Running: ./testmodel.py --libraries=/home/hudson/saved_omc/libraries/.openmodelica/libraries --ompython_omhome=/usr ScalableTestGrids_noopt_ScalableTestGrids.Models.Type1.Type1_N_6_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: translateModel(ScalableTestGrids.Models.Type1.Type1_N_6_M_4,tolerance=0.0001,outputFormat="empty",numberOfIntervals=5000,variableFilter="",fileNamePrefix="ScalableTestGrids_noopt_ScalableTestGrids.Models.Type1.Type1_N_6_M_4")
translateModel(ScalableTestGrids.Models.Type1.Type1_N_6_M_4,tolerance=0.0001,outputFormat="empty",numberOfIntervals=5000,variableFilter="",fileNamePrefix="ScalableTestGrids_noopt_ScalableTestGrids.Models.Type1.Type1_N_6_M_4")
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.794babb4f03c4bbe8d6335985085a8b7
Nonlinear iteration variables with default zero start attribute in NLSJac4. (2)
========================================
1: GEN_12_6.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
2: GEN_12_6.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac4. (1)
========================================
1: GEN_12_6.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_12_6.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_12_5.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
2: GEN_12_5.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_12_5.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_12_5.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_12_4.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
2: GEN_12_4.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac22. (1)
========================================
1: GEN_12_4.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_12_4.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_12_3.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
2: GEN_12_3.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac31. (1)
========================================
1: GEN_12_3.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_12_3.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_12_2.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
2: GEN_12_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_12_2.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_12_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_12_1.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
2: GEN_12_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_12_1.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_12_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_11_6.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
2: GEN_11_6.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac58. (1)
========================================
1: GEN_11_6.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_11_6.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_11_5.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
2: GEN_11_5.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac67. (1)
========================================
1: GEN_11_5.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_11_5.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 NLSJac76. (2)
========================================
1: GEN_11_4.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
2: GEN_11_4.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac76. (1)
========================================
1: GEN_11_4.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_11_4.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 NLSJac85. (2)
========================================
1: GEN_11_3.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
2: GEN_11_3.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac85. (1)
========================================
1: GEN_11_3.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_11_3.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 NLSJac94. (2)
========================================
1: GEN_11_2.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
2: GEN_11_2.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac94. (1)
========================================
1: GEN_11_2.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_11_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 NLSJac103. (2)
========================================
1: GEN_11_1.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
2: GEN_11_1.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac103. (1)
========================================
1: GEN_11_1.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_11_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 NLSJac112. (2)
========================================
1: GEN_10_6.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
2: GEN_10_6.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac112. (1)
========================================
1: GEN_10_6.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_10_6.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 NLSJac121. (2)
========================================
1: GEN_10_5.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
2: GEN_10_5.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac121. (1)
========================================
1: GEN_10_5.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_10_5.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 NLSJac130. (2)
========================================
1: GEN_10_4.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
2: GEN_10_4.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac130. (1)
========================================
1: GEN_10_4.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_10_4.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 NLSJac139. (2)
========================================
1: GEN_10_3.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
2: GEN_10_3.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac139. (1)
========================================
1: GEN_10_3.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_10_3.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 NLSJac148. (2)
========================================
1: GEN_10_2.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
2: GEN_10_2.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac148. (1)
========================================
1: GEN_10_2.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_10_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 NLSJac157. (2)
========================================
1: GEN_10_1.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
2: GEN_10_1.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac157. (1)
========================================
1: GEN_10_1.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_10_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 NLSJac166. (2)
========================================
1: GEN_9_6.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
2: GEN_9_6.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac166. (1)
========================================
1: GEN_9_6.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_9_6.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 NLSJac175. (2)
========================================
1: GEN_9_5.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
2: GEN_9_5.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac175. (1)
========================================
1: GEN_9_5.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_9_5.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 NLSJac184. (2)
========================================
1: GEN_9_4.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
2: GEN_9_4.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac184. (1)
========================================
1: GEN_9_4.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_9_4.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 NLSJac193. (2)
========================================
1: GEN_9_3.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
2: GEN_9_3.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac193. (1)
========================================
1: GEN_9_3.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_9_3.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 NLSJac202. (2)
========================================
1: GEN_9_2.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
2: GEN_9_2.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac202. (1)
========================================
1: GEN_9_2.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_9_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 NLSJac211. (2)
========================================
1: GEN_9_1.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
2: GEN_9_1.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac211. (1)
========================================
1: GEN_9_1.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_9_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 NLSJac220. (2)
========================================
1: GEN_8_6.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
2: GEN_8_6.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac220. (1)
========================================
1: GEN_8_6.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_8_6.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 NLSJac229. (2)
========================================
1: GEN_8_5.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
2: GEN_8_5.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac229. (1)
========================================
1: GEN_8_5.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_8_5.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 NLSJac238. (2)
========================================
1: GEN_8_4.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
2: GEN_8_4.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac238. (1)
========================================
1: GEN_8_4.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_8_4.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 NLSJac247. (2)
========================================
1: GEN_8_3.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
2: GEN_8_3.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac247. (1)
========================================
1: GEN_8_3.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_8_3.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 NLSJac256. (2)
========================================
1: GEN_8_2.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
2: GEN_8_2.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac256. (1)
========================================
1: GEN_8_2.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_8_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 NLSJac265. (2)
========================================
1: GEN_8_1.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
2: GEN_8_1.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac265. (1)
========================================
1: GEN_8_1.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_8_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 NLSJac274. (2)
========================================
1: GEN_7_6.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
2: GEN_7_6.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac274. (1)
========================================
1: GEN_7_6.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_7_6.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 NLSJac283. (2)
========================================
1: GEN_7_5.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
2: GEN_7_5.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac283. (1)
========================================
1: GEN_7_5.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_7_5.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 NLSJac292. (2)
========================================
1: GEN_7_4.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
2: GEN_7_4.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac292. (1)
========================================
1: GEN_7_4.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_7_4.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 NLSJac301. (2)
========================================
1: GEN_7_3.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
2: GEN_7_3.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac301. (1)
========================================
1: GEN_7_3.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_7_3.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 NLSJac310. (2)
========================================
1: GEN_7_2.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
2: GEN_7_2.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac310. (1)
========================================
1: GEN_7_2.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_7_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 NLSJac319. (2)
========================================
1: GEN_7_1.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
2: GEN_7_1.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac319. (1)
========================================
1: GEN_7_1.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_7_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 NLSJac328. (2)
========================================
1: GEN_6_6.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
2: GEN_6_6.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac328. (1)
========================================
1: GEN_6_6.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_6_6.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 NLSJac337. (2)
========================================
1: GEN_6_5.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
2: GEN_6_5.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac337. (1)
========================================
1: GEN_6_5.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_6_5.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 NLSJac346. (2)
========================================
1: GEN_6_4.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
2: GEN_6_4.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac346. (1)
========================================
1: GEN_6_4.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_6_4.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 NLSJac355. (2)
========================================
1: GEN_6_3.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
2: GEN_6_3.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac355. (1)
========================================
1: GEN_6_3.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_6_3.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 NLSJac364. (2)
========================================
1: GEN_6_2.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
2: GEN_6_2.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac364. (1)
========================================
1: GEN_6_2.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_6_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 NLSJac373. (2)
========================================
1: GEN_6_1.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
2: GEN_6_1.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac373. (1)
========================================
1: GEN_6_1.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_6_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 NLSJac382. (2)
========================================
1: GEN_5_6.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
2: GEN_5_6.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac382. (1)
========================================
1: GEN_5_6.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_5_6.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 NLSJac391. (2)
========================================
1: GEN_5_5.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
2: GEN_5_5.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac391. (1)
========================================
1: GEN_5_5.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_5_5.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 NLSJac400. (2)
========================================
1: GEN_5_4.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
2: GEN_5_4.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac400. (1)
========================================
1: GEN_5_4.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_5_4.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 NLSJac409. (2)
========================================
1: GEN_5_3.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
2: GEN_5_3.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac409. (1)
========================================
1: GEN_5_3.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_5_3.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 NLSJac418. (2)
========================================
1: GEN_5_2.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
2: GEN_5_2.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac418. (1)
========================================
1: GEN_5_2.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_5_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 NLSJac427. (2)
========================================
1: GEN_5_1.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
2: GEN_5_1.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac427. (1)
========================================
1: GEN_5_1.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_5_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 NLSJac436. (2)
========================================
1: GEN_4_6.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
2: GEN_4_6.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac436. (1)
========================================
1: GEN_4_6.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_4_6.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 NLSJac445. (2)
========================================
1: GEN_4_5.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
2: GEN_4_5.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac445. (1)
========================================
1: GEN_4_5.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_4_5.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 NLSJac454. (2)
========================================
1: GEN_4_4.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
2: GEN_4_4.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac454. (1)
========================================
1: GEN_4_4.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_4_4.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 NLSJac463. (2)
========================================
1: GEN_4_3.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
2: GEN_4_3.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac463. (1)
========================================
1: GEN_4_3.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_4_3.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 NLSJac472. (2)
========================================
1: GEN_4_2.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
2: GEN_4_2.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac472. (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 NLSJac481. (2)
========================================
1: GEN_4_1.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
2: GEN_4_1.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac481. (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 NLSJac490. (2)
========================================
1: GEN_3_6.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
2: GEN_3_6.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac490. (1)
========================================
1: GEN_3_6.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_3_6.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 NLSJac499. (2)
========================================
1: GEN_3_5.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
2: GEN_3_5.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac499. (1)
========================================
1: GEN_3_5.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_3_5.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 NLSJac508. (2)
========================================
1: GEN_3_4.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
2: GEN_3_4.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac508. (1)
========================================
1: GEN_3_4.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_3_4.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 NLSJac517. (2)
========================================
1: GEN_3_3.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
2: GEN_3_3.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac517. (1)
========================================
1: GEN_3_3.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_3_3.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 NLSJac526. (2)
========================================
1: GEN_3_2.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
2: GEN_3_2.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac526. (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 NLSJac535. (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 NLSJac535. (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 NLSJac544. (2)
========================================
1: GEN_2_6.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
2: GEN_2_6.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac544. (1)
========================================
1: GEN_2_6.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_2_6.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 NLSJac553. (2)
========================================
1: GEN_2_5.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
2: GEN_2_5.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac553. (1)
========================================
1: GEN_2_5.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_2_5.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 NLSJac562. (2)
========================================
1: GEN_2_4.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
2: GEN_2_4.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac562. (1)
========================================
1: GEN_2_4.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_2_4.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 NLSJac571. (2)
========================================
1: GEN_2_3.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
2: GEN_2_3.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac571. (1)
========================================
1: GEN_2_3.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_2_3.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 NLSJac580. (2)
========================================
1: GEN_2_2.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
2: GEN_2_2.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac580. (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 NLSJac589. (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 NLSJac589. (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 NLSJac598. (2)
========================================
1: GEN_1_6.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
2: GEN_1_6.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac598. (1)
========================================
1: GEN_1_6.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_1_6.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 NLSJac607. (2)
========================================
1: GEN_1_5.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
2: GEN_1_5.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac607. (1)
========================================
1: GEN_1_5.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_1_5.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 NLSJac616. (2)
========================================
1: GEN_1_4.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
2: GEN_1_4.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac616. (1)
========================================
1: GEN_1_4.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_1_4.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 NLSJac625. (2)
========================================
1: GEN_1_3.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
2: GEN_1_3.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac625. (1)
========================================
1: GEN_1_3.TGOV.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_1_3.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 NLSJac634. (2)
========================================
1: GEN_1_2.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
2: GEN_1_2.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac634. (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 NLSJac643. (2)
========================================
1: GEN_1_1.TGOV.firstOrderLim.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
2: GEN_1_1.TGOV.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac643. (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 NLSJac648. (142)
========================================
1: GEN_7_2.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
2: GEN_7_2.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
3: GEN_8_1.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
4: GEN_8_1.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
5: GEN_7_1.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
6: GEN_7_1.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
7: GEN_5_1.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
8: GEN_5_1.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
9: GEN_3_1.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
10: GEN_3_1.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_5_4.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
14: GEN_5_4.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
15: GEN_5_5.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
16: GEN_5_5.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
17: GEN_11_5.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
18: GEN_11_5.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
19: GEN_10_4.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
20: GEN_10_4.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
21: GEN_10_2.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
22: GEN_10_2.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
23: GEN_9_1.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
24: GEN_9_1.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
25: GEN_10_1.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
26: GEN_10_1.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
27: GEN_12_1.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
28: GEN_12_1.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
29: GEN_11_3.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
30: GEN_11_3.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
31: GEN_11_4.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
32: GEN_11_4.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
33: GEN_12_3.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
34: GEN_12_3.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
35: GEN_12_2.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
36: GEN_12_2.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
37: GEN_11_2.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
38: GEN_11_2.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
39: GEN_11_1.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
40: GEN_11_1.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
41: GEN_9_2.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
42: GEN_9_2.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
43: GEN_8_2.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
44: GEN_8_2.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
45: GEN_7_3.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
46: GEN_7_3.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
47: GEN_6_4.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
48: GEN_6_4.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
49: GEN_9_3.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
50: GEN_9_3.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
51: GEN_9_4.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
52: GEN_9_4.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
53: GEN_11_6.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
54: GEN_11_6.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
55: GEN_10_6.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
56: GEN_10_6.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
57: GEN_8_5.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
58: GEN_8_5.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
59: GEN_4_6.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
60: GEN_4_6.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
61: GEN_3_4.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
62: GEN_3_4.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
63: GEN_2_2.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
64: GEN_2_2.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
65: GEN_3_2.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
66: GEN_3_2.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
67: GEN_2_1.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
68: GEN_2_1.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
69: GEN_1_1.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
70: GEN_1_1.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
71: GEN_1_2.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
72: GEN_1_2.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
73: GEN_1_4.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
74: GEN_1_4.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
75: GEN_2_3.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
76: GEN_2_3.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
77: GEN_4_3.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
78: GEN_4_3.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
79: GEN_1_3.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
80: GEN_1_3.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
81: GEN_3_3.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
82: GEN_3_3.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
83: GEN_3_5.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
84: GEN_3_5.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
85: GEN_3_6.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
86: GEN_3_6.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
87: GEN_2_6.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
88: GEN_2_6.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
89: GEN_1_5.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
90: GEN_1_5.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
91: GEN_2_5.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
92: GEN_2_5.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
93: GEN_1_6.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
94: GEN_1_6.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
95: GEN_4_5.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
96: GEN_4_5.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
97: GEN_2_4.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
98: GEN_2_4.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
99: GEN_4_4.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
100: GEN_4_4.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
101: GEN_6_6.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
102: GEN_6_6.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
103: GEN_5_6.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
104: GEN_5_6.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
105: GEN_7_6.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
106: GEN_7_6.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
107: GEN_9_6.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
108: GEN_9_6.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
109: GEN_9_5.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
110: GEN_9_5.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
111: GEN_10_5.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
112: GEN_10_5.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
113: GEN_8_6.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
114: GEN_8_6.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
115: GEN_8_4.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
116: GEN_8_4.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
117: GEN_12_6.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
118: GEN_12_6.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
119: GEN_12_5.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
120: GEN_12_5.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
121: GEN_12_4.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
122: GEN_12_4.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
123: GEN_8_3.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
124: GEN_8_3.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
125: GEN_7_5.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
126: GEN_7_5.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
127: GEN_7_4.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
128: GEN_7_4.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
129: GEN_10_3.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
130: GEN_10_3.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
131: GEN_6_5.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
132: GEN_6_5.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
133: GEN_5_3.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
134: GEN_5_3.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
135: GEN_4_2.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
136: GEN_4_2.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
137: GEN_5_2.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
138: GEN_5_2.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
139: GEN_6_1.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
140: GEN_6_1.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
141: GEN_6_2.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real
142: GEN_6_2.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac648. (2797)
========================================
1: GEN_6_2.GEN.theta:VARIABLE(start = GEN_6_2.GEN.thetaStart unit = "rad" )  "Rotation between machine rotor frame and port phasor frame" type: Real
2: GEN_8_1.GEN.theta:VARIABLE(start = GEN_8_1.GEN.thetaStart unit = "rad" )  "Rotation between machine rotor frame and port phasor frame" type: Real
3: GEN_6_1.GEN.theta:VARIABLE(start = GEN_6_1.GEN.thetaStart unit = "rad" )  "Rotation between machine rotor frame and port phasor frame" type: Real
4: GEN_5_1.GEN.theta:VARIABLE(start = GEN_5_1.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_4_2.GEN.theta:VARIABLE(start = GEN_4_2.GEN.thetaStart unit = "rad" )  "Rotation between machine rotor frame and port phasor frame" type: Real
7: GEN_5_3.GEN.theta:VARIABLE(start = GEN_5_3.GEN.thetaStart unit = "rad" )  "Rotation between machine rotor frame and port phasor frame" type: Real
8: GEN_6_5.GEN.theta:VARIABLE(start = GEN_6_5.GEN.thetaStart unit = "rad" )  "Rotation between machine rotor frame and port phasor frame" type: Real
9: GEN_11_5.GEN.theta:VARIABLE(start = GEN_11_5.GEN.thetaStart unit = "rad" )  "Rotation between machine rotor frame and port phasor frame" type: Real
10: GEN_10_2.GEN.theta:VARIABLE(start = GEN_10_2.GEN.thetaStart unit = "rad" )  "Rotation between machine rotor frame and port phasor frame" type: Real
11: GEN_9_2.GEN.theta:VARIABLE(start = GEN_9_2.GEN.thetaStart unit = "rad" )  "Rotation between machine rotor frame and port phasor frame" type: Real
12: GEN_8_2.GEN.theta:VARIABLE(start = GEN_8_2.GEN.thetaStart unit = "rad" )  "Rotation between machine rotor frame and port phasor frame" type: Real
13: GEN_7_4.GEN.theta:VARIABLE(start = GEN_7_4.GEN.thetaStart unit = "rad" )  "Rotation between machine rotor frame and port phasor frame" type: Real
14: GEN_7_5.GEN.theta:VARIABLE(start = GEN_7_5.GEN.thetaStart unit = "rad" )  "Rotation between machine rotor frame and port phasor frame" type: Real
15: GEN_12_4.GEN.theta:VARIABLE(start = GEN_12_4.GEN.thetaStart unit = "rad" )  "Rotation between machine rotor frame and port phasor frame" type: Real
16: GEN_11_6.GEN.theta:VARIABLE(start = GEN_11_6.GEN.thetaStart unit = "rad" )  "Rotation between machine rotor frame and port phasor frame" type: Real
17: GEN_12_5.GEN.theta:VARIABLE(start = GEN_12_5.GEN.thetaStart unit = "rad" )  "Rotation between machine rotor frame and port phasor frame" type: Real
18: GEN_12_6.GEN.theta:VARIABLE(start = GEN_12_6.GEN.thetaStart unit = "rad" )  "Rotation between machine rotor frame and port phasor frame" type: Real
19: GEN_8_6.GEN.theta:VARIABLE(start = GEN_8_6.GEN.thetaStart unit = "rad" )  "Rotation between machine rotor frame and port phasor frame" type: Real
20: GEN_10_5.GEN.theta:VARIABLE(start = GEN_10_5.GEN.thetaStart unit = "rad" )  "Rotation between machine rotor frame and port phasor frame" type: Real
21: GEN_9_5.GEN.theta:VARIABLE(start = GEN_9_5.GEN.thetaStart unit = "rad" )  "Rotation between machine rotor frame and port phasor frame" type: Real
22: GEN_9_6.GEN.theta:VARIABLE(start = GEN_9_6.GEN.thetaStart unit = "rad" )  "Rotation between machine rotor frame and port phasor frame" type: Real
23: GEN_7_6.GEN.theta:VARIABLE(start = GEN_7_6.GEN.thetaStart unit = "rad" )  "Rotation between machine rotor frame and port phasor frame" type: Real
24: GEN_5_6.GEN.theta:VARIABLE(start = GEN_5_6.GEN.thetaStart unit = "rad" )  "Rotation between machine rotor frame and port phasor frame" type: Real
25: GEN_6_6.GEN.theta:VARIABLE(start = GEN_6_6.GEN.thetaStart unit = "rad" )  "Rotation between machine rotor frame and port phasor frame" type: Real
26: GEN_4_6.GEN.theta:VARIABLE(start = GEN_4_6.GEN.thetaStart unit = "rad" )  "Rotation between machine rotor frame and port phasor frame" type: Real
27: GEN_4_4.GEN.theta:VARIABLE(start = GEN_4_4.GEN.thetaStart unit = "rad" )  "Rotation between machine rotor frame and port phasor frame" type: Real
28: GEN_2_4.GEN.theta:VARIABLE(start = GEN_2_4.GEN.thetaStart unit = "rad" )  "Rotation between machine rotor frame and port phasor frame" type: Real
29: GEN_3_5.GEN.theta:VARIABLE(start = GEN_3_5.GEN.thetaStart unit = "rad" )  "Rotation between machine rotor frame and port phasor frame" type: Real
