static"}) Thread is still alive. OMC died, but the thread is still running? This will end badly. The log-file of omc: Created ZeroMQ Server. Dumped server port in file: /tmp/openmodelica.hudson.port.4bf6c740edfa405eb5d2166ee2388069 Nonlinear iteration variables with default zero start attribute in NLSJac4. (2) ======================================== 1: GEN_4_2.TGOV.firstOrderLim.G.y:VARIABLE(flow=false ) "Output signal connector" type: Real 2: GEN_4_2.TGOV.firstOrderLim.u:VARIABLE(flow=false ) "Connector of Real input signal" type: Real Nonlinear iteration variables with predefined start attribute in NLSJac4. (1) ======================================== 1: GEN_4_2.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_4_2.TGOV.firstOrderLim.I.y_start ) "Connector of Real output signal" type: Real Info: Only non-linear iteration variables in non-linear eqation systems require start values. All other start values have no influence on convergence and are ignored. Use "-d=dumpLoops" to show all loops. In OMEdit Tools->Options->Simulation->Additional Translation Flags, in OMNotebook call setCommandLineOptions("-d=dumpLoops") Nonlinear iteration variables with default zero start attribute in NLSJac13. (2) ======================================== 1: GEN_4_1.TGOV.firstOrderLim.G.y:VARIABLE(flow=false ) "Output signal connector" type: Real 2: GEN_4_1.TGOV.firstOrderLim.u:VARIABLE(flow=false ) "Connector of Real input signal" type: Real Nonlinear iteration variables with predefined start attribute in NLSJac13. (1) ======================================== 1: GEN_4_1.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_4_1.TGOV.firstOrderLim.I.y_start ) "Connector of Real output signal" type: Real Info: Only non-linear iteration variables in non-linear eqation systems require start values. All other start values have no influence on convergence and are ignored. Use "-d=dumpLoops" to show all loops. In OMEdit Tools->Options->Simulation->Additional Translation Flags, in OMNotebook call setCommandLineOptions("-d=dumpLoops") Nonlinear iteration variables with default zero start attribute in NLSJac22. (2) ======================================== 1: GEN_3_2.TGOV.firstOrderLim.u:VARIABLE(flow=false ) "Connector of Real input signal" type: Real 2: GEN_3_2.TGOV.firstOrderLim.G.y:VARIABLE(flow=false ) "Output signal connector" type: Real Nonlinear iteration variables with predefined start attribute in NLSJac22. (1) ======================================== 1: GEN_3_2.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_3_2.TGOV.firstOrderLim.I.y_start ) "Connector of Real output signal" type: Real Info: Only non-linear iteration variables in non-linear eqation systems require start values. All other start values have no influence on convergence and are ignored. Use "-d=dumpLoops" to show all loops. In OMEdit Tools->Options->Simulation->Additional Translation Flags, in OMNotebook call setCommandLineOptions("-d=dumpLoops") Nonlinear iteration variables with default zero start attribute in NLSJac31. (2) ======================================== 1: GEN_3_1.TGOV.firstOrderLim.u:VARIABLE(flow=false ) "Connector of Real input signal" type: Real 2: GEN_3_1.TGOV.firstOrderLim.G.y:VARIABLE(flow=false ) "Output signal connector" type: Real Nonlinear iteration variables with predefined start attribute in NLSJac31. (1) ======================================== 1: GEN_3_1.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_3_1.TGOV.firstOrderLim.I.y_start ) "Connector of Real output signal" type: Real Info: Only non-linear iteration variables in non-linear eqation systems require start values. All other start values have no influence on convergence and are ignored. Use "-d=dumpLoops" to show all loops. In OMEdit Tools->Options->Simulation->Additional Translation Flags, in OMNotebook call setCommandLineOptions("-d=dumpLoops") Nonlinear iteration variables with default zero start attribute in NLSJac40. (2) ======================================== 1: GEN_2_2.TGOV.firstOrderLim.G.y:VARIABLE(flow=false ) "Output signal connector" type: Real 2: GEN_2_2.TGOV.firstOrderLim.u:VARIABLE(flow=false ) "Connector of Real input signal" type: Real Nonlinear iteration variables with predefined start attribute in NLSJac40. (1) ======================================== 1: GEN_2_2.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_2_2.TGOV.firstOrderLim.I.y_start ) "Connector of Real output signal" type: Real Info: Only non-linear iteration variables in non-linear eqation systems require start values. All other start values have no influence on convergence and are ignored. Use "-d=dumpLoops" to show all loops. In OMEdit Tools->Options->Simulation->Additional Translation Flags, in OMNotebook call setCommandLineOptions("-d=dumpLoops") Nonlinear iteration variables with default zero start attribute in NLSJac49. (2) ======================================== 1: GEN_2_1.TGOV.firstOrderLim.u:VARIABLE(flow=false ) "Connector of Real input signal" type: Real 2: GEN_2_1.TGOV.firstOrderLim.G.y:VARIABLE(flow=false ) "Output signal connector" type: Real Nonlinear iteration variables with predefined start attribute in NLSJac49. (1) ======================================== 1: GEN_2_1.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_2_1.TGOV.firstOrderLim.I.y_start ) "Connector of Real output signal" type: Real Info: Only non-linear iteration variables in non-linear eqation systems require start values. All other start values have no influence on convergence and are ignored. Use "-d=dumpLoops" to show all loops. In OMEdit Tools->Options->Simulation->Additional Translation Flags, in OMNotebook call setCommandLineOptions("-d=dumpLoops") Nonlinear iteration variables with default zero start attribute in NLSJac58. (2) ======================================== 1: GEN_1_2.TGOV.firstOrderLim.u:VARIABLE(flow=false ) "Connector of Real input signal" type: Real 2: GEN_1_2.TGOV.firstOrderLim.G.y:VARIABLE(flow=false ) "Output signal connector" type: Real Nonlinear iteration variables with predefined start attribute in NLSJac58. (1) ======================================== 1: GEN_1_2.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_1_2.TGOV.firstOrderLim.I.y_start ) "Connector of Real output signal" type: Real Info: Only non-linear iteration variables in non-linear eqation systems require start values. All other start values have no influence on convergence and are ignored. Use "-d=dumpLoops" to show all loops. In OMEdit Tools->Options->Simulation->Additional Translation Flags, in OMNotebook call setCommandLineOptions("-d=dumpLoops") Nonlinear iteration variables with default zero start attribute in NLSJac67. (2) ======================================== 1: GEN_1_1.TGOV.firstOrderLim.G.y:VARIABLE(flow=false ) "Output signal connector" type: Real 2: GEN_1_1.TGOV.firstOrderLim.u:VARIABLE(flow=false ) "Connector of Real input signal" type: Real Nonlinear iteration variables with predefined start attribute in NLSJac67. (1) ======================================== 1: GEN_1_1.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_1_1.TGOV.firstOrderLim.I.y_start ) "Connector of Real output signal" type: Real Info: Only non-linear iteration variables in non-linear eqation systems require start values. All other start values have no influence on convergence and are ignored. Use "-d=dumpLoops" to show all loops. In OMEdit Tools->Options->Simulation->Additional Translation Flags, in OMNotebook call setCommandLineOptions("-d=dumpLoops") Nonlinear iteration variables with default zero start attribute in NLSJac72. (14) ======================================== 1: GEN_1_1.AVR.inputLimiter.u:VARIABLE(flow=false ) "Connector of Real input signal" type: Real 2: GEN_1_1.AVR.firstOrderLim.G.y:VARIABLE(flow=false ) "Output signal connector" type: Real 3: GEN_1_2.AVR.inputLimiter.u:VARIABLE(flow=false ) "Connector of Real input signal" type: Real 4: GEN_1_2.AVR.firstOrderLim.G.y:VARIABLE(flow=false ) "Output signal connector" type: Real 5: GEN_3_1.AVR.firstOrderLim.G.y:VARIABLE(flow=false ) "Output signal connector" type: Real 6: GEN_3_1.AVR.inputLimiter.u:VARIABLE(flow=false ) "Connector of Real input signal" type: Real 7: GEN_4_2.AVR.firstOrderLim.G.y:VARIABLE(flow=false ) "Output signal connector" type: Real 8: GEN_4_2.AVR.inputLimiter.u:VARIABLE(flow=false ) "Connector of Real input signal" type: Real 9: GEN_3_2.AVR.firstOrderLim.G.y:VARIABLE(flow=false ) "Output signal connector" type: Real 10: GEN_3_2.AVR.inputLimiter.u:VARIABLE(flow=false ) "Connector of Real input signal" type: Real 11: GEN_4_1.AVR.firstOrderLim.G.y:VARIABLE(flow=false ) "Output signal connector" type: Real 12: GEN_4_1.AVR.inputLimiter.u:VARIABLE(flow=false ) "Connector of Real input signal" type: Real 13: GEN_2_2.AVR.firstOrderLim.G.y:VARIABLE(flow=false ) "Output signal connector" type: Real 14: GEN_2_2.AVR.inputLimiter.u:VARIABLE(flow=false ) "Connector of Real input signal" type: Real Nonlinear iteration variables with predefined start attribute in NLSJac72. (301) ======================================== 1: GEN_2_2.GEN.theta:VARIABLE(start = GEN_2_2.GEN.thetaStart unit = "rad" ) "Rotation between machine rotor frame and port phasor frame" type: Real 2: GEN_4_1.GEN.theta:VARIABLE(start = GEN_4_1.GEN.thetaStart unit = "rad" ) "Rotation between machine rotor frame and port phasor frame" type: Real 3: GEN_3_2.GEN.theta:VARIABLE(start = GEN_3_2.GEN.thetaStart unit = "rad" ) "Rotation between machine rotor frame and port phasor frame" type: Real 4: GEN_4_2.GEN.theta:VARIABLE(start = GEN_4_2.GEN.thetaStart unit = "rad" ) "Rotation between machine rotor frame and port phasor frame" type: Real 5: GEN_3_1.GEN.theta:VARIABLE(start = GEN_3_1.GEN.thetaStart unit = "rad" ) "Rotation between machine rotor frame and port phasor frame" type: Real 6: GEN_1_2.GEN.theta:VARIABLE(start = GEN_1_2.GEN.thetaStart unit = "rad" ) "Rotation between machine rotor frame and port phasor frame" type: Real 7: GEN_1_1.GEN.theta:VARIABLE(start = GEN_1_1.GEN.thetaStart unit = "rad" ) "Rotation between machine rotor frame and port phasor frame" type: Real 8: LINE_HV_2_2_2.vAt.re:VARIABLE(start = LINE_HV_2_2_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 ) "Real part of complex number" type: Real 9: LOAD_2_2_1.port.iGen.re:VARIABLE(start = -LOAD_2_2_1.port.iStart.re unit = "A" nominal = 2291.072496784229 ) "Real part of complex number" type: Real 10: LOAD_2_2_1.port.iGen.im:VARIABLE(start = -LOAD_2_2_1.port.iStart.im unit = "A" nominal = 2291.072496784229 ) "Imaginary part of complex number" type: Real 11: LINE_HV_2_2_2.vAt.im:VARIABLE(start = LINE_HV_2_2_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 ) "Imaginary part of complex number" type: Real 12: LOAD_2_2_1.port.u.im:VARIABLE(start = LOAD_2_2_1.port.vStart.im * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Imaginary part of complex number" type: Real 13: LOAD_2_2_1.port.u.re:VARIABLE(start = LOAD_2_2_1.port.vStart.re * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Real part of complex number" type: Real 14: LINE_HV_2_2_3.vAt.re:VARIABLE(start = LINE_HV_2_2_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 ) "Real part of complex number" type: Real 15: LOAD_2_2_2.port.iGen.re:VARIABLE(start = -LOAD_2_2_2.port.iStart.re unit = "A" nominal = 2291.072496784229 ) "Real part of complex number" type: Real 16: LOAD_2_2_2.port.iGen.im:VARIABLE(start = -LOAD_2_2_2.port.iStart.im unit = "A" nominal = 2291.072496784229 ) "Imaginary part of complex number" type: Real 17: LINE_HV_2_2_3.vAt.im:VARIABLE(start = LINE_HV_2_2_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 ) "Imaginary part of complex number" type: Real 18: LOAD_2_2_2.port.u.im:VARIABLE(start = LOAD_2_2_2.port.vStart.im * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Imaginary part of complex number" type: Real 19: LOAD_2_2_2.port.u.re:VARIABLE(start = LOAD_2_2_2.port.vStart.re * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Real part of complex number" type: Real 20: LOAD_2_2_2.U_URef:VARIABLE(start = 1.0 unit = "1" ) "Ratio between voltage and reference voltage" type: Real 21: LINE_HV_2_2_4.vAt.re:VARIABLE(start = LINE_HV_2_2_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 ) "Real part of complex number" type: Real 22: LOAD_2_2_3.port.iGen.re:VARIABLE(start = -LOAD_2_2_3.port.iStart.re unit = "A" nominal = 2291.072496784229 ) "Real part of complex number" type: Real 23: LOAD_2_2_3.port.iGen.im:VARIABLE(start = -LOAD_2_2_3.port.iStart.im unit = "A" nominal = 2291.072496784229 ) "Imaginary part of complex number" type: Real 24: LINE_HV_2_2_4.vAt.im:VARIABLE(start = LINE_HV_2_2_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 ) "Imaginary part of complex number" type: Real 25: LOAD_2_2_3.U_URef:VARIABLE(start = 1.0 unit = "1" ) "Ratio between voltage and reference voltage" type: Real 26: LOAD_2_2_3.port.u.im:VARIABLE(start = LOAD_2_2_3.port.vStart.im * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Imaginary part of complex number" type: Real 27: LOAD_2_2_3.port.u.re:VARIABLE(start = LOAD_2_2_3.port.vStart.re * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Real part of complex number" type: Real 28: LOAD_2_2_4.port.u.im:VARIABLE(start = LOAD_2_2_4.port.vStart.im * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Imaginary part of complex number" type: Real 29: LOAD_2_2_4.port.u.re:VARIABLE(start = LOAD_2_2_4.port.vStart.re * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Real part of complex number" type: Real 30: LINE_HV_2_2_4.vB.re:VARIABLE(start = LOAD_2_2_4.port.vStart.re unit = "V" nominal = 36373.06695894642 ) "Real part of complex number" type: Real 31: LINE_HV_2_2_4.iB.re:VARIABLE(start = LINE_HV_2_2_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 ) "Real part of complex number" type: Real 32: LINE_HV_2_2_4.iB.im:VARIABLE(start = LINE_HV_2_2_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 ) "Imaginary part of complex number" type: Real 33: LINE_HV_2_2_4.vB.im:VARIABLE(start = LOAD_2_2_4.port.vStart.im unit = "V" nominal = 36373.06695894642 ) "Imaginary part of complex number" type: Real 34: LOAD_2_2_4.U_URef:VARIABLE(start = 1.0 unit = "1" ) "Ratio between voltage and reference voltage" type: Real 35: LOAD_2_2_1.U_URef:VARIABLE(start = 1.0 unit = "1" ) "Ratio between voltage and reference voltage" type: Real 36: LOAD_3_2_1.port.u.im:VARIABLE(start = LOAD_3_2_1.port.vStart.im * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Imaginary part of complex number" type: Real 37: LOAD_3_2_1.port.u.re:VARIABLE(start = LOAD_3_2_1.port.vStart.re * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Real part of complex number" type: Real 38: LOAD_3_2_1.port.iGen.re:VARIABLE(start = -LOAD_3_2_1.port.iStart.re unit = "A" nominal = 2291.072496784229 ) "Real part of complex number" type: Real 39: LINE_HV_3_2_2.vAt.im:VARIABLE(start = LINE_HV_3_2_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 ) "Imaginary part of complex number" type: Real 40: LOAD_3_2_1.port.iGen.im:VARIABLE(start = -LOAD_3_2_1.port.iStart.im unit = "A" nominal = 2291.072496784229 ) "Imaginary part of complex number" type: Real 41: LINE_HV_3_2_2.vAt.re:VARIABLE(start = LINE_HV_3_2_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 ) "Real part of complex number" type: Real 42: LOAD_3_2_2.port.u.im:VARIABLE(start = LOAD_3_2_2.port.vStart.im * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Imaginary part of complex number" type: Real 43: LOAD_3_2_2.port.u.re:VARIABLE(start = LOAD_3_2_2.port.vStart.re * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Real part of complex number" type: Real 44: LINE_HV_3_2_3.vAt.re:VARIABLE(start = LINE_HV_3_2_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 ) "Real part of complex number" type: Real 45: LOAD_3_2_2.port.iGen.re:VARIABLE(start = -LOAD_3_2_2.port.iStart.re unit = "A" nominal = 2291.072496784229 ) "Real part of complex number" type: Real 46: LOAD_3_2_2.port.iGen.im:VARIABLE(start = -LOAD_3_2_2.port.iStart.im unit = "A" nominal = 2291.072496784229 ) "Imaginary part of complex number" type: Real 47: LINE_HV_3_2_3.vAt.im:VARIABLE(start = LINE_HV_3_2_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 ) "Imaginary part of complex number" type: Real 48: LOAD_3_2_3.port.u.im:VARIABLE(start = LOAD_3_2_3.port.vStart.im * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Imaginary part of complex number" type: Real 49: LOAD_3_2_3.port.u.re:VARIABLE(start = LOAD_3_2_3.port.vStart.re * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Real part of complex number" type: Real 50: LOAD_3_2_3.port.iGen.re:VARIABLE(start = -LOAD_3_2_3.port.iStart.re unit = "A" nominal = 2291.072496784229 ) "Real part of complex number" type: Real 51: LINE_HV_3_2_4.vAt.im:VARIABLE(start = LINE_HV_3_2_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 ) "Imaginary part of complex number" type: Real 52: LOAD_3_2_3.port.iGen.im:VARIABLE(start = -LOAD_3_2_3.port.iStart.im unit = "A" nominal = 2291.072496784229 ) "Imaginary part of complex number" type: Real 53: LINE_HV_3_2_4.vAt.re:VARIABLE(start = LINE_HV_3_2_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 ) "Real part of complex number" type: Real 54: LOAD_3_2_4.port.u.im:VARIABLE(start = LOAD_3_2_4.port.vStart.im * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Imaginary part of complex number" type: Real 55: LOAD_3_2_4.port.u.re:VARIABLE(start = LOAD_3_2_4.port.vStart.re * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Real part of complex number" type: Real 56: LINE_HV_3_2_4.vB.re:VARIABLE(start = LOAD_3_2_4.port.vStart.re unit = "V" nominal = 36373.06695894642 ) "Real part of complex number" type: Real 57: LINE_HV_3_2_4.iB.re:VARIABLE(start = LINE_HV_3_2_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 ) "Real part of complex number" type: Real 58: LINE_HV_3_2_4.iB.im:VARIABLE(start = LINE_HV_3_2_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 ) "Imaginary part of complex number" type: Real 59: LINE_HV_3_2_4.vB.im:VARIABLE(start = LOAD_3_2_4.port.vStart.im unit = "V" nominal = 36373.06695894642 ) "Imaginary part of complex number" type: Real 60: LOAD_3_2_4.U_URef:VARIABLE(start = 1.0 unit = "1" ) "Ratio between voltage and reference voltage" type: Real 61: LOAD_3_2_3.U_URef:VARIABLE(start = 1.0 unit = "1" ) "Ratio between voltage and reference voltage" type: Real 62: LOAD_3_2_2.U_URef:VARIABLE(start = 1.0 unit = "1" ) "Ratio between voltage and reference voltage" type: Real 63: LOAD_3_2_1.U_URef:VARIABLE(start = 1.0 unit = "1" ) "Ratio between voltage and reference voltage" type: Real 64: LOAD_2_1_1.port.u.im:VARIABLE(start = LOAD_2_1_1.port.vStart.im * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Imaginary part of complex number" type: Real 65: LOAD_2_1_1.port.u.re:VARIABLE(start = LOAD_2_1_1.port.vStart.re * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Real part of complex number" type: Real 66: LINE_HV_2_1_2.vAt.re:VARIABLE(start = LINE_HV_2_1_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 ) "Real part of complex number" type: Real 67: LOAD_2_1_1.port.iGen.re:VARIABLE(start = -LOAD_2_1_1.port.iStart.re unit = "A" nominal = 2291.072496784229 ) "Real part of complex number" type: Real 68: LOAD_2_1_1.port.iGen.im:VARIABLE(start = -LOAD_2_1_1.port.iStart.im unit = "A" nominal = 2291.072496784229 ) "Imaginary part of complex number" type: Real 69: LINE_HV_2_1_2.vAt.im:VARIABLE(start = LINE_HV_2_1_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 ) "Imaginary part of complex number" type: Real 70: LOAD_2_1_1.U_URef:VARIABLE(start = 1.0 unit = "1" ) "Ratio between voltage and reference voltage" type: Real 71: LOAD_2_1_2.port.u.im:VARIABLE(start = LOAD_2_1_2.port.vStart.im * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Imaginary part of complex number" type: Real 72: LOAD_2_1_2.port.u.re:VARIABLE(start = LOAD_2_1_2.port.vStart.re * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Real part of complex number" type: Real 73: LOAD_2_1_2.U_URef:VARIABLE(start = 1.0 unit = "1" ) "Ratio between voltage and reference voltage" type: Real 74: LINE_HV_2_1_3.vAt.re:VARIABLE(start = LINE_HV_2_1_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 ) "Real part of complex number" type: Real 75: LOAD_2_1_2.port.iGen.re:VARIABLE(start = -LOAD_2_1_2.port.iStart.re unit = "A" nominal = 2291.072496784229 ) "Real part of complex number" type: Real 76: LOAD_2_1_2.port.iGen.im:VARIABLE(start = -LOAD_2_1_2.port.iStart.im unit = "A" nominal = 2291.072496784229 ) "Imaginary part of complex number" type: Real 77: LINE_HV_2_1_3.vAt.im:VARIABLE(start = LINE_HV_2_1_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 ) "Imaginary part of complex number" type: Real 78: LOAD_2_1_3.port.u.im:VARIABLE(start = LOAD_2_1_3.port.vStart.im * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Imaginary part of complex number" type: Real 79: LOAD_2_1_3.port.u.re:VARIABLE(start = LOAD_2_1_3.port.vStart.re * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Real part of complex number" type: Real 80: LINE_HV_2_1_4.vAt.re:VARIABLE(start = LINE_HV_2_1_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 ) "Real part of complex number" type: Real 81: LOAD_2_1_3.port.iGen.re:VARIABLE(start = -LOAD_2_1_3.port.iStart.re unit = "A" nominal = 2291.072496784229 ) "Real part of complex number" type: Real 82: LOAD_2_1_3.port.iGen.im:VARIABLE(start = -LOAD_2_1_3.port.iStart.im unit = "A" nominal = 2291.072496784229 ) "Imaginary part of complex number" type: Real 83: LINE_HV_2_1_4.vAt.im:VARIABLE(start = LINE_HV_2_1_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 ) "Imaginary part of complex number" type: Real 84: LOAD_2_1_4.port.u.im:VARIABLE(start = LOAD_2_1_4.port.vStart.im * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Imaginary part of complex number" type: Real 85: LOAD_2_1_4.port.u.re:VARIABLE(start = LOAD_2_1_4.port.vStart.re * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Real part of complex number" type: Real 86: LINE_HV_2_1_4.vB.re:VARIABLE(start = LOAD_2_1_4.port.vStart.re unit = "V" nominal = 36373.06695894642 ) "Real part of complex number" type: Real 87: LINE_HV_2_1_4.iB.re:VARIABLE(start = LINE_HV_2_1_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 ) "Real part of complex number" type: Real 88: LINE_HV_2_1_4.iB.im:VARIABLE(start = LINE_HV_2_1_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 ) "Imaginary part of complex number" type: Real 89: LINE_HV_2_1_4.vB.im:VARIABLE(start = LOAD_2_1_4.port.vStart.im unit = "V" nominal = 36373.06695894642 ) "Imaginary part of complex number" type: Real 90: LOAD_2_1_4.U_URef:VARIABLE(start = 1.0 unit = "1" ) "Ratio between voltage and reference voltage" type: Real 91: LOAD_2_1_3.U_URef:VARIABLE(start = 1.0 unit = "1" ) "Ratio between voltage and reference voltage" type: Real 92: LOAD_1_1_1.U_URef:VARIABLE(start = 1.0 unit = "1" ) "Ratio between voltage and reference voltage" type: Real 93: LINE_HV_1_1_2.vAt.re:VARIABLE(start = LINE_HV_1_1_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 ) "Real part of complex number" type: Real 94: LOAD_1_1_1.port.iGen.re:VARIABLE(start = -LOAD_1_1_1.port.iStart.re unit = "A" nominal = 2291.072496784229 ) "Real part of complex number" type: Real 95: LOAD_1_1_1.port.iGen.im:VARIABLE(start = -LOAD_1_1_1.port.iStart.im unit = "A" nominal = 2291.072496784229 ) "Imaginary part of complex number" type: Real 96: LINE_HV_1_1_2.vAt.im:VARIABLE(start = LINE_HV_1_1_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 ) "Imaginary part of complex number" type: Real 97: LOAD_1_1_1.port.u.im:VARIABLE(start = LOAD_1_1_1.port.vStart.im * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Imaginary part of complex number" type: Real 98: LOAD_1_1_1.port.u.re:VARIABLE(start = LOAD_1_1_1.port.vStart.re * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Real part of complex number" type: Real 99: LOAD_1_1_2.port.u.im:VARIABLE(start = LOAD_1_1_2.port.vStart.im * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Imaginary part of complex number" type: Real 100: LOAD_1_1_2.port.u.re:VARIABLE(start = LOAD_1_1_2.port.vStart.re * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Real part of complex number" type: Real 101: LOAD_1_1_2.port.iGen.re:VARIABLE(start = -LOAD_1_1_2.port.iStart.re unit = "A" nominal = 2291.072496784229 ) "Real part of complex number" type: Real 102: LINE_HV_1_1_3.vAt.im:VARIABLE(start = LINE_HV_1_1_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 ) "Imaginary part of complex number" type: Real 103: LOAD_1_1_2.port.iGen.im:VARIABLE(start = -LOAD_1_1_2.port.iStart.im unit = "A" nominal = 2291.072496784229 ) "Imaginary part of complex number" type: Real 104: LINE_HV_1_1_3.vAt.re:VARIABLE(start = LINE_HV_1_1_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 ) "Real part of complex number" type: Real 105: LOAD_1_1_3.port.u.im:VARIABLE(start = LOAD_1_1_3.port.vStart.im * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Imaginary part of complex number" type: Real 106: LOAD_1_1_3.port.u.re:VARIABLE(start = LOAD_1_1_3.port.vStart.re * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Real part of complex number" type: Real 107: LOAD_1_1_3.port.iGen.re:VARIABLE(start = -LOAD_1_1_3.port.iStart.re unit = "A" nominal = 2291.072496784229 ) "Real