30: GEN_4_5.GEN.theta:VARIABLE(start = GEN_4_5.GEN.thetaStart unit = "rad" )  "Rotation between machine rotor frame and port phasor frame" type: Real
31: GEN_1_5.GEN.theta:VARIABLE(start = GEN_1_5.GEN.thetaStart unit = "rad" )  "Rotation between machine rotor frame and port phasor frame" type: Real
32: GEN_1_6.GEN.theta:VARIABLE(start = GEN_1_6.GEN.thetaStart unit = "rad" )  "Rotation between machine rotor frame and port phasor frame" type: Real
33: GEN_2_5.GEN.theta:VARIABLE(start = GEN_2_5.GEN.thetaStart unit = "rad" )  "Rotation between machine rotor frame and port phasor frame" type: Real
34: GEN_2_6.GEN.theta:VARIABLE(start = GEN_2_6.GEN.thetaStart unit = "rad" )  "Rotation between machine rotor frame and port phasor frame" type: Real
35: GEN_3_6.GEN.theta:VARIABLE(start = GEN_3_6.GEN.thetaStart unit = "rad" )  "Rotation between machine rotor frame and port phasor frame" type: Real
36: GEN_3_3.GEN.theta:VARIABLE(start = GEN_3_3.GEN.thetaStart unit = "rad" )  "Rotation between machine rotor frame and port phasor frame" type: Real
37: 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
38: 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
39: 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
40: GEN_4_3.GEN.theta:VARIABLE(start = GEN_4_3.GEN.thetaStart unit = "rad" )  "Rotation between machine rotor frame and port phasor frame" type: Real
41: GEN_2_3.GEN.theta:VARIABLE(start = GEN_2_3.GEN.thetaStart unit = "rad" )  "Rotation between machine rotor frame and port phasor frame" type: Real
42: GEN_1_4.GEN.theta:VARIABLE(start = GEN_1_4.GEN.thetaStart unit = "rad" )  "Rotation between machine rotor frame and port phasor frame" type: Real
43: GEN_1_3.GEN.theta:VARIABLE(start = GEN_1_3.GEN.thetaStart unit = "rad" )  "Rotation between machine rotor frame and port phasor frame" type: Real
44: 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
45: 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
46: GEN_3_4.GEN.theta:VARIABLE(start = GEN_3_4.GEN.thetaStart unit = "rad" )  "Rotation between machine rotor frame and port phasor frame" type: Real
47: GEN_8_5.GEN.theta:VARIABLE(start = GEN_8_5.GEN.thetaStart unit = "rad" )  "Rotation between machine rotor frame and port phasor frame" type: Real
48: GEN_8_4.GEN.theta:VARIABLE(start = GEN_8_4.GEN.thetaStart unit = "rad" )  "Rotation between machine rotor frame and port phasor frame" type: Real
49: GEN_10_6.GEN.theta:VARIABLE(start = GEN_10_6.GEN.thetaStart unit = "rad" )  "Rotation between machine rotor frame and port phasor frame" type: Real
50: GEN_9_4.GEN.theta:VARIABLE(start = GEN_9_4.GEN.thetaStart unit = "rad" )  "Rotation between machine rotor frame and port phasor frame" type: Real
51: GEN_9_3.GEN.theta:VARIABLE(start = GEN_9_3.GEN.thetaStart unit = "rad" )  "Rotation between machine rotor frame and port phasor frame" type: Real
52: GEN_8_3.GEN.theta:VARIABLE(start = GEN_8_3.GEN.thetaStart unit = "rad" )  "Rotation between machine rotor frame and port phasor frame" type: Real
53: GEN_6_4.GEN.theta:VARIABLE(start = GEN_6_4.GEN.thetaStart unit = "rad" )  "Rotation between machine rotor frame and port phasor frame" type: Real
54: GEN_7_3.GEN.theta:VARIABLE(start = GEN_7_3.GEN.thetaStart unit = "rad" )  "Rotation between machine rotor frame and port phasor frame" type: Real
55: GEN_9_1.GEN.theta:VARIABLE(start = GEN_9_1.GEN.thetaStart unit = "rad" )  "Rotation between machine rotor frame and port phasor frame" type: Real
56: GEN_11_1.GEN.theta:VARIABLE(start = GEN_11_1.GEN.thetaStart unit = "rad" )  "Rotation between machine rotor frame and port phasor frame" type: Real
57: GEN_11_2.GEN.theta:VARIABLE(start = GEN_11_2.GEN.thetaStart unit = "rad" )  "Rotation between machine rotor frame and port phasor frame" type: Real
58: GEN_12_2.GEN.theta:VARIABLE(start = GEN_12_2.GEN.thetaStart unit = "rad" )  "Rotation between machine rotor frame and port phasor frame" type: Real
59: GEN_12_3.GEN.theta:VARIABLE(start = GEN_12_3.GEN.thetaStart unit = "rad" )  "Rotation between machine rotor frame and port phasor frame" type: Real
60: GEN_11_4.GEN.theta:VARIABLE(start = GEN_11_4.GEN.thetaStart unit = "rad" )  "Rotation between machine rotor frame and port phasor frame" type: Real
61: GEN_11_3.GEN.theta:VARIABLE(start = GEN_11_3.GEN.thetaStart unit = "rad" )  "Rotation between machine rotor frame and port phasor frame" type: Real
62: GEN_12_1.GEN.theta:VARIABLE(start = GEN_12_1.GEN.thetaStart unit = "rad" )  "Rotation between machine rotor frame and port phasor frame" type: Real
63: GEN_10_1.GEN.theta:VARIABLE(start = GEN_10_1.GEN.thetaStart unit = "rad" )  "Rotation between machine rotor frame and port phasor frame" type: Real
64: GEN_10_3.GEN.theta:VARIABLE(start = GEN_10_3.GEN.thetaStart unit = "rad" )  "Rotation between machine rotor frame and port phasor frame" type: Real
65: GEN_10_4.GEN.theta:VARIABLE(start = GEN_10_4.GEN.thetaStart unit = "rad" )  "Rotation between machine rotor frame and port phasor frame" type: Real
66: GEN_5_5.GEN.theta:VARIABLE(start = GEN_5_5.GEN.thetaStart unit = "rad" )  "Rotation between machine rotor frame and port phasor frame" type: Real
67: GEN_5_4.GEN.theta:VARIABLE(start = GEN_5_4.GEN.thetaStart unit = "rad" )  "Rotation between machine rotor frame and port phasor frame" type: Real
68: 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
69: GEN_5_2.GEN.theta:VARIABLE(start = GEN_5_2.GEN.thetaStart unit = "rad" )  "Rotation between machine rotor frame and port phasor frame" type: Real
70: GEN_7_1.GEN.theta:VARIABLE(start = GEN_7_1.GEN.thetaStart unit = "rad" )  "Rotation between machine rotor frame and port phasor frame" type: Real
71: GEN_7_2.GEN.theta:VARIABLE(start = GEN_7_2.GEN.thetaStart unit = "rad" )  "Rotation between machine rotor frame and port phasor frame" type: Real
72: GEN_6_2.GEN.uqPu:VARIABLE(start = GEN_6_2.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
73: GEN_6_2.GEN.udPu:VARIABLE(start = GEN_6_2.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
74: GEN_7_2.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_7_2.AVR.firstOrderLim.I.y_start )  "Connector of Real output signal" type: Real
75: GEN_7_2.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_7_2.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
76: GEN_7_2.GEN.port.u.im:VARIABLE(start = GEN_7_2.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
77: GEN_7_2.GEN.port.u.re:VARIABLE(start = GEN_7_2.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
78: GEN_7_2.GEN.uqPu:VARIABLE(start = GEN_7_2.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
79: GEN_7_2.GEN.udPu:VARIABLE(start = GEN_7_2.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
80: GEN_7_2.GEN.lambdadPu:VARIABLE(start = GEN_7_2.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
81: GEN_7_2.GEN.lambdaqPu:VARIABLE(start = GEN_7_2.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
82: GEN_7_2.GEN.idPu:VARIABLE(start = GEN_7_2.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
83: GEN_7_2.GEN.iqPu:VARIABLE(start = GEN_7_2.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
84: GEN_8_1.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_8_1.AVR.firstOrderLim.I.y_start )  "Connector of Real output signal" type: Real
85: GEN_8_1.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_8_1.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
86: GEN_8_1.GEN.port.u.im:VARIABLE(start = GEN_8_1.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
87: GEN_8_1.GEN.port.u.re:VARIABLE(start = GEN_8_1.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
88: GEN_8_1.GEN.udPu:VARIABLE(start = GEN_8_1.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
89: GEN_8_1.GEN.uqPu:VARIABLE(start = GEN_8_1.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
90: GEN_8_1.GEN.lambdadPu:VARIABLE(start = GEN_8_1.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
91: GEN_8_1.GEN.lambdaqPu:VARIABLE(start = GEN_8_1.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
92: LINE_HV_8_1_4.vB.re:VARIABLE(start = LOAD_8_1_4.port.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
93: LINE_HV_8_1_4.iB.re:VARIABLE(start = LINE_HV_8_1_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 )  "Real part of complex number" type: Real
94: LINE_HV_8_1_4.iB.im:VARIABLE(start = LINE_HV_8_1_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 )  "Imaginary part of complex number" type: Real
95: LINE_HV_8_1_4.vB.im:VARIABLE(start = LOAD_8_1_4.port.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
96: LOAD_8_1_4.port.u.im:VARIABLE(start = LOAD_8_1_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
97: LOAD_8_1_4.port.u.re:VARIABLE(start = LOAD_8_1_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
98: LOAD_8_1_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
99: LOAD_8_1_3.port.u.im:VARIABLE(start = LOAD_8_1_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
100: LOAD_8_1_3.port.u.re:VARIABLE(start = LOAD_8_1_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
101: LOAD_8_1_3.port.iGen.re:VARIABLE(start = -LOAD_8_1_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
102: LINE_HV_8_1_4.vAt.im:VARIABLE(start = LINE_HV_8_1_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
103: LOAD_8_1_3.port.iGen.im:VARIABLE(start = -LOAD_8_1_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
104: LINE_HV_8_1_4.vAt.re:VARIABLE(start = LINE_HV_8_1_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
105: LOAD_8_1_2.port.u.im:VARIABLE(start = LOAD_8_1_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
106: LOAD_8_1_2.port.u.re:VARIABLE(start = LOAD_8_1_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
107: LOAD_8_1_2.port.iGen.re:VARIABLE(start = -LOAD_8_1_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
108: LINE_HV_8_1_3.vAt.im:VARIABLE(start = LINE_HV_8_1_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
109: LOAD_8_1_2.port.iGen.im:VARIABLE(start = -LOAD_8_1_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
110: LINE_HV_8_1_3.vAt.re:VARIABLE(start = LINE_HV_8_1_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
111: LOAD_8_1_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
112: LOAD_8_1_1.port.u.im:VARIABLE(start = LOAD_8_1_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
113: LOAD_8_1_1.port.u.re:VARIABLE(start = LOAD_8_1_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
114: LINE_HV_8_1_2.vAt.re:VARIABLE(start = LINE_HV_8_1_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
115: LOAD_8_1_1.port.iGen.re:VARIABLE(start = -LOAD_8_1_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
116: LOAD_8_1_1.port.iGen.im:VARIABLE(start = -LOAD_8_1_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
117: LINE_HV_8_1_2.vAt.im:VARIABLE(start = LINE_HV_8_1_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
118: LOAD_8_1_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
119: LOAD_8_1_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
120: GEN_7_1.GEN.udPu:VARIABLE(start = GEN_7_1.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
121: GEN_7_1.GEN.uqPu:VARIABLE(start = GEN_7_1.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
122: GEN_7_1.GEN.port.u.im:VARIABLE(start = GEN_7_1.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
123: GEN_7_1.GEN.port.u.re:VARIABLE(start = GEN_7_1.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
124: GEN_7_1.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_7_1.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
125: GEN_7_1.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_7_1.AVR.firstOrderLim.I.y_start )  "Connector of Real output signal" type: Real
126: GEN_6_1.GEN.udPu:VARIABLE(start = GEN_6_1.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
127: GEN_6_1.GEN.uqPu:VARIABLE(start = GEN_6_1.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
128: LOAD_6_2_1.port.u.im:VARIABLE(start = LOAD_6_2_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
129: LOAD_6_2_1.port.u.re:VARIABLE(start = LOAD_6_2_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
130: LOAD_6_2_1.port.iGen.re:VARIABLE(start = -LOAD_6_2_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
131: LINE_HV_6_2_2.vAt.im:VARIABLE(start = LINE_HV_6_2_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
132: LOAD_6_2_1.port.iGen.im:VARIABLE(start = -LOAD_6_2_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
133: LINE_HV_6_2_2.vAt.re:VARIABLE(start = LINE_HV_6_2_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
134: LOAD_6_2_2.port.u.im:VARIABLE(start = LOAD_6_2_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
135: LOAD_6_2_2.port.u.re:VARIABLE(start = LOAD_6_2_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
136: LOAD_6_2_2.port.iGen.re:VARIABLE(start = -LOAD_6_2_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
137: LINE_HV_6_2_3.vAt.im:VARIABLE(start = LINE_HV_6_2_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
138: LOAD_6_2_2.port.iGen.im:VARIABLE(start = -LOAD_6_2_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
139: LINE_HV_6_2_3.vAt.re:VARIABLE(start = LINE_HV_6_2_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
140: LOAD_6_2_3.port.u.im:VARIABLE(start = LOAD_6_2_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
141: LOAD_6_2_3.port.u.re:VARIABLE(start = LOAD_6_2_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
142: LOAD_6_2_3.port.iGen.re:VARIABLE(start = -LOAD_6_2_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
143: LINE_HV_6_2_4.vAt.im:VARIABLE(start = LINE_HV_6_2_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
144: LOAD_6_2_3.port.iGen.im:VARIABLE(start = -LOAD_6_2_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
145: LINE_HV_6_2_4.vAt.re:VARIABLE(start = LINE_HV_6_2_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
146: LOAD_6_2_4.port.u.im:VARIABLE(start = LOAD_6_2_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
147: LOAD_6_2_4.port.u.re:VARIABLE(start = LOAD_6_2_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
148: LINE_HV_6_2_4.iB.re:VARIABLE(start = LINE_HV_6_2_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 )  "Real part of complex number" type: Real
149: LINE_HV_6_2_4.vB.im:VARIABLE(start = LOAD_6_2_4.port.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
150: LINE_HV_6_2_4.iB.im:VARIABLE(start = LINE_HV_6_2_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 )  "Imaginary part of complex number" type: Real
151: LINE_HV_6_2_4.vB.re:VARIABLE(start = LOAD_6_2_4.port.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
152: LOAD_6_2_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
153: LOAD_6_2_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
154: LOAD_6_2_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
155: LOAD_6_2_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
156: GEN_5_2.GEN.uqPu:VARIABLE(start = GEN_5_2.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
157: GEN_5_2.GEN.udPu:VARIABLE(start = GEN_5_2.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
158: LOAD_5_1_1.port.u.im:VARIABLE(start = LOAD_5_1_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
159: LOAD_5_1_1.port.u.re:VARIABLE(start = LOAD_5_1_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
160: LINE_HV_5_1_2.vAt.re:VARIABLE(start = LINE_HV_5_1_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
161: LOAD_5_1_1.port.iGen.re:VARIABLE(start = -LOAD_5_1_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
162: LOAD_5_1_1.port.iGen.im:VARIABLE(start = -LOAD_5_1_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
163: LINE_HV_5_1_2.vAt.im:VARIABLE(start = LINE_HV_5_1_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
164: GEN_5_1.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_5_1.AVR.firstOrderLim.I.y_start )  "Connector of Real output signal" type: Real
165: GEN_5_1.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_5_1.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
166: GEN_5_1.GEN.port.u.im:VARIABLE(start = GEN_5_1.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
167: GEN_5_1.GEN.port.u.re:VARIABLE(start = GEN_5_1.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
168: LOAD_3_1_1.port.u.im:VARIABLE(start = LOAD_3_1_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
169: LOAD_3_1_1.port.u.re:VARIABLE(start = LOAD_3_1_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
170: LOAD_3_1_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
171: 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
172: LOAD_3_1_1.port.iGen.re:VARIABLE(start = -LOAD_3_1_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
173: LOAD_3_1_1.port.iGen.im:VARIABLE(start = -LOAD_3_1_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
174: 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
175: LOAD_3_1_2.port.u.im:VARIABLE(start = LOAD_3_1_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
176: LOAD_3_1_2.port.u.re:VARIABLE(start = LOAD_3_1_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
177: 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
178: LOAD_3_1_2.port.iGen.re:VARIABLE(start = -LOAD_3_1_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
179: LOAD_3_1_2.port.iGen.im:VARIABLE(start = -LOAD_3_1_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
180: 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
181: LOAD_3_1_3.port.u.im:VARIABLE(start = LOAD_3_1_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
182: LOAD_3_1_3.port.u.re:VARIABLE(start = LOAD_3_1_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
183: 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
184: LOAD_3_1_3.port.iGen.re:VARIABLE(start = -LOAD_3_1_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
185: LOAD_3_1_3.port.iGen.im:VARIABLE(start = -LOAD_3_1_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
186: 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
187: LOAD_3_1_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
188: LOAD_3_1_4.port.u.im:VARIABLE(start = LOAD_3_1_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
189: LOAD_3_1_4.port.u.re:VARIABLE(start = LOAD_3_1_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
190: 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
191: 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
192: 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
193: 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
194: LOAD_3_1_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
195: LOAD_3_1_2.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 * 1.7320508075688772 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 * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
200: LOAD_4_1_1.port.u.im:VARIABLE(start = LOAD_4_1_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
201: LOAD_4_1_1.port.u.re:VARIABLE(start = LOAD_4_1_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
202: LOAD_4_1_1.port.iGen.re:VARIABLE(start = -LOAD_4_1_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
203: 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
204: LOAD_4_1_1.port.iGen.im:VARIABLE(start = -LOAD_4_1_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
205: 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
206: LOAD_4_1_2.port.u.im:VARIABLE(start = LOAD_4_1_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
207: LOAD_4_1_2.port.u.re:VARIABLE(start = LOAD_4_1_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
208: 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
209: LOAD_4_1_2.port.iGen.re:VARIABLE(start = -LOAD_4_1_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
210: LOAD_4_1_2.port.iGen.im:VARIABLE(start = -LOAD_4_1_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
211: 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
212: 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
213: GEN_4_1.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_4_1.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
214: GEN_4_1.GEN.port.u.im:VARIABLE(start = GEN_4_1.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
215: GEN_4_1.GEN.port.u.re:VARIABLE(start = GEN_4_1.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
216: GEN_4_1.GEN.udPu:VARIABLE(start = GEN_4_1.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
217: GEN_4_1.GEN.uqPu:VARIABLE(start = GEN_4_1.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
218: GEN_4_1.GEN.lambdadPu:VARIABLE(start = GEN_4_1.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
219: GEN_4_1.GEN.lambdaqPu:VARIABLE(start = GEN_4_1.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
220: GEN_4_1.GEN.idPu:VARIABLE(start = GEN_4_1.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
221: GEN_4_1.GEN.iqPu:VARIABLE(start = GEN_4_1.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
222: GEN_5_3.GEN.udPu:VARIABLE(start = GEN_5_3.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
223: GEN_5_3.GEN.uqPu:VARIABLE(start = GEN_5_3.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
224: LOAD_5_3_1.port.u.im:VARIABLE(start = LOAD_5_3_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
225: LOAD_5_3_1.port.u.re:VARIABLE(start = LOAD_5_3_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
226: LOAD_5_3_1.port.iGen.re:VARIABLE(start = -LOAD_5_3_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
227: LINE_HV_5_3_2.vAt.im:VARIABLE(start = LINE_HV_5_3_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
228: LOAD_5_3_1.port.iGen.im:VARIABLE(start = -LOAD_5_3_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
229: LINE_HV_5_3_2.vAt.re:VARIABLE(start = LINE_HV_5_3_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
230: LOAD_5_3_2.port.u.im:VARIABLE(start = LOAD_5_3_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
231: LOAD_5_3_2.port.u.re:VARIABLE(start = LOAD_5_3_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
232: LOAD_5_3_2.port.iGen.re:VARIABLE(start = -LOAD_5_3_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
233: LINE_HV_5_3_3.vAt.im:VARIABLE(start = LINE_HV_5_3_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
234: LOAD_5_3_2.port.iGen.im:VARIABLE(start = -LOAD_5_3_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
235: LINE_HV_5_3_3.vAt.re:VARIABLE(start = LINE_HV_5_3_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
236: LOAD_5_3_3.port.u.im:VARIABLE(start = LOAD_5_3_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
237: LOAD_5_3_3.port.u.re:VARIABLE(start = LOAD_5_3_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
238: LINE_HV_5_3_4.vAt.re:VARIABLE(start = LINE_HV_5_3_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
239: LOAD_5_3_3.port.iGen.re:VARIABLE(start = -LOAD_5_3_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
240: LOAD_5_3_3.port.iGen.im:VARIABLE(start = -LOAD_5_3_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
241: LINE_HV_5_3_4.vAt.im:VARIABLE(start = LINE_HV_5_3_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
242: LOAD_5_3_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
243: LINE_HV_5_3_4.vB.re:VARIABLE(start = LOAD_5_3_4.port.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
244: LINE_HV_5_3_4.iB.re:VARIABLE(start = LINE_HV_5_3_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 )  "Real part of complex number" type: Real
245: LINE_HV_5_3_4.iB.im:VARIABLE(start = LINE_HV_5_3_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 )  "Imaginary part of complex number" type: Real
246: LINE_HV_5_3_4.vB.im:VARIABLE(start = LOAD_5_3_4.port.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
247: LOAD_5_3_4.port.u.im:VARIABLE(start = LOAD_5_3_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
248: LOAD_5_3_4.port.u.re:VARIABLE(start = LOAD_5_3_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
249: LOAD_5_3_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
250: LOAD_5_3_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
251: LOAD_5_3_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
252: GEN_5_4.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_5_4.AVR.firstOrderLim.I.y_start )  "Connector of Real output signal" type: Real
253: GEN_5_4.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_5_4.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
254: GEN_5_4.GEN.port.u.im:VARIABLE(start = GEN_5_4.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
255: GEN_5_4.GEN.port.u.re:VARIABLE(start = GEN_5_4.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
256: GEN_5_4.GEN.udPu:VARIABLE(start = GEN_5_4.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
257: GEN_5_4.GEN.uqPu:VARIABLE(start = GEN_5_4.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
258: GEN_5_4.GEN.lambdadPu:VARIABLE(start = GEN_5_4.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
259: GEN_5_4.GEN.lambdaqPu:VARIABLE(start = GEN_5_4.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
260: GEN_5_4.GEN.idPu:VARIABLE(start = GEN_5_4.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
261: GEN_5_4.GEN.iqPu:VARIABLE(start = GEN_5_4.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
262: LOAD_5_4_1.port.u.im:VARIABLE(start = LOAD_5_4_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
263: LOAD_5_4_1.port.u.re:VARIABLE(start = LOAD_5_4_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
264: LINE_HV_5_4_2.vAt.re:VARIABLE(start = LINE_HV_5_4_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
265: LOAD_5_4_1.port.iGen.re:VARIABLE(start = -LOAD_5_4_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
266: LOAD_5_4_1.port.iGen.im:VARIABLE(start = -LOAD_5_4_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
267: LINE_HV_5_4_2.vAt.im:VARIABLE(start = LINE_HV_5_4_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
268: LOAD_5_4_2.port.u.im:VARIABLE(start = LOAD_5_4_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
269: LOAD_5_4_2.port.u.re:VARIABLE(start = LOAD_5_4_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
270: LOAD_5_4_2.port.iGen.re:VARIABLE(start = -LOAD_5_4_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
271: LINE_HV_5_4_3.vAt.im:VARIABLE(start = LINE_HV_5_4_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
272: LOAD_5_4_2.port.iGen.im:VARIABLE(start = -LOAD_5_4_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
273: LINE_HV_5_4_3.vAt.re:VARIABLE(start = LINE_HV_5_4_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
274: LOAD_5_4_3.port.u.im:VARIABLE(start = LOAD_5_4_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
275: LOAD_5_4_3.port.u.re:VARIABLE(start = LOAD_5_4_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
276: LOAD_5_4_3.port.iGen.re:VARIABLE(start = -LOAD_5_4_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
277: LINE_HV_5_4_4.vAt.im:VARIABLE(start = LINE_HV_5_4_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
278: LOAD_5_4_3.port.iGen.im:VARIABLE(start = -LOAD_5_4_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
279: LINE_HV_5_4_4.vAt.re:VARIABLE(start = LINE_HV_5_4_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
280: LOAD_5_4_4.port.u.im:VARIABLE(start = LOAD_5_4_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
281: LOAD_5_4_4.port.u.re:VARIABLE(start = LOAD_5_4_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
282: LINE_HV_5_4_4.iB.re:VARIABLE(start = LINE_HV_5_4_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 )  "Real part of complex number" type: Real
283: LINE_HV_5_4_4.vB.im:VARIABLE(start = LOAD_5_4_4.port.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
284: LINE_HV_5_4_4.iB.im:VARIABLE(start = LINE_HV_5_4_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 )  "Imaginary part of complex number" type: Real
285: LINE_HV_5_4_4.vB.re:VARIABLE(start = LOAD_5_4_4.port.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
286: LOAD_5_4_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
287: LOAD_5_4_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
288: LOAD_5_4_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
289: LOAD_5_4_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
290: GEN_5_5.GEN.uqPu:VARIABLE(start = GEN_5_5.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
291: GEN_5_5.GEN.udPu:VARIABLE(start = GEN_5_5.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
292: GEN_5_5.GEN.port.u.im:VARIABLE(start = GEN_5_5.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
293: GEN_5_5.GEN.port.u.re:VARIABLE(start = GEN_5_5.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
294: GEN_5_5.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_5_5.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
295: GEN_5_5.GEN.lambdadPu:VARIABLE(start = GEN_5_5.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
296: GEN_5_5.GEN.lambdaqPu:VARIABLE(start = GEN_5_5.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
297: GEN_5_5.GEN.idPu:VARIABLE(start = GEN_5_5.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
298: GEN_5_5.GEN.iqPu:VARIABLE(start = GEN_5_5.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
299: GEN_5_5.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_5_5.AVR.firstOrderLim.I.y_start )  "Connector of Real output signal" type: Real
300: GEN_6_5.GEN.uqPu:VARIABLE(start = GEN_6_5.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
301: GEN_6_5.GEN.udPu:VARIABLE(start = GEN_6_5.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
302: LOAD_7_5_1.port.u.im:VARIABLE(start = LOAD_7_5_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
303: LOAD_7_5_1.port.u.re:VARIABLE(start = LOAD_7_5_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
304: LOAD_7_5_1.port.iGen.re:VARIABLE(start = -LOAD_7_5_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
305: LINE_HV_7_5_2.vAt.im:VARIABLE(start = LINE_HV_7_5_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
306: LOAD_7_5_1.port.iGen.im:VARIABLE(start = -LOAD_7_5_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
307: LINE_HV_7_5_2.vAt.re:VARIABLE(start = LINE_HV_7_5_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
308: GEN_11_5.GEN.uqPu:VARIABLE(start = GEN_11_5.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
309: GEN_11_5.GEN.udPu:VARIABLE(start = GEN_11_5.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
310: GEN_11_5.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_11_5.AVR.firstOrderLim.I.y_start )  "Connector of Real output signal" type: Real
311: GEN_11_5.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_11_5.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
312: GEN_11_5.GEN.port.u.im:VARIABLE(start = GEN_11_5.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
313: GEN_11_5.GEN.port.u.re:VARIABLE(start = GEN_11_5.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
314: LOAD_10_5_1.port.u.im:VARIABLE(start = LOAD_10_5_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
315: LOAD_10_5_1.port.u.re:VARIABLE(start = LOAD_10_5_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
316: LOAD_10_5_1.port.iGen.re:VARIABLE(start = -LOAD_10_5_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
317: LINE_HV_10_5_2.vAt.im:VARIABLE(start = LINE_HV_10_5_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
318: LOAD_10_5_1.port.iGen.im:VARIABLE(start = -LOAD_10_5_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
319: LINE_HV_10_5_2.vAt.re:VARIABLE(start = LINE_HV_10_5_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
320: GEN_10_4.GEN.udPu:VARIABLE(start = GEN_10_4.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
321: GEN_10_4.GEN.uqPu:VARIABLE(start = GEN_10_4.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
322: GEN_10_4.GEN.port.u.im:VARIABLE(start = GEN_10_4.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
323: GEN_10_4.GEN.port.u.re:VARIABLE(start = GEN_10_4.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
324: GEN_10_4.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_10_4.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
325: GEN_10_4.GEN.iqPu:VARIABLE(start = GEN_10_4.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
326: GEN_10_4.GEN.lambdadPu:VARIABLE(start = GEN_10_4.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
327: GEN_10_4.GEN.idPu:VARIABLE(start = GEN_10_4.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
328: GEN_10_4.GEN.lambdaqPu:VARIABLE(start = GEN_10_4.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
329: GEN_10_4.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_10_4.AVR.firstOrderLim.I.y_start )  "Connector of Real output signal" type: Real
330: GEN_10_3.GEN.udPu:VARIABLE(start = GEN_10_3.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
331: GEN_10_3.GEN.uqPu:VARIABLE(start = GEN_10_3.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
332: GEN_10_3.GEN.lambdadPu:VARIABLE(start = GEN_10_3.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
333: GEN_10_3.GEN.lambdaqPu:VARIABLE(start = GEN_10_3.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
334: GEN_10_3.GEN.iqPu:VARIABLE(start = GEN_10_3.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
335: GEN_10_3.GEN.idPu:VARIABLE(start = GEN_10_3.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
336: GEN_10_2.GEN.udPu:VARIABLE(start = GEN_10_2.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
337: GEN_10_2.GEN.uqPu:VARIABLE(start = GEN_10_2.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
338: GEN_10_2.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_10_2.AVR.firstOrderLim.I.y_start )  "Connector of Real output signal" type: Real
339: GEN_10_2.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_10_2.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
340: GEN_10_2.GEN.port.u.im:VARIABLE(start = GEN_10_2.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
341: GEN_10_2.GEN.port.u.re:VARIABLE(start = GEN_10_2.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
342: GEN_10_2.GEN.lambdadPu:VARIABLE(start = GEN_10_2.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
343: GEN_10_2.GEN.lambdaqPu:VARIABLE(start = GEN_10_2.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
344: LOAD_11_2_2.port.u.im:VARIABLE(start = LOAD_11_2_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
345: LOAD_11_2_2.port.u.re:VARIABLE(start = LOAD_11_2_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
346: LINE_HV_11_2_3.vAt.re:VARIABLE(start = LINE_HV_11_2_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
347: LOAD_11_2_2.port.iGen.re:VARIABLE(start = -LOAD_11_2_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
348: LOAD_11_2_2.port.iGen.im:VARIABLE(start = -LOAD_11_2_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
349: LINE_HV_11_2_3.vAt.im:VARIABLE(start = LINE_HV_11_2_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
350: LOAD_11_2_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
351: LOAD_11_2_1.port.u.im:VARIABLE(start = LOAD_11_2_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
352: LOAD_11_2_1.port.u.re:VARIABLE(start = LOAD_11_2_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
353: LOAD_11_2_1.port.iGen.re:VARIABLE(start = -LOAD_11_2_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
354: LINE_HV_11_2_2.vAt.im:VARIABLE(start = LINE_HV_11_2_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
355: LOAD_11_2_1.port.iGen.im:VARIABLE(start = -LOAD_11_2_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
356: LINE_HV_11_2_2.vAt.re:VARIABLE(start = LINE_HV_11_2_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
357: LOAD_11_2_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
358: LOAD_11_2_3.port.u.im:VARIABLE(start = LOAD_11_2_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
359: LOAD_11_2_3.port.u.re:VARIABLE(start = LOAD_11_2_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
360: LINE_HV_11_2_4.vAt.re:VARIABLE(start = LINE_HV_11_2_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
361: LOAD_11_2_3.port.iGen.re:VARIABLE(start = -LOAD_11_2_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
362: LOAD_11_2_3.port.iGen.im:VARIABLE(start = -LOAD_11_2_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
363: LINE_HV_11_2_4.vAt.im:VARIABLE(start = LINE_HV_11_2_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
364: LOAD_11_2_4.port.u.im:VARIABLE(start = LOAD_11_2_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
365: LOAD_11_2_4.port.u.re:VARIABLE(start = LOAD_11_2_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
366: LINE_HV_11_2_4.iB.re:VARIABLE(start = LINE_HV_11_2_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 )  "Real part of complex number" type: Real
367: LINE_HV_11_2_4.vB.im:VARIABLE(start = LOAD_11_2_4.port.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
368: LINE_HV_11_2_4.iB.im:VARIABLE(start = LINE_HV_11_2_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 )  "Imaginary part of complex number" type: Real
369: LINE_HV_11_2_4.vB.re:VARIABLE(start = LOAD_11_2_4.port.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
370: LOAD_11_2_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
371: LOAD_11_2_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
372: LOAD_10_3_1.port.u.im:VARIABLE(start = LOAD_10_3_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
373: LOAD_10_3_1.port.u.re:VARIABLE(start = LOAD_10_3_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
374: LINE_HV_10_3_2.vAt.re:VARIABLE(start = LINE_HV_10_3_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
375: LOAD_10_3_1.port.iGen.re:VARIABLE(start = -LOAD_10_3_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
376: LOAD_10_3_1.port.iGen.im:VARIABLE(start = -LOAD_10_3_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
377: LINE_HV_10_3_2.vAt.im:VARIABLE(start = LINE_HV_10_3_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
378: LOAD_10_3_2.port.u.im:VARIABLE(start = LOAD_10_3_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
379: LOAD_10_3_2.port.u.re:VARIABLE(start = LOAD_10_3_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
380: LOAD_10_3_3.port.u.im:VARIABLE(start = LOAD_10_3_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
381: LOAD_10_3_3.port.u.re:VARIABLE(start = LOAD_10_3_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
382: LOAD_10_3_3.port.iGen.re:VARIABLE(start = -LOAD_10_3_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
383: LINE_HV_10_3_4.vAt.im:VARIABLE(start = LINE_HV_10_3_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
384: LOAD_10_3_3.port.iGen.im:VARIABLE(start = -LOAD_10_3_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
385: LINE_HV_10_3_4.vAt.re:VARIABLE(start = LINE_HV_10_3_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
386: LOAD_10_3_2.port.iGen.re:VARIABLE(start = -LOAD_10_3_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
387: LINE_HV_10_3_3.vAt.im:VARIABLE(start = LINE_HV_10_3_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
388: LOAD_10_3_2.port.iGen.im:VARIABLE(start = -LOAD_10_3_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
389: LINE_HV_10_3_3.vAt.re:VARIABLE(start = LINE_HV_10_3_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
390: LOAD_10_3_4.port.u.im:VARIABLE(start = LOAD_10_3_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
391: LOAD_10_3_4.port.u.re:VARIABLE(start = LOAD_10_3_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
392: LINE_HV_10_3_4.iB.re:VARIABLE(start = LINE_HV_10_3_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 )  "Real part of complex number" type: Real
393: LINE_HV_10_3_4.vB.im:VARIABLE(start = LOAD_10_3_4.port.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
394: LINE_HV_10_3_4.iB.im:VARIABLE(start = LINE_HV_10_3_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 )  "Imaginary part of complex number" type: Real
395: LINE_HV_10_3_4.vB.re:VARIABLE(start = LOAD_10_3_4.port.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
396: LOAD_10_3_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
397: LOAD_10_3_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
398: LOAD_10_3_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
399: LOAD_10_3_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
400: LOAD_9_1_1.port.u.im:VARIABLE(start = LOAD_9_1_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
401: LOAD_9_1_1.port.u.re:VARIABLE(start = LOAD_9_1_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
402: LOAD_9_1_1.port.iGen.re:VARIABLE(start = -LOAD_9_1_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
403: LINE_HV_9_1_2.vAt.im:VARIABLE(start = LINE_HV_9_1_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
404: LOAD_9_1_1.port.iGen.im:VARIABLE(start = -LOAD_9_1_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
405: LINE_HV_9_1_2.vAt.re:VARIABLE(start = LINE_HV_9_1_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
406: LOAD_9_1_2.port.u.im:VARIABLE(start = LOAD_9_1_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
407: LOAD_9_1_2.port.u.re:VARIABLE(start = LOAD_9_1_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
408: LOAD_9_1_2.port.iGen.re:VARIABLE(start = -LOAD_9_1_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
409: LINE_HV_9_1_3.vAt.im:VARIABLE(start = LINE_HV_9_1_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
410: LOAD_9_1_2.port.iGen.im:VARIABLE(start = -LOAD_9_1_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
411: LINE_HV_9_1_3.vAt.re:VARIABLE(start = LINE_HV_9_1_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
412: LOAD_9_1_3.port.u.im:VARIABLE(start = LOAD_9_1_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
413: LOAD_9_1_3.port.u.re:VARIABLE(start = LOAD_9_1_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
414: LINE_HV_9_1_4.vAt.re:VARIABLE(start = LINE_HV_9_1_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
415: LOAD_9_1_3.port.iGen.re:VARIABLE(start = -LOAD_9_1_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
416: LOAD_9_1_3.port.iGen.im:VARIABLE(start = -LOAD_9_1_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
417: LINE_HV_9_1_4.vAt.im:VARIABLE(start = LINE_HV_9_1_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
418: LINE_HV_9_1_4.vB.re:VARIABLE(start = LOAD_9_1_4.port.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
419: LINE_HV_9_1_4.iB.re:VARIABLE(start = LINE_HV_9_1_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 )  "Real part of complex number" type: Real
420: LINE_HV_9_1_4.iB.im:VARIABLE(start = LINE_HV_9_1_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 )  "Imaginary part of complex number" type: Real
421: LINE_HV_9_1_4.vB.im:VARIABLE(start = LOAD_9_1_4.port.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
422: LOAD_9_1_4.port.u.im:VARIABLE(start = LOAD_9_1_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
423: LOAD_9_1_4.port.u.re:VARIABLE(start = LOAD_9_1_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
424: LOAD_9_1_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
425: LOAD_9_1_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
426: LOAD_9_1_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
427: LOAD_9_1_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
428: GEN_9_1.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_9_1.AVR.firstOrderLim.I.y_start )  "Connector of Real output signal" type: Real
429: GEN_9_1.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_9_1.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
430: GEN_9_1.GEN.port.u.im:VARIABLE(start = GEN_9_1.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
431: GEN_9_1.GEN.port.u.re:VARIABLE(start = GEN_9_1.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
432: LOAD_10_1_1.port.u.im:VARIABLE(start = LOAD_10_1_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
433: LOAD_10_1_1.port.u.re:VARIABLE(start = LOAD_10_1_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
434: GEN_10_1.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_10_1.AVR.firstOrderLim.I.y_start )  "Connector of Real output signal" type: Real
435: GEN_10_1.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_10_1.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
436: GEN_10_1.GEN.port.u.im:VARIABLE(start = GEN_10_1.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
437: GEN_10_1.GEN.port.u.re:VARIABLE(start = GEN_10_1.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
438: GEN_10_1.GEN.udPu:VARIABLE(start = GEN_10_1.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
439: GEN_10_1.GEN.uqPu:VARIABLE(start = GEN_10_1.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
440: GEN_10_1.GEN.iqPu:VARIABLE(start = GEN_10_1.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
441: GEN_10_1.GEN.lambdadPu:VARIABLE(start = GEN_10_1.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
442: GEN_10_1.GEN.idPu:VARIABLE(start = GEN_10_1.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
443: GEN_10_1.GEN.lambdaqPu:VARIABLE(start = GEN_10_1.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
444: LOAD_11_1_2.port.u.im:VARIABLE(start = LOAD_11_1_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
445: LOAD_11_1_2.port.u.re:VARIABLE(start = LOAD_11_1_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
446: LOAD_11_1_4.port.u.im:VARIABLE(start = LOAD_11_1_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
447: LOAD_11_1_4.port.u.re:VARIABLE(start = LOAD_11_1_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
448: LINE_HV_11_1_4.vB.re:VARIABLE(start = LOAD_11_1_4.port.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
449: LINE_HV_11_1_4.iB.re:VARIABLE(start = LINE_HV_11_1_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 )  "Real part of complex number" type: Real
450: LINE_HV_11_1_4.iB.im:VARIABLE(start = LINE_HV_11_1_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 )  "Imaginary part of complex number" type: Real
451: LINE_HV_11_1_4.vB.im:VARIABLE(start = LOAD_11_1_4.port.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
452: LOAD_11_1_3.port.u.im:VARIABLE(start = LOAD_11_1_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
453: LOAD_11_1_3.port.u.re:VARIABLE(start = LOAD_11_1_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
454: LOAD_11_1_3.port.iGen.re:VARIABLE(start = -LOAD_11_1_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
455: LINE_HV_11_1_4.vAt.im:VARIABLE(start = LINE_HV_11_1_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
456: LOAD_11_1_3.port.iGen.im:VARIABLE(start = -LOAD_11_1_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
457: LINE_HV_11_1_4.vAt.re:VARIABLE(start = LINE_HV_11_1_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
458: LOAD_11_1_2.port.iGen.re:VARIABLE(start = -LOAD_11_1_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
459: LINE_HV_11_1_3.vAt.im:VARIABLE(start = LINE_HV_11_1_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
460: LOAD_11_1_2.port.iGen.im:VARIABLE(start = -LOAD_11_1_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
461: LINE_HV_11_1_3.vAt.re:VARIABLE(start = LINE_HV_11_1_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
462: LINE_HV_11_1_2.vAt.re:VARIABLE(start = LINE_HV_11_1_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
463: LOAD_11_1_1.port.iGen.re:VARIABLE(start = -LOAD_11_1_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
464: LOAD_11_1_1.port.iGen.im:VARIABLE(start = -LOAD_11_1_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
465: LINE_HV_11_1_2.vAt.im:VARIABLE(start = LINE_HV_11_1_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
466: LOAD_11_1_1.port.u.im:VARIABLE(start = LOAD_11_1_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
467: LOAD_11_1_1.port.u.re:VARIABLE(start = LOAD_11_1_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
468: LOAD_11_1_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
469: LOAD_11_1_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
470: LOAD_11_1_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
471: LOAD_11_1_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
472: GEN_11_1.GEN.udPu:VARIABLE(start = GEN_11_1.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
473: GEN_11_1.GEN.uqPu:VARIABLE(start = GEN_11_1.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
474: GEN_12_1.GEN.uqPu:VARIABLE(start = GEN_12_1.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
475: GEN_12_1.GEN.udPu:VARIABLE(start = GEN_12_1.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
476: GEN_12_1.GEN.port.u.im:VARIABLE(start = GEN_12_1.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
477: GEN_12_1.GEN.port.u.re:VARIABLE(start = GEN_12_1.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
478: GEN_12_1.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_12_1.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
479: GEN_12_1.GEN.lambdadPu:VARIABLE(start = GEN_12_1.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
480: GEN_12_1.GEN.lambdaqPu:VARIABLE(start = GEN_12_1.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
481: GEN_12_1.GEN.idPu:VARIABLE(start = GEN_12_1.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
482: GEN_12_1.GEN.iqPu:VARIABLE(start = GEN_12_1.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
483: GEN_12_1.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_12_1.AVR.firstOrderLim.I.y_start )  "Connector of Real output signal" type: Real
484: LOAD_12_2_1.port.u.im:VARIABLE(start = LOAD_12_2_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
485: LOAD_12_2_1.port.u.re:VARIABLE(start = LOAD_12_2_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
486: LOAD_12_2_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
487: LINE_HV_12_2_2.vAt.re:VARIABLE(start = LINE_HV_12_2_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
488: LOAD_12_2_1.port.iGen.re:VARIABLE(start = -LOAD_12_2_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
489: LOAD_12_2_1.port.iGen.im:VARIABLE(start = -LOAD_12_2_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
490: LINE_HV_12_2_2.vAt.im:VARIABLE(start = LINE_HV_12_2_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
491: LOAD_12_2_3.port.u.im:VARIABLE(start = LOAD_12_2_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
492: LOAD_12_2_3.port.u.re:VARIABLE(start = LOAD_12_2_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
493: LOAD_12_2_4.port.u.im:VARIABLE(start = LOAD_12_2_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
494: LOAD_12_2_4.port.u.re:VARIABLE(start = LOAD_12_2_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
495: LINE_HV_12_2_4.vB.re:VARIABLE(start = LOAD_12_2_4.port.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
496: LINE_HV_12_2_4.iB.re:VARIABLE(start = LINE_HV_12_2_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 )  "Real part of complex number" type: Real
497: LINE_HV_12_2_4.iB.im:VARIABLE(start = LINE_HV_12_2_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 )  "Imaginary part of complex number" type: Real
498: LINE_HV_12_2_4.vB.im:VARIABLE(start = LOAD_12_2_4.port.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
499: LOAD_12_2_3.port.iGen.re:VARIABLE(start = -LOAD_12_2_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
500: LINE_HV_12_2_4.vAt.im:VARIABLE(start = LINE_HV_12_2_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
501: LOAD_12_2_3.port.iGen.im:VARIABLE(start = -LOAD_12_2_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
502: LINE_HV_12_2_4.vAt.re:VARIABLE(start = LINE_HV_12_2_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
503: LOAD_12_2_2.port.u.im:VARIABLE(start = LOAD_12_2_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
504: LOAD_12_2_2.port.u.re:VARIABLE(start = LOAD_12_2_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
505: LINE_HV_12_2_3.vAt.re:VARIABLE(start = LINE_HV_12_2_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
506: LOAD_12_2_2.port.iGen.re:VARIABLE(start = -LOAD_12_2_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
507: LOAD_12_2_2.port.iGen.im:VARIABLE(start = -LOAD_12_2_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
508: LINE_HV_12_2_3.vAt.im:VARIABLE(start = LINE_HV_12_2_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
509: LOAD_12_2_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
510: LOAD_12_2_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
511: LOAD_12_2_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
512: GEN_12_2.GEN.uqPu:VARIABLE(start = GEN_12_2.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
513: GEN_12_2.GEN.udPu:VARIABLE(start = GEN_12_2.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
514: LOAD_11_3_1.port.u.im:VARIABLE(start = LOAD_11_3_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
515: LOAD_11_3_1.port.u.re:VARIABLE(start = LOAD_11_3_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
516: LINE_HV_11_3_2.vAt.re:VARIABLE(start = LINE_HV_11_3_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
517: LOAD_11_3_1.port.iGen.re:VARIABLE(start = -LOAD_11_3_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
518: LOAD_11_3_1.port.iGen.im:VARIABLE(start = -LOAD_11_3_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
519: LINE_HV_11_3_2.vAt.im:VARIABLE(start = LINE_HV_11_3_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
520: LOAD_11_3_2.port.u.im:VARIABLE(start = LOAD_11_3_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
521: LOAD_11_3_2.port.u.re:VARIABLE(start = LOAD_11_3_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
522: LOAD_11_3_2.port.iGen.re:VARIABLE(start = -LOAD_11_3_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
523: LINE_HV_11_3_3.vAt.im:VARIABLE(start = LINE_HV_11_3_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
524: LOAD_11_3_2.port.iGen.im:VARIABLE(start = -LOAD_11_3_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
525: LINE_HV_11_3_3.vAt.re:VARIABLE(start = LINE_HV_11_3_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
526: LOAD_11_3_3.port.u.im:VARIABLE(start = LOAD_11_3_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
527: LOAD_11_3_3.port.u.re:VARIABLE(start = LOAD_11_3_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
528: LINE_HV_11_3_4.vAt.re:VARIABLE(start = LINE_HV_11_3_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
529: LOAD_11_3_3.port.iGen.re:VARIABLE(start = -LOAD_11_3_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
530: LOAD_11_3_3.port.iGen.im:VARIABLE(start = -LOAD_11_3_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
531: LINE_HV_11_3_4.vAt.im:VARIABLE(start = LINE_HV_11_3_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
532: LOAD_11_3_4.port.u.im:VARIABLE(start = LOAD_11_3_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
533: LOAD_11_3_4.port.u.re:VARIABLE(start = LOAD_11_3_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
534: LINE_HV_11_3_4.iB.re:VARIABLE(start = LINE_HV_11_3_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 )  "Real part of complex number" type: Real
535: LINE_HV_11_3_4.vB.im:VARIABLE(start = LOAD_11_3_4.port.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
536: LINE_HV_11_3_4.iB.im:VARIABLE(start = LINE_HV_11_3_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 )  "Imaginary part of complex number" type: Real
537: LINE_HV_11_3_4.vB.re:VARIABLE(start = LOAD_11_3_4.port.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
538: LOAD_11_3_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
539: LOAD_11_3_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
540: LOAD_11_3_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
541: LOAD_11_3_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
542: GEN_11_3.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_11_3.AVR.firstOrderLim.I.y_start )  "Connector of Real output signal" type: Real
543: GEN_11_3.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_11_3.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
544: GEN_11_3.GEN.port.u.im:VARIABLE(start = GEN_11_3.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
545: GEN_11_3.GEN.port.u.re:VARIABLE(start = GEN_11_3.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
546: GEN_11_3.GEN.udPu:VARIABLE(start = GEN_11_3.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
547: GEN_11_3.GEN.uqPu:VARIABLE(start = GEN_11_3.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
548: GEN_11_3.GEN.iqPu:VARIABLE(start = GEN_11_3.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
549: GEN_11_3.GEN.lambdadPu:VARIABLE(start = GEN_11_3.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
550: GEN_11_3.GEN.idPu:VARIABLE(start = GEN_11_3.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
551: GEN_11_3.GEN.lambdaqPu:VARIABLE(start = GEN_11_3.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
552: GEN_11_4.GEN.uqPu:VARIABLE(start = GEN_11_4.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
553: GEN_11_4.GEN.udPu:VARIABLE(start = GEN_11_4.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
554: GEN_11_4.GEN.port.u.im:VARIABLE(start = GEN_11_4.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
555: GEN_11_4.GEN.port.u.re:VARIABLE(start = GEN_11_4.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
556: GEN_11_4.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_11_4.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
557: GEN_11_4.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_11_4.AVR.firstOrderLim.I.y_start )  "Connector of Real output signal" type: Real
558: GEN_11_4.GEN.lambdadPu:VARIABLE(start = GEN_11_4.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
559: GEN_11_4.GEN.lambdaqPu:VARIABLE(start = GEN_11_4.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
560: GEN_11_4.GEN.idPu:VARIABLE(start = GEN_11_4.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
561: GEN_11_4.GEN.iqPu:VARIABLE(start = GEN_11_4.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
562: GEN_12_3.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_12_3.AVR.firstOrderLim.I.y_start )  "Connector of Real output signal" type: Real
563: GEN_12_3.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_12_3.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
564: GEN_12_3.GEN.port.u.im:VARIABLE(start = GEN_12_3.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
565: GEN_12_3.GEN.port.u.re:VARIABLE(start = GEN_12_3.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
566: GEN_12_3.GEN.udPu:VARIABLE(start = GEN_12_3.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
567: GEN_12_3.GEN.uqPu:VARIABLE(start = GEN_12_3.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
568: GEN_12_3.GEN.iqPu:VARIABLE(start = GEN_12_3.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
569: GEN_12_3.GEN.lambdadPu:VARIABLE(start = GEN_12_3.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
570: GEN_12_3.GEN.idPu:VARIABLE(start = GEN_12_3.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
571: GEN_12_3.GEN.lambdaqPu:VARIABLE(start = GEN_12_3.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
572: LOAD_12_4_1.port.u.im:VARIABLE(start = LOAD_12_4_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
573: LOAD_12_4_1.port.u.re:VARIABLE(start = LOAD_12_4_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
574: LOAD_12_4_1.port.iGen.re:VARIABLE(start = -LOAD_12_4_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
575: LINE_HV_12_4_2.vAt.im:VARIABLE(start = LINE_HV_12_4_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
576: LOAD_12_4_1.port.iGen.im:VARIABLE(start = -LOAD_12_4_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
577: LINE_HV_12_4_2.vAt.re:VARIABLE(start = LINE_HV_12_4_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
578: LOAD_12_4_2.port.u.im:VARIABLE(start = LOAD_12_4_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
579: LOAD_12_4_2.port.u.re:VARIABLE(start = LOAD_12_4_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
580: LINE_HV_12_4_3.vAt.re:VARIABLE(start = LINE_HV_12_4_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
581: LOAD_12_4_2.port.iGen.re:VARIABLE(start = -LOAD_12_4_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
582: LOAD_12_4_2.port.iGen.im:VARIABLE(start = -LOAD_12_4_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
583: LINE_HV_12_4_3.vAt.im:VARIABLE(start = LINE_HV_12_4_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
584: LINE_HV_12_4_4.vB.re:VARIABLE(start = LOAD_12_4_4.port.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
585: LINE_HV_12_4_4.iB.re:VARIABLE(start = LINE_HV_12_4_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 )  "Real part of complex number" type: Real
586: LINE_HV_12_4_4.iB.im:VARIABLE(start = LINE_HV_12_4_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 )  "Imaginary part of complex number" type: Real
587: LINE_HV_12_4_4.vB.im:VARIABLE(start = LOAD_12_4_4.port.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
588: LOAD_12_4_4.port.u.im:VARIABLE(start = LOAD_12_4_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
589: LOAD_12_4_4.port.u.re:VARIABLE(start = LOAD_12_4_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
590: LOAD_12_4_3.port.u.im:VARIABLE(start = LOAD_12_4_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
591: LOAD_12_4_3.port.u.re:VARIABLE(start = LOAD_12_4_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
592: LOAD_12_4_3.port.iGen.re:VARIABLE(start = -LOAD_12_4_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
593: LINE_HV_12_4_4.vAt.im:VARIABLE(start = LINE_HV_12_4_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
594: LOAD_12_4_3.port.iGen.im:VARIABLE(start = -LOAD_12_4_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
595: LINE_HV_12_4_4.vAt.re:VARIABLE(start = LINE_HV_12_4_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
596: LOAD_12_4_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
597: LOAD_12_4_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
598: LOAD_12_4_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
599: LOAD_12_4_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
600: LOAD_12_3_1.port.u.im:VARIABLE(start = LOAD_12_3_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
601: LOAD_12_3_1.port.u.re:VARIABLE(start = LOAD_12_3_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
602: LOAD_12_3_2.port.u.im:VARIABLE(start = LOAD_12_3_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
603: LOAD_12_3_2.port.u.re:VARIABLE(start = LOAD_12_3_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
604: LINE_HV_12_3_3.vAt.re:VARIABLE(start = LINE_HV_12_3_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
605: LOAD_12_3_2.port.iGen.re:VARIABLE(start = -LOAD_12_3_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
606: LOAD_12_3_2.port.iGen.im:VARIABLE(start = -LOAD_12_3_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
607: LINE_HV_12_3_3.vAt.im:VARIABLE(start = LINE_HV_12_3_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
608: LOAD_12_3_1.port.iGen.re:VARIABLE(start = -LOAD_12_3_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
609: LINE_HV_12_3_2.vAt.im:VARIABLE(start = LINE_HV_12_3_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
610: LOAD_12_3_1.port.iGen.im:VARIABLE(start = -LOAD_12_3_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
611: LINE_HV_12_3_2.vAt.re:VARIABLE(start = LINE_HV_12_3_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
612: LOAD_12_3_3.port.u.im:VARIABLE(start = LOAD_12_3_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
613: LOAD_12_3_3.port.u.re:VARIABLE(start = LOAD_12_3_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
614: LOAD_12_3_3.port.iGen.re:VARIABLE(start = -LOAD_12_3_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
615: LINE_HV_12_3_4.vAt.im:VARIABLE(start = LINE_HV_12_3_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
616: LOAD_12_3_3.port.iGen.im:VARIABLE(start = -LOAD_12_3_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
617: LINE_HV_12_3_4.vAt.re:VARIABLE(start = LINE_HV_12_3_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
618: LOAD_12_3_4.port.u.im:VARIABLE(start = LOAD_12_3_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
619: LOAD_12_3_4.port.u.re:VARIABLE(start = LOAD_12_3_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
620: LINE_HV_12_3_4.iB.re:VARIABLE(start = LINE_HV_12_3_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 )  "Real part of complex number" type: Real
621: LINE_HV_12_3_4.vB.im:VARIABLE(start = LOAD_12_3_4.port.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
622: LINE_HV_12_3_4.iB.im:VARIABLE(start = LINE_HV_12_3_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 )  "Imaginary part of complex number" type: Real
623: LINE_HV_12_3_4.vB.re:VARIABLE(start = LOAD_12_3_4.port.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
624: LOAD_12_3_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
625: LOAD_12_3_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
626: LOAD_12_3_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
627: LOAD_12_3_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
628: GEN_12_2.GEN.port.u.im:VARIABLE(start = GEN_12_2.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
629: GEN_12_2.GEN.port.u.re:VARIABLE(start = GEN_12_2.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
630: GEN_12_2.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_12_2.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
631: GEN_12_2.GEN.iqPu:VARIABLE(start = GEN_12_2.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
632: GEN_12_2.GEN.lambdadPu:VARIABLE(start = GEN_12_2.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
633: GEN_12_2.GEN.idPu:VARIABLE(start = GEN_12_2.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
634: GEN_12_2.GEN.lambdaqPu:VARIABLE(start = GEN_12_2.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
635: GEN_12_2.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_12_2.AVR.firstOrderLim.I.y_start )  "Connector of Real output signal" type: Real
636: GEN_11_2.GEN.udPu:VARIABLE(start = GEN_11_2.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
637: GEN_11_2.GEN.uqPu:VARIABLE(start = GEN_11_2.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
638: GEN_11_2.GEN.port.u.im:VARIABLE(start = GEN_11_2.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
639: GEN_11_2.GEN.port.u.re:VARIABLE(start = GEN_11_2.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
640: GEN_11_2.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_11_2.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
641: GEN_11_2.GEN.iqPu:VARIABLE(start = GEN_11_2.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
642: GEN_11_2.GEN.lambdadPu:VARIABLE(start = GEN_11_2.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
643: GEN_11_2.GEN.idPu:VARIABLE(start = GEN_11_2.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
644: GEN_11_2.GEN.lambdaqPu:VARIABLE(start = GEN_11_2.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
645: GEN_11_2.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_11_2.AVR.firstOrderLim.I.y_start )  "Connector of Real output signal" type: Real
646: GEN_11_1.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_11_1.AVR.firstOrderLim.I.y_start )  "Connector of Real output signal" type: Real
647: GEN_11_1.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_11_1.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
648: GEN_11_1.GEN.port.u.im:VARIABLE(start = GEN_11_1.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
649: GEN_11_1.GEN.port.u.re:VARIABLE(start = GEN_11_1.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
650: GEN_11_1.GEN.iqPu:VARIABLE(start = GEN_11_1.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
651: GEN_11_1.GEN.lambdadPu:VARIABLE(start = GEN_11_1.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
652: GEN_11_1.GEN.idPu:VARIABLE(start = GEN_11_1.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
653: GEN_11_1.GEN.lambdaqPu:VARIABLE(start = GEN_11_1.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
654: LOAD_12_1_1.port.u.im:VARIABLE(start = LOAD_12_1_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
655: LOAD_12_1_1.port.u.re:VARIABLE(start = LOAD_12_1_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
656: LINE_HV_12_1_2.vAt.re:VARIABLE(start = LINE_HV_12_1_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
657: LOAD_12_1_1.port.iGen.re:VARIABLE(start = -LOAD_12_1_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
658: LOAD_12_1_1.port.iGen.im:VARIABLE(start = -LOAD_12_1_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
659: LINE_HV_12_1_2.vAt.im:VARIABLE(start = LINE_HV_12_1_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
660: LOAD_12_1_2.port.u.im:VARIABLE(start = LOAD_12_1_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
661: LOAD_12_1_2.port.u.re:VARIABLE(start = LOAD_12_1_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
662: LINE_HV_12_1_3.vAt.re:VARIABLE(start = LINE_HV_12_1_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
663: LOAD_12_1_2.port.iGen.re:VARIABLE(start = -LOAD_12_1_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
664: LOAD_12_1_2.port.iGen.im:VARIABLE(start = -LOAD_12_1_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
665: LINE_HV_12_1_3.vAt.im:VARIABLE(start = LINE_HV_12_1_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
666: LOAD_12_1_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
667: LOAD_12_1_3.port.u.im:VARIABLE(start = LOAD_12_1_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
668: LOAD_12_1_3.port.u.re:VARIABLE(start = LOAD_12_1_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
669: LINE_HV_12_1_4.vAt.re:VARIABLE(start = LINE_HV_12_1_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
670: LOAD_12_1_3.port.iGen.re:VARIABLE(start = -LOAD_12_1_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
671: LOAD_12_1_3.port.iGen.im:VARIABLE(start = -LOAD_12_1_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
672: LINE_HV_12_1_4.vAt.im:VARIABLE(start = LINE_HV_12_1_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
673: LOAD_12_1_4.port.u.im:VARIABLE(start = LOAD_12_1_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
674: LOAD_12_1_4.port.u.re:VARIABLE(start = LOAD_12_1_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
675: LINE_HV_12_1_4.vB.re:VARIABLE(start = LOAD_12_1_4.port.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
676: LINE_HV_12_1_4.iB.re:VARIABLE(start = LINE_HV_12_1_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 )  "Real part of complex number" type: Real
677: LINE_HV_12_1_4.iB.im:VARIABLE(start = LINE_HV_12_1_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 )  "Imaginary part of complex number" type: Real
678: LINE_HV_12_1_4.vB.im:VARIABLE(start = LOAD_12_1_4.port.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
679: LOAD_12_1_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
680: LOAD_12_1_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
681: LOAD_12_1_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
682: LOAD_10_1_1.port.iGen.re:VARIABLE(start = -LOAD_10_1_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
683: LINE_HV_10_1_2.vAt.im:VARIABLE(start = LINE_HV_10_1_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
684: LOAD_10_1_1.port.iGen.im:VARIABLE(start = -LOAD_10_1_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
685: LINE_HV_10_1_2.vAt.re:VARIABLE(start = LINE_HV_10_1_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
686: LOAD_10_1_2.port.u.im:VARIABLE(start = LOAD_10_1_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
687: LOAD_10_1_2.port.u.re:VARIABLE(start = LOAD_10_1_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
688: LOAD_10_1_2.port.iGen.re:VARIABLE(start = -LOAD_10_1_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
689: LINE_HV_10_1_3.vAt.im:VARIABLE(start = LINE_HV_10_1_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
690: LOAD_10_1_2.port.iGen.im:VARIABLE(start = -LOAD_10_1_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
691: LINE_HV_10_1_3.vAt.re:VARIABLE(start = LINE_HV_10_1_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
692: LOAD_10_1_3.port.u.im:VARIABLE(start = LOAD_10_1_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
693: LOAD_10_1_3.port.u.re:VARIABLE(start = LOAD_10_1_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
694: LOAD_10_1_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
695: LINE_HV_10_1_4.vAt.re:VARIABLE(start = LINE_HV_10_1_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
696: LOAD_10_1_3.port.iGen.re:VARIABLE(start = -LOAD_10_1_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
697: LOAD_10_1_3.port.iGen.im:VARIABLE(start = -LOAD_10_1_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
698: LINE_HV_10_1_4.vAt.im:VARIABLE(start = LINE_HV_10_1_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
699: LOAD_10_1_4.port.u.im:VARIABLE(start = LOAD_10_1_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
700: LOAD_10_1_4.port.u.re:VARIABLE(start = LOAD_10_1_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
701: LOAD_10_1_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
702: LINE_HV_10_1_4.vB.re:VARIABLE(start = LOAD_10_1_4.port.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
703: LINE_HV_10_1_4.iB.re:VARIABLE(start = LINE_HV_10_1_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 )  "Real part of complex number" type: Real
704: LINE_HV_10_1_4.iB.im:VARIABLE(start = LINE_HV_10_1_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 )  "Imaginary part of complex number" type: Real
705: LINE_HV_10_1_4.vB.im:VARIABLE(start = LOAD_10_1_4.port.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
706: LOAD_10_1_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
707: LOAD_10_1_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
708: GEN_9_1.GEN.udPu:VARIABLE(start = GEN_9_1.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
709: GEN_9_1.GEN.uqPu:VARIABLE(start = GEN_9_1.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
710: GEN_9_1.GEN.iqPu:VARIABLE(start = GEN_9_1.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
711: GEN_9_1.GEN.lambdadPu:VARIABLE(start = GEN_9_1.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
712: GEN_9_1.GEN.idPu:VARIABLE(start = GEN_9_1.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
713: GEN_9_1.GEN.lambdaqPu:VARIABLE(start = GEN_9_1.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
714: GEN_9_2.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_9_2.AVR.firstOrderLim.I.y_start )  "Connector of Real output signal" type: Real
715: GEN_9_2.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_9_2.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
716: GEN_9_2.GEN.port.u.im:VARIABLE(start = GEN_9_2.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
717: GEN_9_2.GEN.port.u.re:VARIABLE(start = GEN_9_2.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
718: GEN_8_2.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_8_2.AVR.firstOrderLim.I.y_start )  "Connector of Real output signal" type: Real
719: GEN_8_2.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_8_2.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
720: GEN_8_2.GEN.port.u.im:VARIABLE(start = GEN_8_2.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
721: GEN_8_2.GEN.port.u.re:VARIABLE(start = GEN_8_2.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
722: LOAD_8_2_1.port.u.im:VARIABLE(start = LOAD_8_2_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
723: LOAD_8_2_1.port.u.re:VARIABLE(start = LOAD_8_2_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
724: LOAD_8_2_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
725: LINE_HV_8_2_2.vAt.re:VARIABLE(start = LINE_HV_8_2_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
726: LOAD_8_2_1.port.iGen.re:VARIABLE(start = -LOAD_8_2_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
727: LOAD_8_2_1.port.iGen.im:VARIABLE(start = -LOAD_8_2_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
728: LINE_HV_8_2_2.vAt.im:VARIABLE(start = LINE_HV_8_2_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
729: LOAD_8_2_2.port.u.im:VARIABLE(start = LOAD_8_2_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
730: LOAD_8_2_2.port.u.re:VARIABLE(start = LOAD_8_2_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
731: LOAD_8_2_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
732: LINE_HV_8_2_3.vAt.re:VARIABLE(start = LINE_HV_8_2_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
733: LOAD_8_2_2.port.iGen.re:VARIABLE(start = -LOAD_8_2_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
734: LOAD_8_2_2.port.iGen.im:VARIABLE(start = -LOAD_8_2_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
735: LINE_HV_8_2_3.vAt.im:VARIABLE(start = LINE_HV_8_2_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
736: LOAD_8_2_3.port.u.im:VARIABLE(start = LOAD_8_2_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
737: LOAD_8_2_3.port.u.re:VARIABLE(start = LOAD_8_2_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
738: LOAD_8_2_3.port.iGen.re:VARIABLE(start = -LOAD_8_2_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
739: LINE_HV_8_2_4.vAt.im:VARIABLE(start = LINE_HV_8_2_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
740: LOAD_8_2_3.port.iGen.im:VARIABLE(start = -LOAD_8_2_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