part of complex number" type: Real 108: LINE_HV_1_1_4.vAt.im:VARIABLE(start = LINE_HV_1_1_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 ) "Imaginary part of complex number" type: Real 109: LOAD_1_1_3.port.iGen.im:VARIABLE(start = -LOAD_1_1_3.port.iStart.im unit = "A" nominal = 2291.072496784229 ) "Imaginary part of complex number" type: Real 110: LINE_HV_1_1_4.vAt.re:VARIABLE(start = LINE_HV_1_1_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 ) "Real part of complex number" type: Real 111: LOAD_1_1_4.port.u.im:VARIABLE(start = LOAD_1_1_4.port.vStart.im * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Imaginary part of complex number" type: Real 112: LOAD_1_1_4.port.u.re:VARIABLE(start = LOAD_1_1_4.port.vStart.re * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Real part of complex number" type: Real 113: LINE_HV_1_1_4.iB.re:VARIABLE(start = LINE_HV_1_1_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 ) "Real part of complex number" type: Real 114: LINE_HV_1_1_4.vB.im:VARIABLE(start = LOAD_1_1_4.port.vStart.im unit = "V" nominal = 36373.06695894642 ) "Imaginary part of complex number" type: Real 115: LINE_HV_1_1_4.iB.im:VARIABLE(start = LINE_HV_1_1_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 ) "Imaginary part of complex number" type: Real 116: LINE_HV_1_1_4.vB.re:VARIABLE(start = LOAD_1_1_4.port.vStart.re unit = "V" nominal = 36373.06695894642 ) "Real part of complex number" type: Real 117: LOAD_1_1_4.U_URef:VARIABLE(start = 1.0 unit = "1" ) "Ratio between voltage and reference voltage" type: Real 118: LOAD_1_1_3.U_URef:VARIABLE(start = 1.0 unit = "1" ) "Ratio between voltage and reference voltage" type: Real 119: LOAD_1_1_2.U_URef:VARIABLE(start = 1.0 unit = "1" ) "Ratio between voltage and reference voltage" type: Real 120: GEN_1_1.GEN.udPu:VARIABLE(start = GEN_1_1.GEN.udPuStart unit = "1" ) "Voltage of direct axis in p.u." type: Real 121: GEN_1_1.GEN.uqPu:VARIABLE(start = GEN_1_1.GEN.uqPuStart unit = "1" ) "Voltage of quadrature axis in p.u." type: Real 122: GEN_1_1.GEN.port.u.im:VARIABLE(start = GEN_1_1.GEN.port.vStart.im * 1.732050807568877 unit = "V" nominal = 21000.0 ) "Imaginary part of complex number" type: Real 123: GEN_1_1.GEN.port.u.re:VARIABLE(start = GEN_1_1.GEN.port.vStart.re * 1.732050807568877 unit = "V" nominal = 21000.0 ) "Real part of complex number" type: Real 124: GEN_1_1.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_1_1.AVR.leadLag.yStart ) "Connector of Real input signal" type: Real 125: GEN_1_1.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_1_1.AVR.firstOrderLim.I.y_start ) "Connector of Real output signal" type: Real 126: GEN_1_1.GEN.iqPu:VARIABLE(start = GEN_1_1.GEN.iqPuStart unit = "1" ) "Current of quadrature axis in p.u." type: Real 127: GEN_1_1.GEN.lambdadPu:VARIABLE(start = GEN_1_1.GEN.lambdadPuStart unit = "1" ) "Flux of direct axis in p.u." type: Real 128: GEN_1_1.GEN.idPu:VARIABLE(start = GEN_1_1.GEN.idPuStart unit = "1" ) "Current of direct axis in p.u." type: Real 129: GEN_1_1.GEN.lambdaqPu:VARIABLE(start = GEN_1_1.GEN.lambdaqPuStart unit = "1" ) "Flux of quadrature axis in p.u." type: Real 130: LOAD_1_2_1.port.u.im:VARIABLE(start = LOAD_1_2_1.port.vStart.im * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Imaginary part of complex number" type: Real 131: LOAD_1_2_1.port.u.re:VARIABLE(start = LOAD_1_2_1.port.vStart.re * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Real part of complex number" type: Real 132: LOAD_1_2_1.port.iGen.re:VARIABLE(start = -LOAD_1_2_1.port.iStart.re unit = "A" nominal = 2291.072496784229 ) "Real part of complex number" type: Real 133: LINE_HV_1_2_2.vAt.im:VARIABLE(start = LINE_HV_1_2_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 ) "Imaginary part of complex number" type: Real 134: LOAD_1_2_1.port.iGen.im:VARIABLE(start = -LOAD_1_2_1.port.iStart.im unit = "A" nominal = 2291.072496784229 ) "Imaginary part of complex number" type: Real 135: LINE_HV_1_2_2.vAt.re:VARIABLE(start = LINE_HV_1_2_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 ) "Real part of complex number" type: Real 136: LOAD_1_2_2.U_URef:VARIABLE(start = 1.0 unit = "1" ) "Ratio between voltage and reference voltage" type: Real 137: LINE_HV_1_2_3.vAt.re:VARIABLE(start = LINE_HV_1_2_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 ) "Real part of complex number" type: Real 138: LOAD_1_2_2.port.iGen.re:VARIABLE(start = -LOAD_1_2_2.port.iStart.re unit = "A" nominal = 2291.072496784229 ) "Real part of complex number" type: Real 139: LOAD_1_2_2.port.iGen.im:VARIABLE(start = -LOAD_1_2_2.port.iStart.im unit = "A" nominal = 2291.072496784229 ) "Imaginary part of complex number" type: Real 140: LINE_HV_1_2_3.vAt.im:VARIABLE(start = LINE_HV_1_2_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 ) "Imaginary part of complex number" type: Real 141: LOAD_1_2_2.port.u.im:VARIABLE(start = LOAD_1_2_2.port.vStart.im * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Imaginary part of complex number" type: Real 142: LOAD_1_2_2.port.u.re:VARIABLE(start = LOAD_1_2_2.port.vStart.re * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Real part of complex number" type: Real 143: LINE_HV_1_2_4.vAt.re:VARIABLE(start = LINE_HV_1_2_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 ) "Real part of complex number" type: Real 144: LOAD_1_2_3.port.iGen.re:VARIABLE(start = -LOAD_1_2_3.port.iStart.re unit = "A" nominal = 2291.072496784229 ) "Real part of complex number" type: Real 145: LOAD_1_2_3.port.iGen.im:VARIABLE(start = -LOAD_1_2_3.port.iStart.im unit = "A" nominal = 2291.072496784229 ) "Imaginary part of complex number" type: Real 146: LINE_HV_1_2_4.vAt.im:VARIABLE(start = LINE_HV_1_2_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 ) "Imaginary part of complex number" type: Real 147: LOAD_1_2_3.port.u.im:VARIABLE(start = LOAD_1_2_3.port.vStart.im * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Imaginary part of complex number" type: Real 148: LOAD_1_2_3.port.u.re:VARIABLE(start = LOAD_1_2_3.port.vStart.re * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Real part of complex number" type: Real 149: LOAD_1_2_3.U_URef:VARIABLE(start = 1.0 unit = "1" ) "Ratio between voltage and reference voltage" type: Real 150: LOAD_1_2_4.port.u.im:VARIABLE(start = LOAD_1_2_4.port.vStart.im * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Imaginary part of complex number" type: Real 151: LOAD_1_2_4.port.u.re:VARIABLE(start = LOAD_1_2_4.port.vStart.re * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Real part of complex number" type: Real 152: LINE_HV_1_2_4.vB.re:VARIABLE(start = LOAD_1_2_4.port.vStart.re unit = "V" nominal = 36373.06695894642 ) "Real part of complex number" type: Real 153: LINE_HV_1_2_4.iB.re:VARIABLE(start = LINE_HV_1_2_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 ) "Real part of complex number" type: Real 154: LINE_HV_1_2_4.iB.im:VARIABLE(start = LINE_HV_1_2_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 ) "Imaginary part of complex number" type: Real 155: LINE_HV_1_2_4.vB.im:VARIABLE(start = LOAD_1_2_4.port.vStart.im unit = "V" nominal = 36373.06695894642 ) "Imaginary part of complex number" type: Real 156: LOAD_1_2_4.U_URef:VARIABLE(start = 1.0 unit = "1" ) "Ratio between voltage and reference voltage" type: Real 157: LOAD_1_2_1.U_URef:VARIABLE(start = 1.0 unit = "1" ) "Ratio between voltage and reference voltage" type: Real 158: GEN_1_2.GEN.uqPu:VARIABLE(start = GEN_1_2.GEN.uqPuStart unit = "1" ) "Voltage of quadrature axis in p.u." type: Real 159: GEN_1_2.GEN.udPu:VARIABLE(start = GEN_1_2.GEN.udPuStart unit = "1" ) "Voltage of direct axis in p.u." type: Real 160: GEN_1_2.GEN.port.u.im:VARIABLE(start = GEN_1_2.GEN.port.vStart.im * 1.732050807568877 unit = "V" nominal = 21000.0 ) "Imaginary part of complex number" type: Real 161: GEN_1_2.GEN.port.u.re:VARIABLE(start = GEN_1_2.GEN.port.vStart.re * 1.732050807568877 unit = "V" nominal = 21000.0 ) "Real part of complex number" type: Real 162: GEN_1_2.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_1_2.AVR.leadLag.yStart ) "Connector of Real input signal" type: Real 163: GEN_1_2.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_1_2.AVR.firstOrderLim.I.y_start ) "Connector of Real output signal" type: Real 164: GEN_1_2.GEN.iqPu:VARIABLE(start = GEN_1_2.GEN.iqPuStart unit = "1" ) "Current of quadrature axis in p.u." type: Real 165: GEN_1_2.GEN.lambdadPu:VARIABLE(start = GEN_1_2.GEN.lambdadPuStart unit = "1" ) "Flux of direct axis in p.u." type: Real 166: GEN_1_2.GEN.idPu:VARIABLE(start = GEN_1_2.GEN.idPuStart unit = "1" ) "Current of direct axis in p.u." type: Real 167: GEN_1_2.GEN.lambdaqPu:VARIABLE(start = GEN_1_2.GEN.lambdaqPuStart unit = "1" ) "Flux of quadrature axis in p.u." type: Real 168: LOAD_4_1_1.port.u.im:VARIABLE(start = LOAD_4_1_1.port.vStart.im * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Imaginary part of complex number" type: Real 169: LOAD_4_1_1.port.u.re:VARIABLE(start = LOAD_4_1_1.port.vStart.re * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Real part of complex number" type: Real 170: LOAD_4_1_1.port.iGen.re:VARIABLE(start = -LOAD_4_1_1.port.iStart.re unit = "A" nominal = 2291.072496784229 ) "Real part of complex number" type: Real 171: LINE_HV_4_1_2.vAt.im:VARIABLE(start = LINE_HV_4_1_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 ) "Imaginary part of complex number" type: Real 172: LOAD_4_1_1.port.iGen.im:VARIABLE(start = -LOAD_4_1_1.port.iStart.im unit = "A" nominal = 2291.072496784229 ) "Imaginary part of complex number" type: Real 173: LINE_HV_4_1_2.vAt.re:VARIABLE(start = LINE_HV_4_1_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 ) "Real part of complex number" type: Real 174: LOAD_4_1_2.port.u.im:VARIABLE(start = LOAD_4_1_2.port.vStart.im * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Imaginary part of complex number" type: Real 175: LOAD_4_1_2.port.u.re:VARIABLE(start = LOAD_4_1_2.port.vStart.re * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Real part of complex number" type: Real 176: LOAD_4_1_2.port.iGen.re:VARIABLE(start = -LOAD_4_1_2.port.iStart.re unit = "A" nominal = 2291.072496784229 ) "Real part of complex number" type: Real 177: LINE_HV_4_1_3.vAt.im:VARIABLE(start = LINE_HV_4_1_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 ) "Imaginary part of complex number" type: Real 178: LOAD_4_1_2.port.iGen.im:VARIABLE(start = -LOAD_4_1_2.port.iStart.im unit = "A" nominal = 2291.072496784229 ) "Imaginary part of complex number" type: Real 179: LINE_HV_4_1_3.vAt.re:VARIABLE(start = LINE_HV_4_1_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 ) "Real part of complex number" type: Real 180: LOAD_4_1_3.port.u.im:VARIABLE(start = LOAD_4_1_3.port.vStart.im * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Imaginary part of complex number" type: Real 181: LOAD_4_1_3.port.u.re:VARIABLE(start = LOAD_4_1_3.port.vStart.re * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Real part of complex number" type: Real 182: LOAD_4_1_3.U_URef:VARIABLE(start = 1.0 unit = "1" ) "Ratio between voltage and reference voltage" type: Real 183: LINE_HV_4_1_4.vAt.re:VARIABLE(start = LINE_HV_4_1_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 ) "Real part of complex number" type: Real 184: LOAD_4_1_3.port.iGen.re:VARIABLE(start = -LOAD_4_1_3.port.iStart.re unit = "A" nominal = 2291.072496784229 ) "Real part of complex number" type: Real 185: LOAD_4_1_3.port.iGen.im:VARIABLE(start = -LOAD_4_1_3.port.iStart.im unit = "A" nominal = 2291.072496784229 ) "Imaginary part of complex number" type: Real 186: LINE_HV_4_1_4.vAt.im:VARIABLE(start = LINE_HV_4_1_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 ) "Imaginary part of complex number" type: Real 187: LOAD_4_1_4.port.u.im:VARIABLE(start = LOAD_4_1_4.port.vStart.im * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Imaginary part of complex number" type: Real 188: LOAD_4_1_4.port.u.re:VARIABLE(start = LOAD_4_1_4.port.vStart.re * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Real part of complex number" type: Real 189: LINE_HV_4_1_4.vB.re:VARIABLE(start = LOAD_4_1_4.port.vStart.re unit = "V" nominal = 36373.06695894642 ) "Real part of complex number" type: Real 190: LINE_HV_4_1_4.iB.re:VARIABLE(start = LINE_HV_4_1_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 ) "Real part of complex number" type: Real 191: LINE_HV_4_1_4.iB.im:VARIABLE(start = LINE_HV_4_1_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 ) "Imaginary part of complex number" type: Real 192: LINE_HV_4_1_4.vB.im:VARIABLE(start = LOAD_4_1_4.port.vStart.im unit = "V" nominal = 36373.06695894642 ) "Imaginary part of complex number" type: Real 193: LOAD_4_1_4.U_URef:VARIABLE(start = 1.0 unit = "1" ) "Ratio between voltage and reference voltage" type: Real 194: LOAD_4_1_2.U_URef:VARIABLE(start = 1.0 unit = "1" ) "Ratio between voltage and reference voltage" type: Real 195: LOAD_4_1_1.U_URef:VARIABLE(start = 1.0 unit = "1" ) "Ratio between voltage and reference voltage" type: Real 196: GEN_3_1.