741: LINE_HV_8_2_4.vAt.re:VARIABLE(start = LINE_HV_8_2_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
742: LOAD_8_2_4.port.u.im:VARIABLE(start = LOAD_8_2_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
743: LOAD_8_2_4.port.u.re:VARIABLE(start = LOAD_8_2_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
744: LINE_HV_8_2_4.iB.re:VARIABLE(start = LINE_HV_8_2_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 )  "Real part of complex number" type: Real
745: LINE_HV_8_2_4.vB.im:VARIABLE(start = LOAD_8_2_4.port.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
746: LINE_HV_8_2_4.iB.im:VARIABLE(start = LINE_HV_8_2_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 )  "Imaginary part of complex number" type: Real
747: LINE_HV_8_2_4.vB.re:VARIABLE(start = LOAD_8_2_4.port.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
748: LOAD_8_2_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
749: LOAD_8_2_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
750: GEN_7_3.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_7_3.AVR.firstOrderLim.I.y_start )  "Connector of Real output signal" type: Real
751: GEN_7_3.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_7_3.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
752: GEN_7_3.GEN.port.u.im:VARIABLE(start = GEN_7_3.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
753: GEN_7_3.GEN.port.u.re:VARIABLE(start = GEN_7_3.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
754: GEN_7_3.GEN.udPu:VARIABLE(start = GEN_7_3.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
755: GEN_7_3.GEN.uqPu:VARIABLE(start = GEN_7_3.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
756: GEN_7_3.GEN.lambdadPu:VARIABLE(start = GEN_7_3.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
757: GEN_7_3.GEN.lambdaqPu:VARIABLE(start = GEN_7_3.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
758: GEN_7_3.GEN.idPu:VARIABLE(start = GEN_7_3.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
759: GEN_7_3.GEN.iqPu:VARIABLE(start = GEN_7_3.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
760: LOAD_7_3_1.port.u.im:VARIABLE(start = LOAD_7_3_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
761: LOAD_7_3_1.port.u.re:VARIABLE(start = LOAD_7_3_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
762: LOAD_7_3_1.port.iGen.re:VARIABLE(start = -LOAD_7_3_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
763: LINE_HV_7_3_2.vAt.im:VARIABLE(start = LINE_HV_7_3_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
764: LOAD_7_3_1.port.iGen.im:VARIABLE(start = -LOAD_7_3_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
765: LINE_HV_7_3_2.vAt.re:VARIABLE(start = LINE_HV_7_3_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
766: LOAD_7_3_2.port.u.im:VARIABLE(start = LOAD_7_3_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
767: LOAD_7_3_2.port.u.re:VARIABLE(start = LOAD_7_3_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
768: LINE_HV_7_3_3.vAt.re:VARIABLE(start = LINE_HV_7_3_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
769: LOAD_7_3_2.port.iGen.re:VARIABLE(start = -LOAD_7_3_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
770: LOAD_7_3_2.port.iGen.im:VARIABLE(start = -LOAD_7_3_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
771: LINE_HV_7_3_3.vAt.im:VARIABLE(start = LINE_HV_7_3_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
772: LOAD_7_3_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
773: LOAD_7_4_1.port.u.im:VARIABLE(start = LOAD_7_4_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
774: LOAD_7_4_1.port.u.re:VARIABLE(start = LOAD_7_4_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
775: LOAD_7_4_1.port.iGen.re:VARIABLE(start = -LOAD_7_4_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
776: LINE_HV_7_4_2.vAt.im:VARIABLE(start = LINE_HV_7_4_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
777: LOAD_7_4_1.port.iGen.im:VARIABLE(start = -LOAD_7_4_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
778: LINE_HV_7_4_2.vAt.re:VARIABLE(start = LINE_HV_7_4_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
779: LOAD_7_4_2.port.u.im:VARIABLE(start = LOAD_7_4_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
780: LOAD_7_4_2.port.u.re:VARIABLE(start = LOAD_7_4_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
781: LINE_HV_7_4_3.vAt.re:VARIABLE(start = LINE_HV_7_4_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
782: LOAD_7_4_2.port.iGen.re:VARIABLE(start = -LOAD_7_4_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
783: LOAD_7_4_2.port.iGen.im:VARIABLE(start = -LOAD_7_4_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
784: LINE_HV_7_4_3.vAt.im:VARIABLE(start = LINE_HV_7_4_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
785: LOAD_7_4_3.port.u.im:VARIABLE(start = LOAD_7_4_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
786: LOAD_7_4_3.port.u.re:VARIABLE(start = LOAD_7_4_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
787: LOAD_7_4_3.port.iGen.re:VARIABLE(start = -LOAD_7_4_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
788: LINE_HV_7_4_4.vAt.im:VARIABLE(start = LINE_HV_7_4_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
789: LOAD_7_4_3.port.iGen.im:VARIABLE(start = -LOAD_7_4_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
790: LINE_HV_7_4_4.vAt.re:VARIABLE(start = LINE_HV_7_4_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
791: LOAD_7_4_4.port.u.im:VARIABLE(start = LOAD_7_4_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
792: LOAD_7_4_4.port.u.re:VARIABLE(start = LOAD_7_4_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
793: LINE_HV_7_4_4.iB.re:VARIABLE(start = LINE_HV_7_4_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 )  "Real part of complex number" type: Real
794: LINE_HV_7_4_4.vB.im:VARIABLE(start = LOAD_7_4_4.port.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
795: LINE_HV_7_4_4.iB.im:VARIABLE(start = LINE_HV_7_4_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 )  "Imaginary part of complex number" type: Real
796: LINE_HV_7_4_4.vB.re:VARIABLE(start = LOAD_7_4_4.port.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
797: LOAD_7_4_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
798: LOAD_7_4_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
799: LOAD_7_4_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
800: LOAD_6_5_2.port.u.im:VARIABLE(start = LOAD_6_5_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
801: LOAD_6_5_2.port.u.re:VARIABLE(start = LOAD_6_5_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
802: LOAD_6_5_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
803: LINE_HV_6_5_3.vAt.re:VARIABLE(start = LINE_HV_6_5_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
804: LOAD_6_5_2.port.iGen.re:VARIABLE(start = -LOAD_6_5_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
805: LOAD_6_5_2.port.iGen.im:VARIABLE(start = -LOAD_6_5_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
806: LINE_HV_6_5_3.vAt.im:VARIABLE(start = LINE_HV_6_5_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
807: LOAD_6_5_1.port.u.im:VARIABLE(start = LOAD_6_5_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
808: LOAD_6_5_1.port.u.re:VARIABLE(start = LOAD_6_5_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
809: LOAD_6_5_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
810: LINE_HV_6_5_2.vAt.re:VARIABLE(start = LINE_HV_6_5_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
811: LOAD_6_5_1.port.iGen.re:VARIABLE(start = -LOAD_6_5_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
812: LOAD_6_5_1.port.iGen.im:VARIABLE(start = -LOAD_6_5_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
813: LINE_HV_6_5_2.vAt.im:VARIABLE(start = LINE_HV_6_5_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
814: LOAD_6_5_3.port.u.im:VARIABLE(start = LOAD_6_5_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
815: LOAD_6_5_3.port.u.re:VARIABLE(start = LOAD_6_5_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
816: LOAD_6_5_3.port.iGen.re:VARIABLE(start = -LOAD_6_5_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
817: LINE_HV_6_5_4.vAt.im:VARIABLE(start = LINE_HV_6_5_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
818: LOAD_6_5_3.port.iGen.im:VARIABLE(start = -LOAD_6_5_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
819: LINE_HV_6_5_4.vAt.re:VARIABLE(start = LINE_HV_6_5_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
820: LOAD_6_5_4.port.u.im:VARIABLE(start = LOAD_6_5_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
821: LOAD_6_5_4.port.u.re:VARIABLE(start = LOAD_6_5_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
822: LINE_HV_6_5_4.iB.re:VARIABLE(start = LINE_HV_6_5_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 )  "Real part of complex number" type: Real
823: LINE_HV_6_5_4.vB.im:VARIABLE(start = LOAD_6_5_4.port.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
824: LINE_HV_6_5_4.iB.im:VARIABLE(start = LINE_HV_6_5_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 )  "Imaginary part of complex number" type: Real
825: LINE_HV_6_5_4.vB.re:VARIABLE(start = LOAD_6_5_4.port.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
826: LOAD_6_5_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
827: LOAD_6_5_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
828: GEN_6_4.GEN.udPu:VARIABLE(start = GEN_6_4.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
829: GEN_6_4.GEN.uqPu:VARIABLE(start = GEN_6_4.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
830: LOAD_6_4_1.port.u.im:VARIABLE(start = LOAD_6_4_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
831: LOAD_6_4_1.port.u.re:VARIABLE(start = LOAD_6_4_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
832: LOAD_6_4_1.port.iGen.re:VARIABLE(start = -LOAD_6_4_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
833: LINE_HV_6_4_2.vAt.im:VARIABLE(start = LINE_HV_6_4_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
834: LOAD_6_4_1.port.iGen.im:VARIABLE(start = -LOAD_6_4_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
835: LINE_HV_6_4_2.vAt.re:VARIABLE(start = LINE_HV_6_4_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
836: LOAD_6_4_2.port.u.im:VARIABLE(start = LOAD_6_4_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
837: LOAD_6_4_2.port.u.re:VARIABLE(start = LOAD_6_4_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
838: LOAD_6_4_2.port.iGen.re:VARIABLE(start = -LOAD_6_4_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
839: LINE_HV_6_4_3.vAt.im:VARIABLE(start = LINE_HV_6_4_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
840: LOAD_6_4_2.port.iGen.im:VARIABLE(start = -LOAD_6_4_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
841: LINE_HV_6_4_3.vAt.re:VARIABLE(start = LINE_HV_6_4_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
842: LOAD_6_4_3.port.u.im:VARIABLE(start = LOAD_6_4_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
843: LOAD_6_4_3.port.u.re:VARIABLE(start = LOAD_6_4_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
844: LINE_HV_6_4_4.vAt.re:VARIABLE(start = LINE_HV_6_4_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
845: LOAD_6_4_3.port.iGen.re:VARIABLE(start = -LOAD_6_4_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
846: LOAD_6_4_3.port.iGen.im:VARIABLE(start = -LOAD_6_4_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
847: LINE_HV_6_4_4.vAt.im:VARIABLE(start = LINE_HV_6_4_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
848: LOAD_6_4_4.port.u.im:VARIABLE(start = LOAD_6_4_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
849: LOAD_6_4_4.port.u.re:VARIABLE(start = LOAD_6_4_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
850: LOAD_6_4_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
851: LINE_HV_6_4_4.vB.re:VARIABLE(start = LOAD_6_4_4.port.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
852: LINE_HV_6_4_4.iB.re:VARIABLE(start = LINE_HV_6_4_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 )  "Real part of complex number" type: Real
853: LINE_HV_6_4_4.iB.im:VARIABLE(start = LINE_HV_6_4_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 )  "Imaginary part of complex number" type: Real
854: LINE_HV_6_4_4.vB.im:VARIABLE(start = LOAD_6_4_4.port.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
855: LOAD_6_4_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
856: LOAD_6_4_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
857: LOAD_6_4_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
858: GEN_6_4.GEN.lambdadPu:VARIABLE(start = GEN_6_4.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
859: GEN_6_4.GEN.lambdaqPu:VARIABLE(start = GEN_6_4.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
860: GEN_6_4.GEN.iqPu:VARIABLE(start = GEN_6_4.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
861: GEN_6_4.GEN.idPu:VARIABLE(start = GEN_6_4.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
862: GEN_6_4.GEN.port.u.im:VARIABLE(start = GEN_6_4.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
863: GEN_6_4.GEN.port.u.re:VARIABLE(start = GEN_6_4.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
864: GEN_6_4.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_6_4.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
865: GEN_6_4.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_6_4.AVR.firstOrderLim.I.y_start )  "Connector of Real output signal" type: Real
866: GEN_7_5.GEN.uqPu:VARIABLE(start = GEN_7_5.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
867: GEN_7_5.GEN.udPu:VARIABLE(start = GEN_7_5.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
868: LOAD_8_4_1.port.u.im:VARIABLE(start = LOAD_8_4_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
869: LOAD_8_4_1.port.u.re:VARIABLE(start = LOAD_8_4_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
870: LINE_HV_8_4_2.vAt.re:VARIABLE(start = LINE_HV_8_4_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
871: LOAD_8_4_1.port.iGen.re:VARIABLE(start = -LOAD_8_4_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
872: LOAD_8_4_1.port.iGen.im:VARIABLE(start = -LOAD_8_4_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
873: LINE_HV_8_4_2.vAt.im:VARIABLE(start = LINE_HV_8_4_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
874: LOAD_8_4_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
875: LOAD_8_4_2.port.u.im:VARIABLE(start = LOAD_8_4_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
876: LOAD_8_4_2.port.u.re:VARIABLE(start = LOAD_8_4_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
877: LOAD_8_4_2.port.iGen.re:VARIABLE(start = -LOAD_8_4_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
878: LINE_HV_8_4_3.vAt.im:VARIABLE(start = LINE_HV_8_4_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
879: LOAD_8_4_2.port.iGen.im:VARIABLE(start = -LOAD_8_4_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
880: LINE_HV_8_4_3.vAt.re:VARIABLE(start = LINE_HV_8_4_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
881: LOAD_8_4_3.port.u.im:VARIABLE(start = LOAD_8_4_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
882: LOAD_8_4_3.port.u.re:VARIABLE(start = LOAD_8_4_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
883: LINE_HV_8_4_4.vAt.re:VARIABLE(start = LINE_HV_8_4_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
884: LOAD_8_4_3.port.iGen.re:VARIABLE(start = -LOAD_8_4_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
885: LOAD_8_4_3.port.iGen.im:VARIABLE(start = -LOAD_8_4_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
886: LINE_HV_8_4_4.vAt.im:VARIABLE(start = LINE_HV_8_4_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
887: LOAD_8_4_4.port.u.im:VARIABLE(start = LOAD_8_4_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
888: LOAD_8_4_4.port.u.re:VARIABLE(start = LOAD_8_4_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
889: LINE_HV_8_4_4.iB.re:VARIABLE(start = LINE_HV_8_4_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 )  "Real part of complex number" type: Real
890: LINE_HV_8_4_4.vB.im:VARIABLE(start = LOAD_8_4_4.port.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
891: LINE_HV_8_4_4.iB.im:VARIABLE(start = LINE_HV_8_4_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 )  "Imaginary part of complex number" type: Real
892: LINE_HV_8_4_4.vB.re:VARIABLE(start = LOAD_8_4_4.port.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
893: LOAD_8_4_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
894: LOAD_8_4_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
895: LOAD_8_4_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
896: GEN_8_3.GEN.udPu:VARIABLE(start = GEN_8_3.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
897: GEN_8_3.GEN.uqPu:VARIABLE(start = GEN_8_3.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
898: LOAD_9_3_2.port.u.im:VARIABLE(start = LOAD_9_3_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
899: LOAD_9_3_2.port.u.re:VARIABLE(start = LOAD_9_3_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
900: LOAD_9_3_2.port.iGen.re:VARIABLE(start = -LOAD_9_3_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
901: LINE_HV_9_3_3.vAt.im:VARIABLE(start = LINE_HV_9_3_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
902: LOAD_9_3_2.port.iGen.im:VARIABLE(start = -LOAD_9_3_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
903: LINE_HV_9_3_3.vAt.re:VARIABLE(start = LINE_HV_9_3_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
904: LOAD_9_3_1.port.u.im:VARIABLE(start = LOAD_9_3_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
905: LOAD_9_3_1.port.u.re:VARIABLE(start = LOAD_9_3_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
906: LINE_HV_9_3_2.vAt.re:VARIABLE(start = LINE_HV_9_3_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
907: LOAD_9_3_1.port.iGen.re:VARIABLE(start = -LOAD_9_3_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
908: LOAD_9_3_1.port.iGen.im:VARIABLE(start = -LOAD_9_3_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
909: LINE_HV_9_3_2.vAt.im:VARIABLE(start = LINE_HV_9_3_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
910: LOAD_9_3_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
911: GEN_9_3.GEN.uqPu:VARIABLE(start = GEN_9_3.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
912: GEN_9_3.GEN.udPu:VARIABLE(start = GEN_9_3.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
913: GEN_9_3.GEN.lambdadPu:VARIABLE(start = GEN_9_3.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
914: GEN_9_3.GEN.lambdaqPu:VARIABLE(start = GEN_9_3.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
915: GEN_9_3.GEN.port.u.im:VARIABLE(start = GEN_9_3.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
916: GEN_9_3.GEN.port.u.re:VARIABLE(start = GEN_9_3.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
917: GEN_9_3.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_9_3.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
918: GEN_9_3.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_9_3.AVR.firstOrderLim.I.y_start )  "Connector of Real output signal" type: Real
919: LOAD_9_2_1.port.u.im:VARIABLE(start = LOAD_9_2_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
920: LOAD_9_2_1.port.u.re:VARIABLE(start = LOAD_9_2_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
921: LOAD_9_2_1.port.iGen.re:VARIABLE(start = -LOAD_9_2_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
922: LINE_HV_9_2_2.vAt.im:VARIABLE(start = LINE_HV_9_2_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
923: LOAD_9_2_1.port.iGen.im:VARIABLE(start = -LOAD_9_2_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
924: LINE_HV_9_2_2.vAt.re:VARIABLE(start = LINE_HV_9_2_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
925: LOAD_9_2_2.port.u.im:VARIABLE(start = LOAD_9_2_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
926: LOAD_9_2_2.port.u.re:VARIABLE(start = LOAD_9_2_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
927: LOAD_9_2_2.port.iGen.re:VARIABLE(start = -LOAD_9_2_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
928: LINE_HV_9_2_3.vAt.im:VARIABLE(start = LINE_HV_9_2_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
929: LOAD_9_2_2.port.iGen.im:VARIABLE(start = -LOAD_9_2_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
930: LINE_HV_9_2_3.vAt.re:VARIABLE(start = LINE_HV_9_2_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
931: LOAD_9_2_3.port.u.im:VARIABLE(start = LOAD_9_2_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
932: LOAD_9_2_3.port.u.re:VARIABLE(start = LOAD_9_2_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
933: LOAD_9_2_3.port.iGen.re:VARIABLE(start = -LOAD_9_2_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
934: LINE_HV_9_2_4.vAt.im:VARIABLE(start = LINE_HV_9_2_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
935: LOAD_9_2_3.port.iGen.im:VARIABLE(start = -LOAD_9_2_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
936: LINE_HV_9_2_4.vAt.re:VARIABLE(start = LINE_HV_9_2_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
937: LOAD_9_2_4.port.u.im:VARIABLE(start = LOAD_9_2_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
938: LOAD_9_2_4.port.u.re:VARIABLE(start = LOAD_9_2_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
939: LOAD_9_2_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
940: LINE_HV_9_2_4.vB.re:VARIABLE(start = LOAD_9_2_4.port.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
941: LINE_HV_9_2_4.iB.re:VARIABLE(start = LINE_HV_9_2_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 )  "Real part of complex number" type: Real
942: LINE_HV_9_2_4.iB.im:VARIABLE(start = LINE_HV_9_2_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 )  "Imaginary part of complex number" type: Real
943: LINE_HV_9_2_4.vB.im:VARIABLE(start = LOAD_9_2_4.port.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
944: LOAD_9_2_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
945: LOAD_9_2_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
946: LOAD_9_2_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
947: LOAD_8_3_1.port.u.im:VARIABLE(start = LOAD_8_3_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
948: LOAD_8_3_1.port.u.re:VARIABLE(start = LOAD_8_3_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
949: LOAD_8_3_1.port.iGen.re:VARIABLE(start = -LOAD_8_3_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
950: LINE_HV_8_3_2.vAt.im:VARIABLE(start = LINE_HV_8_3_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
951: LOAD_8_3_1.port.iGen.im:VARIABLE(start = -LOAD_8_3_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
952: LINE_HV_8_3_2.vAt.re:VARIABLE(start = LINE_HV_8_3_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
953: LOAD_8_3_3.port.u.im:VARIABLE(start = LOAD_8_3_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
954: LOAD_8_3_3.port.u.re:VARIABLE(start = LOAD_8_3_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
955: LOAD_8_3_3.port.iGen.re:VARIABLE(start = -LOAD_8_3_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
956: LINE_HV_8_3_4.vAt.im:VARIABLE(start = LINE_HV_8_3_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
957: LOAD_8_3_3.port.iGen.im:VARIABLE(start = -LOAD_8_3_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
958: LINE_HV_8_3_4.vAt.re:VARIABLE(start = LINE_HV_8_3_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
959: LOAD_8_3_2.port.u.im:VARIABLE(start = LOAD_8_3_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
960: LOAD_8_3_2.port.u.re:VARIABLE(start = LOAD_8_3_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
961: LOAD_8_3_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
962: LINE_HV_8_3_3.vAt.re:VARIABLE(start = LINE_HV_8_3_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
963: LOAD_8_3_2.port.iGen.re:VARIABLE(start = -LOAD_8_3_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
964: LOAD_8_3_2.port.iGen.im:VARIABLE(start = -LOAD_8_3_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
965: LINE_HV_8_3_3.vAt.im:VARIABLE(start = LINE_HV_8_3_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
966: LOAD_8_3_4.port.u.im:VARIABLE(start = LOAD_8_3_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
967: LOAD_8_3_4.port.u.re:VARIABLE(start = LOAD_8_3_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
968: LINE_HV_8_3_4.iB.re:VARIABLE(start = LINE_HV_8_3_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 )  "Real part of complex number" type: Real
969: LINE_HV_8_3_4.vB.im:VARIABLE(start = LOAD_8_3_4.port.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
970: LINE_HV_8_3_4.iB.im:VARIABLE(start = LINE_HV_8_3_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 )  "Imaginary part of complex number" type: Real
971: LINE_HV_8_3_4.vB.re:VARIABLE(start = LOAD_8_3_4.port.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
972: LOAD_8_3_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
973: LOAD_8_3_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
974: LOAD_8_3_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
975: GEN_9_3.GEN.idPu:VARIABLE(start = GEN_9_3.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
976: GEN_9_3.GEN.iqPu:VARIABLE(start = GEN_9_3.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
977: GEN_9_4.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_9_4.AVR.firstOrderLim.I.y_start )  "Connector of Real output signal" type: Real
978: GEN_9_4.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_9_4.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
979: GEN_9_4.GEN.port.u.im:VARIABLE(start = GEN_9_4.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
980: GEN_9_4.GEN.port.u.re:VARIABLE(start = GEN_9_4.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
981: GEN_9_4.GEN.uqPu:VARIABLE(start = GEN_9_4.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
982: GEN_9_4.GEN.udPu:VARIABLE(start = GEN_9_4.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
983: GEN_9_4.GEN.lambdadPu:VARIABLE(start = GEN_9_4.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
984: GEN_9_4.GEN.lambdaqPu:VARIABLE(start = GEN_9_4.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
985: GEN_9_4.GEN.idPu:VARIABLE(start = GEN_9_4.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
986: GEN_9_4.GEN.iqPu:VARIABLE(start = GEN_9_4.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
987: LOAD_9_4_1.port.u.im:VARIABLE(start = LOAD_9_4_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
988: LOAD_9_4_1.port.u.re:VARIABLE(start = LOAD_9_4_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
989: LINE_HV_9_4_2.vAt.re:VARIABLE(start = LINE_HV_9_4_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
990: LOAD_9_4_1.port.iGen.re:VARIABLE(start = -LOAD_9_4_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
991: LOAD_9_4_1.port.iGen.im:VARIABLE(start = -LOAD_9_4_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
992: LINE_HV_9_4_2.vAt.im:VARIABLE(start = LINE_HV_9_4_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
993: LOAD_9_4_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
994: LOAD_9_4_2.port.u.im:VARIABLE(start = LOAD_9_4_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
995: LOAD_9_4_2.port.u.re:VARIABLE(start = LOAD_9_4_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
996: LOAD_9_4_2.port.iGen.re:VARIABLE(start = -LOAD_9_4_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
997: LINE_HV_9_4_3.vAt.im:VARIABLE(start = LINE_HV_9_4_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
998: LOAD_9_4_2.port.iGen.im:VARIABLE(start = -LOAD_9_4_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
999: LINE_HV_9_4_3.vAt.re:VARIABLE(start = LINE_HV_9_4_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1000: LOAD_9_4_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1001: LOAD_9_4_3.port.u.im:VARIABLE(start = LOAD_9_4_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1002: LOAD_9_4_3.port.u.re:VARIABLE(start = LOAD_9_4_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1003: LINE_HV_9_4_4.vAt.re:VARIABLE(start = LINE_HV_9_4_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1004: LOAD_9_4_3.port.iGen.re:VARIABLE(start = -LOAD_9_4_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1005: LOAD_9_4_3.port.iGen.im:VARIABLE(start = -LOAD_9_4_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1006: LINE_HV_9_4_4.vAt.im:VARIABLE(start = LINE_HV_9_4_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1007: LOAD_9_4_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1008: LOAD_9_4_4.port.u.im:VARIABLE(start = LOAD_9_4_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1009: LOAD_9_4_4.port.u.re:VARIABLE(start = LOAD_9_4_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1010: LINE_HV_9_4_4.iB.re:VARIABLE(start = LINE_HV_9_4_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 )  "Real part of complex number" type: Real
1011: LINE_HV_9_4_4.vB.im:VARIABLE(start = LOAD_9_4_4.port.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1012: LINE_HV_9_4_4.iB.im:VARIABLE(start = LINE_HV_9_4_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 )  "Imaginary part of complex number" type: Real
1013: LINE_HV_9_4_4.vB.re:VARIABLE(start = LOAD_9_4_4.port.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1014: LOAD_9_4_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1015: LOAD_10_4_1.port.u.im:VARIABLE(start = LOAD_10_4_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1016: LOAD_10_4_1.port.u.re:VARIABLE(start = LOAD_10_4_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1017: LOAD_10_4_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1018: LINE_HV_10_4_2.vAt.re:VARIABLE(start = LINE_HV_10_4_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1019: LOAD_10_4_1.port.iGen.re:VARIABLE(start = -LOAD_10_4_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1020: LOAD_10_4_1.port.iGen.im:VARIABLE(start = -LOAD_10_4_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1021: LINE_HV_10_4_2.vAt.im:VARIABLE(start = LINE_HV_10_4_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1022: LOAD_10_4_2.port.u.im:VARIABLE(start = LOAD_10_4_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1023: LOAD_10_4_2.port.u.re:VARIABLE(start = LOAD_10_4_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1024: LOAD_10_4_2.port.iGen.re:VARIABLE(start = -LOAD_10_4_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1025: LINE_HV_10_4_3.vAt.im:VARIABLE(start = LINE_HV_10_4_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1026: LOAD_10_4_2.port.iGen.im:VARIABLE(start = -LOAD_10_4_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1027: LINE_HV_10_4_3.vAt.re:VARIABLE(start = LINE_HV_10_4_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1028: LOAD_10_4_3.port.u.im:VARIABLE(start = LOAD_10_4_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1029: LOAD_10_4_3.port.u.re:VARIABLE(start = LOAD_10_4_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1030: LOAD_10_4_3.port.iGen.re:VARIABLE(start = -LOAD_10_4_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1031: LINE_HV_10_4_4.vAt.im:VARIABLE(start = LINE_HV_10_4_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1032: LOAD_10_4_3.port.iGen.im:VARIABLE(start = -LOAD_10_4_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1033: LINE_HV_10_4_4.vAt.re:VARIABLE(start = LINE_HV_10_4_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1034: LOAD_10_4_4.port.u.im:VARIABLE(start = LOAD_10_4_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1035: LOAD_10_4_4.port.u.re:VARIABLE(start = LOAD_10_4_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1036: LINE_HV_10_4_4.vB.re:VARIABLE(start = LOAD_10_4_4.port.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1037: LINE_HV_10_4_4.iB.re:VARIABLE(start = LINE_HV_10_4_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 )  "Real part of complex number" type: Real
1038: LINE_HV_10_4_4.iB.im:VARIABLE(start = LINE_HV_10_4_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 )  "Imaginary part of complex number" type: Real
1039: LINE_HV_10_4_4.vB.im:VARIABLE(start = LOAD_10_4_4.port.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1040: LOAD_10_4_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1041: LOAD_10_4_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1042: LOAD_10_4_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1043: LOAD_11_4_1.port.u.im:VARIABLE(start = LOAD_11_4_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1044: LOAD_11_4_1.port.u.re:VARIABLE(start = LOAD_11_4_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1045: LOAD_11_4_1.port.iGen.re:VARIABLE(start = -LOAD_11_4_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1046: LINE_HV_11_4_2.vAt.im:VARIABLE(start = LINE_HV_11_4_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1047: LOAD_11_4_1.port.iGen.im:VARIABLE(start = -LOAD_11_4_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1048: LINE_HV_11_4_2.vAt.re:VARIABLE(start = LINE_HV_11_4_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1049: LOAD_11_4_2.port.u.im:VARIABLE(start = LOAD_11_4_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1050: LOAD_11_4_2.port.u.re:VARIABLE(start = LOAD_11_4_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1051: LOAD_11_4_2.port.iGen.re:VARIABLE(start = -LOAD_11_4_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1052: LINE_HV_11_4_3.vAt.im:VARIABLE(start = LINE_HV_11_4_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1053: LOAD_11_4_2.port.iGen.im:VARIABLE(start = -LOAD_11_4_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1054: LINE_HV_11_4_3.vAt.re:VARIABLE(start = LINE_HV_11_4_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1055: LOAD_11_4_4.port.u.im:VARIABLE(start = LOAD_11_4_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1056: LOAD_11_4_4.port.u.re:VARIABLE(start = LOAD_11_4_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1057: LINE_HV_11_4_4.vB.re:VARIABLE(start = LOAD_11_4_4.port.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1058: LINE_HV_11_4_4.iB.re:VARIABLE(start = LINE_HV_11_4_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 )  "Real part of complex number" type: Real
1059: LINE_HV_11_4_4.iB.im:VARIABLE(start = LINE_HV_11_4_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 )  "Imaginary part of complex number" type: Real
1060: LINE_HV_11_4_4.vB.im:VARIABLE(start = LOAD_11_4_4.port.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1061: LOAD_11_4_3.port.u.im:VARIABLE(start = LOAD_11_4_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1062: LOAD_11_4_3.port.u.re:VARIABLE(start = LOAD_11_4_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1063: LINE_HV_11_4_4.vAt.re:VARIABLE(start = LINE_HV_11_4_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1064: LOAD_11_4_3.port.iGen.re:VARIABLE(start = -LOAD_11_4_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1065: LOAD_11_4_3.port.iGen.im:VARIABLE(start = -LOAD_11_4_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1066: LINE_HV_11_4_4.vAt.im:VARIABLE(start = LINE_HV_11_4_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1067: LOAD_11_4_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1068: LOAD_11_4_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1069: LOAD_11_4_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1070: LOAD_11_4_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1071: LOAD_11_5_1.port.u.im:VARIABLE(start = LOAD_11_5_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1072: LOAD_11_5_1.port.u.re:VARIABLE(start = LOAD_11_5_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1073: LOAD_11_5_2.port.u.im:VARIABLE(start = LOAD_11_5_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1074: LOAD_11_5_2.port.u.re:VARIABLE(start = LOAD_11_5_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1075: LOAD_11_5_3.port.u.im:VARIABLE(start = LOAD_11_5_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1076: LOAD_11_5_3.port.u.re:VARIABLE(start = LOAD_11_5_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1077: LINE_HV_11_5_4.vAt.re:VARIABLE(start = LINE_HV_11_5_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1078: LOAD_11_5_3.port.iGen.re:VARIABLE(start = -LOAD_11_5_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1079: LOAD_11_5_3.port.iGen.im:VARIABLE(start = -LOAD_11_5_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1080: LINE_HV_11_5_4.vAt.im:VARIABLE(start = LINE_HV_11_5_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1081: LOAD_11_5_2.port.iGen.re:VARIABLE(start = -LOAD_11_5_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1082: LINE_HV_11_5_3.vAt.im:VARIABLE(start = LINE_HV_11_5_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1083: LOAD_11_5_2.port.iGen.im:VARIABLE(start = -LOAD_11_5_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1084: LINE_HV_11_5_3.vAt.re:VARIABLE(start = LINE_HV_11_5_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1085: LOAD_11_5_1.port.iGen.re:VARIABLE(start = -LOAD_11_5_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1086: LINE_HV_11_5_2.vAt.im:VARIABLE(start = LINE_HV_11_5_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1087: LOAD_11_5_1.port.iGen.im:VARIABLE(start = -LOAD_11_5_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1088: LINE_HV_11_5_2.vAt.re:VARIABLE(start = LINE_HV_11_5_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1089: LOAD_11_5_4.port.u.im:VARIABLE(start = LOAD_11_5_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1090: LOAD_11_5_4.port.u.re:VARIABLE(start = LOAD_11_5_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1091: LINE_HV_11_5_4.iB.re:VARIABLE(start = LINE_HV_11_5_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 )  "Real part of complex number" type: Real
1092: LINE_HV_11_5_4.vB.im:VARIABLE(start = LOAD_11_5_4.port.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1093: LINE_HV_11_5_4.iB.im:VARIABLE(start = LINE_HV_11_5_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 )  "Imaginary part of complex number" type: Real
1094: LINE_HV_11_5_4.vB.re:VARIABLE(start = LOAD_11_5_4.port.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1095: LOAD_11_5_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1096: LOAD_11_5_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1097: LOAD_11_5_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1098: LOAD_11_5_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1099: GEN_11_6.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_11_6.AVR.firstOrderLim.I.y_start )  "Connector of Real output signal" type: Real
1100: GEN_11_6.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_11_6.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
1101: GEN_11_6.GEN.port.u.im:VARIABLE(start = GEN_11_6.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
1102: GEN_11_6.GEN.port.u.re:VARIABLE(start = GEN_11_6.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
1103: LOAD_11_6_1.port.u.im:VARIABLE(start = LOAD_11_6_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1104: LOAD_11_6_1.port.u.re:VARIABLE(start = LOAD_11_6_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1105: LOAD_11_6_1.port.iGen.re:VARIABLE(start = -LOAD_11_6_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1106: LINE_HV_11_6_2.vAt.im:VARIABLE(start = LINE_HV_11_6_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1107: LOAD_11_6_1.port.iGen.im:VARIABLE(start = -LOAD_11_6_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1108: LINE_HV_11_6_2.vAt.re:VARIABLE(start = LINE_HV_11_6_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1109: LOAD_11_6_2.port.u.im:VARIABLE(start = LOAD_11_6_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1110: LOAD_11_6_2.port.u.re:VARIABLE(start = LOAD_11_6_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1111: LINE_HV_11_6_3.vAt.re:VARIABLE(start = LINE_HV_11_6_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1112: LOAD_11_6_2.port.iGen.re:VARIABLE(start = -LOAD_11_6_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1113: LOAD_11_6_2.port.iGen.im:VARIABLE(start = -LOAD_11_6_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1114: LINE_HV_11_6_3.vAt.im:VARIABLE(start = LINE_HV_11_6_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1115: LOAD_11_6_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1116: LOAD_11_6_3.port.u.im:VARIABLE(start = LOAD_11_6_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1117: LOAD_11_6_3.port.u.re:VARIABLE(start = LOAD_11_6_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1118: LINE_HV_11_6_4.vAt.re:VARIABLE(start = LINE_HV_11_6_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1119: LOAD_11_6_3.port.iGen.re:VARIABLE(start = -LOAD_11_6_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1120: LOAD_11_6_3.port.iGen.im:VARIABLE(start = -LOAD_11_6_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1121: LINE_HV_11_6_4.vAt.im:VARIABLE(start = LINE_HV_11_6_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1122: LOAD_11_6_4.port.u.im:VARIABLE(start = LOAD_11_6_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1123: LOAD_11_6_4.port.u.re:VARIABLE(start = LOAD_11_6_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1124: LINE_HV_11_6_4.vB.re:VARIABLE(start = LOAD_11_6_4.port.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1125: LINE_HV_11_6_4.iB.re:VARIABLE(start = LINE_HV_11_6_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 )  "Real part of complex number" type: Real
1126: LINE_HV_11_6_4.iB.im:VARIABLE(start = LINE_HV_11_6_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 )  "Imaginary part of complex number" type: Real
1127: LINE_HV_11_6_4.vB.im:VARIABLE(start = LOAD_11_6_4.port.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1128: LOAD_11_6_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1129: LOAD_11_6_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1130: LOAD_11_6_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1131: GEN_10_6.GEN.udPu:VARIABLE(start = GEN_10_6.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
1132: GEN_10_6.GEN.uqPu:VARIABLE(start = GEN_10_6.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
1133: GEN_10_6.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_10_6.AVR.firstOrderLim.I.y_start )  "Connector of Real output signal" type: Real
1134: GEN_10_6.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_10_6.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
1135: GEN_10_6.GEN.port.u.im:VARIABLE(start = GEN_10_6.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
1136: GEN_10_6.GEN.port.u.re:VARIABLE(start = GEN_10_6.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
1137: GEN_10_6.GEN.lambdadPu:VARIABLE(start = GEN_10_6.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
1138: GEN_10_6.GEN.lambdaqPu:VARIABLE(start = GEN_10_6.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
1139: GEN_10_6.GEN.iqPu:VARIABLE(start = GEN_10_6.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
1140: GEN_10_6.GEN.idPu:VARIABLE(start = GEN_10_6.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
1141: LOAD_10_6_1.port.u.im:VARIABLE(start = LOAD_10_6_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1142: LOAD_10_6_1.port.u.re:VARIABLE(start = LOAD_10_6_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1143: LOAD_10_6_1.port.iGen.re:VARIABLE(start = -LOAD_10_6_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1144: LINE_HV_10_6_2.vAt.im:VARIABLE(start = LINE_HV_10_6_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1145: LOAD_10_6_1.port.iGen.im:VARIABLE(start = -LOAD_10_6_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1146: LINE_HV_10_6_2.vAt.re:VARIABLE(start = LINE_HV_10_6_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1147: LOAD_10_6_2.port.u.im:VARIABLE(start = LOAD_10_6_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1148: LOAD_10_6_2.port.u.re:VARIABLE(start = LOAD_10_6_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1149: LINE_HV_10_6_3.vAt.re:VARIABLE(start = LINE_HV_10_6_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1150: LOAD_10_6_2.port.iGen.re:VARIABLE(start = -LOAD_10_6_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1151: LOAD_10_6_2.port.iGen.im:VARIABLE(start = -LOAD_10_6_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1152: LINE_HV_10_6_3.vAt.im:VARIABLE(start = LINE_HV_10_6_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1153: LOAD_10_6_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1154: LOAD_10_6_4.port.u.im:VARIABLE(start = LOAD_10_6_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1155: LOAD_10_6_4.port.u.re:VARIABLE(start = LOAD_10_6_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1156: LINE_HV_10_6_4.vB.re:VARIABLE(start = LOAD_10_6_4.port.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1157: LINE_HV_10_6_4.iB.re:VARIABLE(start = LINE_HV_10_6_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 )  "Real part of complex number" type: Real
1158: LINE_HV_10_6_4.iB.im:VARIABLE(start = LINE_HV_10_6_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 )  "Imaginary part of complex number" type: Real
1159: LINE_HV_10_6_4.vB.im:VARIABLE(start = LOAD_10_6_4.port.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1160: LOAD_10_6_3.port.u.im:VARIABLE(start = LOAD_10_6_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1161: LOAD_10_6_3.port.u.re:VARIABLE(start = LOAD_10_6_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1162: LOAD_10_6_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1163: LINE_HV_10_6_4.vAt.re:VARIABLE(start = LINE_HV_10_6_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1164: LOAD_10_6_3.port.iGen.re:VARIABLE(start = -LOAD_10_6_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1165: LOAD_10_6_3.port.iGen.im:VARIABLE(start = -LOAD_10_6_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1166: LINE_HV_10_6_4.vAt.im:VARIABLE(start = LINE_HV_10_6_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1167: LOAD_10_6_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1168: LOAD_10_6_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1169: LOAD_9_5_1.port.u.im:VARIABLE(start = LOAD_9_5_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1170: LOAD_9_5_1.port.u.re:VARIABLE(start = LOAD_9_5_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1171: LOAD_9_5_1.port.iGen.re:VARIABLE(start = -LOAD_9_5_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1172: LINE_HV_9_5_2.vAt.im:VARIABLE(start = LINE_HV_9_5_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1173: LOAD_9_5_1.port.iGen.im:VARIABLE(start = -LOAD_9_5_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1174: LINE_HV_9_5_2.vAt.re:VARIABLE(start = LINE_HV_9_5_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1175: LOAD_9_5_3.port.u.im:VARIABLE(start = LOAD_9_5_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1176: LOAD_9_5_3.port.u.re:VARIABLE(start = LOAD_9_5_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1177: LINE_HV_9_5_4.vAt.re:VARIABLE(start = LINE_HV_9_5_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1178: LOAD_9_5_3.port.iGen.re:VARIABLE(start = -LOAD_9_5_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1179: LOAD_9_5_3.port.iGen.im:VARIABLE(start = -LOAD_9_5_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1180: LINE_HV_9_5_4.vAt.im:VARIABLE(start = LINE_HV_9_5_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1181: LOAD_9_5_2.port.u.im:VARIABLE(start = LOAD_9_5_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1182: LOAD_9_5_2.port.u.re:VARIABLE(start = LOAD_9_5_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1183: LINE_HV_9_5_3.vAt.re:VARIABLE(start = LINE_HV_9_5_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1184: LOAD_9_5_2.port.iGen.re:VARIABLE(start = -LOAD_9_5_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1185: LOAD_9_5_2.port.iGen.im:VARIABLE(start = -LOAD_9_5_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1186: LINE_HV_9_5_3.vAt.im:VARIABLE(start = LINE_HV_9_5_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1187: LOAD_9_5_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1188: GEN_8_4.GEN.uqPu:VARIABLE(start = GEN_8_4.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
1189: GEN_8_4.GEN.udPu:VARIABLE(start = GEN_8_4.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
1190: LOAD_8_5_1.port.u.im:VARIABLE(start = LOAD_8_5_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1191: LOAD_8_5_1.port.u.re:VARIABLE(start = LOAD_8_5_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1192: LINE_HV_8_5_2.vAt.re:VARIABLE(start = LINE_HV_8_5_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1193: LOAD_8_5_1.port.iGen.re:VARIABLE(start = -LOAD_8_5_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1194: LOAD_8_5_1.port.iGen.im:VARIABLE(start = -LOAD_8_5_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1195: LINE_HV_8_5_2.vAt.im:VARIABLE(start = LINE_HV_8_5_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1196: LOAD_8_5_2.port.u.im:VARIABLE(start = LOAD_8_5_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1197: LOAD_8_5_2.port.u.re:VARIABLE(start = LOAD_8_5_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1198: LOAD_8_5_2.port.iGen.re:VARIABLE(start = -LOAD_8_5_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1199: LINE_HV_8_5_3.vAt.im:VARIABLE(start = LINE_HV_8_5_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1200: LOAD_8_5_2.port.iGen.im:VARIABLE(start = -LOAD_8_5_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1201: LINE_HV_8_5_3.vAt.re:VARIABLE(start = LINE_HV_8_5_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1202: LOAD_8_5_3.port.u.im:VARIABLE(start = LOAD_8_5_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1203: LOAD_8_5_3.port.u.re:VARIABLE(start = LOAD_8_5_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1204: LINE_HV_8_5_4.vAt.re:VARIABLE(start = LINE_HV_8_5_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1205: LOAD_8_5_3.port.iGen.re:VARIABLE(start = -LOAD_8_5_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1206: LOAD_8_5_3.port.iGen.im:VARIABLE(start = -LOAD_8_5_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1207: LINE_HV_8_5_4.vAt.im:VARIABLE(start = LINE_HV_8_5_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1208: LOAD_8_5_4.port.u.im:VARIABLE(start = LOAD_8_5_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1209: LOAD_8_5_4.port.u.re:VARIABLE(start = LOAD_8_5_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1210: LINE_HV_8_5_4.iB.re:VARIABLE(start = LINE_HV_8_5_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 )  "Real part of complex number" type: Real
1211: LINE_HV_8_5_4.vB.im:VARIABLE(start = LOAD_8_5_4.port.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1212: LINE_HV_8_5_4.iB.im:VARIABLE(start = LINE_HV_8_5_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 )  "Imaginary part of complex number" type: Real
1213: LINE_HV_8_5_4.vB.re:VARIABLE(start = LOAD_8_5_4.port.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1214: LOAD_8_5_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1215: LOAD_8_5_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1216: LOAD_8_5_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1217: LOAD_8_5_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1218: GEN_8_5.GEN.port.u.im:VARIABLE(start = GEN_8_5.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
1219: GEN_8_5.GEN.port.u.re:VARIABLE(start = GEN_8_5.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
1220: GEN_8_5.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_8_5.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
1221: GEN_8_5.GEN.udPu:VARIABLE(start = GEN_8_5.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
1222: GEN_8_5.GEN.uqPu:VARIABLE(start = GEN_8_5.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
1223: GEN_8_5.GEN.lambdadPu:VARIABLE(start = GEN_8_5.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
1224: GEN_8_5.GEN.lambdaqPu:VARIABLE(start = GEN_8_5.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
1225: GEN_8_5.GEN.iqPu:VARIABLE(start = GEN_8_5.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
1226: GEN_8_5.GEN.idPu:VARIABLE(start = GEN_8_5.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
1227: GEN_8_5.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_8_5.AVR.firstOrderLim.I.y_start )  "Connector of Real output signal" type: Real
1228: LOAD_8_6_1.port.u.im:VARIABLE(start = LOAD_8_6_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1229: LOAD_8_6_1.port.u.re:VARIABLE(start = LOAD_8_6_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1230: LINE_HV_8_6_2.vAt.re:VARIABLE(start = LINE_HV_8_6_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1231: LOAD_8_6_1.port.iGen.re:VARIABLE(start = -LOAD_8_6_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1232: LOAD_8_6_1.port.iGen.im:VARIABLE(start = -LOAD_8_6_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1233: LINE_HV_8_6_2.vAt.im:VARIABLE(start = LINE_HV_8_6_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1234: LOAD_8_6_2.port.u.im:VARIABLE(start = LOAD_8_6_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1235: LOAD_8_6_2.port.u.re:VARIABLE(start = LOAD_8_6_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1236: LINE_HV_8_6_3.vAt.re:VARIABLE(start = LINE_HV_8_6_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1237: LOAD_8_6_2.port.iGen.re:VARIABLE(start = -LOAD_8_6_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1238: LOAD_8_6_2.port.iGen.im:VARIABLE(start = -LOAD_8_6_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1239: LINE_HV_8_6_3.vAt.im:VARIABLE(start = LINE_HV_8_6_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1240: LOAD_8_6_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1241: LOAD_8_6_3.port.u.im:VARIABLE(start = LOAD_8_6_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1242: LOAD_8_6_3.port.u.re:VARIABLE(start = LOAD_8_6_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1243: LOAD_8_6_3.port.iGen.re:VARIABLE(start = -LOAD_8_6_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1244: LINE_HV_8_6_4.vAt.im:VARIABLE(start = LINE_HV_8_6_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1245: LOAD_8_6_3.port.iGen.im:VARIABLE(start = -LOAD_8_6_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1246: LINE_HV_8_6_4.vAt.re:VARIABLE(start = LINE_HV_8_6_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1247: LOAD_8_6_4.port.u.im:VARIABLE(start = LOAD_8_6_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1248: LOAD_8_6_4.port.u.re:VARIABLE(start = LOAD_8_6_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1249: LOAD_8_6_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1250: LINE_HV_8_6_4.vB.re:VARIABLE(start = LOAD_8_6_4.port.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1251: LINE_HV_8_6_4.iB.re:VARIABLE(start = LINE_HV_8_6_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 )  "Real part of complex number" type: Real
1252: LINE_HV_8_6_4.iB.im:VARIABLE(start = LINE_HV_8_6_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 )  "Imaginary part of complex number" type: Real
1253: LINE_HV_8_6_4.vB.im:VARIABLE(start = LOAD_8_6_4.port.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1254: LOAD_8_6_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1255: LOAD_8_6_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1256: GEN_8_6.GEN.uqPu:VARIABLE(start = GEN_8_6.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
1257: GEN_8_6.GEN.udPu:VARIABLE(start = GEN_8_6.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
1258: LOAD_7_6_1.port.u.im:VARIABLE(start = LOAD_7_6_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1259: LOAD_7_6_1.port.u.re:VARIABLE(start = LOAD_7_6_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1260: LOAD_7_6_1.port.iGen.re:VARIABLE(start = -LOAD_7_6_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1261: LINE_HV_7_6_2.vAt.im:VARIABLE(start = LINE_HV_7_6_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1262: LOAD_7_6_1.port.iGen.im:VARIABLE(start = -LOAD_7_6_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1263: LINE_HV_7_6_2.vAt.re:VARIABLE(start = LINE_HV_7_6_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1264: LOAD_7_6_2.port.u.im:VARIABLE(start = LOAD_7_6_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1265: LOAD_7_6_2.port.u.re:VARIABLE(start = LOAD_7_6_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1266: LOAD_7_6_2.port.iGen.re:VARIABLE(start = -LOAD_7_6_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1267: LINE_HV_7_6_3.vAt.im:VARIABLE(start = LINE_HV_7_6_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1268: LOAD_7_6_2.port.iGen.im:VARIABLE(start = -LOAD_7_6_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1269: LINE_HV_7_6_3.vAt.re:VARIABLE(start = LINE_HV_7_6_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1270: LOAD_7_6_3.port.u.im:VARIABLE(start = LOAD_7_6_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1271: LOAD_7_6_3.port.u.re:VARIABLE(start = LOAD_7_6_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1272: LOAD_7_6_3.port.iGen.re:VARIABLE(start = -LOAD_7_6_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1273: LINE_HV_7_6_4.vAt.im:VARIABLE(start = LINE_HV_7_6_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1274: LOAD_7_6_3.port.iGen.im:VARIABLE(start = -LOAD_7_6_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1275: LINE_HV_7_6_4.vAt.re:VARIABLE(start = LINE_HV_7_6_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1276: LOAD_7_6_4.port.u.im:VARIABLE(start = LOAD_7_6_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1277: LOAD_7_6_4.port.u.re:VARIABLE(start = LOAD_7_6_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1278: LINE_HV_7_6_4.vB.re:VARIABLE(start = LOAD_7_6_4.port.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1279: LINE_HV_7_6_4.iB.re:VARIABLE(start = LINE_HV_7_6_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 )  "Real part of complex number" type: Real
1280: LINE_HV_7_6_4.iB.im:VARIABLE(start = LINE_HV_7_6_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 )  "Imaginary part of complex number" type: Real
1281: LINE_HV_7_6_4.vB.im:VARIABLE(start = LOAD_7_6_4.port.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1282: LOAD_7_6_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1283: LOAD_7_6_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1284: LOAD_7_6_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1285: LOAD_7_6_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1286: LOAD_5_6_3.port.u.im:VARIABLE(start = LOAD_5_6_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1287: LOAD_5_6_3.port.u.re:VARIABLE(start = LOAD_5_6_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1288: LOAD_5_6_3.port.iGen.re:VARIABLE(start = -LOAD_5_6_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1289: LINE_HV_5_6_4.vAt.im:VARIABLE(start = LINE_HV_5_6_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1290: LOAD_5_6_3.port.iGen.im:VARIABLE(start = -LOAD_5_6_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1291: LINE_HV_5_6_4.vAt.re:VARIABLE(start = LINE_HV_5_6_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1292: LOAD_5_6_2.port.u.im:VARIABLE(start = LOAD_5_6_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1293: LOAD_5_6_2.port.u.re:VARIABLE(start = LOAD_5_6_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1294: LINE_HV_5_6_3.vAt.re:VARIABLE(start = LINE_HV_5_6_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1295: LOAD_5_6_2.port.iGen.re:VARIABLE(start = -LOAD_5_6_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1296: LOAD_5_6_2.port.iGen.im:VARIABLE(start = -LOAD_5_6_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1297: LINE_HV_5_6_3.vAt.im:VARIABLE(start = LINE_HV_5_6_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1298: LOAD_5_6_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1299: LOAD_5_6_1.port.u.im:VARIABLE(start = LOAD_5_6_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1300: LOAD_5_6_1.port.u.re:VARIABLE(start = LOAD_5_6_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1301: LINE_HV_5_6_2.vAt.re:VARIABLE(start = LINE_HV_5_6_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1302: LOAD_5_6_1.port.iGen.re:VARIABLE(start = -LOAD_5_6_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1303: LOAD_5_6_1.port.iGen.im:VARIABLE(start = -LOAD_5_6_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1304: LINE_HV_5_6_2.vAt.im:VARIABLE(start = LINE_HV_5_6_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1305: LOAD_5_6_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1306: GEN_4_6.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_4_6.AVR.firstOrderLim.I.y_start )  "Connector of Real output signal" type: Real
1307: GEN_4_6.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_4_6.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
1308: GEN_4_6.GEN.port.u.im:VARIABLE(start = GEN_4_6.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
1309: GEN_4_6.GEN.port.u.re:VARIABLE(start = GEN_4_6.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
1310: LOAD_4_6_1.port.u.im:VARIABLE(start = LOAD_4_6_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1311: LOAD_4_6_1.port.u.re:VARIABLE(start = LOAD_4_6_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1312: LOAD_4_6_1.port.iGen.re:VARIABLE(start = -LOAD_4_6_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1313: LINE_HV_4_6_2.vAt.im:VARIABLE(start = LINE_HV_4_6_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1314: LOAD_4_6_1.port.iGen.im:VARIABLE(start = -LOAD_4_6_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1315: LINE_HV_4_6_2.vAt.re:VARIABLE(start = LINE_HV_4_6_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1316: LOAD_4_6_4.port.u.im:VARIABLE(start = LOAD_4_6_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1317: LOAD_4_6_4.port.u.re:VARIABLE(start = LOAD_4_6_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1318: LINE_HV_4_6_4.vB.re:VARIABLE(start = LOAD_4_6_4.port.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1319: LINE_HV_4_6_4.iB.re:VARIABLE(start = LINE_HV_4_6_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 )  "Real part of complex number" type: Real
1320: LINE_HV_4_6_4.iB.im:VARIABLE(start = LINE_HV_4_6_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 )  "Imaginary part of complex number" type: Real
1321: LINE_HV_4_6_4.vB.im:VARIABLE(start = LOAD_4_6_4.port.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1322: LOAD_4_6_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1323: LOAD_4_6_3.port.u.im:VARIABLE(start = LOAD_4_6_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1324: LOAD_4_6_3.port.u.re:VARIABLE(start = LOAD_4_6_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1325: LOAD_4_6_3.port.iGen.re:VARIABLE(start = -LOAD_4_6_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1326: LINE_HV_4_6_4.vAt.im:VARIABLE(start = LINE_HV_4_6_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1327: LOAD_4_6_3.port.iGen.im:VARIABLE(start = -LOAD_4_6_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1328: LINE_HV_4_6_4.vAt.re:VARIABLE(start = LINE_HV_4_6_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1329: LOAD_4_6_2.port.u.im:VARIABLE(start = LOAD_4_6_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1330: LOAD_4_6_2.port.u.re:VARIABLE(start = LOAD_4_6_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1331: LOAD_4_6_2.port.iGen.re:VARIABLE(start = -LOAD_4_6_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1332: LINE_HV_4_6_3.vAt.im:VARIABLE(start = LINE_HV_4_6_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1333: LOAD_4_6_2.port.iGen.im:VARIABLE(start = -LOAD_4_6_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1334: LINE_HV_4_6_3.vAt.re:VARIABLE(start = LINE_HV_4_6_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1335: LOAD_4_6_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1336: LOAD_4_6_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1337: LOAD_4_6_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1338: LOAD_4_5_1.port.u.im:VARIABLE(start = LOAD_4_5_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1339: LOAD_4_5_1.port.u.re:VARIABLE(start = LOAD_4_5_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1340: LINE_HV_4_5_2.vAt.re:VARIABLE(start = LINE_HV_4_5_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1341: LOAD_4_5_1.port.iGen.re:VARIABLE(start = -LOAD_4_5_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1342: LOAD_4_5_1.port.iGen.im:VARIABLE(start = -LOAD_4_5_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1343: LINE_HV_4_5_2.vAt.im:VARIABLE(start = LINE_HV_4_5_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1344: GEN_4_4.GEN.udPu:VARIABLE(start = GEN_4_4.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
1345: GEN_4_4.GEN.uqPu:VARIABLE(start = GEN_4_4.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
1346: LOAD_1_4_1.port.u.im:VARIABLE(start = LOAD_1_4_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1347: LOAD_1_4_1.port.u.re:VARIABLE(start = LOAD_1_4_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1348: LINE_HV_1_4_2.vAt.re:VARIABLE(start = LINE_HV_1_4_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1349: LOAD_1_4_1.port.iGen.re:VARIABLE(start = -LOAD_1_4_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1350: LOAD_1_4_1.port.iGen.im:VARIABLE(start = -LOAD_1_4_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1351: LINE_HV_1_4_2.vAt.im:VARIABLE(start = LINE_HV_1_4_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1352: LOAD_1_4_2.port.u.im:VARIABLE(start = LOAD_1_4_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1353: LOAD_1_4_2.port.u.re:VARIABLE(start = LOAD_1_4_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1354: LOAD_1_4_2.port.iGen.re:VARIABLE(start = -LOAD_1_4_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1355: LINE_HV_1_4_3.vAt.im:VARIABLE(start = LINE_HV_1_4_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1356: LOAD_1_4_2.port.iGen.im:VARIABLE(start = -LOAD_1_4_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1357: LINE_HV_1_4_3.vAt.re:VARIABLE(start = LINE_HV_1_4_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1358: LOAD_1_4_3.port.u.im:VARIABLE(start = LOAD_1_4_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1359: LOAD_1_4_3.port.u.re:VARIABLE(start = LOAD_1_4_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1360: LOAD_1_4_3.port.iGen.re:VARIABLE(start = -LOAD_1_4_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1361: LINE_HV_1_4_4.vAt.im:VARIABLE(start = LINE_HV_1_4_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1362: LOAD_1_4_3.port.iGen.im:VARIABLE(start = -LOAD_1_4_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1363: LINE_HV_1_4_4.vAt.re:VARIABLE(start = LINE_HV_1_4_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1364: LOAD_1_4_4.port.u.im:VARIABLE(start = LOAD_1_4_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1365: LOAD_1_4_4.port.u.re:VARIABLE(start = LOAD_1_4_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1366: LINE_HV_1_4_4.iB.re:VARIABLE(start = LINE_HV_1_4_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 )  "Real part of complex number" type: Real
1367: LINE_HV_1_4_4.vB.im:VARIABLE(start = LOAD_1_4_4.port.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1368: LINE_HV_1_4_4.iB.im:VARIABLE(start = LINE_HV_1_4_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 )  "Imaginary part of complex number" type: Real
1369: LINE_HV_1_4_4.vB.re:VARIABLE(start = LOAD_1_4_4.port.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1370: LOAD_1_4_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1371: LOAD_1_4_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1372: LOAD_1_4_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1373: LOAD_1_4_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1374: LOAD_3_4_1.port.u.im:VARIABLE(start = LOAD_3_4_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1375: LOAD_3_4_1.port.u.re:VARIABLE(start = LOAD_3_4_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1376: LINE_HV_3_4_2.vAt.re:VARIABLE(start = LINE_HV_3_4_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1377: LOAD_3_4_1.port.iGen.re:VARIABLE(start = -LOAD_3_4_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1378: LOAD_3_4_1.port.iGen.im:VARIABLE(start = -LOAD_3_4_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1379: LINE_HV_3_4_2.vAt.im:VARIABLE(start = LINE_HV_3_4_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1380: LOAD_3_4_2.port.u.im:VARIABLE(start = LOAD_3_4_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1381: LOAD_3_4_2.port.u.re:VARIABLE(start = LOAD_3_4_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1382: LOAD_3_4_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1383: LINE_HV_3_4_3.vAt.re:VARIABLE(start = LINE_HV_3_4_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1384: LOAD_3_4_2.port.iGen.re:VARIABLE(start = -LOAD_3_4_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1385: LOAD_3_4_2.port.iGen.im:VARIABLE(start = -LOAD_3_4_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1386: LINE_HV_3_4_3.vAt.im:VARIABLE(start = LINE_HV_3_4_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1387: LOAD_3_4_3.port.u.im:VARIABLE(start = LOAD_3_4_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1388: LOAD_3_4_3.port.u.re:VARIABLE(start = LOAD_3_4_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1389: LINE_HV_3_4_4.vAt.re:VARIABLE(start = LINE_HV_3_4_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1390: LOAD_3_4_3.port.iGen.re:VARIABLE(start = -LOAD_3_4_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1391: LOAD_3_4_3.port.iGen.im:VARIABLE(start = -LOAD_3_4_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1392: LINE_HV_3_4_4.vAt.im:VARIABLE(start = LINE_HV_3_4_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1393: LOAD_3_4_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1394: LOAD_3_4_4.port.u.im:VARIABLE(start = LOAD_3_4_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1395: LOAD_3_4_4.port.u.re:VARIABLE(start = LOAD_3_4_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1396: LINE_HV_3_4_4.iB.re:VARIABLE(start = LINE_HV_3_4_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 )  "Real part of complex number" type: Real
1397: LINE_HV_3_4_4.vB.im:VARIABLE(start = LOAD_3_4_4.port.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1398: LINE_HV_3_4_4.iB.im:VARIABLE(start = LINE_HV_3_4_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 )  "Imaginary part of complex number" type: Real
1399: LINE_HV_3_4_4.vB.re:VARIABLE(start = LOAD_3_4_4.port.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1400: LOAD_3_4_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1401: LOAD_3_4_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1402: GEN_3_4.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_3_4.AVR.firstOrderLim.I.y_start )  "Connector of Real output signal" type: Real
1403: GEN_3_4.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_3_4.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
1404: GEN_3_4.GEN.port.u.im:VARIABLE(start = GEN_3_4.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
1405: GEN_3_4.GEN.port.u.re:VARIABLE(start = GEN_3_4.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
1406: GEN_3_4.GEN.uqPu:VARIABLE(start = GEN_3_4.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
1407: GEN_3_4.GEN.udPu:VARIABLE(start = GEN_3_4.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
1408: GEN_3_4.GEN.lambdadPu:VARIABLE(start = GEN_3_4.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
1409: GEN_3_4.GEN.lambdaqPu:VARIABLE(start = GEN_3_4.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
1410: GEN_3_4.GEN.iqPu:VARIABLE(start = GEN_3_4.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
1411: GEN_3_4.GEN.idPu:VARIABLE(start = GEN_3_4.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
1412: LOAD_3_3_1.port.u.im:VARIABLE(start = LOAD_3_3_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1413: LOAD_3_3_1.port.u.re:VARIABLE(start = LOAD_3_3_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1414: LOAD_3_3_1.port.iGen.re:VARIABLE(start = -LOAD_3_3_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1415: LINE_HV_3_3_2.vAt.im:VARIABLE(start = LINE_HV_3_3_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1416: LOAD_3_3_1.port.iGen.im:VARIABLE(start = -LOAD_3_3_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1417: LINE_HV_3_3_2.vAt.re:VARIABLE(start = LINE_HV_3_3_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1418: LOAD_3_3_2.port.u.im:VARIABLE(start = LOAD_3_3_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1419: LOAD_3_3_2.port.u.re:VARIABLE(start = LOAD_3_3_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1420: LINE_HV_3_3_3.vAt.re:VARIABLE(start = LINE_HV_3_3_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1421: LOAD_3_3_2.port.iGen.re:VARIABLE(start = -LOAD_3_3_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1422: LOAD_3_3_2.port.iGen.im:VARIABLE(start = -LOAD_3_3_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1423: LINE_HV_3_3_3.vAt.im:VARIABLE(start = LINE_HV_3_3_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1424: LOAD_3_3_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1425: LOAD_3_3_3.port.u.im:VARIABLE(start = LOAD_3_3_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1426: LOAD_3_3_3.port.u.re:VARIABLE(start = LOAD_3_3_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1427: LINE_HV_3_3_4.vAt.re:VARIABLE(start = LINE_HV_3_3_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1428: LOAD_3_3_3.port.iGen.re:VARIABLE(start = -LOAD_3_3_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1429: LOAD_3_3_3.port.iGen.im:VARIABLE(start = -LOAD_3_3_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1430: LINE_HV_3_3_4.vAt.im:VARIABLE(start = LINE_HV_3_3_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1431: LOAD_3_3_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1432: LOAD_3_3_4.port.u.im:VARIABLE(start = LOAD_3_3_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1433: LOAD_3_3_4.port.u.re:VARIABLE(start = LOAD_3_3_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1434: LINE_HV_3_3_4.iB.re:VARIABLE(start = LINE_HV_3_3_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 )  "Real part of complex number" type: Real
1435: LINE_HV_3_3_4.vB.im:VARIABLE(start = LOAD_3_3_4.port.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1436: LINE_HV_3_3_4.iB.im:VARIABLE(start = LINE_HV_3_3_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 )  "Imaginary part of complex number" type: Real
1437: LINE_HV_3_3_4.vB.re:VARIABLE(start = LOAD_3_3_4.port.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1438: LOAD_3_3_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1439: LOAD_3_3_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1440: GEN_3_3.GEN.udPu:VARIABLE(start = GEN_3_3.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
1441: GEN_3_3.GEN.uqPu:VARIABLE(start = GEN_3_3.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
1442: LOAD_2_3_1.port.u.im:VARIABLE(start = LOAD_2_3_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1443: LOAD_2_3_1.port.u.re:VARIABLE(start = LOAD_2_3_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1444: LOAD_2_3_1.port.iGen.re:VARIABLE(start = -LOAD_2_3_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1445: LINE_HV_2_3_2.vAt.im:VARIABLE(start = LINE_HV_2_3_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1446: LOAD_2_3_1.port.iGen.im:VARIABLE(start = -LOAD_2_3_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1447: LINE_HV_2_3_2.vAt.re:VARIABLE(start = LINE_HV_2_3_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1448: LOAD_2_3_2.port.u.im:VARIABLE(start = LOAD_2_3_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1449: LOAD_2_3_2.port.u.re:VARIABLE(start = LOAD_2_3_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1450: LINE_HV_2_3_3.vAt.re:VARIABLE(start = LINE_HV_2_3_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1451: LOAD_2_3_2.port.iGen.re:VARIABLE(start = -LOAD_2_3_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1452: LOAD_2_3_2.port.iGen.im:VARIABLE(start = -LOAD_2_3_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1453: LINE_HV_2_3_3.vAt.im:VARIABLE(start = LINE_HV_2_3_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1454: LOAD_2_3_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1455: GEN_2_2.GEN.uqPu:VARIABLE(start = GEN_2_2.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
1456: GEN_2_2.GEN.udPu:VARIABLE(start = GEN_2_2.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
1457: 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
1458: GEN_2_2.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_2_2.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
1459: GEN_2_2.GEN.port.u.im:VARIABLE(start = GEN_2_2.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
1460: GEN_2_2.GEN.port.u.re:VARIABLE(start = GEN_2_2.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
1461: GEN_2_2.GEN.lambdadPu:VARIABLE(start = GEN_2_2.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