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_3_1.AVR.firstOrderLim.I.y_start ) "Connector of Real output signal" type: Real 197: GEN_3_1.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_3_1.AVR.leadLag.yStart ) "Connector of Real input signal" type: Real 198: GEN_3_1.GEN.port.u.im:VARIABLE(start = GEN_3_1.GEN.port.vStart.im * 1.732050807568877 unit = "V" nominal = 21000.0 ) "Imaginary part of complex number" type: Real 199: GEN_3_1.GEN.port.u.re:VARIABLE(start = GEN_3_1.GEN.port.vStart.re * 1.732050807568877 unit = "V" nominal = 21000.0 ) "Real part of complex number" type: Real 200: GEN_3_1.GEN.udPu:VARIABLE(start = GEN_3_1.GEN.udPuStart unit = "1" ) "Voltage of direct axis in p.u." type: Real 201: GEN_3_1.GEN.uqPu:VARIABLE(start = GEN_3_1.GEN.uqPuStart unit = "1" ) "Voltage of quadrature axis in p.u." type: Real 202: GEN_3_1.GEN.iqPu:VARIABLE(start = GEN_3_1.GEN.iqPuStart unit = "1" ) "Current of quadrature axis in p.u." type: Real 203: GEN_3_1.GEN.lambdadPu:VARIABLE(start = GEN_3_1.GEN.lambdadPuStart unit = "1" ) "Flux of direct axis in p.u." type: Real 204: GEN_3_1.GEN.idPu:VARIABLE(start = GEN_3_1.GEN.idPuStart unit = "1" ) "Current of direct axis in p.u." type: Real 205: GEN_3_1.GEN.lambdaqPu:VARIABLE(start = GEN_3_1.GEN.lambdaqPuStart unit = "1" ) "Flux of quadrature axis in p.u." type: Real 206: GEN_4_2.GEN.port.u.im:VARIABLE(start = GEN_4_2.GEN.port.vStart.im * 1.732050807568877 unit = "V" nominal = 21000.0 ) "Imaginary part of complex number" type: Real 207: GEN_4_2.GEN.port.u.re:VARIABLE(start = GEN_4_2.GEN.port.vStart.re * 1.732050807568877 unit = "V" nominal = 21000.0 ) "Real part of complex number" type: Real 208: GEN_4_2.GEN.udPu:VARIABLE(start = GEN_4_2.GEN.udPuStart unit = "1" ) "Voltage of direct axis in p.u." type: Real 209: GEN_4_2.GEN.uqPu:VARIABLE(start = GEN_4_2.GEN.uqPuStart unit = "1" ) "Voltage of quadrature axis in p.u." type: Real 210: GEN_4_2.GEN.iqPu:VARIABLE(start = GEN_4_2.GEN.iqPuStart unit = "1" ) "Current of quadrature axis in p.u." type: Real 211: GEN_4_2.GEN.lambdadPu:VARIABLE(start = GEN_4_2.GEN.lambdadPuStart unit = "1" ) "Flux of direct axis in p.u." type: Real 212: GEN_4_2.GEN.idPu:VARIABLE(start = GEN_4_2.GEN.idPuStart unit = "1" ) "Current of direct axis in p.u." type: Real 213: GEN_4_2.GEN.lambdaqPu:VARIABLE(start = GEN_4_2.GEN.lambdaqPuStart unit = "1" ) "Flux of quadrature axis in p.u." type: Real 214: GEN_4_2.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_4_2.AVR.firstOrderLim.I.y_start ) "Connector of Real output signal" type: Real 215: GEN_4_2.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_4_2.AVR.leadLag.yStart ) "Connector of Real input signal" type: Real 216: LOAD_4_2_1.port.u.im:VARIABLE(start = LOAD_4_2_1.port.vStart.im * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Imaginary part of complex number" type: Real 217: LOAD_4_2_1.port.u.re:VARIABLE(start = LOAD_4_2_1.port.vStart.re * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Real part of complex number" type: Real 218: LOAD_4_2_1.port.iGen.re:VARIABLE(start = -LOAD_4_2_1.port.iStart.re unit = "A" nominal = 2291.072496784229 ) "Real part of complex number" type: Real 219: LINE_HV_4_2_2.vAt.im:VARIABLE(start = LINE_HV_4_2_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 ) "Imaginary part of complex number" type: Real 220: LOAD_4_2_1.port.iGen.im:VARIABLE(start = -LOAD_4_2_1.port.iStart.im unit = "A" nominal = 2291.072496784229 ) "Imaginary part of complex number" type: Real 221: LINE_HV_4_2_2.vAt.re:VARIABLE(start = LINE_HV_4_2_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 ) "Real part of complex number" type: Real 222: LOAD_4_2_2.U_URef:VARIABLE(start = 1.0 unit = "1" ) "Ratio between voltage and reference voltage" type: Real 223: LINE_HV_4_2_3.vAt.re:VARIABLE(start = LINE_HV_4_2_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 ) "Real part of complex number" type: Real 224: LOAD_4_2_2.port.iGen.re:VARIABLE(start = -LOAD_4_2_2.port.iStart.re unit = "A" nominal = 2291.072496784229 ) "Real part of complex number" type: Real 225: LOAD_4_2_2.port.iGen.im:VARIABLE(start = -LOAD_4_2_2.port.iStart.im unit = "A" nominal = 2291.072496784229 ) "Imaginary part of complex number" type: Real 226: LINE_HV_4_2_3.vAt.im:VARIABLE(start = LINE_HV_4_2_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 ) "Imaginary part of complex number" type: Real 227: LOAD_4_2_2.port.u.im:VARIABLE(start = LOAD_4_2_2.port.vStart.im * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Imaginary part of complex number" type: Real 228: LOAD_4_2_2.port.u.re:VARIABLE(start = LOAD_4_2_2.port.vStart.re * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Real part of complex number" type: Real 229: LOAD_4_2_3.port.u.im:VARIABLE(start = LOAD_4_2_3.port.vStart.im * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Imaginary part of complex number" type: Real 230: LOAD_4_2_3.port.u.re:VARIABLE(start = LOAD_4_2_3.port.vStart.re * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Real part of complex number" type: Real 231: LOAD_4_2_3.port.iGen.re:VARIABLE(start = -LOAD_4_2_3.port.iStart.re unit = "A" nominal = 2291.072496784229 ) "Real part of complex number" type: Real 232: LINE_HV_4_2_4.vAt.im:VARIABLE(start = LINE_HV_4_2_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 ) "Imaginary part of complex number" type: Real 233: LOAD_4_2_3.port.iGen.im:VARIABLE(start = -LOAD_4_2_3.port.iStart.im unit = "A" nominal = 2291.072496784229 ) "Imaginary part of complex number" type: Real 234: LINE_HV_4_2_4.vAt.re:VARIABLE(start = LINE_HV_4_2_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 ) "Real part of complex number" type: Real 235: LINE_HV_4_2_4.vB.re:VARIABLE(start = LOAD_4_2_4.port.vStart.re unit = "V" nominal = 36373.06695894642 ) "Real part of complex number" type: Real 236: LINE_HV_4_2_4.iB.re:VARIABLE(start = LINE_HV_4_2_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 ) "Real part of complex number" type: Real 237: LINE_HV_4_2_4.iB.im:VARIABLE(start = LINE_HV_4_2_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 ) "Imaginary part of complex number" type: Real 238: LINE_HV_4_2_4.vB.im:VARIABLE(start = LOAD_4_2_4.port.vStart.im unit = "V" nominal = 36373.06695894642 ) "Imaginary part of complex number" type: Real 239: LOAD_4_2_4.port.u.im:VARIABLE(start = LOAD_4_2_4.port.vStart.im * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Imaginary part of complex number" type: Real 240: LOAD_4_2_4.port.u.re:VARIABLE(start = LOAD_4_2_4.port.vStart.re * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Real part of complex number" type: Real 241: LOAD_4_2_4.U_URef:VARIABLE(start = 1.0 unit = "1" ) "Ratio between voltage and reference voltage" type: Real 242: LOAD_4_2_3.U_URef:VARIABLE(start = 1.0 unit = "1" ) "Ratio between voltage and reference voltage" type: Real 243: LOAD_4_2_1.U_URef:VARIABLE(start = 1.0 unit = "1" ) "Ratio between voltage and reference voltage" type: Real 244: GEN_3_2.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_3_2.AVR.firstOrderLim.I.y_start ) "Connector of Real output signal" type: Real 245: GEN_3_2.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_3_2.AVR.leadLag.yStart ) "Connector of Real input signal" type: Real 246: GEN_3_2.GEN.port.u.im:VARIABLE(start = GEN_3_2.GEN.port.vStart.im * 1.732050807568877 unit = "V" nominal = 21000.0 ) "Imaginary part of complex number" type: Real 247: GEN_3_2.GEN.port.u.re:VARIABLE(start = GEN_3_2.GEN.port.vStart.re * 1.732050807568877 unit = "V" nominal = 21000.0 ) "Real part of complex number" type: Real 248: GEN_3_2.GEN.uqPu:VARIABLE(start = GEN_3_2.GEN.uqPuStart unit = "1" ) "Voltage of quadrature axis in p.u." type: Real 249: GEN_3_2.GEN.udPu:VARIABLE(start = GEN_3_2.GEN.udPuStart unit = "1" ) "Voltage of direct axis in p.u." type: Real 250: GEN_3_2.GEN.iqPu:VARIABLE(start = GEN_3_2.GEN.iqPuStart unit = "1" ) "Current of quadrature axis in p.u." type: Real 251: GEN_3_2.GEN.lambdadPu:VARIABLE(start = GEN_3_2.GEN.lambdadPuStart unit = "1" ) "Flux of direct axis in p.u." type: Real 252: GEN_3_2.GEN.idPu:VARIABLE(start = GEN_3_2.GEN.idPuStart unit = "1" ) "Current of direct axis in p.u." type: Real 253: GEN_3_2.GEN.lambdaqPu:VARIABLE(start = GEN_3_2.GEN.lambdaqPuStart unit = "1" ) "Flux of quadrature axis in p.u." type: Real 254: GEN_4_1.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_4_1.AVR.firstOrderLim.I.y_start ) "Connector of Real output signal" type: Real 255: GEN_4_1.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_4_1.AVR.leadLag.yStart ) "Connector of Real input signal" type: Real 256: GEN_4_1.GEN.port.u.im:VARIABLE(start = GEN_4_1.GEN.port.vStart.im * 1.732050807568877 unit = "V" nominal = 21000.0 ) "Imaginary part of complex number" type: Real 257: GEN_4_1.GEN.port.u.re:VARIABLE(start = GEN_4_1.GEN.port.vStart.re * 1.732050807568877 unit = "V" nominal = 21000.0 ) "Real part of complex number" type: Real 258: GEN_4_1.GEN.uqPu:VARIABLE(start = GEN_4_1.GEN.uqPuStart unit = "1" ) "Voltage of quadrature axis in p.u." type: Real 259: GEN_4_1.GEN.udPu:VARIABLE(start = GEN_4_1.GEN.udPuStart unit = "1" ) "Voltage of direct axis in p.u." type: Real 260: GEN_4_1.GEN.iqPu:VARIABLE(start = GEN_4_1.GEN.iqPuStart unit = "1" ) "Current of quadrature axis in p.u." type: Real 261: GEN_4_1.GEN.lambdadPu:VARIABLE(start = GEN_4_1.GEN.lambdadPuStart unit = "1" ) "Flux of direct axis in p.u." type: Real 262: GEN_4_1.GEN.idPu:VARIABLE(start = GEN_4_1.GEN.idPuStart unit = "1" ) "Current of direct axis in p.u." type: Real 263: GEN_4_1.GEN.lambdaqPu:VARIABLE(start = GEN_4_1.GEN.lambdaqPuStart unit = "1" ) "Flux of quadrature axis in p.u." type: Real 264: LOAD_3_1_1.port.u.im:VARIABLE(start = LOAD_3_1_1.port.vStart.im * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Imaginary part of complex number" type: Real 265: LOAD_3_1_1.port.u.re:VARIABLE(start = LOAD_3_1_1.port.vStart.re * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Real part of complex number" type: Real 266: LINE_HV_3_1_2.vAt.re:VARIABLE(start = LINE_HV_3_1_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 ) "Real part of complex number" type: Real 267: LOAD_3_1_1.port.iGen.re:VARIABLE(start = -LOAD_3_1_1.port.iStart.re unit = "A" nominal = 2291.072496784229 ) "Real part of complex number" type: Real 268: LOAD_3_1_1.port.iGen.im:VARIABLE(start = -LOAD_3_1_1.port.iStart.im unit = "A" nominal = 2291.072496784229 ) "Imaginary part of complex number" type: Real 269: LINE_HV_3_1_2.vAt.im:VARIABLE(start = LINE_HV_3_1_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 ) "Imaginary part of complex number" type: Real 270: LOAD_3_1_2.port.u.im:VARIABLE(start = LOAD_3_1_2.port.vStart.im * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Imaginary part of complex number" type: Real 271: LOAD_3_1_2.port.u.re:VARIABLE(start = LOAD_3_1_2.port.vStart.re * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Real part of complex number" type: Real 272: LOAD_3_1_2.U_URef:VARIABLE(start = 1.0 unit = "1" ) "Ratio between voltage and reference voltage" type: Real 273: LINE_HV_3_1_3.vAt.re:VARIABLE(start = LINE_HV_3_1_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 ) "Real part of complex number" type: Real 274: LOAD_3_1_2.port.iGen.re:VARIABLE(start = -LOAD_3_1_2.port.iStart.re unit = "A" nominal = 2291.072496784229 ) "Real part of complex number" type: Real 275: LOAD_3_1_2.port.iGen.im:VARIABLE(start = -LOAD_3_1_2.port.iStart.im unit = "A" nominal = 2291.072496784229 ) "Imaginary part of complex number" type: Real 276: LINE_HV_3_1_3.vAt.im:VARIABLE(start = LINE_HV_3_1_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 ) "Imaginary part of complex number" type: Real 277: LOAD_3_1_3.port.u.im:VARIABLE(start = LOAD_3_1_3.port.vStart.im * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Imaginary part of complex number" type: Real 278: LOAD_3_1_3.port.u.re:VARIABLE(start = LOAD_3_1_3.port.vStart.re * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Real part of complex number" type: Real 279: LOAD_3_1_3.port.iGen.re:VARIABLE(start = -LOAD_3_1_3.port.iStart.re unit = "A" nominal = 2291.072496784229 ) "Real part of complex number" type: Real 280: LINE_HV_3_1_4.vAt.im:VARIABLE(start = LINE_HV_3_1_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 ) "Imaginary part of complex number" type: Real 281: LOAD_3_1_3.port.iGen.im:VARIABLE(start = -LOAD_3_1_3.port.iStart.im unit = "A" nominal = 2291.072496784229 ) "Imaginary part of complex number" type: Real 282: LINE_HV_3_1_4.vAt.re:VARIABLE(start = LINE_HV_3_1_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 ) "Real part of complex number" type: Real 283: LINE_HV_3_1_4.vB.re:VARIABLE(start = LOAD_3_1_4.port.vStart.re unit = "V" nominal = 36373.06695894642 ) "Real part of complex number" type: Real 284: LINE_HV_3_1_4.iB.re:VARIABLE(start = LINE_HV_3_1_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 ) "Real part of complex number" type: Real 285: LINE_HV_3_1_4.iB.im:VARIABLE(start = LINE_HV_3_1_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 ) "Imaginary part of complex number" type: Real 286: LINE_HV_3_1_4.vB.im:VARIABLE(start = LOAD_3_1_4.port.vStart.im unit = "V" nominal = 36373.06695894642 ) "Imaginary part of complex number" type: Real 287: LOAD_3_1_4.port.u.im:VARIABLE(start = LOAD_3_1_4.port.vStart.im * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Imaginary part of complex number" type: Real 288: LOAD_3_1_4.port.u.re:VARIABLE(start = LOAD_3_1_4.port.vStart.re * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Real part of complex number" type: Real 289: LOAD_3_1_4.U_URef:VARIABLE(start = 1.0 unit = "1" ) "Ratio between voltage and reference voltage" type: Real 290: LOAD_3_1_3.U_URef:VARIABLE(start = 1.0 unit = "1" ) "Ratio between voltage and reference voltage" type: Real 291: LOAD_3_1_1.U_URef:VARIABLE(start = 1.0 unit = "1" ) "Ratio between voltage and reference voltage" type: Real 292: GEN_2_2.GEN.udPu:VARIABLE(start = GEN_2_2.GEN.udPuStart unit = "1" ) "Voltage of direct axis in p.u." type: Real 293: GEN_2_2.GEN.uqPu:VARIABLE(start = GEN_2_2.GEN.uqPuStart unit = "1" ) "Voltage of quadrature axis in p.u." type: Real 294: GEN_2_2.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_2_2.AVR.firstOrderLim.I.y_start ) "Connector of Real output signal" type: Real 295: GEN_2_2.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_2_2.AVR.leadLag.yStart ) "Connector of Real input signal" type: Real 296: GEN_2_2.GEN.port.u.im:VARIABLE(start = GEN_2_2.GEN.port.vStart.im * 1.732050807568877 unit = "V" nominal = 21000.0 ) "Imaginary part of complex number" type: Real 297: GEN_2_2.GEN.port.u.re:VARIABLE(start = GEN_2_2.GEN.port.vStart.re * 1.732050807568877 unit = "V" nominal = 21000.0 ) "Real part of complex number" type: Real 298: GEN_2_2.GEN.iqPu:VARIABLE(start = GEN_2_2.GEN.iqPuStart unit = "1" ) "Current of quadrature axis in p.u." type: Real 299: GEN_2_2.GEN.lambdadPu:VARIABLE(start = GEN_2_2.GEN.lambdadPuStart unit = "1" ) "Flux of direct axis in p.u." type: Real 300: GEN_2_2.GEN.idPu:VARIABLE(start = GEN_2_2.GEN.idPuStart unit = "1" ) "Current of direct axis in p.u." type: Real 301: GEN_2_2.GEN.lambdaqPu:VARIABLE(start = GEN_2_2.GEN.lambdaqPuStart unit = "1" ) "Flux of quadrature axis in p.u." type: Real Info: Only non-linear iteration variables in non-linear eqation systems require start values. All other start values have no influence on convergence and are ignored. Use "-d=dumpLoops" to show all loops. In OMEdit Tools->Options->Simulation->Additional Translation Flags, in OMNotebook call setCommandLineOptions("-d=dumpLoops") Nonlinear iteration variables with default zero start attribute in NLSJac73. (2) ======================================== 1: GEN_2_1.AVR.inputLimiter.u:VARIABLE(flow=false ) "Connector of Real input signal" type: Real 2: GEN_2_1.AVR.firstOrderLim.G.y:VARIABLE(flow=false ) "Output signal connector" type: Real Nonlinear iteration variables with predefined start attribute in NLSJac73. (11) ======================================== 1: GEN_2_1.GEN.theta:VARIABLE(start = GEN_2_1.GEN.thetaStart unit = "rad" ) "Rotation between machine rotor frame and port phasor frame" type: Real 2: GEN_2_1.GEN.udPu:VARIABLE(start = GEN_2_1.GEN.udPuStart unit = "1" ) "Voltage of direct axis in p.u." type: Real 3: GEN_2_1.GEN.uqPu:VARIABLE(start = GEN_2_1.GEN.uqPuStart unit = "1" ) "Voltage of quadrature axis in p.u." type: Real 4: GEN_2_1.GEN.port.u.im:VARIABLE(start = GEN_2_1.GEN.port.vStart.im * 1.732050807568877 unit = "V" nominal = 21000.0 ) "Imaginary part of complex number" type: Real 5: GEN_2_1.GEN.port.u.re:VARIABLE(start = GEN_2_1.GEN.port.vStart.re * 1.732050807568877 unit = "V" nominal = 21000.0 ) "Real part of complex number" type: Real 6: GEN_2_1.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_2_1.AVR.leadLag.yStart ) "Connector of Real input signal" type: Real 7: GEN_2_1.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_2_1.AVR.firstOrderLim.I.y_start ) "Connector of Real output signal" type: Real 8: GEN_2_1.GEN.lambdadPu:VARIABLE(start = GEN_2_1.GEN.lambdadPuStart unit = "1" ) "Flux of direct axis in p.u." type: Real 9: GEN_2_1.GEN.lambdaqPu:VARIABLE(start = GEN_2_1.GEN.lambdaqPuStart unit = "1" ) "Flux of quadrature axis in p.u." type: Real 10: GEN_2_1.GEN.iqPu:VARIABLE(start = GEN_2_1.GEN.iqPuStart unit = "1" ) "Current of quadrature axis in p.u." type: Real 11: GEN_2_1.GEN.idPu:VARIABLE(start = GEN_2_1.GEN.idPuStart unit = "1" ) "Current of direct axis in p.u." type: Real Info: Only non-linear iteration variables in non-linear eqation systems require start values. All other start values have no influence on convergence and are ignored. Use "-d=dumpLoops" to show all loops. In OMEdit Tools->Options->Simulation->Additional Translation Flags, in OMNotebook call setCommandLineOptions("-d=dumpLoops") Nonlinear iteration variables with predefined start attribute in NLSJac138. (287) ======================================== 1: GEN_1_2.GEN.theta:VARIABLE(start = GEN_1_2.GEN.thetaStart unit = "rad" ) "Rotation between machine rotor frame and port phasor frame" type: Real 2: GEN_3_1.GEN.theta:VARIABLE(start = GEN_3_1.GEN.thetaStart unit = "rad" ) "Rotation between machine rotor frame and port phasor frame" type: Real 3: GEN_4_1.GEN.theta:VARIABLE(start = GEN_4_1.GEN.thetaStart unit = "rad" ) "Rotation between machine rotor frame and port phasor frame" type: Real 4: GEN_3_2.GEN.theta:VARIABLE(start = GEN_3_2.GEN.thetaStart unit = "rad" ) "Rotation between machine rotor frame and port phasor frame" type: Real 5: GEN_4_2.GEN.theta:VARIABLE(start = GEN_4_2.GEN.thetaStart unit = "rad" ) "Rotation between machine rotor frame and port phasor frame" type: Real 6: GEN_1_1.GEN.theta:VARIABLE(start = GEN_1_1.GEN.thetaStart unit = "rad" ) "Rotation between machine rotor frame and port phasor frame" type: Real 7: GEN_2_2.GEN.theta:VARIABLE(start = GEN_2_2.GEN.thetaStart unit = "rad" ) "Rotation between machine rotor frame and port phasor frame" type: Real 8: LOAD_2_2_1.port.u.im:VARIABLE(start = LOAD_2_2_1.port.vStart.im * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Imaginary part of complex number" type: Real 9: LOAD_2_2_1.port.u.re:VARIABLE(start = LOAD_2_2_1.port.vStart.re * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Real part of complex number" type: Real 10: LOAD_2_2_1.port.iGen.re:VARIABLE(start = -LOAD_2_2_1.port.iStart.re unit = "A" nominal = 2291.072496784229 ) "Real part of complex number" type: Real 11: LINE_HV_2_2_2.vAt.im:VARIABLE(start = LINE_HV_2_2_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 ) "Imaginary part of complex number" type: Real 12: LOAD_2_2_1.port.iGen.im:VARIABLE(start = -LOAD_2_2_1.port.iStart.im unit = "A" nominal = 2291.072496784229 ) "Imaginary part of complex number" type: Real 13: LINE_HV_2_2_2.vAt.re:VARIABLE(start = LINE_HV_2_2_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 ) "Real part of complex number" type: Real 14: GEN_2_2.GEN.udPu:VARIABLE(start = GEN_2_2.GEN.udPuStart unit = "1" ) "Voltage of direct axis in p.u." type: Real 15: GEN_2_2.GEN.uqPu:VARIABLE(start = GEN_2_2.GEN.uqPuStart unit = "1" ) "Voltage of quadrature axis in p.u." type: Real 16: GEN_2_2.GEN.port.u.im:VARIABLE(start = GEN_2_2.GEN.port.vStart.im * 1.732050807568877 unit = "V" nominal = 21000.0 ) "Imaginary part of complex number" type: Real 17: GEN_2_2.GEN.port.u.re:VARIABLE(start = GEN_2_2.GEN.port.vStart.re * 1.732050807568877 unit = "V" nominal = 21000.0 ) "Real part of complex number" type: Real 18: GEN_2_2.GEN.iqPu:VARIABLE(start = GEN_2_2.GEN.iqPuStart unit = "1" ) "Current of quadrature axis in p.u." type: Real 19: GEN_2_2.GEN.lambdadPu:VARIABLE(start = GEN_2_2.GEN.lambdadPuStart unit = "1" ) "Flux of direct axis in p.u." type: Real 20: GEN_2_2.GEN.idPu:VARIABLE(start = GEN_2_2.GEN.idPuStart unit = "1" ) "Current of direct axis in p.u." type: Real 21: GEN_2_2.GEN.lambdaqPu:VARIABLE(start = GEN_2_2.GEN.lambdaqPuStart unit = "1" ) "Flux of quadrature axis in p.u." type: Real 22: LOAD_3_2_1.port.u.im:VARIABLE(start = LOAD_3_2_1.port.vStart.im * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Imaginary part of complex number" type: Real 23: LOAD_3_2_1.port.u.re:VARIABLE(start = LOAD_3_2_1.port.vStart.re * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Real part of complex number" type: Real 24: GEN_1_1.GEN.udPu:VARIABLE(start = GEN_1_1.GEN.udPuStart unit = "1" ) "Voltage of direct axis in p.u." type: Real 25: GEN_1_1.GEN.uqPu:VARIABLE(start = GEN_1_1.GEN.uqPuStart unit = "1" ) "Voltage of quadrature axis in p.u." type: Real 26: LOAD_1_2_1.port.u.im:VARIABLE(start = LOAD_1_2_1.port.vStart.im * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Imaginary part of complex number" type: Real 27: LOAD_1_2_1.port.u.re:VARIABLE(start = LOAD_1_2_1.port.vStart.re * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Real part of complex number" type: Real 28: LOAD_1_2_2.port.u.im:VARIABLE(start = LOAD_1_2_2.port.vStart.im * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Imaginary part of complex number" type: Real 29: LOAD_1_2_2.port.u.re:VARIABLE(start = LOAD_1_2_2.port.vStart.re * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Real part of complex number" type: Real 30: LOAD_1_2_2.port.iGen.re:VARIABLE(start = -LOAD_1_2_2.port.iStart.re unit = "A" nominal = 2291.072496784229 ) "Real part of complex number" type: Real 31: LINE_HV_1_2_3.vAt.im:VARIABLE(start = LINE_HV_1_2_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 ) "Imaginary part of complex number" type: Real 32: LOAD_1_2_2.port.iGen.im:VARIABLE(start = -LOAD_1_2_2.port.iStart.im unit = "A" nominal = 2291.072496784229 ) "Imaginary part of complex number" type: Real 33: LINE_HV_1_2_3.vAt.re:VARIABLE(start = LINE_HV_1_2_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 ) "Real part of complex number" type: Real 34: LINE_HV_1_2_2.vAt.re:VARIABLE(start = LINE_HV_1_2_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 ) "Real part of complex number" type: Real 35: LOAD_1_2_1.port.iGen.re:VARIABLE(start = -LOAD_1_2_1.port.iStart.re unit = "A" nominal = 2291.072496784229 ) "Real part of complex number" type: Real 36: LOAD_1_2_1.port.iGen.im:VARIABLE(start = -LOAD_1_2_1.port.iStart.im unit = "A" nominal = 2291.072496784229 ) "Imaginary part of complex number" type: Real 37: LINE_HV_1_2_2.vAt.im:VARIABLE(start = LINE_HV_1_2_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 ) "Imaginary part of complex number" type: Real 38: LOAD_1_2_1.U_URef:VARIABLE(start = 1.0 unit = "1" ) "Ratio between voltage and reference voltage" type: Real 39: LOAD_1_2_3.port.u.im:VARIABLE(start = LOAD_1_2_3.port.vStart.im * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Imaginary part of complex number" type: Real 40: LOAD_1_2_3.port.u.re:VARIABLE(start = LOAD_1_2_3.port.vStart.re * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Real part of complex number" type: Real 41: LOAD_1_2_3.port.iGen.re:VARIABLE(start = -LOAD_1_2_3.port.iStart.re unit = "A" nominal = 2291.072496784229 ) "Real part of complex number" type: Real 42: LINE_HV_1_2_4.vAt.im:VARIABLE(start = LINE_HV_1_2_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 ) "Imaginary part of complex number" type: Real 43: LOAD_1_2_3.port.iGen.im:VARIABLE(start = -LOAD_1_2_3.port.iStart.im unit = "A" nominal = 2291.072496784229 ) "Imaginary part of complex number" type: Real 44: LINE_HV_1_2_4.vAt.re:VARIABLE(start = LINE_HV_1_2_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 ) "Real part of complex number" type: Real 45: LOAD_1_2_4.port.u.im:VARIABLE(start = LOAD_1_2_4.port.vStart.im * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Imaginary part of complex number" type: Real 46: LOAD_1_2_4.port.u.re:VARIABLE(start = LOAD_1_2_4.port.vStart.re * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Real part of complex number" type: Real 47: LINE_HV_1_2_4.vB.re:VARIABLE(start = LOAD_1_2_4.port.vStart.re unit = "V" nominal = 36373.06695894642 ) "Real part of complex number" type: Real 48: LINE_HV_1_2_4.iB.re:VARIABLE(start = LINE_HV_1_2_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 ) "Real part of complex number" type: Real 49: LINE_HV_1_2_4.iB.im:VARIABLE(start = LINE_HV_1_2_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 ) "Imaginary part of complex number" type: Real 50: LINE_HV_1_2_4.vB.im:VARIABLE(start = LOAD_1_2_4.port.vStart.im unit = "V" nominal = 36373.06695894642 ) "Imaginary part of complex number" type: Real 51: LOAD_1_2_4.U_URef:VARIABLE(start = 1.0 unit = "1" ) "Ratio between voltage and reference voltage" type: Real 52: LOAD_1_2_3.U_URef:VARIABLE(start = 1.0 unit = "1" ) "Ratio between voltage and reference voltage" type: Real 53: LOAD_1_2_2.U_URef:VARIABLE(start = 1.0 unit = "1" ) "Ratio between voltage and reference voltage" type: Real 54: LOAD_3_1_1.port.u.im:VARIABLE(start = LOAD_3_1_1.port.vStart.im * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Imaginary part of complex number" type: Real 55: LOAD_3_1_1.port.u.re:VARIABLE(start = LOAD_3_1_1.port.vStart.re * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Real part of complex number" type: Real 56: LINE_HV_3_1_2.vAt.re:VARIABLE(start = LINE_HV_3_1_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 ) "Real part of complex number" type: Real 57: LOAD_3_1_1.port.iGen.re:VARIABLE(start = -LOAD_3_1_1.port.iStart.re unit = "A" nominal = 2291.072496784229 ) "Real part of complex number" type: Real 58: LOAD_3_1_1.port.iGen.im:VARIABLE(start = -LOAD_3_1_1.port.iStart.im unit = "A" nominal = 2291.072496784229 ) "Imaginary part of complex number" type: Real 59: LINE_HV_3_1_2.vAt.im:VARIABLE(start = LINE_HV_3_1_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 ) "Imaginary part of complex number" type: Real 60: LOAD_3_1_1.U_URef:VARIABLE(start = 1.0 unit = "1" ) "Ratio between voltage and reference voltage" type: Real 61: LINE_HV_3_1_3.vAt.re:VARIABLE(start = LINE_HV_3_1_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 ) "Real part of complex number" type: Real 62: LOAD_3_1_2.port.iGen.re:VARIABLE(start = -LOAD_3_1_2.port.iStart.re unit = "A" nominal = 2291.072496784229 ) "Real part of complex number" type: Real 63: LOAD_3_1_2.port.iGen.im:VARIABLE(start = -LOAD_3_1_2.port.iStart.im unit = "A" nominal = 2291.072496784229 ) "Imaginary part of complex number" type: Real 64: LINE_HV_3_1_3.vAt.im:VARIABLE(start = LINE_HV_3_1_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 ) "Imaginary part of complex number" type: Real 65: LOAD_3_1_2.U_URef:VARIABLE(start = 1.0 unit = "1" ) "Ratio between voltage and reference voltage" type: Real 66: LOAD_3_1_2.port.u.im:VARIABLE(start = LOAD_3_1_2.port.vStart.im * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Imaginary part of complex number" type: Real 67: LOAD_3_1_2.port.u.re:VARIABLE(start = LOAD_3_1_2.port.vStart.re * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Real part of complex number" type: Real 68: LOAD_3_1_3.port.u.im:VARIABLE(start = LOAD_3_1_3.port.vStart.im * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Imaginary part of complex number" type: Real 69: LOAD_3_1_3.port.u.re:VARIABLE(start = LOAD_3_1_3.port.vStart.re * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Real part of complex number" type: Real 70: LOAD_3_1_3.port.iGen.re:VARIABLE(start = -LOAD_3_1_3.port.iStart.re unit = "A" nominal = 2291.072496784229 ) "Real part of complex number" type: Real 71: LINE_HV_3_1_4.vAt.im:VARIABLE(start = LINE_HV_3_1_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 ) "Imaginary part of complex number" type: Real 72: LOAD_3_1_3.port.iGen.im:VARIABLE(start = -LOAD_3_1_3.port.iStart.im unit = "A" nominal = 2291.072496784229 ) "Imaginary part of complex number" type: Real 73: LINE_HV_3_1_4.vAt.re:VARIABLE(start = LINE_HV_3_1_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 ) "Real part of complex number" type: Real 74: LOAD_3_1_4.port.u.im:VARIABLE(start = LOAD_3_1_4.port.vStart.im * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Imaginary part of complex number" type: Real 75: LOAD_3_1_4.port.u.re:VARIABLE(start = LOAD_3_1_4.port.vStart.re * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Real part of complex number" type: Real 76: LINE_HV_3_1_4.iB.re:VARIABLE(start = LINE_HV_3_1_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 ) "Real part of complex number" type: Real 77: LINE_HV_3_1_4.vB.im:VARIABLE(start = LOAD_3_1_4.port.vStart.im unit = "V" nominal = 36373.06695894642 ) "Imaginary part of complex number" type: Real 78: LINE_HV_3_1_4.iB.im:VARIABLE(start = LINE_HV_3_1_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 ) "Imaginary part of complex number" type: Real 79: LINE_HV_3_1_4.vB.re:VARIABLE(start = LOAD_3_1_4.port.vStart.re unit = "V" nominal = 36373.06695894642 ) "Real part of complex number" type: Real 80: LOAD_3_1_4.U_URef:VARIABLE(start = 1.0 unit = "1" ) "Ratio between voltage and reference voltage" type: Real 81: LOAD_3_1_3.U_URef:VARIABLE(start = 1.0 unit = "1" ) "Ratio between voltage and reference voltage" type: Real 82: LINE_HV_4_1_2.vAt.re:VARIABLE(start = LINE_HV_4_1_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 ) "Real part of complex number" type: Real 83: LOAD_4_1_1.port.iGen.re:VARIABLE(start = -LOAD_4_1_1.port.iStart.re unit = "A" nominal = 2291.072496784229 ) "Real part of complex number" type: Real 84: LOAD_4_1_1.port.iGen.im:VARIABLE(start = -LOAD_4_1_1.port.iStart.im unit = "A" nominal = 2291.072496784229 ) "Imaginary part of complex number" type: Real 85: LINE_HV_4_1_2.vAt.im:VARIABLE(start = LINE_HV_4_1_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 ) "Imaginary part of complex number" type: Real 86: LOAD_4_1_1.U_URef:VARIABLE(start = 1.0 unit = "1" ) "Ratio between voltage and reference voltage" type: Real 87: LOAD_4_1_1.port.u.im:VARIABLE(start = LOAD_4_1_1.port.vStart.im * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Imaginary part of complex number" type: Real 88: LOAD_4_1_1.port.u.re:VARIABLE(start = LOAD_4_1_1.port.vStart.re * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Real part of complex number" type: Real 89: LOAD_4_1_2.port.u.im:VARIABLE(start = LOAD_4_1_2.port.vStart.im * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Imaginary part of complex number" type: Real 90: LOAD_4_1_2.port.u.re:VARIABLE(start = LOAD_4_1_2.port.vStart.re * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Real part of complex number" type: Real 91: LINE_HV_4_1_3.vAt.re:VARIABLE(start = LINE_HV_4_1_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 ) "Real part of complex number" type: Real 92: LOAD_4_1_2.port.iGen.re:VARIABLE(start = -LOAD_4_1_2.port.iStart.re unit = "A" nominal = 2291.072496784229 ) "Real part of complex number" type: Real 93: LOAD_4_1_2.port.iGen.im:VARIABLE(start = -LOAD_4_1_2.port.iStart.im unit = "A" nominal = 2291.072496784229 ) "Imaginary part of complex number" type: Real 94: LINE_HV_4_1_3.vAt.im:VARIABLE(start = LINE_HV_4_1_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 ) "Imaginary part of complex number" type: Real 95: LOAD_4_1_2.U_URef:VARIABLE(start = 1.0 unit = "1" ) "Ratio between voltage and reference voltage" type: Real 96: LOAD_4_1_4.port.u.im:VARIABLE(start = LOAD_4_1_4.port.vStart.im * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Imaginary part of complex number" type: Real 97: LOAD_4_1_4.port.u.re:VARIABLE(start = LOAD_4_1_4.port.vStart.re * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Real part of complex number" type: Real 98: LINE_HV_4_1_4.vB.re:VARIABLE(start = LOAD_4_1_4.port.vStart.re unit = "V" nominal = 36373.06695894642 ) "Real part of complex number" type: Real 99: LINE_HV_4_1_4.iB.re:VARIABLE(start = LINE_HV_4_1_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 ) "Real part of complex number" type: Real 100: LINE_HV_4_1_4.iB.im:VARIABLE(start = LINE_HV_4_1_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 ) "Imaginary part of complex number" type: Real 101: LINE_HV_4_1_4.vB.im:VARIABLE(start = LOAD_4_1_4.port.vStart.im unit = "V" nominal = 36373.06695894642 ) "Imaginary part of complex number" type: Real 102: LOAD_4_1_4.U_URef:VARIABLE(start = 1.0 unit = "1" ) "Ratio between voltage and reference voltage" type: Real 103: LOAD_4_1_3.port.u.im:VARIABLE(start = LOAD_4_1_3.port.vStart.im * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Imaginary part of complex number" type: Real 104: LOAD_4_1_3.port.u.re:VARIABLE(start = LOAD_4_1_3.port.vStart.re * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Real part of complex number" type: Real 105: LINE_HV_4_1_4.vAt.re:VARIABLE(start = LINE_HV_4_1_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 ) "Real part of complex number" type: Real 106: LOAD_4_1_3.port.iGen.re:VARIABLE(start = -LOAD_4_1_3.port.iStart.re unit = "A" nominal = 2291.072496784229 ) "Real part of complex number" type: Real 107: LOAD_4_1_3.port.iGen.im:VARIABLE(start = -LOAD_4_1_3.port.iStart.im unit = "A" nominal = 2291.072496784229 ) "Imaginary part of complex number" type: Real 108: LINE_HV_4_1_4.vAt.im:VARIABLE(start = LINE_HV_4_1_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 ) "Imaginary part of complex number" type: Real 109: LOAD_4_1_3.U_URef:VARIABLE(start = 1.0 unit = "1" ) "Ratio between voltage and reference voltage" type: Real 110: GEN_4_2.GEN.lambdadPu:VARIABLE(start = GEN_4_2.GEN.lambdadPuStart unit = "1" ) "Flux of direct axis in p.u." type: Real 111: GEN_4_2.GEN.lambdaqPu:VARIABLE(start = GEN_4_2.GEN.lambdaqPuStart unit = "1" ) "Flux of quadrature axis in p.u." type: Real 112: GEN_4_2.GEN.iqPu:VARIABLE(start = GEN_4_2.GEN.iqPuStart unit = "1" ) "Current of quadrature axis in p.u." type: Real 113: GEN_4_2.GEN.idPu:VARIABLE(start = GEN_4_2.GEN.idPuStart unit = "1" ) "Current of direct axis in p.u." type: Real 114: GEN_4_2.GEN.udPu:VARIABLE(start = GEN_4_2.GEN.udPuStart unit = "1" ) "Voltage of direct axis in p.u." type: Real 115: GEN_4_2.GEN.uqPu:VARIABLE(start = GEN_4_2.GEN.uqPuStart unit = "1" ) "Voltage of quadrature axis in p.u." type: Real 116: GEN_4_2.GEN.port.u.im:VARIABLE(start = GEN_4_2.GEN.port.vStart.im * 1.732050807568877 unit = "V" nominal = 21000.0 ) "Imaginary part of complex number" type: Real 117: GEN_4_2.GEN.port.u.re:VARIABLE(start = GEN_4_2.GEN.port.vStart.re * 1.732050807568877 unit = "V" nominal = 21000.0 ) "Real part of complex number" type: Real 118: LOAD_4_2_1.port.u.im:VARIABLE(start = LOAD_4_2_1.port.vStart.im * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Imaginary part of complex number" type: Real 119: LOAD_4_2_1.port.u.re:VARIABLE(start = LOAD_4_2_1.port.vStart.re * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Real part of complex number" type: Real 120: LINE_HV_4_2_2.vAt.re:VARIABLE(start = LINE_HV_4_2_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 ) "Real part of complex number" type: Real 121: LOAD_4_2_1.port.iGen.re:VARIABLE(start = -LOAD_4_2_1.port.iStart.re unit = "A" nominal = 2291.072496784229 ) "Real part of complex number" type: Real 122: LOAD_4_2_1.port.iGen.im:VARIABLE(start = -LOAD_4_2_1.port.iStart.im unit = "A" nominal = 2291.072496784229 ) "Imaginary part of complex number" type: Real 123: LINE_HV_4_2_2.vAt.im:VARIABLE(start = LINE_HV_4_2_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 ) "Imaginary part of complex number" type: Real 124: LOAD_4_2_2.port.u.im:VARIABLE(start = LOAD_4_2_2.port.vStart.im * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Imaginary part of complex number" type: Real 125: LOAD_4_2_2.port.u.re:VARIABLE(start = LOAD_4_2_2.port.vStart.re * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Real part of complex number" type: Real 126: LOAD_4_2_2.port.iGen.re:VARIABLE(start = -LOAD_4_2_2.port.iStart.re unit = "A" nominal = 2291.072496784229 ) "Real part of complex number" type: Real 127: LINE_HV_4_2_3.vAt.im:VARIABLE(start = LINE_HV_4_2_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 ) "Imaginary part of complex number" type: Real 128: LOAD_4_2_2.port.iGen.im:VARIABLE(start = -LOAD_4_2_2.port.iStart.im unit = "A" nominal = 2291.072496784229 ) "Imaginary part of complex number" type: Real 129: LINE_HV_4_2_3.vAt.re:VARIABLE(start = LINE_HV_4_2_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 ) "Real part of complex number" type: Real 130: LOAD_4_2_4.port.u.im:VARIABLE(start = LOAD_4_2_4.port.vStart.im * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Imaginary part of complex number" type: Real 131: LOAD_4_2_4.port.u.re:VARIABLE(start = LOAD_4_2_4.port.vStart.re * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Real