1462: GEN_2_2.GEN.lambdaqPu:VARIABLE(start = GEN_2_2.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
1463: GEN_2_2.GEN.idPu:VARIABLE(start = GEN_2_2.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
1464: GEN_2_2.GEN.iqPu:VARIABLE(start = GEN_2_2.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
1465: LOAD_3_2_2.port.u.im:VARIABLE(start = LOAD_3_2_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1466: LOAD_3_2_2.port.u.re:VARIABLE(start = LOAD_3_2_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1467: LOAD_3_2_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1468: 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
1469: LOAD_3_2_2.port.iGen.re:VARIABLE(start = -LOAD_3_2_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1470: LOAD_3_2_2.port.iGen.im:VARIABLE(start = -LOAD_3_2_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1471: 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
1472: LOAD_3_2_1.port.u.im:VARIABLE(start = LOAD_3_2_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1473: LOAD_3_2_1.port.u.re:VARIABLE(start = LOAD_3_2_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1474: LOAD_3_2_1.port.iGen.re:VARIABLE(start = -LOAD_3_2_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1475: 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
1476: LOAD_3_2_1.port.iGen.im:VARIABLE(start = -LOAD_3_2_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1477: 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
1478: LOAD_3_2_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1479: 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
1480: 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
1481: 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
1482: 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
1483: LOAD_3_2_4.port.u.im:VARIABLE(start = LOAD_3_2_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1484: LOAD_3_2_4.port.u.re:VARIABLE(start = LOAD_3_2_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1485: LOAD_3_2_3.port.u.im:VARIABLE(start = LOAD_3_2_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1486: LOAD_3_2_3.port.u.re:VARIABLE(start = LOAD_3_2_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1487: LOAD_3_2_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1488: 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
1489: LOAD_3_2_3.port.iGen.re:VARIABLE(start = -LOAD_3_2_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1490: LOAD_3_2_3.port.iGen.im:VARIABLE(start = -LOAD_3_2_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1491: 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
1492: LOAD_3_2_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1493: GEN_3_2.GEN.udPu:VARIABLE(start = GEN_3_2.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
1494: GEN_3_2.GEN.uqPu:VARIABLE(start = GEN_3_2.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
1495: GEN_3_2.GEN.port.u.im:VARIABLE(start = GEN_3_2.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
1496: GEN_3_2.GEN.port.u.re:VARIABLE(start = GEN_3_2.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
1497: GEN_3_2.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_3_2.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
1498: 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
1499: LOAD_2_2_1.port.u.im:VARIABLE(start = LOAD_2_2_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1500: LOAD_2_2_1.port.u.re:VARIABLE(start = LOAD_2_2_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1501: LOAD_2_2_1.port.iGen.re:VARIABLE(start = -LOAD_2_2_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1502: 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
1503: LOAD_2_2_1.port.iGen.im:VARIABLE(start = -LOAD_2_2_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1504: 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
1505: LOAD_2_2_2.port.u.im:VARIABLE(start = LOAD_2_2_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1506: LOAD_2_2_2.port.u.re:VARIABLE(start = LOAD_2_2_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1507: 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
1508: LOAD_2_2_2.port.iGen.re:VARIABLE(start = -LOAD_2_2_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1509: LOAD_2_2_2.port.iGen.im:VARIABLE(start = -LOAD_2_2_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1510: 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
1511: LOAD_2_2_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1512: LOAD_2_2_3.port.u.im:VARIABLE(start = LOAD_2_2_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1513: LOAD_2_2_3.port.u.re:VARIABLE(start = LOAD_2_2_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1514: 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
1515: LOAD_2_2_3.port.iGen.re:VARIABLE(start = -LOAD_2_2_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1516: LOAD_2_2_3.port.iGen.im:VARIABLE(start = -LOAD_2_2_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1517: 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
1518: LOAD_2_2_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1519: 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
1520: 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
1521: 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
1522: 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
1523: LOAD_2_2_4.port.u.im:VARIABLE(start = LOAD_2_2_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1524: LOAD_2_2_4.port.u.re:VARIABLE(start = LOAD_2_2_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1525: LOAD_2_2_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1526: LOAD_2_2_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1527: 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
1528: GEN_2_1.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_2_1.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
1529: GEN_2_1.GEN.port.u.im:VARIABLE(start = GEN_2_1.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
1530: GEN_2_1.GEN.port.u.re:VARIABLE(start = GEN_2_1.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
1531: GEN_2_1.GEN.udPu:VARIABLE(start = GEN_2_1.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
1532: GEN_2_1.GEN.uqPu:VARIABLE(start = GEN_2_1.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
1533: GEN_2_1.GEN.iqPu:VARIABLE(start = GEN_2_1.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
1534: GEN_2_1.GEN.lambdadPu:VARIABLE(start = GEN_2_1.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
1535: GEN_2_1.GEN.idPu:VARIABLE(start = GEN_2_1.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
1536: GEN_2_1.GEN.lambdaqPu:VARIABLE(start = GEN_2_1.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
1537: GEN_1_1.GEN.udPu:VARIABLE(start = GEN_1_1.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
1538: GEN_1_1.GEN.uqPu:VARIABLE(start = GEN_1_1.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
1539: GEN_1_1.GEN.port.u.im:VARIABLE(start = GEN_1_1.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
1540: GEN_1_1.GEN.port.u.re:VARIABLE(start = GEN_1_1.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
1541: GEN_1_1.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_1_1.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
1542: 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
1543: GEN_1_1.GEN.lambdadPu:VARIABLE(start = GEN_1_1.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
1544: GEN_1_1.GEN.lambdaqPu:VARIABLE(start = GEN_1_1.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
1545: GEN_1_2.GEN.udPu:VARIABLE(start = GEN_1_2.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
1546: GEN_1_2.GEN.uqPu:VARIABLE(start = GEN_1_2.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
1547: 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
1548: GEN_1_2.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_1_2.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
1549: GEN_1_2.GEN.port.u.im:VARIABLE(start = GEN_1_2.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
1550: GEN_1_2.GEN.port.u.re:VARIABLE(start = GEN_1_2.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
1551: GEN_1_3.GEN.uqPu:VARIABLE(start = GEN_1_3.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
1552: GEN_1_3.GEN.udPu:VARIABLE(start = GEN_1_3.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
1553: LOAD_1_3_1.port.u.im:VARIABLE(start = LOAD_1_3_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1554: LOAD_1_3_1.port.u.re:VARIABLE(start = LOAD_1_3_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1555: LOAD_1_3_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1556: LINE_HV_1_3_2.vAt.re:VARIABLE(start = LINE_HV_1_3_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1557: LOAD_1_3_1.port.iGen.re:VARIABLE(start = -LOAD_1_3_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1558: LOAD_1_3_1.port.iGen.im:VARIABLE(start = -LOAD_1_3_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1559: LINE_HV_1_3_2.vAt.im:VARIABLE(start = LINE_HV_1_3_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1560: GEN_1_4.GEN.uqPu:VARIABLE(start = GEN_1_4.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
1561: GEN_1_4.GEN.udPu:VARIABLE(start = GEN_1_4.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
1562: GEN_1_4.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_1_4.AVR.firstOrderLim.I.y_start )  "Connector of Real output signal" type: Real
1563: GEN_1_4.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_1_4.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
1564: GEN_1_4.GEN.port.u.im:VARIABLE(start = GEN_1_4.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
1565: GEN_1_4.GEN.port.u.re:VARIABLE(start = GEN_1_4.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
1566: GEN_1_4.GEN.lambdadPu:VARIABLE(start = GEN_1_4.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
1567: GEN_1_4.GEN.lambdaqPu:VARIABLE(start = GEN_1_4.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
1568: GEN_1_4.GEN.idPu:VARIABLE(start = GEN_1_4.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
1569: GEN_1_4.GEN.iqPu:VARIABLE(start = GEN_1_4.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
1570: GEN_2_3.GEN.udPu:VARIABLE(start = GEN_2_3.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
1571: GEN_2_3.GEN.uqPu:VARIABLE(start = GEN_2_3.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
1572: GEN_2_3.GEN.lambdadPu:VARIABLE(start = GEN_2_3.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
1573: GEN_2_3.GEN.lambdaqPu:VARIABLE(start = GEN_2_3.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
1574: GEN_2_3.GEN.idPu:VARIABLE(start = GEN_2_3.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
1575: GEN_2_3.GEN.iqPu:VARIABLE(start = GEN_2_3.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
1576: GEN_2_3.GEN.port.u.im:VARIABLE(start = GEN_2_3.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
1577: GEN_2_3.GEN.port.u.re:VARIABLE(start = GEN_2_3.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
1578: GEN_2_3.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_2_3.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
1579: GEN_2_3.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_2_3.AVR.firstOrderLim.I.y_start )  "Connector of Real output signal" type: Real
1580: GEN_4_3.GEN.udPu:VARIABLE(start = GEN_4_3.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
1581: GEN_4_3.GEN.uqPu:VARIABLE(start = GEN_4_3.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
1582: GEN_4_3.GEN.lambdadPu:VARIABLE(start = GEN_4_3.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
1583: GEN_4_3.GEN.lambdaqPu:VARIABLE(start = GEN_4_3.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
1584: GEN_4_3.GEN.port.u.im:VARIABLE(start = GEN_4_3.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
1585: GEN_4_3.GEN.port.u.re:VARIABLE(start = GEN_4_3.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
1586: GEN_4_3.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_4_3.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
1587: GEN_4_3.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_4_3.AVR.firstOrderLim.I.y_start )  "Connector of Real output signal" type: Real
1588: GEN_4_3.GEN.idPu:VARIABLE(start = GEN_4_3.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
1589: GEN_4_3.GEN.iqPu:VARIABLE(start = GEN_4_3.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
1590: LOAD_1_3_3.port.u.im:VARIABLE(start = LOAD_1_3_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1591: LOAD_1_3_3.port.u.re:VARIABLE(start = LOAD_1_3_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1592: LOAD_1_3_3.port.iGen.re:VARIABLE(start = -LOAD_1_3_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1593: LINE_HV_1_3_4.vAt.im:VARIABLE(start = LINE_HV_1_3_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1594: LOAD_1_3_3.port.iGen.im:VARIABLE(start = -LOAD_1_3_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1595: LINE_HV_1_3_4.vAt.re:VARIABLE(start = LINE_HV_1_3_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1596: LINE_HV_1_3_3.vAt.re:VARIABLE(start = LINE_HV_1_3_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1597: LOAD_1_3_2.port.iGen.re:VARIABLE(start = -LOAD_1_3_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1598: LOAD_1_3_2.port.iGen.im:VARIABLE(start = -LOAD_1_3_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1599: LINE_HV_1_3_3.vAt.im:VARIABLE(start = LINE_HV_1_3_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1600: LOAD_1_3_2.port.u.im:VARIABLE(start = LOAD_1_3_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1601: LOAD_1_3_2.port.u.re:VARIABLE(start = LOAD_1_3_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1602: LOAD_1_3_4.port.u.im:VARIABLE(start = LOAD_1_3_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1603: LOAD_1_3_4.port.u.re:VARIABLE(start = LOAD_1_3_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1604: LINE_HV_1_3_4.iB.re:VARIABLE(start = LINE_HV_1_3_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 )  "Real part of complex number" type: Real
1605: LINE_HV_1_3_4.vB.im:VARIABLE(start = LOAD_1_3_4.port.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1606: LINE_HV_1_3_4.iB.im:VARIABLE(start = LINE_HV_1_3_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 )  "Imaginary part of complex number" type: Real
1607: LINE_HV_1_3_4.vB.re:VARIABLE(start = LOAD_1_3_4.port.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1608: LOAD_1_3_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1609: LOAD_1_3_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1610: LOAD_1_3_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1611: GEN_1_3.GEN.port.u.im:VARIABLE(start = GEN_1_3.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
1612: GEN_1_3.GEN.port.u.re:VARIABLE(start = GEN_1_3.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
1613: GEN_1_3.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_1_3.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
1614: GEN_1_3.GEN.iqPu:VARIABLE(start = GEN_1_3.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
1615: GEN_1_3.GEN.lambdadPu:VARIABLE(start = GEN_1_3.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
1616: GEN_1_3.GEN.idPu:VARIABLE(start = GEN_1_3.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
1617: GEN_1_3.GEN.lambdaqPu:VARIABLE(start = GEN_1_3.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
1618: GEN_1_3.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_1_3.AVR.firstOrderLim.I.y_start )  "Connector of Real output signal" type: Real
1619: LOAD_1_2_1.port.u.im:VARIABLE(start = LOAD_1_2_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1620: LOAD_1_2_1.port.u.re:VARIABLE(start = LOAD_1_2_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1621: 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
1622: LOAD_1_2_1.port.iGen.re:VARIABLE(start = -LOAD_1_2_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1623: LOAD_1_2_1.port.iGen.im:VARIABLE(start = -LOAD_1_2_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1624: 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
1625: LOAD_1_2_2.port.u.im:VARIABLE(start = LOAD_1_2_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1626: LOAD_1_2_2.port.u.re:VARIABLE(start = LOAD_1_2_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1627: LOAD_1_2_2.port.iGen.re:VARIABLE(start = -LOAD_1_2_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1628: 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
1629: LOAD_1_2_2.port.iGen.im:VARIABLE(start = -LOAD_1_2_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1630: 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
1631: LOAD_1_2_3.port.u.im:VARIABLE(start = LOAD_1_2_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1632: LOAD_1_2_3.port.u.re:VARIABLE(start = LOAD_1_2_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1633: LOAD_1_2_3.port.iGen.re:VARIABLE(start = -LOAD_1_2_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1634: 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
1635: LOAD_1_2_3.port.iGen.im:VARIABLE(start = -LOAD_1_2_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1636: 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
1637: LOAD_1_2_4.port.u.im:VARIABLE(start = LOAD_1_2_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1638: LOAD_1_2_4.port.u.re:VARIABLE(start = LOAD_1_2_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1639: 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
1640: 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
1641: 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
1642: 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
1643: LOAD_1_2_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1644: LOAD_1_2_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1645: LOAD_1_2_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1646: LOAD_1_2_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1647: GEN_1_2.GEN.lambdadPu:VARIABLE(start = GEN_1_2.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
1648: GEN_1_2.GEN.lambdaqPu:VARIABLE(start = GEN_1_2.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
1649: GEN_1_2.GEN.idPu:VARIABLE(start = GEN_1_2.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
1650: GEN_1_2.GEN.iqPu:VARIABLE(start = GEN_1_2.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
1651: GEN_1_1.GEN.idPu:VARIABLE(start = GEN_1_1.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
1652: GEN_1_1.GEN.iqPu:VARIABLE(start = GEN_1_1.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
1653: LOAD_1_1_1.port.u.im:VARIABLE(start = LOAD_1_1_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1654: LOAD_1_1_1.port.u.re:VARIABLE(start = LOAD_1_1_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1655: LOAD_1_1_1.port.iGen.re:VARIABLE(start = -LOAD_1_1_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1656: 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
1657: LOAD_1_1_1.port.iGen.im:VARIABLE(start = -LOAD_1_1_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1658: 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
1659: LOAD_1_1_2.port.u.im:VARIABLE(start = LOAD_1_1_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1660: LOAD_1_1_2.port.u.re:VARIABLE(start = LOAD_1_1_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1661: LOAD_1_1_2.port.iGen.re:VARIABLE(start = -LOAD_1_1_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1662: 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
1663: LOAD_1_1_2.port.iGen.im:VARIABLE(start = -LOAD_1_1_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1664: 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
1665: LOAD_1_1_3.port.u.im:VARIABLE(start = LOAD_1_1_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1666: LOAD_1_1_3.port.u.re:VARIABLE(start = LOAD_1_1_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1667: LOAD_1_1_3.port.iGen.re:VARIABLE(start = -LOAD_1_1_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1668: 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
1669: LOAD_1_1_3.port.iGen.im:VARIABLE(start = -LOAD_1_1_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1670: 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
1671: LOAD_1_1_4.port.u.im:VARIABLE(start = LOAD_1_1_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1672: LOAD_1_1_4.port.u.re:VARIABLE(start = LOAD_1_1_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1673: 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
1674: 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
1675: 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
1676: 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
1677: LOAD_1_1_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1678: LOAD_1_1_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1679: LOAD_1_1_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1680: LOAD_1_1_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1681: GEN_3_2.GEN.lambdadPu:VARIABLE(start = GEN_3_2.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
1682: GEN_3_2.GEN.lambdaqPu:VARIABLE(start = GEN_3_2.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
1683: GEN_3_2.GEN.iqPu:VARIABLE(start = GEN_3_2.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
1684: GEN_3_2.GEN.idPu:VARIABLE(start = GEN_3_2.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
1685: GEN_3_3.GEN.port.u.im:VARIABLE(start = GEN_3_3.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
1686: GEN_3_3.GEN.port.u.re:VARIABLE(start = GEN_3_3.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
1687: GEN_3_3.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_3_3.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
1688: GEN_3_3.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_3_3.AVR.firstOrderLim.I.y_start )  "Connector of Real output signal" type: Real
1689: LOAD_2_3_3.port.u.im:VARIABLE(start = LOAD_2_3_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1690: LOAD_2_3_3.port.u.re:VARIABLE(start = LOAD_2_3_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1691: LINE_HV_2_3_4.vAt.re:VARIABLE(start = LINE_HV_2_3_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1692: LOAD_2_3_3.port.iGen.re:VARIABLE(start = -LOAD_2_3_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1693: LOAD_2_3_3.port.iGen.im:VARIABLE(start = -LOAD_2_3_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1694: LINE_HV_2_3_4.vAt.im:VARIABLE(start = LINE_HV_2_3_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1695: LOAD_2_3_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1696: LOAD_2_3_4.port.u.im:VARIABLE(start = LOAD_2_3_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1697: LOAD_2_3_4.port.u.re:VARIABLE(start = LOAD_2_3_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1698: LINE_HV_2_3_4.iB.re:VARIABLE(start = LINE_HV_2_3_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 )  "Real part of complex number" type: Real
1699: LINE_HV_2_3_4.vB.im:VARIABLE(start = LOAD_2_3_4.port.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1700: LINE_HV_2_3_4.iB.im:VARIABLE(start = LINE_HV_2_3_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 )  "Imaginary part of complex number" type: Real
1701: LINE_HV_2_3_4.vB.re:VARIABLE(start = LOAD_2_3_4.port.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1702: LOAD_2_3_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1703: LOAD_2_3_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1704: GEN_3_3.GEN.iqPu:VARIABLE(start = GEN_3_3.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
1705: GEN_3_3.GEN.lambdadPu:VARIABLE(start = GEN_3_3.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
1706: GEN_3_3.GEN.idPu:VARIABLE(start = GEN_3_3.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
1707: GEN_3_3.GEN.lambdaqPu:VARIABLE(start = GEN_3_3.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
1708: GEN_3_5.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_3_5.AVR.firstOrderLim.I.y_start )  "Connector of Real output signal" type: Real
1709: GEN_3_5.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_3_5.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
1710: GEN_3_5.GEN.port.u.im:VARIABLE(start = GEN_3_5.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
1711: GEN_3_5.GEN.port.u.re:VARIABLE(start = GEN_3_5.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
1712: LOAD_3_5_1.port.u.im:VARIABLE(start = LOAD_3_5_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1713: LOAD_3_5_1.port.u.re:VARIABLE(start = LOAD_3_5_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1714: LOAD_3_5_1.port.iGen.re:VARIABLE(start = -LOAD_3_5_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1715: LINE_HV_3_5_2.vAt.im:VARIABLE(start = LINE_HV_3_5_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1716: LOAD_3_5_1.port.iGen.im:VARIABLE(start = -LOAD_3_5_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1717: LINE_HV_3_5_2.vAt.re:VARIABLE(start = LINE_HV_3_5_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1718: LOAD_3_5_2.port.u.im:VARIABLE(start = LOAD_3_5_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1719: LOAD_3_5_2.port.u.re:VARIABLE(start = LOAD_3_5_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1720: LINE_HV_3_5_3.vAt.re:VARIABLE(start = LINE_HV_3_5_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1721: LOAD_3_5_2.port.iGen.re:VARIABLE(start = -LOAD_3_5_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1722: LOAD_3_5_2.port.iGen.im:VARIABLE(start = -LOAD_3_5_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1723: LINE_HV_3_5_3.vAt.im:VARIABLE(start = LINE_HV_3_5_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1724: LOAD_3_5_3.port.u.im:VARIABLE(start = LOAD_3_5_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1725: LOAD_3_5_3.port.u.re:VARIABLE(start = LOAD_3_5_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1726: LOAD_3_5_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1727: LINE_HV_3_5_4.vAt.re:VARIABLE(start = LINE_HV_3_5_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1728: LOAD_3_5_3.port.iGen.re:VARIABLE(start = -LOAD_3_5_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1729: LOAD_3_5_3.port.iGen.im:VARIABLE(start = -LOAD_3_5_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1730: LINE_HV_3_5_4.vAt.im:VARIABLE(start = LINE_HV_3_5_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1731: LOAD_3_5_4.port.u.im:VARIABLE(start = LOAD_3_5_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1732: LOAD_3_5_4.port.u.re:VARIABLE(start = LOAD_3_5_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1733: LINE_HV_3_5_4.vB.re:VARIABLE(start = LOAD_3_5_4.port.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1734: LINE_HV_3_5_4.iB.re:VARIABLE(start = LINE_HV_3_5_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 )  "Real part of complex number" type: Real
1735: LINE_HV_3_5_4.iB.im:VARIABLE(start = LINE_HV_3_5_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 )  "Imaginary part of complex number" type: Real
1736: LINE_HV_3_5_4.vB.im:VARIABLE(start = LOAD_3_5_4.port.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1737: LOAD_3_5_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1738: LOAD_3_5_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1739: LOAD_3_5_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1740: GEN_3_6.GEN.udPu:VARIABLE(start = GEN_3_6.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
1741: GEN_3_6.GEN.uqPu:VARIABLE(start = GEN_3_6.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
1742: GEN_3_6.GEN.port.u.im:VARIABLE(start = GEN_3_6.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
1743: GEN_3_6.GEN.port.u.re:VARIABLE(start = GEN_3_6.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
1744: GEN_3_6.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_3_6.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
1745: GEN_3_6.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_3_6.AVR.firstOrderLim.I.y_start )  "Connector of Real output signal" type: Real
1746: LOAD_3_6_3.port.u.im:VARIABLE(start = LOAD_3_6_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1747: LOAD_3_6_3.port.u.re:VARIABLE(start = LOAD_3_6_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1748: LOAD_3_6_3.port.iGen.re:VARIABLE(start = -LOAD_3_6_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1749: LINE_HV_3_6_4.vAt.im:VARIABLE(start = LINE_HV_3_6_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1750: LOAD_3_6_3.port.iGen.im:VARIABLE(start = -LOAD_3_6_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1751: LINE_HV_3_6_4.vAt.re:VARIABLE(start = LINE_HV_3_6_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1752: LOAD_3_6_2.port.u.im:VARIABLE(start = LOAD_3_6_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1753: LOAD_3_6_2.port.u.re:VARIABLE(start = LOAD_3_6_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1754: LOAD_3_6_2.port.iGen.re:VARIABLE(start = -LOAD_3_6_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1755: LINE_HV_3_6_3.vAt.im:VARIABLE(start = LINE_HV_3_6_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1756: LOAD_3_6_2.port.iGen.im:VARIABLE(start = -LOAD_3_6_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1757: LINE_HV_3_6_3.vAt.re:VARIABLE(start = LINE_HV_3_6_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1758: LOAD_3_6_1.port.u.im:VARIABLE(start = LOAD_3_6_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1759: LOAD_3_6_1.port.u.re:VARIABLE(start = LOAD_3_6_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1760: LOAD_3_6_1.port.iGen.re:VARIABLE(start = -LOAD_3_6_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1761: LINE_HV_3_6_2.vAt.im:VARIABLE(start = LINE_HV_3_6_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1762: LOAD_3_6_1.port.iGen.im:VARIABLE(start = -LOAD_3_6_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1763: LINE_HV_3_6_2.vAt.re:VARIABLE(start = LINE_HV_3_6_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1764: LOAD_3_6_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1765: LOAD_3_6_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1766: LOAD_3_6_4.port.u.im:VARIABLE(start = LOAD_3_6_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1767: LOAD_3_6_4.port.u.re:VARIABLE(start = LOAD_3_6_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1768: LINE_HV_3_6_4.vB.re:VARIABLE(start = LOAD_3_6_4.port.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1769: LINE_HV_3_6_4.iB.re:VARIABLE(start = LINE_HV_3_6_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 )  "Real part of complex number" type: Real
1770: LINE_HV_3_6_4.iB.im:VARIABLE(start = LINE_HV_3_6_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 )  "Imaginary part of complex number" type: Real
1771: LINE_HV_3_6_4.vB.im:VARIABLE(start = LOAD_3_6_4.port.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1772: LOAD_3_6_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1773: LOAD_3_6_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1774: GEN_2_6.GEN.uqPu:VARIABLE(start = GEN_2_6.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
1775: GEN_2_6.GEN.udPu:VARIABLE(start = GEN_2_6.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
1776: GEN_2_6.GEN.port.u.im:VARIABLE(start = GEN_2_6.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
1777: GEN_2_6.GEN.port.u.re:VARIABLE(start = GEN_2_6.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
1778: GEN_2_6.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_2_6.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
1779: GEN_2_6.GEN.lambdadPu:VARIABLE(start = GEN_2_6.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
1780: GEN_2_6.GEN.lambdaqPu:VARIABLE(start = GEN_2_6.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
1781: GEN_2_6.GEN.idPu:VARIABLE(start = GEN_2_6.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
1782: GEN_2_6.GEN.iqPu:VARIABLE(start = GEN_2_6.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
1783: GEN_2_6.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_2_6.AVR.firstOrderLim.I.y_start )  "Connector of Real output signal" type: Real
1784: LOAD_2_6_3.port.u.im:VARIABLE(start = LOAD_2_6_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1785: LOAD_2_6_3.port.u.re:VARIABLE(start = LOAD_2_6_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1786: LOAD_2_6_3.port.iGen.re:VARIABLE(start = -LOAD_2_6_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1787: LINE_HV_2_6_4.vAt.im:VARIABLE(start = LINE_HV_2_6_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1788: LOAD_2_6_3.port.iGen.im:VARIABLE(start = -LOAD_2_6_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1789: LINE_HV_2_6_4.vAt.re:VARIABLE(start = LINE_HV_2_6_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1790: LOAD_2_6_2.port.u.im:VARIABLE(start = LOAD_2_6_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1791: LOAD_2_6_2.port.u.re:VARIABLE(start = LOAD_2_6_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1792: LOAD_2_6_2.port.iGen.re:VARIABLE(start = -LOAD_2_6_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1793: LINE_HV_2_6_3.vAt.im:VARIABLE(start = LINE_HV_2_6_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1794: LOAD_2_6_2.port.iGen.im:VARIABLE(start = -LOAD_2_6_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1795: LINE_HV_2_6_3.vAt.re:VARIABLE(start = LINE_HV_2_6_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1796: LOAD_2_6_1.port.u.im:VARIABLE(start = LOAD_2_6_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1797: LOAD_2_6_1.port.u.re:VARIABLE(start = LOAD_2_6_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1798: LOAD_2_6_1.port.iGen.re:VARIABLE(start = -LOAD_2_6_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1799: LINE_HV_2_6_2.vAt.im:VARIABLE(start = LINE_HV_2_6_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1800: LOAD_2_6_1.port.iGen.im:VARIABLE(start = -LOAD_2_6_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1801: LINE_HV_2_6_2.vAt.re:VARIABLE(start = LINE_HV_2_6_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1802: LOAD_2_6_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1803: LOAD_2_6_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1804: LOAD_2_6_4.port.u.im:VARIABLE(start = LOAD_2_6_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1805: LOAD_2_6_4.port.u.re:VARIABLE(start = LOAD_2_6_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1806: LINE_HV_2_6_4.vB.re:VARIABLE(start = LOAD_2_6_4.port.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1807: LINE_HV_2_6_4.iB.re:VARIABLE(start = LINE_HV_2_6_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 )  "Real part of complex number" type: Real
1808: LINE_HV_2_6_4.iB.im:VARIABLE(start = LINE_HV_2_6_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 )  "Imaginary part of complex number" type: Real
1809: LINE_HV_2_6_4.vB.im:VARIABLE(start = LOAD_2_6_4.port.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1810: LOAD_2_6_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1811: LOAD_2_6_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1812: GEN_1_5.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_1_5.AVR.firstOrderLim.I.y_start )  "Connector of Real output signal" type: Real
1813: GEN_1_5.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_1_5.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
1814: GEN_1_5.GEN.port.u.im:VARIABLE(start = GEN_1_5.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
1815: GEN_1_5.GEN.port.u.re:VARIABLE(start = GEN_1_5.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
1816: GEN_2_5.GEN.udPu:VARIABLE(start = GEN_2_5.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
1817: GEN_2_5.GEN.uqPu:VARIABLE(start = GEN_2_5.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
1818: GEN_2_5.GEN.port.u.im:VARIABLE(start = GEN_2_5.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
1819: GEN_2_5.GEN.port.u.re:VARIABLE(start = GEN_2_5.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
1820: GEN_2_5.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_2_5.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
1821: GEN_2_5.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_2_5.AVR.firstOrderLim.I.y_start )  "Connector of Real output signal" type: Real
1822: GEN_2_5.GEN.iqPu:VARIABLE(start = GEN_2_5.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
1823: GEN_2_5.GEN.lambdadPu:VARIABLE(start = GEN_2_5.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
1824: GEN_2_5.GEN.idPu:VARIABLE(start = GEN_2_5.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
1825: GEN_2_5.GEN.lambdaqPu:VARIABLE(start = GEN_2_5.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
1826: LOAD_1_5_1.port.u.im:VARIABLE(start = LOAD_1_5_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1827: LOAD_1_5_1.port.u.re:VARIABLE(start = LOAD_1_5_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1828: LOAD_1_5_1.port.iGen.re:VARIABLE(start = -LOAD_1_5_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1829: LINE_HV_1_5_2.vAt.im:VARIABLE(start = LINE_HV_1_5_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1830: LOAD_1_5_1.port.iGen.im:VARIABLE(start = -LOAD_1_5_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1831: LINE_HV_1_5_2.vAt.re:VARIABLE(start = LINE_HV_1_5_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1832: LOAD_1_5_2.port.u.im:VARIABLE(start = LOAD_1_5_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1833: LOAD_1_5_2.port.u.re:VARIABLE(start = LOAD_1_5_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1834: LOAD_1_5_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1835: LINE_HV_1_5_3.vAt.re:VARIABLE(start = LINE_HV_1_5_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1836: LOAD_1_5_2.port.iGen.re:VARIABLE(start = -LOAD_1_5_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1837: LOAD_1_5_2.port.iGen.im:VARIABLE(start = -LOAD_1_5_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1838: LINE_HV_1_5_3.vAt.im:VARIABLE(start = LINE_HV_1_5_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1839: LOAD_1_5_3.port.u.im:VARIABLE(start = LOAD_1_5_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1840: LOAD_1_5_3.port.u.re:VARIABLE(start = LOAD_1_5_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1841: LINE_HV_1_5_4.vAt.re:VARIABLE(start = LINE_HV_1_5_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1842: LOAD_1_5_3.port.iGen.re:VARIABLE(start = -LOAD_1_5_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1843: LOAD_1_5_3.port.iGen.im:VARIABLE(start = -LOAD_1_5_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1844: LINE_HV_1_5_4.vAt.im:VARIABLE(start = LINE_HV_1_5_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1845: LOAD_1_5_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1846: LOAD_1_5_4.port.u.im:VARIABLE(start = LOAD_1_5_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1847: LOAD_1_5_4.port.u.re:VARIABLE(start = LOAD_1_5_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1848: LINE_HV_1_5_4.iB.re:VARIABLE(start = LINE_HV_1_5_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 )  "Real part of complex number" type: Real
1849: LINE_HV_1_5_4.vB.im:VARIABLE(start = LOAD_1_5_4.port.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1850: LINE_HV_1_5_4.iB.im:VARIABLE(start = LINE_HV_1_5_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 )  "Imaginary part of complex number" type: Real
1851: LINE_HV_1_5_4.vB.re:VARIABLE(start = LOAD_1_5_4.port.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1852: LOAD_1_5_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1853: LOAD_1_5_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1854: GEN_1_6.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_1_6.AVR.firstOrderLim.I.y_start )  "Connector of Real output signal" type: Real
1855: GEN_1_6.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_1_6.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
1856: GEN_1_6.GEN.port.u.im:VARIABLE(start = GEN_1_6.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
1857: GEN_1_6.GEN.port.u.re:VARIABLE(start = GEN_1_6.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
1858: LOAD_1_6_1.port.u.im:VARIABLE(start = LOAD_1_6_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1859: LOAD_1_6_1.port.u.re:VARIABLE(start = LOAD_1_6_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1860: LINE_HV_1_6_2.vAt.re:VARIABLE(start = LINE_HV_1_6_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1861: LOAD_1_6_1.port.iGen.re:VARIABLE(start = -LOAD_1_6_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1862: LOAD_1_6_1.port.iGen.im:VARIABLE(start = -LOAD_1_6_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1863: LINE_HV_1_6_2.vAt.im:VARIABLE(start = LINE_HV_1_6_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1864: LOAD_1_6_2.port.u.im:VARIABLE(start = LOAD_1_6_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1865: LOAD_1_6_2.port.u.re:VARIABLE(start = LOAD_1_6_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1866: LOAD_1_6_2.port.iGen.re:VARIABLE(start = -LOAD_1_6_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1867: LINE_HV_1_6_3.vAt.im:VARIABLE(start = LINE_HV_1_6_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1868: LOAD_1_6_2.port.iGen.im:VARIABLE(start = -LOAD_1_6_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1869: LINE_HV_1_6_3.vAt.re:VARIABLE(start = LINE_HV_1_6_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1870: LOAD_1_6_4.port.u.im:VARIABLE(start = LOAD_1_6_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1871: LOAD_1_6_4.port.u.re:VARIABLE(start = LOAD_1_6_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1872: LOAD_1_6_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1873: LINE_HV_1_6_4.vB.re:VARIABLE(start = LOAD_1_6_4.port.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1874: LINE_HV_1_6_4.iB.re:VARIABLE(start = LINE_HV_1_6_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 )  "Real part of complex number" type: Real
1875: LINE_HV_1_6_4.iB.im:VARIABLE(start = LINE_HV_1_6_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 )  "Imaginary part of complex number" type: Real
1876: LINE_HV_1_6_4.vB.im:VARIABLE(start = LOAD_1_6_4.port.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1877: LOAD_1_6_3.port.u.im:VARIABLE(start = LOAD_1_6_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1878: LOAD_1_6_3.port.u.re:VARIABLE(start = LOAD_1_6_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1879: LINE_HV_1_6_4.vAt.re:VARIABLE(start = LINE_HV_1_6_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1880: LOAD_1_6_3.port.iGen.re:VARIABLE(start = -LOAD_1_6_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1881: LOAD_1_6_3.port.iGen.im:VARIABLE(start = -LOAD_1_6_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1882: LINE_HV_1_6_4.vAt.im:VARIABLE(start = LINE_HV_1_6_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1883: LOAD_1_6_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1884: LOAD_1_6_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1885: LOAD_1_6_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1886: GEN_1_6.GEN.iqPu:VARIABLE(start = GEN_1_6.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
1887: GEN_1_6.GEN.lambdadPu:VARIABLE(start = GEN_1_6.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
1888: GEN_1_6.GEN.idPu:VARIABLE(start = GEN_1_6.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
1889: GEN_1_6.GEN.lambdaqPu:VARIABLE(start = GEN_1_6.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
1890: GEN_1_6.GEN.udPu:VARIABLE(start = GEN_1_6.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
1891: GEN_1_6.GEN.uqPu:VARIABLE(start = GEN_1_6.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
1892: LOAD_2_5_1.port.u.im:VARIABLE(start = LOAD_2_5_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1893: LOAD_2_5_1.port.u.re:VARIABLE(start = LOAD_2_5_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1894: LOAD_2_5_1.port.iGen.re:VARIABLE(start = -LOAD_2_5_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1895: LINE_HV_2_5_2.vAt.im:VARIABLE(start = LINE_HV_2_5_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1896: LOAD_2_5_1.port.iGen.im:VARIABLE(start = -LOAD_2_5_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1897: LINE_HV_2_5_2.vAt.re:VARIABLE(start = LINE_HV_2_5_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1898: LOAD_2_5_2.port.u.im:VARIABLE(start = LOAD_2_5_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1899: LOAD_2_5_2.port.u.re:VARIABLE(start = LOAD_2_5_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1900: LOAD_2_5_2.port.iGen.re:VARIABLE(start = -LOAD_2_5_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1901: LINE_HV_2_5_3.vAt.im:VARIABLE(start = LINE_HV_2_5_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1902: LOAD_2_5_2.port.iGen.im:VARIABLE(start = -LOAD_2_5_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1903: LINE_HV_2_5_3.vAt.re:VARIABLE(start = LINE_HV_2_5_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1904: LOAD_2_5_3.port.u.im:VARIABLE(start = LOAD_2_5_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1905: LOAD_2_5_3.port.u.re:VARIABLE(start = LOAD_2_5_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1906: LOAD_2_5_3.port.iGen.re:VARIABLE(start = -LOAD_2_5_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1907: LINE_HV_2_5_4.vAt.im:VARIABLE(start = LINE_HV_2_5_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1908: LOAD_2_5_3.port.iGen.im:VARIABLE(start = -LOAD_2_5_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1909: LINE_HV_2_5_4.vAt.re:VARIABLE(start = LINE_HV_2_5_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1910: LOAD_2_5_4.port.u.im:VARIABLE(start = LOAD_2_5_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1911: LOAD_2_5_4.port.u.re:VARIABLE(start = LOAD_2_5_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1912: LOAD_2_5_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1913: LINE_HV_2_5_4.vB.re:VARIABLE(start = LOAD_2_5_4.port.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1914: LINE_HV_2_5_4.iB.re:VARIABLE(start = LINE_HV_2_5_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 )  "Real part of complex number" type: Real
1915: LINE_HV_2_5_4.iB.im:VARIABLE(start = LINE_HV_2_5_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 )  "Imaginary part of complex number" type: Real
1916: LINE_HV_2_5_4.vB.im:VARIABLE(start = LOAD_2_5_4.port.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1917: LOAD_2_5_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1918: LOAD_2_5_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1919: LOAD_2_5_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1920: GEN_1_5.GEN.udPu:VARIABLE(start = GEN_1_5.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
1921: GEN_1_5.GEN.uqPu:VARIABLE(start = GEN_1_5.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
1922: GEN_1_5.GEN.lambdadPu:VARIABLE(start = GEN_1_5.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
1923: GEN_1_5.GEN.lambdaqPu:VARIABLE(start = GEN_1_5.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
1924: GEN_1_5.GEN.iqPu:VARIABLE(start = GEN_1_5.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
1925: GEN_1_5.GEN.idPu:VARIABLE(start = GEN_1_5.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
1926: GEN_3_6.GEN.iqPu:VARIABLE(start = GEN_3_6.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
1927: GEN_3_6.GEN.lambdadPu:VARIABLE(start = GEN_3_6.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
1928: GEN_3_6.GEN.idPu:VARIABLE(start = GEN_3_6.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
1929: GEN_3_6.GEN.lambdaqPu:VARIABLE(start = GEN_3_6.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
1930: GEN_4_5.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_4_5.AVR.firstOrderLim.I.y_start )  "Connector of Real output signal" type: Real
1931: GEN_4_5.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_4_5.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
1932: GEN_4_5.GEN.port.u.im:VARIABLE(start = GEN_4_5.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
1933: GEN_4_5.GEN.port.u.re:VARIABLE(start = GEN_4_5.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
1934: GEN_4_5.GEN.uqPu:VARIABLE(start = GEN_4_5.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
1935: GEN_4_5.GEN.udPu:VARIABLE(start = GEN_4_5.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
1936: GEN_4_5.GEN.lambdadPu:VARIABLE(start = GEN_4_5.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
1937: GEN_4_5.GEN.lambdaqPu:VARIABLE(start = GEN_4_5.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
1938: GEN_4_5.GEN.idPu:VARIABLE(start = GEN_4_5.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
1939: GEN_4_5.GEN.iqPu:VARIABLE(start = GEN_4_5.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
1940: GEN_3_5.GEN.uqPu:VARIABLE(start = GEN_3_5.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
1941: GEN_3_5.GEN.udPu:VARIABLE(start = GEN_3_5.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
1942: GEN_3_5.GEN.iqPu:VARIABLE(start = GEN_3_5.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
1943: GEN_3_5.GEN.lambdadPu:VARIABLE(start = GEN_3_5.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
1944: GEN_3_5.GEN.idPu:VARIABLE(start = GEN_3_5.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
1945: GEN_3_5.GEN.lambdaqPu:VARIABLE(start = GEN_3_5.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
1946: GEN_2_4.GEN.udPu:VARIABLE(start = GEN_2_4.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
1947: GEN_2_4.GEN.uqPu:VARIABLE(start = GEN_2_4.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
1948: GEN_2_4.GEN.port.u.im:VARIABLE(start = GEN_2_4.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
1949: GEN_2_4.GEN.port.u.re:VARIABLE(start = GEN_2_4.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
1950: GEN_2_4.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_2_4.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
1951: GEN_2_4.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_2_4.AVR.firstOrderLim.I.y_start )  "Connector of Real output signal" type: Real
1952: GEN_2_4.GEN.iqPu:VARIABLE(start = GEN_2_4.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
1953: GEN_2_4.GEN.lambdadPu:VARIABLE(start = GEN_2_4.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
1954: GEN_2_4.GEN.idPu:VARIABLE(start = GEN_2_4.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
1955: GEN_2_4.GEN.lambdaqPu:VARIABLE(start = GEN_2_4.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
1956: GEN_4_4.GEN.lambdadPu:VARIABLE(start = GEN_4_4.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
1957: GEN_4_4.GEN.lambdaqPu:VARIABLE(start = GEN_4_4.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
1958: GEN_4_4.GEN.idPu:VARIABLE(start = GEN_4_4.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
1959: GEN_4_4.GEN.iqPu:VARIABLE(start = GEN_4_4.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
1960: GEN_4_4.GEN.port.u.im:VARIABLE(start = GEN_4_4.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
1961: GEN_4_4.GEN.port.u.re:VARIABLE(start = GEN_4_4.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
1962: GEN_4_4.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_4_4.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
1963: GEN_4_4.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_4_4.AVR.firstOrderLim.I.y_start )  "Connector of Real output signal" type: Real
1964: LOAD_4_5_2.port.u.im:VARIABLE(start = LOAD_4_5_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1965: LOAD_4_5_2.port.u.re:VARIABLE(start = LOAD_4_5_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1966: LOAD_4_5_2.port.iGen.re:VARIABLE(start = -LOAD_4_5_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1967: LINE_HV_4_5_3.vAt.im:VARIABLE(start = LINE_HV_4_5_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1968: LOAD_4_5_2.port.iGen.im:VARIABLE(start = -LOAD_4_5_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1969: LINE_HV_4_5_3.vAt.re:VARIABLE(start = LINE_HV_4_5_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1970: LOAD_4_5_3.port.u.im:VARIABLE(start = LOAD_4_5_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1971: LOAD_4_5_3.port.u.re:VARIABLE(start = LOAD_4_5_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1972: LOAD_4_5_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1973: LINE_HV_4_5_4.vAt.re:VARIABLE(start = LINE_HV_4_5_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1974: LOAD_4_5_3.port.iGen.re:VARIABLE(start = -LOAD_4_5_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
1975: LOAD_4_5_3.port.iGen.im:VARIABLE(start = -LOAD_4_5_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
1976: LINE_HV_4_5_4.vAt.im:VARIABLE(start = LINE_HV_4_5_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1977: LOAD_4_5_4.port.u.im:VARIABLE(start = LOAD_4_5_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
1978: LOAD_4_5_4.port.u.re:VARIABLE(start = LOAD_4_5_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
1979: LINE_HV_4_5_4.iB.re:VARIABLE(start = LINE_HV_4_5_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 )  "Real part of complex number" type: Real
1980: LINE_HV_4_5_4.vB.im:VARIABLE(start = LOAD_4_5_4.port.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
1981: LINE_HV_4_5_4.iB.im:VARIABLE(start = LINE_HV_4_5_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 )  "Imaginary part of complex number" type: Real
1982: LINE_HV_4_5_4.vB.re:VARIABLE(start = LOAD_4_5_4.port.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
1983: LOAD_4_5_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1984: LOAD_4_5_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1985: LOAD_4_5_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
1986: GEN_4_6.GEN.uqPu:VARIABLE(start = GEN_4_6.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
1987: GEN_4_6.GEN.udPu:VARIABLE(start = GEN_4_6.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
1988: GEN_4_6.GEN.iqPu:VARIABLE(start = GEN_4_6.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
1989: GEN_4_6.GEN.lambdadPu:VARIABLE(start = GEN_4_6.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
1990: GEN_4_6.GEN.idPu:VARIABLE(start = GEN_4_6.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
1991: GEN_4_6.GEN.lambdaqPu:VARIABLE(start = GEN_4_6.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
1992: GEN_6_6.GEN.udPu:VARIABLE(start = GEN_6_6.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
1993: GEN_6_6.GEN.uqPu:VARIABLE(start = GEN_6_6.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
1994: GEN_6_6.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_6_6.AVR.firstOrderLim.I.y_start )  "Connector of Real output signal" type: Real
1995: GEN_6_6.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_6_6.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
1996: GEN_6_6.GEN.port.u.im:VARIABLE(start = GEN_6_6.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
1997: GEN_6_6.GEN.port.u.re:VARIABLE(start = GEN_6_6.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
1998: GEN_6_6.GEN.lambdadPu:VARIABLE(start = GEN_6_6.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
1999: GEN_6_6.GEN.lambdaqPu:VARIABLE(start = GEN_6_6.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
2000: GEN_6_6.GEN.iqPu:VARIABLE(start = GEN_6_6.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
2001: GEN_6_6.GEN.idPu:VARIABLE(start = GEN_6_6.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
2002: LINE_HV_5_6_4.vB.re:VARIABLE(start = LOAD_5_6_4.port.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2003: LINE_HV_5_6_4.iB.re:VARIABLE(start = LINE_HV_5_6_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 )  "Real part of complex number" type: Real
2004: LINE_HV_5_6_4.iB.im:VARIABLE(start = LINE_HV_5_6_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 )  "Imaginary part of complex number" type: Real
2005: LINE_HV_5_6_4.vB.im:VARIABLE(start = LOAD_5_6_4.port.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2006: LOAD_5_6_4.port.u.im:VARIABLE(start = LOAD_5_6_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2007: LOAD_5_6_4.port.u.re:VARIABLE(start = LOAD_5_6_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2008: LOAD_5_6_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2009: LOAD_5_6_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2010: GEN_5_6.GEN.udPu:VARIABLE(start = GEN_5_6.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
2011: GEN_5_6.GEN.uqPu:VARIABLE(start = GEN_5_6.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
2012: GEN_5_6.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_5_6.AVR.firstOrderLim.I.y_start )  "Connector of Real output signal" type: Real
2013: GEN_5_6.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_5_6.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
2014: GEN_5_6.GEN.port.u.im:VARIABLE(start = GEN_5_6.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
2015: GEN_5_6.GEN.port.u.re:VARIABLE(start = GEN_5_6.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
2016: GEN_5_6.GEN.lambdadPu:VARIABLE(start = GEN_5_6.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
2017: GEN_5_6.GEN.lambdaqPu:VARIABLE(start = GEN_5_6.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
2018: GEN_5_6.GEN.idPu:VARIABLE(start = GEN_5_6.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
2019: GEN_5_6.GEN.iqPu:VARIABLE(start = GEN_5_6.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
2020: LOAD_6_6_1.port.u.im:VARIABLE(start = LOAD_6_6_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2021: LOAD_6_6_1.port.u.re:VARIABLE(start = LOAD_6_6_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2022: LOAD_6_6_1.port.iGen.re:VARIABLE(start = -LOAD_6_6_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
2023: LINE_HV_6_6_2.vAt.im:VARIABLE(start = LINE_HV_6_6_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2024: LOAD_6_6_1.port.iGen.im:VARIABLE(start = -LOAD_6_6_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
2025: LINE_HV_6_6_2.vAt.re:VARIABLE(start = LINE_HV_6_6_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2026: LOAD_6_6_2.port.u.im:VARIABLE(start = LOAD_6_6_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2027: LOAD_6_6_2.port.u.re:VARIABLE(start = LOAD_6_6_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2028: LINE_HV_6_6_3.vAt.re:VARIABLE(start = LINE_HV_6_6_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2029: LOAD_6_6_2.port.iGen.re:VARIABLE(start = -LOAD_6_6_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
2030: LOAD_6_6_2.port.iGen.im:VARIABLE(start = -LOAD_6_6_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
2031: LINE_HV_6_6_3.vAt.im:VARIABLE(start = LINE_HV_6_6_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2032: LOAD_6_6_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2033: LOAD_6_6_3.port.u.im:VARIABLE(start = LOAD_6_6_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2034: LOAD_6_6_3.port.u.re:VARIABLE(start = LOAD_6_6_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2035: LOAD_6_6_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2036: LINE_HV_6_6_4.vAt.re:VARIABLE(start = LINE_HV_6_6_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2037: LOAD_6_6_3.port.iGen.re:VARIABLE(start = -LOAD_6_6_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
2038: LOAD_6_6_3.port.iGen.im:VARIABLE(start = -LOAD_6_6_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
2039: LINE_HV_6_6_4.vAt.im:VARIABLE(start = LINE_HV_6_6_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2040: LOAD_6_6_4.port.u.im:VARIABLE(start = LOAD_6_6_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2041: LOAD_6_6_4.port.u.re:VARIABLE(start = LOAD_6_6_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2042: LINE_HV_6_6_4.vB.re:VARIABLE(start = LOAD_6_6_4.port.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2043: LINE_HV_6_6_4.iB.re:VARIABLE(start = LINE_HV_6_6_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 )  "Real part of complex number" type: Real
2044: LINE_HV_6_6_4.iB.im:VARIABLE(start = LINE_HV_6_6_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 )  "Imaginary part of complex number" type: Real
2045: LINE_HV_6_6_4.vB.im:VARIABLE(start = LOAD_6_6_4.port.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2046: LOAD_6_6_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2047: LOAD_6_6_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2048: GEN_7_6.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_7_6.AVR.firstOrderLim.I.y_start )  "Connector of Real output signal" type: Real
2049: GEN_7_6.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_7_6.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
2050: GEN_7_6.GEN.port.u.im:VARIABLE(start = GEN_7_6.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
2051: GEN_7_6.GEN.port.u.re:VARIABLE(start = GEN_7_6.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
2052: GEN_7_6.GEN.udPu:VARIABLE(start = GEN_7_6.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
2053: GEN_7_6.GEN.uqPu:VARIABLE(start = GEN_7_6.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
2054: GEN_7_6.GEN.iqPu:VARIABLE(start = GEN_7_6.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
2055: GEN_7_6.GEN.lambdadPu:VARIABLE(start = GEN_7_6.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
2056: GEN_7_6.GEN.idPu:VARIABLE(start = GEN_7_6.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
2057: GEN_7_6.GEN.lambdaqPu:VARIABLE(start = GEN_7_6.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
2058: GEN_9_6.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_9_6.AVR.firstOrderLim.I.y_start )  "Connector of Real output signal" type: Real
2059: GEN_9_6.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_9_6.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
2060: GEN_9_6.GEN.port.u.im:VARIABLE(start = GEN_9_6.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
2061: GEN_9_6.GEN.port.u.re:VARIABLE(start = GEN_9_6.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
2062: GEN_9_6.GEN.udPu:VARIABLE(start = GEN_9_6.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
2063: GEN_9_6.GEN.uqPu:VARIABLE(start = GEN_9_6.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
2064: GEN_9_6.GEN.lambdadPu:VARIABLE(start = GEN_9_6.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
2065: GEN_9_6.GEN.lambdaqPu:VARIABLE(start = GEN_9_6.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
2066: GEN_9_6.GEN.iqPu:VARIABLE(start = GEN_9_6.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
2067: GEN_9_6.GEN.idPu:VARIABLE(start = GEN_9_6.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
2068: GEN_9_5.GEN.uqPu:VARIABLE(start = GEN_9_5.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
2069: GEN_9_5.GEN.udPu:VARIABLE(start = GEN_9_5.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
2070: GEN_9_5.GEN.port.u.im:VARIABLE(start = GEN_9_5.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
2071: GEN_9_5.GEN.port.u.re:VARIABLE(start = GEN_9_5.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
2072: GEN_9_5.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_9_5.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
2073: GEN_9_5.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_9_5.AVR.firstOrderLim.I.y_start )  "Connector of Real output signal" type: Real
2074: GEN_9_5.GEN.iqPu:VARIABLE(start = GEN_9_5.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
2075: GEN_9_5.GEN.lambdadPu:VARIABLE(start = GEN_9_5.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
2076: GEN_9_5.GEN.idPu:VARIABLE(start = GEN_9_5.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
2077: GEN_9_5.GEN.lambdaqPu:VARIABLE(start = GEN_9_5.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
2078: GEN_10_5.GEN.udPu:VARIABLE(start = GEN_10_5.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
2079: GEN_10_5.GEN.uqPu:VARIABLE(start = GEN_10_5.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
2080: GEN_10_5.GEN.port.u.im:VARIABLE(start = GEN_10_5.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
2081: GEN_10_5.GEN.port.u.re:VARIABLE(start = GEN_10_5.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
2082: GEN_10_5.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_10_5.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
2083: GEN_10_5.GEN.iqPu:VARIABLE(start = GEN_10_5.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
2084: GEN_10_5.GEN.lambdadPu:VARIABLE(start = GEN_10_5.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
2085: GEN_10_5.GEN.idPu:VARIABLE(start = GEN_10_5.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
2086: GEN_10_5.GEN.lambdaqPu:VARIABLE(start = GEN_10_5.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
2087: GEN_10_5.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_10_5.AVR.firstOrderLim.I.y_start )  "Connector of Real output signal" type: Real
2088: LOAD_9_6_1.port.u.im:VARIABLE(start = LOAD_9_6_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2089: LOAD_9_6_1.port.u.re:VARIABLE(start = LOAD_9_6_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2090: LINE_HV_9_6_2.vAt.re:VARIABLE(start = LINE_HV_9_6_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2091: LOAD_9_6_1.port.iGen.re:VARIABLE(start = -LOAD_9_6_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
2092: LOAD_9_6_1.port.iGen.im:VARIABLE(start = -LOAD_9_6_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
2093: LINE_HV_9_6_2.vAt.im:VARIABLE(start = LINE_HV_9_6_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2094: LOAD_9_6_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2095: LOAD_9_6_2.port.u.im:VARIABLE(start = LOAD_9_6_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2096: LOAD_9_6_2.port.u.re:VARIABLE(start = LOAD_9_6_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2097: LINE_HV_9_6_3.vAt.re:VARIABLE(start = LINE_HV_9_6_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2098: LOAD_9_6_2.port.iGen.re:VARIABLE(start = -LOAD_9_6_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
2099: LOAD_9_6_2.port.iGen.im:VARIABLE(start = -LOAD_9_6_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
2100: LINE_HV_9_6_3.vAt.im:VARIABLE(start = LINE_HV_9_6_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2101: LOAD_9_6_3.port.u.im:VARIABLE(start = LOAD_9_6_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2102: LOAD_9_6_3.port.u.re:VARIABLE(start = LOAD_9_6_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2103: LOAD_9_6_3.port.iGen.re:VARIABLE(start = -LOAD_9_6_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
2104: LINE_HV_9_6_4.vAt.im:VARIABLE(start = LINE_HV_9_6_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2105: LOAD_9_6_3.port.iGen.im:VARIABLE(start = -LOAD_9_6_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
2106: LINE_HV_9_6_4.vAt.re:VARIABLE(start = LINE_HV_9_6_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2107: LOAD_9_6_4.port.u.im:VARIABLE(start = LOAD_9_6_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2108: LOAD_9_6_4.port.u.re:VARIABLE(start = LOAD_9_6_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2109: LOAD_9_6_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2110: LINE_HV_9_6_4.vB.re:VARIABLE(start = LOAD_9_6_4.port.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2111: LINE_HV_9_6_4.iB.re:VARIABLE(start = LINE_HV_9_6_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 )  "Real part of complex number" type: Real
2112: LINE_HV_9_6_4.iB.im:VARIABLE(start = LINE_HV_9_6_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 )  "Imaginary part of complex number" type: Real
2113: LINE_HV_9_6_4.vB.im:VARIABLE(start = LOAD_9_6_4.port.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2114: LOAD_9_6_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2115: LOAD_9_6_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2116: GEN_8_6.GEN.lambdadPu:VARIABLE(start = GEN_8_6.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
2117: GEN_8_6.GEN.lambdaqPu:VARIABLE(start = GEN_8_6.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
2118: GEN_8_6.GEN.idPu:VARIABLE(start = GEN_8_6.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
2119: GEN_8_6.GEN.iqPu:VARIABLE(start = GEN_8_6.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
2120: GEN_8_6.GEN.port.u.im:VARIABLE(start = GEN_8_6.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
2121: GEN_8_6.GEN.port.u.re:VARIABLE(start = GEN_8_6.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
2122: GEN_8_6.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_8_6.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
2123: GEN_8_6.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_8_6.AVR.firstOrderLim.I.y_start )  "Connector of Real output signal" type: Real
2124: LOAD_5_5_1.port.u.im:VARIABLE(start = LOAD_5_5_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2125: LOAD_5_5_1.port.u.re:VARIABLE(start = LOAD_5_5_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2126: LOAD_5_5_1.port.iGen.re:VARIABLE(start = -LOAD_5_5_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
2127: LINE_HV_5_5_2.vAt.im:VARIABLE(start = LINE_HV_5_5_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2128: LOAD_5_5_1.port.iGen.im:VARIABLE(start = -LOAD_5_5_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
2129: LINE_HV_5_5_2.vAt.re:VARIABLE(start = LINE_HV_5_5_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2130: LOAD_5_5_2.port.u.im:VARIABLE(start = LOAD_5_5_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2131: LOAD_5_5_2.port.u.re:VARIABLE(start = LOAD_5_5_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2132: LOAD_5_5_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2133: LINE_HV_5_5_3.vAt.re:VARIABLE(start = LINE_HV_5_5_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2134: LOAD_5_5_2.port.iGen.re:VARIABLE(start = -LOAD_5_5_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
2135: LOAD_5_5_2.port.iGen.im:VARIABLE(start = -LOAD_5_5_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
2136: LINE_HV_5_5_3.vAt.im:VARIABLE(start = LINE_HV_5_5_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2137: LOAD_5_5_3.port.u.im:VARIABLE(start = LOAD_5_5_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2138: LOAD_5_5_3.port.u.re:VARIABLE(start = LOAD_5_5_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2139: LINE_HV_5_5_4.vAt.re:VARIABLE(start = LINE_HV_5_5_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2140: LOAD_5_5_3.port.iGen.re:VARIABLE(start = -LOAD_5_5_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
2141: LOAD_5_5_3.port.iGen.im:VARIABLE(start = -LOAD_5_5_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
2142: LINE_HV_5_5_4.vAt.im:VARIABLE(start = LINE_HV_5_5_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2143: LOAD_5_5_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2144: LOAD_5_5_4.port.u.im:VARIABLE(start = LOAD_5_5_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2145: LOAD_5_5_4.port.u.re:VARIABLE(start = LOAD_5_5_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2146: LINE_HV_5_5_4.vB.re:VARIABLE(start = LOAD_5_5_4.port.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2147: LINE_HV_5_5_4.iB.re:VARIABLE(start = LINE_HV_5_5_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 )  "Real part of complex number" type: Real
2148: LINE_HV_5_5_4.iB.im:VARIABLE(start = LINE_HV_5_5_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 )  "Imaginary part of complex number" type: Real
2149: LINE_HV_5_5_4.vB.im:VARIABLE(start = LOAD_5_5_4.port.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2150: LOAD_5_5_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2151: LOAD_5_5_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2152: GEN_8_4.GEN.port.u.im:VARIABLE(start = GEN_8_4.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
2153: GEN_8_4.GEN.port.u.re:VARIABLE(start = GEN_8_4.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
2154: GEN_8_4.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_8_4.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
2155: GEN_8_4.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_8_4.AVR.firstOrderLim.I.y_start )  "Connector of Real output signal" type: Real
2156: GEN_8_4.GEN.iqPu:VARIABLE(start = GEN_8_4.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
2157: GEN_8_4.GEN.lambdadPu:VARIABLE(start = GEN_8_4.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
2158: GEN_8_4.GEN.idPu:VARIABLE(start = GEN_8_4.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
2159: GEN_8_4.GEN.lambdaqPu:VARIABLE(start = GEN_8_4.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
2160: LOAD_9_5_4.port.u.im:VARIABLE(start = LOAD_9_5_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2161: LOAD_9_5_4.port.u.re:VARIABLE(start = LOAD_9_5_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2162: LINE_HV_9_5_4.iB.re:VARIABLE(start = LINE_HV_9_5_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 )  "Real part of complex number" type: Real
2163: LINE_HV_9_5_4.vB.im:VARIABLE(start = LOAD_9_5_4.port.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2164: LINE_HV_9_5_4.iB.im:VARIABLE(start = LINE_HV_9_5_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 )  "Imaginary part of complex number" type: Real
2165: LINE_HV_9_5_4.vB.re:VARIABLE(start = LOAD_9_5_4.port.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2166: LOAD_9_5_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2167: LOAD_9_5_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2168: LOAD_9_5_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2169: GEN_12_6.GEN.udPu:VARIABLE(start = GEN_12_6.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
2170: GEN_12_6.GEN.uqPu:VARIABLE(start = GEN_12_6.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
2171: GEN_12_6.GEN.port.u.im:VARIABLE(start = GEN_12_6.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
2172: GEN_12_6.GEN.port.u.re:VARIABLE(start = GEN_12_6.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
2173: GEN_12_6.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_12_6.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
2174: GEN_12_6.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_12_6.AVR.firstOrderLim.I.y_start )  "Connector of Real output signal" type: Real
2175: GEN_12_6.GEN.iqPu:VARIABLE(start = GEN_12_6.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
2176: GEN_12_6.GEN.lambdadPu:VARIABLE(start = GEN_12_6.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
2177: GEN_12_6.GEN.idPu:VARIABLE(start = GEN_12_6.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
2178: GEN_12_6.GEN.lambdaqPu:VARIABLE(start = GEN_12_6.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
2179: LOAD_12_6_1.port.u.im:VARIABLE(start = LOAD_12_6_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2180: LOAD_12_6_1.port.u.re:VARIABLE(start = LOAD_12_6_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2181: LOAD_12_6_1.port.iGen.re:VARIABLE(start = -LOAD_12_6_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
2182: LINE_HV_12_6_2.vAt.im:VARIABLE(start = LINE_HV_12_6_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2183: LOAD_12_6_1.port.iGen.im:VARIABLE(start = -LOAD_12_6_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
2184: LINE_HV_12_6_2.vAt.re:VARIABLE(start = LINE_HV_12_6_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2185: LOAD_12_6_3.port.u.im:VARIABLE(start = LOAD_12_6_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2186: LOAD_12_6_3.port.u.re:VARIABLE(start = LOAD_12_6_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2187: LOAD_12_6_2.port.u.im:VARIABLE(start = LOAD_12_6_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2188: LOAD_12_6_2.port.u.re:VARIABLE(start = LOAD_12_6_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2189: LINE_HV_12_6_3.vAt.re:VARIABLE(start = LINE_HV_12_6_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2190: LOAD_12_6_2.port.iGen.re:VARIABLE(start = -LOAD_12_6_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
2191: LOAD_12_6_2.port.iGen.im:VARIABLE(start = -LOAD_12_6_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
2192: LINE_HV_12_6_3.vAt.im:VARIABLE(start = LINE_HV_12_6_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2193: LOAD_12_6_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2194: LOAD_12_6_3.port.iGen.re:VARIABLE(start = -LOAD_12_6_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
2195: LINE_HV_12_6_4.vAt.im:VARIABLE(start = LINE_HV_12_6_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2196: LOAD_12_6_3.port.iGen.im:VARIABLE(start = -LOAD_12_6_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
2197: LINE_HV_12_6_4.vAt.re:VARIABLE(start = LINE_HV_12_6_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2198: LOAD_12_6_4.port.u.im:VARIABLE(start = LOAD_12_6_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2199: LOAD_12_6_4.port.u.re:VARIABLE(start = LOAD_12_6_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2200: LINE_HV_12_6_4.iB.re:VARIABLE(start = LINE_HV_12_6_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 )  "Real part of complex number" type: Real