part of complex number" type: Real 132: LINE_HV_4_2_4.iB.re:VARIABLE(start = LINE_HV_4_2_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 ) "Real part of complex number" type: Real 133: LINE_HV_4_2_4.vB.im:VARIABLE(start = LOAD_4_2_4.port.vStart.im unit = "V" nominal = 36373.06695894642 ) "Imaginary part of complex number" type: Real 134: LINE_HV_4_2_4.iB.im:VARIABLE(start = LINE_HV_4_2_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 ) "Imaginary part of complex number" type: Real 135: LINE_HV_4_2_4.vB.re:VARIABLE(start = LOAD_4_2_4.port.vStart.re unit = "V" nominal = 36373.06695894642 ) "Real part of complex number" type: Real 136: LOAD_4_2_3.port.u.im:VARIABLE(start = LOAD_4_2_3.port.vStart.im * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Imaginary part of complex number" type: Real 137: LOAD_4_2_3.port.u.re:VARIABLE(start = LOAD_4_2_3.port.vStart.re * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Real part of complex number" type: Real 138: LOAD_4_2_3.port.iGen.re:VARIABLE(start = -LOAD_4_2_3.port.iStart.re unit = "A" nominal = 2291.072496784229 ) "Real part of complex number" type: Real 139: LINE_HV_4_2_4.vAt.im:VARIABLE(start = LINE_HV_4_2_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 ) "Imaginary part of complex number" type: Real 140: LOAD_4_2_3.port.iGen.im:VARIABLE(start = -LOAD_4_2_3.port.iStart.im unit = "A" nominal = 2291.072496784229 ) "Imaginary part of complex number" type: Real 141: LINE_HV_4_2_4.vAt.re:VARIABLE(start = LINE_HV_4_2_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 ) "Real part of complex number" type: Real 142: LOAD_4_2_3.U_URef:VARIABLE(start = 1.0 unit = "1" ) "Ratio between voltage and reference voltage" type: Real 143: LOAD_4_2_4.U_URef:VARIABLE(start = 1.0 unit = "1" ) "Ratio between voltage and reference voltage" type: Real 144: LOAD_4_2_2.U_URef:VARIABLE(start = 1.0 unit = "1" ) "Ratio between voltage and reference voltage" type: Real 145: LOAD_4_2_1.U_URef:VARIABLE(start = 1.0 unit = "1" ) "Ratio between voltage and reference voltage" type: Real 146: GEN_3_2.GEN.iqPu:VARIABLE(start = GEN_3_2.GEN.iqPuStart unit = "1" ) "Current of quadrature axis in p.u." type: Real 147: GEN_3_2.GEN.lambdadPu:VARIABLE(start = GEN_3_2.GEN.lambdadPuStart unit = "1" ) "Flux of direct axis in p.u." type: Real 148: GEN_3_2.GEN.idPu:VARIABLE(start = GEN_3_2.GEN.idPuStart unit = "1" ) "Current of direct axis in p.u." type: Real 149: GEN_3_2.GEN.lambdaqPu:VARIABLE(start = GEN_3_2.GEN.lambdaqPuStart unit = "1" ) "Flux of quadrature axis in p.u." type: Real 150: GEN_3_2.GEN.port.u.im:VARIABLE(start = GEN_3_2.GEN.port.vStart.im * 1.732050807568877 unit = "V" nominal = 21000.0 ) "Imaginary part of complex number" type: Real 151: GEN_3_2.GEN.port.u.re:VARIABLE(start = GEN_3_2.GEN.port.vStart.re * 1.732050807568877 unit = "V" nominal = 21000.0 ) "Real part of complex number" type: Real 152: GEN_3_2.GEN.uqPu:VARIABLE(start = GEN_3_2.GEN.uqPuStart unit = "1" ) "Voltage of quadrature axis in p.u." type: Real 153: GEN_3_2.GEN.udPu:VARIABLE(start = GEN_3_2.GEN.udPuStart unit = "1" ) "Voltage of direct axis in p.u." type: Real 154: GEN_4_1.GEN.port.u.im:VARIABLE(start = GEN_4_1.GEN.port.vStart.im * 1.732050807568877 unit = "V" nominal = 21000.0 ) "Imaginary part of complex number" type: Real 155: GEN_4_1.GEN.port.u.re:VARIABLE(start = GEN_4_1.GEN.port.vStart.re * 1.732050807568877 unit = "V" nominal = 21000.0 ) "Real part of complex number" type: Real 156: GEN_4_1.GEN.uqPu:VARIABLE(start = GEN_4_1.GEN.uqPuStart unit = "1" ) "Voltage of quadrature axis in p.u." type: Real 157: GEN_4_1.GEN.udPu:VARIABLE(start = GEN_4_1.GEN.udPuStart unit = "1" ) "Voltage of direct axis in p.u." type: Real 158: GEN_4_1.GEN.iqPu:VARIABLE(start = GEN_4_1.GEN.iqPuStart unit = "1" ) "Current of quadrature axis in p.u." type: Real 159: GEN_4_1.GEN.lambdadPu:VARIABLE(start = GEN_4_1.GEN.lambdadPuStart unit = "1" ) "Flux of direct axis in p.u." type: Real 160: GEN_4_1.GEN.idPu:VARIABLE(start = GEN_4_1.GEN.idPuStart unit = "1" ) "Current of direct axis in p.u." type: Real 161: GEN_4_1.GEN.lambdaqPu:VARIABLE(start = GEN_4_1.GEN.lambdaqPuStart unit = "1" ) "Flux of quadrature axis in p.u." type: Real 162: LOAD_2_1_1.port.u.im:VARIABLE(start = LOAD_2_1_1.port.vStart.im * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Imaginary part of complex number" type: Real 163: LOAD_2_1_1.port.u.re:VARIABLE(start = LOAD_2_1_1.port.vStart.re * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Real part of complex number" type: Real 164: LINE_HV_2_1_2.vAt.re:VARIABLE(start = LINE_HV_2_1_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 ) "Real part of complex number" type: Real 165: LOAD_2_1_1.port.iGen.re:VARIABLE(start = -LOAD_2_1_1.port.iStart.re unit = "A" nominal = 2291.072496784229 ) "Real part of complex number" type: Real 166: LOAD_2_1_1.port.iGen.im:VARIABLE(start = -LOAD_2_1_1.port.iStart.im unit = "A" nominal = 2291.072496784229 ) "Imaginary part of complex number" type: Real 167: LINE_HV_2_1_2.vAt.im:VARIABLE(start = LINE_HV_2_1_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 ) "Imaginary part of complex number" type: Real 168: LOAD_2_1_1.U_URef:VARIABLE(start = 1.0 unit = "1" ) "Ratio between voltage and reference voltage" type: Real 169: LOAD_2_1_2.port.u.im:VARIABLE(start = LOAD_2_1_2.port.vStart.im * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Imaginary part of complex number" type: Real 170: LOAD_2_1_2.port.u.re:VARIABLE(start = LOAD_2_1_2.port.vStart.re * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Real part of complex number" type: Real 171: LOAD_2_1_2.port.iGen.re:VARIABLE(start = -LOAD_2_1_2.port.iStart.re unit = "A" nominal = 2291.072496784229 ) "Real part of complex number" type: Real 172: LINE_HV_2_1_3.vAt.im:VARIABLE(start = LINE_HV_2_1_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 ) "Imaginary part of complex number" type: Real 173: LOAD_2_1_2.port.iGen.im:VARIABLE(start = -LOAD_2_1_2.port.iStart.im unit = "A" nominal = 2291.072496784229 ) "Imaginary part of complex number" type: Real 174: LINE_HV_2_1_3.vAt.re:VARIABLE(start = LINE_HV_2_1_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 ) "Real part of complex number" type: Real 175: LOAD_2_1_3.port.u.im:VARIABLE(start = LOAD_2_1_3.port.vStart.im * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Imaginary part of complex number" type: Real 176: LOAD_2_1_3.port.u.re:VARIABLE(start = LOAD_2_1_3.port.vStart.re * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Real part of complex number" type: Real 177: LOAD_2_1_4.port.u.im:VARIABLE(start = LOAD_2_1_4.port.vStart.im * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Imaginary part of complex number" type: Real 178: LOAD_2_1_4.port.u.re:VARIABLE(start = LOAD_2_1_4.port.vStart.re * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Real part of complex number" type: Real 179: LOAD_2_1_4.U_URef:VARIABLE(start = 1.0 unit = "1" ) "Ratio between voltage and reference voltage" type: Real 180: LINE_HV_2_1_4.vB.re:VARIABLE(start = LOAD_2_1_4.port.vStart.re unit = "V" nominal = 36373.06695894642 ) "Real part of complex number" type: Real 181: LINE_HV_2_1_4.iB.re:VARIABLE(start = LINE_HV_2_1_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 ) "Real part of complex number" type: Real 182: LINE_HV_2_1_4.iB.im:VARIABLE(start = LINE_HV_2_1_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 ) "Imaginary part of complex number" type: Real 183: LINE_HV_2_1_4.vB.im:VARIABLE(start = LOAD_2_1_4.port.vStart.im unit = "V" nominal = 36373.06695894642 ) "Imaginary part of complex number" type: Real 184: LINE_HV_2_1_4.vAt.re:VARIABLE(start = LINE_HV_2_1_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 ) "Real part of complex number" type: Real 185: LOAD_2_1_3.port.iGen.re:VARIABLE(start = -LOAD_2_1_3.port.iStart.re unit = "A" nominal = 2291.072496784229 ) "Real part of complex number" type: Real 186: LOAD_2_1_3.port.iGen.im:VARIABLE(start = -LOAD_2_1_3.port.iStart.im unit = "A" nominal = 2291.072496784229 ) "Imaginary part of complex number" type: Real 187: LINE_HV_2_1_4.vAt.im:VARIABLE(start = LINE_HV_2_1_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 ) "Imaginary part of complex number" type: Real 188: LOAD_2_1_3.U_URef:VARIABLE(start = 1.0 unit = "1" ) "Ratio between voltage and reference voltage" type: Real 189: LOAD_2_1_2.U_URef:VARIABLE(start = 1.0 unit = "1" ) "Ratio between voltage and reference voltage" type: Real 190: GEN_3_1.GEN.port.u.im:VARIABLE(start = GEN_3_1.GEN.port.vStart.im * 1.732050807568877 unit = "V" nominal = 21000.0 ) "Imaginary part of complex number" type: Real 191: GEN_3_1.GEN.port.u.re:VARIABLE(start = GEN_3_1.GEN.port.vStart.re * 1.732050807568877 unit = "V" nominal = 21000.0 ) "Real part of complex number" type: Real 192: GEN_3_1.GEN.uqPu:VARIABLE(start = GEN_3_1.GEN.uqPuStart unit = "1" ) "Voltage of quadrature axis in p.u." type: Real 193: GEN_3_1.GEN.udPu:VARIABLE(start = GEN_3_1.GEN.udPuStart unit = "1" ) "Voltage of direct axis in p.u." type: Real 194: GEN_3_1.GEN.iqPu:VARIABLE(start = GEN_3_1.GEN.iqPuStart unit = "1" ) "Current of quadrature axis in p.u." type: Real 195: GEN_3_1.GEN.lambdadPu:VARIABLE(start = GEN_3_1.GEN.lambdadPuStart unit = "1" ) "Flux of direct axis in p.u." type: Real 196: GEN_3_1.GEN.idPu:VARIABLE(start = GEN_3_1.GEN.idPuStart unit = "1" ) "Current of direct axis in p.u." type: Real 197: GEN_3_1.GEN.lambdaqPu:VARIABLE(start = GEN_3_1.GEN.lambdaqPuStart unit = "1" ) "Flux of quadrature axis in p.u." type: Real 198: GEN_1_2.GEN.iqPu:VARIABLE(start = GEN_1_2.GEN.iqPuStart unit = "1" ) "Current of quadrature axis in p.u." type: Real 199: GEN_1_2.GEN.lambdadPu:VARIABLE(start = GEN_1_2.GEN.lambdadPuStart unit = "1" ) "Flux of direct axis in p.u." type: Real 200: GEN_1_2.GEN.idPu:VARIABLE(start = GEN_1_2.GEN.idPuStart unit = "1" ) "Current of direct axis in p.u." type: Real 201: GEN_1_2.GEN.lambdaqPu:VARIABLE(start = GEN_1_2.GEN.lambdaqPuStart unit = "1" ) "Flux of quadrature axis in p.u." type: Real 202: GEN_1_2.GEN.uqPu:VARIABLE(start = GEN_1_2.GEN.uqPuStart unit = "1" ) "Voltage of quadrature axis in p.u." type: Real 203: GEN_1_2.GEN.udPu:VARIABLE(start = GEN_1_2.GEN.udPuStart unit = "1" ) "Voltage of direct axis in p.u." type: Real 204: GEN_1_2.GEN.port.u.im:VARIABLE(start = GEN_1_2.GEN.port.vStart.im * 1.732050807568877 unit = "V" nominal = 21000.0 ) "Imaginary part of complex number" type: Real 205: GEN_1_2.GEN.port.u.re:VARIABLE(start = GEN_1_2.GEN.port.vStart.re * 1.732050807568877 unit = "V" nominal = 21000.0 ) "Real part of complex number" type: Real 206: LOAD_1_1_1.port.u.im:VARIABLE(start = LOAD_1_1_1.port.vStart.im * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Imaginary part of complex number" type: Real 207: LOAD_1_1_1.port.u.re:VARIABLE(start = LOAD_1_1_1.port.vStart.re * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Real part of complex number" type: Real 208: LOAD_1_1_1.U_URef:VARIABLE(start = 1.0 unit = "1" ) "Ratio between voltage and reference voltage" type: Real 209: LINE_HV_1_1_2.vAt.re:VARIABLE(start = LINE_HV_1_1_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 ) "Real part of complex number" type: Real 210: LOAD_1_1_1.port.iGen.re:VARIABLE(start = -LOAD_1_1_1.port.iStart.re unit = "A" nominal = 2291.072496784229 ) "Real part of complex number" type: Real 211: LOAD_1_1_1.port.iGen.im:VARIABLE(start = -LOAD_1_1_1.port.iStart.im unit = "A" nominal = 2291.072496784229 ) "Imaginary part of complex number" type: Real 212: LINE_HV_1_1_2.vAt.im:VARIABLE(start = LINE_HV_1_1_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 ) "Imaginary part of complex number" type: Real 213: LOAD_1_1_2.port.u.im:VARIABLE(start = LOAD_1_1_2.port.vStart.im * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Imaginary part of complex number" type: Real 214: LOAD_1_1_2.port.u.re:VARIABLE(start = LOAD_1_1_2.port.vStart.re * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Real part of complex number" type: Real 215: LINE_HV_1_1_3.vAt.re:VARIABLE(start = LINE_HV_1_1_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 ) "Real part of complex number" type: Real 216: LOAD_1_1_2.port.iGen.re:VARIABLE(start = -LOAD_1_1_2.port.iStart.re unit = "A" nominal = 2291.072496784229 ) "Real part of complex number" type: Real 217: LOAD_1_1_2.port.iGen.im:VARIABLE(start = -LOAD_1_1_2.port.iStart.im unit = "A" nominal = 2291.072496784229 ) "Imaginary part of complex number" type: Real 218: LINE_HV_1_1_3.vAt.im:VARIABLE(start = LINE_HV_1_1_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 ) "Imaginary part of complex number" type: Real 219: LOAD_1_1_3.port.u.im:VARIABLE(start = LOAD_1_1_3.port.vStart.im * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Imaginary part of complex number" type: Real 220: LOAD_1_1_3.port.u.re:VARIABLE(start = LOAD_1_1_3.port.vStart.re * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Real part of complex number" type: Real 221: LOAD_1_1_3.port.iGen.re:VARIABLE(start = -LOAD_1_1_3.port.iStart.re unit = "A" nominal = 2291.072496784229 ) "Real part of complex number" type: Real 222: LINE_HV_1_1_4.vAt.im:VARIABLE(start = LINE_HV_1_1_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 ) "Imaginary part of complex number" type: Real 223: LOAD_1_1_3.port.iGen.im:VARIABLE(start = -LOAD_1_1_3.port.iStart.im unit = "A" nominal = 2291.072496784229 ) "Imaginary part of complex number" type: Real 224: LINE_HV_1_1_4.vAt.re:VARIABLE(start = LINE_HV_1_1_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 ) "Real part of complex number" type: Real 225: LOAD_1_1_4.U_URef:VARIABLE(start = 1.0 unit = "1" ) "Ratio between voltage and reference voltage" type: Real 226: LINE_HV_1_1_4.vB.re:VARIABLE(start = LOAD_1_1_4.port.vStart.re unit = "V" nominal = 36373.06695894642 ) "Real part of complex number" type: Real 227: LINE_HV_1_1_4.iB.re:VARIABLE(start = LINE_HV_1_1_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 ) "Real part of complex number" type: Real 228: LINE_HV_1_1_4.iB.im:VARIABLE(start = LINE_HV_1_1_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 ) "Imaginary part of complex number" type: Real 229: LINE_HV_1_1_4.vB.im:VARIABLE(start = LOAD_1_1_4.port.vStart.im unit = "V" nominal = 36373.06695894642 ) "Imaginary part of complex number" type: Real 230: LOAD_1_1_4.port.u.im:VARIABLE(start = LOAD_1_1_4.port.vStart.im * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Imaginary part of complex number" type: Real 231: LOAD_1_1_4.port.u.re:VARIABLE(start = LOAD_1_1_4.port.vStart.re * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Real part of complex number" type: Real 232: LOAD_1_1_3.U_URef:VARIABLE(start = 1.0 unit = "1" ) "Ratio between voltage and reference voltage" type: Real 233: LOAD_1_1_2.U_URef:VARIABLE(start = 1.0 unit = "1" ) "Ratio between voltage and reference voltage" type: Real 234: GEN_1_1.GEN.iqPu:VARIABLE(start = GEN_1_1.GEN.iqPuStart unit = "1" ) "Current of quadrature axis in p.u." type: Real 235: GEN_1_1.GEN.lambdadPu:VARIABLE(start = GEN_1_1.GEN.lambdadPuStart unit = "1" ) "Flux of direct axis in p.u." type: Real 236: GEN_1_1.GEN.idPu:VARIABLE(start = GEN_1_1.GEN.idPuStart unit = "1" ) "Current of direct axis in p.u." type: Real 237: GEN_1_1.GEN.lambdaqPu:VARIABLE(start = GEN_1_1.GEN.lambdaqPuStart unit = "1" ) "Flux of quadrature axis in p.u." type: Real 238: GEN_1_1.GEN.port.u.im:VARIABLE(start = GEN_1_1.GEN.port.vStart.im * 1.732050807568877 unit = "V" nominal = 21000.0 ) "Imaginary part of complex number" type: Real 239: GEN_1_1.GEN.port.u.re:VARIABLE(start = GEN_1_1.GEN.port.vStart.re * 1.732050807568877 unit = "V" nominal = 21000.0 ) "Real part of complex number" type: Real 240: LOAD_3_2_2.port.u.im:VARIABLE(start = LOAD_3_2_2.port.vStart.im * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Imaginary part of complex number" type: Real 241: LOAD_3_2_2.port.u.re:VARIABLE(start = LOAD_3_2_2.port.vStart.re * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Real part of complex number" type: Real 242: LINE_HV_3_2_3.vAt.re:VARIABLE(start = LINE_HV_3_2_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 ) "Real part of complex number" type: Real 243: LOAD_3_2_2.port.iGen.re:VARIABLE(start = -LOAD_3_2_2.port.iStart.re unit = "A" nominal = 2291.072496784229 ) "Real part of complex number" type: Real 244: LOAD_3_2_2.port.iGen.im:VARIABLE(start = -LOAD_3_2_2.port.iStart.im unit = "A" nominal = 2291.072496784229 ) "Imaginary part of complex number" type: Real 245: LINE_HV_3_2_3.vAt.im:VARIABLE(start = LINE_HV_3_2_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 ) "Imaginary part of complex number" type: Real 246: LOAD_3_2_3.U_URef:VARIABLE(start = 1.0 unit = "1" ) "Ratio between voltage and reference voltage" type: Real 247: LINE_HV_3_2_4.vAt.re:VARIABLE(start = LINE_HV_3_2_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 ) "Real part of complex number" type: Real 248: LOAD_3_2_3.port.iGen.re:VARIABLE(start = -LOAD_3_2_3.port.iStart.re unit = "A" nominal = 2291.072496784229 ) "Real part of complex number" type: Real 249: LOAD_3_2_3.port.iGen.im:VARIABLE(start = -LOAD_3_2_3.port.iStart.im unit = "A" nominal = 2291.072496784229 ) "Imaginary part of complex number" type: Real 250: LINE_HV_3_2_4.vAt.im:VARIABLE(start = LINE_HV_3_2_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 ) "Imaginary part of complex number" type: Real 251: LOAD_3_2_3.port.u.im:VARIABLE(start = LOAD_3_2_3.port.vStart.im * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Imaginary part of complex number" type: Real 252: LOAD_3_2_3.port.u.re:VARIABLE(start = LOAD_3_2_3.port.vStart.re * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Real part of complex number" type: Real 253: LOAD_3_2_4.port.u.im:VARIABLE(start = LOAD_3_2_4.port.vStart.im * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Imaginary part of complex number" type: Real 254: LOAD_3_2_4.port.u.re:VARIABLE(start = LOAD_3_2_4.port.vStart.re * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Real part of complex number" type: Real 255: LINE_HV_3_2_4.vB.re:VARIABLE(start = LOAD_3_2_4.port.vStart.re unit = "V" nominal = 36373.06695894642 ) "Real part of complex number" type: Real 256: LINE_HV_3_2_4.iB.re:VARIABLE(start = LINE_HV_3_2_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 ) "Real part of complex number" type: Real 257: LINE_HV_3_2_4.iB.im:VARIABLE(start = LINE_HV_3_2_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 ) "Imaginary part of complex number" type: Real 258: LINE_HV_3_2_4.vB.im:VARIABLE(start = LOAD_3_2_4.port.vStart.im unit = "V" nominal = 36373.06695894642 ) "Imaginary part of complex number" type: Real 259: LOAD_3_2_4.U_URef:VARIABLE(start = 1.0 unit = "1" ) "Ratio between voltage and reference voltage" type: Real 260: LOAD_3_2_2.U_URef:VARIABLE(start = 1.0 unit = "1" ) "Ratio between voltage and reference voltage" type: Real 261: LINE_HV_3_2_2.vAt.re:VARIABLE(start = LINE_HV_3_2_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 ) "Real part of complex number" type: Real 262: LOAD_3_2_1.port.iGen.re:VARIABLE(start = -LOAD_3_2_1.port.iStart.re unit = "A" nominal = 2291.072496784229 ) "Real part of complex number" type: Real 263: LOAD_3_2_1.port.iGen.im:VARIABLE(start = -LOAD_3_2_1.port.iStart.im unit = "A" nominal = 2291.072496784229 ) "Imaginary part of complex number" type: Real 264: LINE_HV_3_2_2.vAt.im:VARIABLE(start = LINE_HV_3_2_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 ) "Imaginary part of complex number" type: Real 265: LOAD_3_2_1.U_URef:VARIABLE(start = 1.0 unit = "1" ) "Ratio between voltage and reference voltage" type: Real 266: LOAD_2_2_2.port.u.im:VARIABLE(start = LOAD_2_2_2.port.vStart.im * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Imaginary part of complex number" type: Real 267: LOAD_2_2_2.port.u.re:VARIABLE(start = LOAD_2_2_2.port.vStart.re * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Real part of complex number" type: Real 268: LINE_HV_2_2_3.vAt.re:VARIABLE(start = LINE_HV_2_2_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 ) "Real part of complex number" type: Real 269: LOAD_2_2_2.port.iGen.re:VARIABLE(start = -LOAD_2_2_2.port.iStart.re unit = "A" nominal = 2291.072496784229 ) "Real part of complex number" type: Real 270: LOAD_2_2_2.port.iGen.im:VARIABLE(start = -LOAD_2_2_2.port.iStart.im unit = "A" nominal = 2291.072496784229 ) "Imaginary part of complex number" type: Real 271: LINE_HV_2_2_3.vAt.im:VARIABLE(start = LINE_HV_2_2_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 ) "Imaginary part of complex number" type: Real 272: LOAD_2_2_2.U_URef:VARIABLE(start = 1.0 unit = "1" ) "Ratio between voltage and reference voltage" type: Real 273: LOAD_2_2_3.U_URef:VARIABLE(start = 1.0 unit = "1" ) "Ratio between voltage and reference voltage" type: Real 274: LINE_HV_2_2_4.vAt.re:VARIABLE(start = LINE_HV_2_2_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 ) "Real part of complex number" type: Real 275: LOAD_2_2_3.port.iGen.re:VARIABLE(start = -LOAD_2_2_3.port.iStart.re unit = "A" nominal = 2291.072496784229 ) "Real part of complex number" type: Real 276: LOAD_2_2_3.port.iGen.im:VARIABLE(start = -LOAD_2_2_3.port.iStart.im unit = "A" nominal = 2291.072496784229 ) "Imaginary part of complex number" type: Real 277: LINE_HV_2_2_4.vAt.im:VARIABLE(start = LINE_HV_2_2_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 ) "Imaginary part of complex number" type: Real 278: LOAD_2_2_3.port.u.im:VARIABLE(start = LOAD_2_2_3.port.vStart.im * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Imaginary part of complex number" type: Real 279: LOAD_2_2_3.port.u.re:VARIABLE(start = LOAD_2_2_3.port.vStart.re * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Real part of complex number" type: Real 280: LINE_HV_2_2_4.vB.re:VARIABLE(start = LOAD_2_2_4.port.vStart.re unit = "V" nominal = 36373.06695894642 ) "Real part of complex number" type: Real 281: LINE_HV_2_2_4.iB.re:VARIABLE(start = LINE_HV_2_2_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 ) "Real part of complex number" type: Real 282: LINE_HV_2_2_4.iB.im:VARIABLE(start = LINE_HV_2_2_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 ) "Imaginary part of complex number" type: Real 283: LINE_HV_2_2_4.vB.im:VARIABLE(start = LOAD_2_2_4.port.vStart.im unit = "V" nominal = 36373.06695894642 ) "Imaginary part of complex number" type: Real 284: LOAD_2_2_4.port.u.im:VARIABLE(start = LOAD_2_2_4.port.vStart.im * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Imaginary part of complex number" type: Real 285: LOAD_2_2_4.port.u.re:VARIABLE(start = LOAD_2_2_4.port.vStart.re * 1.732050807568877 unit = "V" nominal = 63000.0 ) "Real part of complex number" type: Real 286: LOAD_2_2_4.U_URef:VARIABLE(start = 1.0 unit = "1" ) "Ratio between voltage and reference voltage" type: Real 287: LOAD_2_2_1.U_URef:VARIABLE(start = 1.0 unit = "1" ) "Ratio between voltage and reference voltage" type: Real Info: Only non-linear iteration variables in non-linear eqation systems require start values. All other start values have no influence on convergence and are ignored. Use "-d=dumpLoops" to show all loops. In OMEdit Tools->Options->Simulation->Additional Translation Flags, in OMNotebook call setCommandLineOptions("-d=dumpLoops") Nonlinear iteration variables with predefined start attribute in NLSJac139. (9) ======================================== 1: GEN_2_1.GEN.theta:VARIABLE(start = GEN_2_1.GEN.thetaStart unit = "rad" ) "Rotation between machine rotor frame and port phasor frame" type: Real 2: GEN_2_1.GEN.udPu:VARIABLE(start = GEN_2_1.GEN.udPuStart unit = "1" ) "Voltage of direct axis in p.u." type: Real 3: GEN_2_1.GEN.uqPu:VARIABLE(start = GEN_2_1.GEN.uqPuStart unit = "1" ) "Voltage of quadrature axis in p.u." type: Real 4: GEN_2_1.GEN.iqPu:VARIABLE(start = GEN_2_1.GEN.iqPuStart unit = "1" ) "Current of quadrature axis in p.u." type: Real 5: GEN_2_1.GEN.lambdadPu:VARIABLE(start = GEN_2_1.GEN.lambdadPuStart unit = "1" ) "Flux of direct axis in p.u." type: Real 6: GEN_2_1.GEN.idPu:VARIABLE(start = GEN_2_1.GEN.idPuStart unit = "1" ) "Current of direct axis in p.u." type: Real 7: GEN_2_1.GEN.lambdaqPu:VARIABLE(start = GEN_2_1.GEN.lambdaqPuStart unit = "1" ) "Flux of quadrature axis in p.u." type: Real 8: GEN_2_1.GEN.port.u.im:VARIABLE(start = GEN_2_1.GEN.port.vStart.im * 1.732050807568877 unit = "V" nominal = 21000.0 ) "Imaginary part of complex number" type: Real 9: GEN_2_1.GEN.port.u.re:VARIABLE(start = GEN_2_1.GEN.port.vStart.re * 1.732050807568877 unit = "V" nominal = 21000.0 ) "Real part of complex number" type: Real Info: Only non-linear iteration variables in non-linear eqation systems require start values. All other start values have no influence on convergence and are ignored. Use "-d=dumpLoops" to show all loops. In OMEdit Tools->Options->Simulation->Additional Translation Flags, in OMNotebook call setCommandLineOptions("-d=dumpLoops") Killed Aborted the command. Failed to read output from testmodel.py, exit status != 0: Result file HelloWorld_res.mat WAS NOT generated running: ./HelloWorld with flags [ -noemit -nls=kinsol] Result file HelloWorld_res.mat WAS NOT generated running: ./HelloWorld with flags [ -noemit -lv=LOG_STATS] OMC died, but the thread is still running? This will end badly.