2201: LINE_HV_12_6_4.vB.im:VARIABLE(start = LOAD_12_6_4.port.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2202: LINE_HV_12_6_4.iB.im:VARIABLE(start = LINE_HV_12_6_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 )  "Imaginary part of complex number" type: Real
2203: LINE_HV_12_6_4.vB.re:VARIABLE(start = LOAD_12_6_4.port.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2204: LOAD_12_6_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2205: LOAD_12_6_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2206: LOAD_12_6_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2207: GEN_12_5.GEN.udPu:VARIABLE(start = GEN_12_5.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
2208: GEN_12_5.GEN.uqPu:VARIABLE(start = GEN_12_5.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
2209: GEN_12_5.GEN.port.u.im:VARIABLE(start = GEN_12_5.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
2210: GEN_12_5.GEN.port.u.re:VARIABLE(start = GEN_12_5.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
2211: GEN_12_5.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_12_5.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
2212: GEN_12_5.GEN.lambdadPu:VARIABLE(start = GEN_12_5.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
2213: GEN_12_5.GEN.lambdaqPu:VARIABLE(start = GEN_12_5.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
2214: GEN_12_5.GEN.idPu:VARIABLE(start = GEN_12_5.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
2215: GEN_12_5.GEN.iqPu:VARIABLE(start = GEN_12_5.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
2216: GEN_12_5.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_12_5.AVR.firstOrderLim.I.y_start )  "Connector of Real output signal" type: Real
2217: LOAD_12_5_1.port.u.im:VARIABLE(start = LOAD_12_5_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2218: LOAD_12_5_1.port.u.re:VARIABLE(start = LOAD_12_5_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2219: LOAD_12_5_1.port.iGen.re:VARIABLE(start = -LOAD_12_5_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
2220: LINE_HV_12_5_2.vAt.im:VARIABLE(start = LINE_HV_12_5_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2221: LOAD_12_5_1.port.iGen.im:VARIABLE(start = -LOAD_12_5_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
2222: LINE_HV_12_5_2.vAt.re:VARIABLE(start = LINE_HV_12_5_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2223: LOAD_12_5_2.port.u.im:VARIABLE(start = LOAD_12_5_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2224: LOAD_12_5_2.port.u.re:VARIABLE(start = LOAD_12_5_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2225: LOAD_12_5_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2226: LINE_HV_12_5_3.vAt.re:VARIABLE(start = LINE_HV_12_5_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2227: LOAD_12_5_2.port.iGen.re:VARIABLE(start = -LOAD_12_5_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
2228: LOAD_12_5_2.port.iGen.im:VARIABLE(start = -LOAD_12_5_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
2229: LINE_HV_12_5_3.vAt.im:VARIABLE(start = LINE_HV_12_5_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2230: LOAD_12_5_3.port.u.im:VARIABLE(start = LOAD_12_5_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2231: LOAD_12_5_3.port.u.re:VARIABLE(start = LOAD_12_5_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2232: LINE_HV_12_5_4.vAt.re:VARIABLE(start = LINE_HV_12_5_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2233: LOAD_12_5_3.port.iGen.re:VARIABLE(start = -LOAD_12_5_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
2234: LOAD_12_5_3.port.iGen.im:VARIABLE(start = -LOAD_12_5_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
2235: LINE_HV_12_5_4.vAt.im:VARIABLE(start = LINE_HV_12_5_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2236: LOAD_12_5_4.port.u.im:VARIABLE(start = LOAD_12_5_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2237: LOAD_12_5_4.port.u.re:VARIABLE(start = LOAD_12_5_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2238: LOAD_12_5_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2239: LINE_HV_12_5_4.vB.re:VARIABLE(start = LOAD_12_5_4.port.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2240: LINE_HV_12_5_4.iB.re:VARIABLE(start = LINE_HV_12_5_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 )  "Real part of complex number" type: Real
2241: LINE_HV_12_5_4.iB.im:VARIABLE(start = LINE_HV_12_5_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 )  "Imaginary part of complex number" type: Real
2242: LINE_HV_12_5_4.vB.im:VARIABLE(start = LOAD_12_5_4.port.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2243: LOAD_12_5_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2244: LOAD_12_5_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2245: GEN_11_6.GEN.udPu:VARIABLE(start = GEN_11_6.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
2246: GEN_11_6.GEN.uqPu:VARIABLE(start = GEN_11_6.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
2247: GEN_11_6.GEN.iqPu:VARIABLE(start = GEN_11_6.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
2248: GEN_11_6.GEN.lambdadPu:VARIABLE(start = GEN_11_6.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
2249: GEN_11_6.GEN.idPu:VARIABLE(start = GEN_11_6.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
2250: GEN_11_6.GEN.lambdaqPu:VARIABLE(start = GEN_11_6.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
2251: GEN_12_4.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_12_4.AVR.firstOrderLim.I.y_start )  "Connector of Real output signal" type: Real
2252: GEN_12_4.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_12_4.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
2253: GEN_12_4.GEN.port.u.im:VARIABLE(start = GEN_12_4.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
2254: GEN_12_4.GEN.port.u.re:VARIABLE(start = GEN_12_4.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
2255: GEN_12_4.GEN.udPu:VARIABLE(start = GEN_12_4.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
2256: GEN_12_4.GEN.uqPu:VARIABLE(start = GEN_12_4.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
2257: GEN_12_4.GEN.lambdadPu:VARIABLE(start = GEN_12_4.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
2258: GEN_12_4.GEN.lambdaqPu:VARIABLE(start = GEN_12_4.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
2259: GEN_12_4.GEN.iqPu:VARIABLE(start = GEN_12_4.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
2260: GEN_12_4.GEN.idPu:VARIABLE(start = GEN_12_4.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
2261: LOAD_9_3_3.port.u.im:VARIABLE(start = LOAD_9_3_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2262: LOAD_9_3_3.port.u.re:VARIABLE(start = LOAD_9_3_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2263: LOAD_9_3_3.port.iGen.re:VARIABLE(start = -LOAD_9_3_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
2264: LINE_HV_9_3_4.vAt.im:VARIABLE(start = LINE_HV_9_3_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2265: LOAD_9_3_3.port.iGen.im:VARIABLE(start = -LOAD_9_3_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
2266: LINE_HV_9_3_4.vAt.re:VARIABLE(start = LINE_HV_9_3_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2267: LOAD_9_3_4.port.u.im:VARIABLE(start = LOAD_9_3_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2268: LOAD_9_3_4.port.u.re:VARIABLE(start = LOAD_9_3_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2269: LINE_HV_9_3_4.vB.re:VARIABLE(start = LOAD_9_3_4.port.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2270: LINE_HV_9_3_4.iB.re:VARIABLE(start = LINE_HV_9_3_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 )  "Real part of complex number" type: Real
2271: LINE_HV_9_3_4.iB.im:VARIABLE(start = LINE_HV_9_3_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 )  "Imaginary part of complex number" type: Real
2272: LINE_HV_9_3_4.vB.im:VARIABLE(start = LOAD_9_3_4.port.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2273: LOAD_9_3_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2274: LOAD_9_3_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2275: LOAD_9_3_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2276: GEN_8_3.GEN.port.u.im:VARIABLE(start = GEN_8_3.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
2277: GEN_8_3.GEN.port.u.re:VARIABLE(start = GEN_8_3.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
2278: GEN_8_3.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_8_3.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
2279: GEN_8_3.GEN.iqPu:VARIABLE(start = GEN_8_3.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
2280: GEN_8_3.GEN.lambdadPu:VARIABLE(start = GEN_8_3.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
2281: GEN_8_3.GEN.idPu:VARIABLE(start = GEN_8_3.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
2282: GEN_8_3.GEN.lambdaqPu:VARIABLE(start = GEN_8_3.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
2283: GEN_8_3.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_8_3.AVR.firstOrderLim.I.y_start )  "Connector of Real output signal" type: Real
2284: GEN_7_5.GEN.lambdadPu:VARIABLE(start = GEN_7_5.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
2285: GEN_7_5.GEN.lambdaqPu:VARIABLE(start = GEN_7_5.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
2286: GEN_7_5.GEN.iqPu:VARIABLE(start = GEN_7_5.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
2287: GEN_7_5.GEN.idPu:VARIABLE(start = GEN_7_5.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
2288: GEN_7_5.GEN.port.u.im:VARIABLE(start = GEN_7_5.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
2289: GEN_7_5.GEN.port.u.re:VARIABLE(start = GEN_7_5.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
2290: GEN_7_5.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_7_5.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
2291: GEN_7_5.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_7_5.AVR.firstOrderLim.I.y_start )  "Connector of Real output signal" type: Real
2292: LOAD_7_4_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2293: GEN_7_4.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_7_4.AVR.firstOrderLim.I.y_start )  "Connector of Real output signal" type: Real
2294: GEN_7_4.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_7_4.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
2295: GEN_7_4.GEN.port.u.im:VARIABLE(start = GEN_7_4.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
2296: GEN_7_4.GEN.port.u.re:VARIABLE(start = GEN_7_4.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
2297: GEN_7_4.GEN.udPu:VARIABLE(start = GEN_7_4.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
2298: GEN_7_4.GEN.uqPu:VARIABLE(start = GEN_7_4.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
2299: GEN_7_4.GEN.iqPu:VARIABLE(start = GEN_7_4.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
2300: GEN_7_4.GEN.lambdadPu:VARIABLE(start = GEN_7_4.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
2301: GEN_7_4.GEN.idPu:VARIABLE(start = GEN_7_4.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
2302: GEN_7_4.GEN.lambdaqPu:VARIABLE(start = GEN_7_4.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
2303: LOAD_7_3_3.port.u.im:VARIABLE(start = LOAD_7_3_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2304: LOAD_7_3_3.port.u.re:VARIABLE(start = LOAD_7_3_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2305: LOAD_7_3_3.port.iGen.re:VARIABLE(start = -LOAD_7_3_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
2306: LINE_HV_7_3_4.vAt.im:VARIABLE(start = LINE_HV_7_3_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2307: LOAD_7_3_3.port.iGen.im:VARIABLE(start = -LOAD_7_3_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
2308: LINE_HV_7_3_4.vAt.re:VARIABLE(start = LINE_HV_7_3_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2309: LOAD_7_3_4.port.u.im:VARIABLE(start = LOAD_7_3_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2310: LOAD_7_3_4.port.u.re:VARIABLE(start = LOAD_7_3_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2311: LINE_HV_7_3_4.iB.re:VARIABLE(start = LINE_HV_7_3_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 )  "Real part of complex number" type: Real
2312: LINE_HV_7_3_4.vB.im:VARIABLE(start = LOAD_7_3_4.port.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2313: LINE_HV_7_3_4.iB.im:VARIABLE(start = LINE_HV_7_3_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 )  "Imaginary part of complex number" type: Real
2314: LINE_HV_7_3_4.vB.re:VARIABLE(start = LOAD_7_3_4.port.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2315: LOAD_7_3_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2316: LOAD_7_3_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2317: LOAD_7_3_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2318: LOAD_6_3_1.port.u.im:VARIABLE(start = LOAD_6_3_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2319: LOAD_6_3_1.port.u.re:VARIABLE(start = LOAD_6_3_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2320: LINE_HV_6_3_2.vAt.re:VARIABLE(start = LINE_HV_6_3_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2321: LOAD_6_3_1.port.iGen.re:VARIABLE(start = -LOAD_6_3_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
2322: LOAD_6_3_1.port.iGen.im:VARIABLE(start = -LOAD_6_3_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
2323: LINE_HV_6_3_2.vAt.im:VARIABLE(start = LINE_HV_6_3_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2324: LOAD_6_3_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2325: LOAD_6_3_2.port.u.im:VARIABLE(start = LOAD_6_3_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2326: LOAD_6_3_2.port.u.re:VARIABLE(start = LOAD_6_3_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2327: LINE_HV_6_3_3.vAt.re:VARIABLE(start = LINE_HV_6_3_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2328: LOAD_6_3_2.port.iGen.re:VARIABLE(start = -LOAD_6_3_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
2329: LOAD_6_3_2.port.iGen.im:VARIABLE(start = -LOAD_6_3_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
2330: LINE_HV_6_3_3.vAt.im:VARIABLE(start = LINE_HV_6_3_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2331: LOAD_6_3_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2332: LOAD_6_3_3.port.u.im:VARIABLE(start = LOAD_6_3_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2333: LOAD_6_3_3.port.u.re:VARIABLE(start = LOAD_6_3_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2334: LINE_HV_6_3_4.vAt.re:VARIABLE(start = LINE_HV_6_3_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2335: LOAD_6_3_3.port.iGen.re:VARIABLE(start = -LOAD_6_3_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
2336: LOAD_6_3_3.port.iGen.im:VARIABLE(start = -LOAD_6_3_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
2337: LINE_HV_6_3_4.vAt.im:VARIABLE(start = LINE_HV_6_3_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2338: LOAD_6_3_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2339: LOAD_6_3_4.port.u.im:VARIABLE(start = LOAD_6_3_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2340: LOAD_6_3_4.port.u.re:VARIABLE(start = LOAD_6_3_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2341: LINE_HV_6_3_4.vB.re:VARIABLE(start = LOAD_6_3_4.port.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2342: LINE_HV_6_3_4.iB.re:VARIABLE(start = LINE_HV_6_3_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 )  "Real part of complex number" type: Real
2343: LINE_HV_6_3_4.iB.im:VARIABLE(start = LINE_HV_6_3_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 )  "Imaginary part of complex number" type: Real
2344: LINE_HV_6_3_4.vB.im:VARIABLE(start = LOAD_6_3_4.port.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2345: LOAD_6_3_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2346: LOAD_7_2_1.port.u.im:VARIABLE(start = LOAD_7_2_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2347: LOAD_7_2_1.port.u.re:VARIABLE(start = LOAD_7_2_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2348: LINE_HV_7_2_2.vAt.re:VARIABLE(start = LINE_HV_7_2_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2349: LOAD_7_2_1.port.iGen.re:VARIABLE(start = -LOAD_7_2_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
2350: LOAD_7_2_1.port.iGen.im:VARIABLE(start = -LOAD_7_2_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
2351: LINE_HV_7_2_2.vAt.im:VARIABLE(start = LINE_HV_7_2_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2352: LOAD_7_2_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2353: LOAD_7_2_2.port.u.im:VARIABLE(start = LOAD_7_2_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2354: LOAD_7_2_2.port.u.re:VARIABLE(start = LOAD_7_2_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2355: LINE_HV_7_2_3.vAt.re:VARIABLE(start = LINE_HV_7_2_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2356: LOAD_7_2_2.port.iGen.re:VARIABLE(start = -LOAD_7_2_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
2357: LOAD_7_2_2.port.iGen.im:VARIABLE(start = -LOAD_7_2_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
2358: LINE_HV_7_2_3.vAt.im:VARIABLE(start = LINE_HV_7_2_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2359: LOAD_7_2_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2360: LOAD_7_2_3.port.u.im:VARIABLE(start = LOAD_7_2_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2361: LOAD_7_2_3.port.u.re:VARIABLE(start = LOAD_7_2_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2362: LINE_HV_7_2_4.vAt.re:VARIABLE(start = LINE_HV_7_2_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2363: LOAD_7_2_3.port.iGen.re:VARIABLE(start = -LOAD_7_2_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
2364: LOAD_7_2_3.port.iGen.im:VARIABLE(start = -LOAD_7_2_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
2365: LINE_HV_7_2_4.vAt.im:VARIABLE(start = LINE_HV_7_2_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2366: LOAD_7_2_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2367: LOAD_7_2_4.port.u.im:VARIABLE(start = LOAD_7_2_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2368: LOAD_7_2_4.port.u.re:VARIABLE(start = LOAD_7_2_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2369: LOAD_7_2_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2370: LINE_HV_7_2_4.vB.re:VARIABLE(start = LOAD_7_2_4.port.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2371: LINE_HV_7_2_4.iB.re:VARIABLE(start = LINE_HV_7_2_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 )  "Real part of complex number" type: Real
2372: LINE_HV_7_2_4.iB.im:VARIABLE(start = LINE_HV_7_2_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 )  "Imaginary part of complex number" type: Real
2373: LINE_HV_7_2_4.vB.im:VARIABLE(start = LOAD_7_2_4.port.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2374: GEN_8_2.GEN.udPu:VARIABLE(start = GEN_8_2.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
2375: GEN_8_2.GEN.uqPu:VARIABLE(start = GEN_8_2.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
2376: GEN_8_2.GEN.iqPu:VARIABLE(start = GEN_8_2.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
2377: GEN_8_2.GEN.lambdadPu:VARIABLE(start = GEN_8_2.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
2378: GEN_8_2.GEN.idPu:VARIABLE(start = GEN_8_2.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
2379: GEN_8_2.GEN.lambdaqPu:VARIABLE(start = GEN_8_2.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
2380: GEN_9_2.GEN.lambdadPu:VARIABLE(start = GEN_9_2.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
2381: GEN_9_2.GEN.lambdaqPu:VARIABLE(start = GEN_9_2.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
2382: GEN_9_2.GEN.udPu:VARIABLE(start = GEN_9_2.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
2383: GEN_9_2.GEN.uqPu:VARIABLE(start = GEN_9_2.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
2384: GEN_9_2.GEN.iqPu:VARIABLE(start = GEN_9_2.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
2385: GEN_9_2.GEN.idPu:VARIABLE(start = GEN_9_2.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
2386: LOAD_10_2_1.port.u.im:VARIABLE(start = LOAD_10_2_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2387: LOAD_10_2_1.port.u.re:VARIABLE(start = LOAD_10_2_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2388: LOAD_10_2_1.port.iGen.re:VARIABLE(start = -LOAD_10_2_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
2389: LINE_HV_10_2_2.vAt.im:VARIABLE(start = LINE_HV_10_2_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2390: LOAD_10_2_1.port.iGen.im:VARIABLE(start = -LOAD_10_2_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
2391: LINE_HV_10_2_2.vAt.re:VARIABLE(start = LINE_HV_10_2_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2392: LOAD_10_2_2.port.u.im:VARIABLE(start = LOAD_10_2_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2393: LOAD_10_2_2.port.u.re:VARIABLE(start = LOAD_10_2_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2394: LOAD_10_2_2.port.iGen.re:VARIABLE(start = -LOAD_10_2_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
2395: LINE_HV_10_2_3.vAt.im:VARIABLE(start = LINE_HV_10_2_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2396: LOAD_10_2_2.port.iGen.im:VARIABLE(start = -LOAD_10_2_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
2397: LINE_HV_10_2_3.vAt.re:VARIABLE(start = LINE_HV_10_2_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2398: LOAD_10_2_3.port.u.im:VARIABLE(start = LOAD_10_2_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2399: LOAD_10_2_3.port.u.re:VARIABLE(start = LOAD_10_2_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2400: LOAD_10_2_3.port.iGen.re:VARIABLE(start = -LOAD_10_2_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
2401: LINE_HV_10_2_4.vAt.im:VARIABLE(start = LINE_HV_10_2_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2402: LOAD_10_2_3.port.iGen.im:VARIABLE(start = -LOAD_10_2_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
2403: LINE_HV_10_2_4.vAt.re:VARIABLE(start = LINE_HV_10_2_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2404: LOAD_10_2_4.port.u.im:VARIABLE(start = LOAD_10_2_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2405: LOAD_10_2_4.port.u.re:VARIABLE(start = LOAD_10_2_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2406: LINE_HV_10_2_4.iB.re:VARIABLE(start = LINE_HV_10_2_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 )  "Real part of complex number" type: Real
2407: LINE_HV_10_2_4.vB.im:VARIABLE(start = LOAD_10_2_4.port.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2408: LINE_HV_10_2_4.iB.im:VARIABLE(start = LINE_HV_10_2_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 )  "Imaginary part of complex number" type: Real
2409: LINE_HV_10_2_4.vB.re:VARIABLE(start = LOAD_10_2_4.port.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2410: LOAD_10_2_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2411: LOAD_10_2_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2412: LOAD_10_2_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2413: LOAD_10_2_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2414: GEN_10_2.GEN.idPu:VARIABLE(start = GEN_10_2.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
2415: GEN_10_2.GEN.iqPu:VARIABLE(start = GEN_10_2.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
2416: GEN_10_3.GEN.port.u.im:VARIABLE(start = GEN_10_3.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
2417: GEN_10_3.GEN.port.u.re:VARIABLE(start = GEN_10_3.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
2418: GEN_10_3.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_10_3.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
2419: GEN_10_3.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_10_3.AVR.firstOrderLim.I.y_start )  "Connector of Real output signal" type: Real
2420: LOAD_10_5_2.port.u.im:VARIABLE(start = LOAD_10_5_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2421: LOAD_10_5_2.port.u.re:VARIABLE(start = LOAD_10_5_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2422: LOAD_10_5_2.port.iGen.re:VARIABLE(start = -LOAD_10_5_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
2423: LINE_HV_10_5_3.vAt.im:VARIABLE(start = LINE_HV_10_5_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2424: LOAD_10_5_2.port.iGen.im:VARIABLE(start = -LOAD_10_5_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
2425: LINE_HV_10_5_3.vAt.re:VARIABLE(start = LINE_HV_10_5_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2426: LOAD_10_5_3.port.u.im:VARIABLE(start = LOAD_10_5_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2427: LOAD_10_5_3.port.u.re:VARIABLE(start = LOAD_10_5_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2428: LINE_HV_10_5_4.vAt.re:VARIABLE(start = LINE_HV_10_5_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2429: LOAD_10_5_3.port.iGen.re:VARIABLE(start = -LOAD_10_5_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
2430: LOAD_10_5_3.port.iGen.im:VARIABLE(start = -LOAD_10_5_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
2431: LINE_HV_10_5_4.vAt.im:VARIABLE(start = LINE_HV_10_5_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2432: LOAD_10_5_4.port.u.im:VARIABLE(start = LOAD_10_5_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2433: LOAD_10_5_4.port.u.re:VARIABLE(start = LOAD_10_5_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2434: LINE_HV_10_5_4.iB.re:VARIABLE(start = LINE_HV_10_5_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 )  "Real part of complex number" type: Real
2435: LINE_HV_10_5_4.vB.im:VARIABLE(start = LOAD_10_5_4.port.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2436: LINE_HV_10_5_4.iB.im:VARIABLE(start = LINE_HV_10_5_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 )  "Imaginary part of complex number" type: Real
2437: LINE_HV_10_5_4.vB.re:VARIABLE(start = LOAD_10_5_4.port.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2438: LOAD_10_5_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2439: LOAD_10_5_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2440: LOAD_10_5_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2441: LOAD_10_5_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2442: GEN_11_5.GEN.lambdadPu:VARIABLE(start = GEN_11_5.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
2443: GEN_11_5.GEN.lambdaqPu:VARIABLE(start = GEN_11_5.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
2444: GEN_11_5.GEN.idPu:VARIABLE(start = GEN_11_5.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
2445: GEN_11_5.GEN.iqPu:VARIABLE(start = GEN_11_5.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
2446: LOAD_7_5_3.port.u.im:VARIABLE(start = LOAD_7_5_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2447: LOAD_7_5_3.port.u.re:VARIABLE(start = LOAD_7_5_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2448: LOAD_7_5_3.port.iGen.re:VARIABLE(start = -LOAD_7_5_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
2449: LINE_HV_7_5_4.vAt.im:VARIABLE(start = LINE_HV_7_5_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2450: LOAD_7_5_3.port.iGen.im:VARIABLE(start = -LOAD_7_5_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
2451: LINE_HV_7_5_4.vAt.re:VARIABLE(start = LINE_HV_7_5_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2452: LINE_HV_7_5_4.vB.re:VARIABLE(start = LOAD_7_5_4.port.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2453: LINE_HV_7_5_4.iB.re:VARIABLE(start = LINE_HV_7_5_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 )  "Real part of complex number" type: Real
2454: LINE_HV_7_5_4.iB.im:VARIABLE(start = LINE_HV_7_5_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 )  "Imaginary part of complex number" type: Real
2455: LINE_HV_7_5_4.vB.im:VARIABLE(start = LOAD_7_5_4.port.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2456: LOAD_7_5_4.port.u.im:VARIABLE(start = LOAD_7_5_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2457: LOAD_7_5_4.port.u.re:VARIABLE(start = LOAD_7_5_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2458: LOAD_7_5_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2459: LOAD_7_5_2.port.u.im:VARIABLE(start = LOAD_7_5_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2460: LOAD_7_5_2.port.u.re:VARIABLE(start = LOAD_7_5_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2461: LOAD_7_5_2.port.iGen.re:VARIABLE(start = -LOAD_7_5_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
2462: LINE_HV_7_5_3.vAt.im:VARIABLE(start = LINE_HV_7_5_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2463: LOAD_7_5_2.port.iGen.im:VARIABLE(start = -LOAD_7_5_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
2464: LINE_HV_7_5_3.vAt.re:VARIABLE(start = LINE_HV_7_5_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2465: LOAD_7_5_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2466: LOAD_7_5_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2467: LOAD_7_5_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2468: GEN_6_5.GEN.port.u.im:VARIABLE(start = GEN_6_5.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
2469: GEN_6_5.GEN.port.u.re:VARIABLE(start = GEN_6_5.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
2470: GEN_6_5.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_6_5.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
2471: GEN_6_5.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_6_5.AVR.firstOrderLim.I.y_start )  "Connector of Real output signal" type: Real
2472: GEN_6_5.GEN.iqPu:VARIABLE(start = GEN_6_5.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
2473: GEN_6_5.GEN.lambdadPu:VARIABLE(start = GEN_6_5.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
2474: GEN_6_5.GEN.idPu:VARIABLE(start = GEN_6_5.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
2475: GEN_6_5.GEN.lambdaqPu:VARIABLE(start = GEN_6_5.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
2476: LOAD_4_4_1.port.u.im:VARIABLE(start = LOAD_4_4_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2477: LOAD_4_4_1.port.u.re:VARIABLE(start = LOAD_4_4_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2478: LOAD_4_4_1.port.iGen.re:VARIABLE(start = -LOAD_4_4_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
2479: LINE_HV_4_4_2.vAt.im:VARIABLE(start = LINE_HV_4_4_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2480: LOAD_4_4_1.port.iGen.im:VARIABLE(start = -LOAD_4_4_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
2481: LINE_HV_4_4_2.vAt.re:VARIABLE(start = LINE_HV_4_4_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2482: LOAD_4_4_2.port.u.im:VARIABLE(start = LOAD_4_4_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2483: LOAD_4_4_2.port.u.re:VARIABLE(start = LOAD_4_4_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2484: LINE_HV_4_4_3.vAt.re:VARIABLE(start = LINE_HV_4_4_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2485: LOAD_4_4_2.port.iGen.re:VARIABLE(start = -LOAD_4_4_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
2486: LOAD_4_4_2.port.iGen.im:VARIABLE(start = -LOAD_4_4_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
2487: LINE_HV_4_4_3.vAt.im:VARIABLE(start = LINE_HV_4_4_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2488: LOAD_4_4_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2489: LOAD_4_4_3.port.u.im:VARIABLE(start = LOAD_4_4_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2490: LOAD_4_4_3.port.u.re:VARIABLE(start = LOAD_4_4_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2491: LINE_HV_4_4_4.vAt.re:VARIABLE(start = LINE_HV_4_4_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2492: LOAD_4_4_3.port.iGen.re:VARIABLE(start = -LOAD_4_4_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
2493: LOAD_4_4_3.port.iGen.im:VARIABLE(start = -LOAD_4_4_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
2494: LINE_HV_4_4_4.vAt.im:VARIABLE(start = LINE_HV_4_4_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2495: LOAD_4_4_4.port.u.im:VARIABLE(start = LOAD_4_4_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2496: LOAD_4_4_4.port.u.re:VARIABLE(start = LOAD_4_4_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2497: LINE_HV_4_4_4.vB.re:VARIABLE(start = LOAD_4_4_4.port.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2498: LINE_HV_4_4_4.iB.re:VARIABLE(start = LINE_HV_4_4_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 )  "Real part of complex number" type: Real
2499: LINE_HV_4_4_4.iB.im:VARIABLE(start = LINE_HV_4_4_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 )  "Imaginary part of complex number" type: Real
2500: LINE_HV_4_4_4.vB.im:VARIABLE(start = LOAD_4_4_4.port.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2501: LOAD_4_4_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2502: LOAD_4_4_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2503: LOAD_4_4_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2504: LOAD_4_3_1.port.u.im:VARIABLE(start = LOAD_4_3_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2505: LOAD_4_3_1.port.u.re:VARIABLE(start = LOAD_4_3_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2506: LINE_HV_4_3_2.vAt.re:VARIABLE(start = LINE_HV_4_3_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2507: LOAD_4_3_1.port.iGen.re:VARIABLE(start = -LOAD_4_3_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
2508: LOAD_4_3_1.port.iGen.im:VARIABLE(start = -LOAD_4_3_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
2509: LINE_HV_4_3_2.vAt.im:VARIABLE(start = LINE_HV_4_3_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2510: LOAD_4_3_2.port.u.im:VARIABLE(start = LOAD_4_3_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2511: LOAD_4_3_2.port.u.re:VARIABLE(start = LOAD_4_3_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2512: LINE_HV_4_3_3.vAt.re:VARIABLE(start = LINE_HV_4_3_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2513: LOAD_4_3_2.port.iGen.re:VARIABLE(start = -LOAD_4_3_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
2514: LOAD_4_3_2.port.iGen.im:VARIABLE(start = -LOAD_4_3_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
2515: LINE_HV_4_3_3.vAt.im:VARIABLE(start = LINE_HV_4_3_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2516: LOAD_4_3_3.port.u.im:VARIABLE(start = LOAD_4_3_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2517: LOAD_4_3_3.port.u.re:VARIABLE(start = LOAD_4_3_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2518: LINE_HV_4_3_4.vAt.re:VARIABLE(start = LINE_HV_4_3_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2519: LOAD_4_3_3.port.iGen.re:VARIABLE(start = -LOAD_4_3_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
2520: LOAD_4_3_3.port.iGen.im:VARIABLE(start = -LOAD_4_3_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
2521: LINE_HV_4_3_4.vAt.im:VARIABLE(start = LINE_HV_4_3_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2522: LOAD_4_3_4.port.u.im:VARIABLE(start = LOAD_4_3_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2523: LOAD_4_3_4.port.u.re:VARIABLE(start = LOAD_4_3_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2524: LINE_HV_4_3_4.iB.re:VARIABLE(start = LINE_HV_4_3_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 )  "Real part of complex number" type: Real
2525: LINE_HV_4_3_4.vB.im:VARIABLE(start = LOAD_4_3_4.port.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2526: LINE_HV_4_3_4.iB.im:VARIABLE(start = LINE_HV_4_3_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 )  "Imaginary part of complex number" type: Real
2527: LINE_HV_4_3_4.vB.re:VARIABLE(start = LOAD_4_3_4.port.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2528: LOAD_4_3_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2529: LOAD_4_3_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2530: LOAD_4_3_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2531: LOAD_4_3_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2532: LOAD_2_4_1.port.u.im:VARIABLE(start = LOAD_2_4_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2533: LOAD_2_4_1.port.u.re:VARIABLE(start = LOAD_2_4_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2534: LINE_HV_2_4_2.vAt.re:VARIABLE(start = LINE_HV_2_4_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2535: LOAD_2_4_1.port.iGen.re:VARIABLE(start = -LOAD_2_4_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
2536: LOAD_2_4_1.port.iGen.im:VARIABLE(start = -LOAD_2_4_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
2537: LINE_HV_2_4_2.vAt.im:VARIABLE(start = LINE_HV_2_4_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2538: LOAD_2_4_2.port.u.im:VARIABLE(start = LOAD_2_4_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2539: LOAD_2_4_2.port.u.re:VARIABLE(start = LOAD_2_4_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2540: LINE_HV_2_4_3.vAt.re:VARIABLE(start = LINE_HV_2_4_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2541: LOAD_2_4_2.port.iGen.re:VARIABLE(start = -LOAD_2_4_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
2542: LOAD_2_4_2.port.iGen.im:VARIABLE(start = -LOAD_2_4_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
2543: LINE_HV_2_4_3.vAt.im:VARIABLE(start = LINE_HV_2_4_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2544: LOAD_2_4_3.port.u.im:VARIABLE(start = LOAD_2_4_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2545: LOAD_2_4_3.port.u.re:VARIABLE(start = LOAD_2_4_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2546: LINE_HV_2_4_4.vAt.re:VARIABLE(start = LINE_HV_2_4_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2547: LOAD_2_4_3.port.iGen.re:VARIABLE(start = -LOAD_2_4_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
2548: LOAD_2_4_3.port.iGen.im:VARIABLE(start = -LOAD_2_4_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
2549: LINE_HV_2_4_4.vAt.im:VARIABLE(start = LINE_HV_2_4_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2550: LOAD_2_4_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2551: LOAD_2_4_4.port.u.im:VARIABLE(start = LOAD_2_4_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2552: LOAD_2_4_4.port.u.re:VARIABLE(start = LOAD_2_4_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2553: LINE_HV_2_4_4.iB.re:VARIABLE(start = LINE_HV_2_4_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 )  "Real part of complex number" type: Real
2554: LINE_HV_2_4_4.vB.im:VARIABLE(start = LOAD_2_4_4.port.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2555: LINE_HV_2_4_4.iB.im:VARIABLE(start = LINE_HV_2_4_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 )  "Imaginary part of complex number" type: Real
2556: LINE_HV_2_4_4.vB.re:VARIABLE(start = LOAD_2_4_4.port.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2557: LOAD_2_4_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2558: LOAD_2_4_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2559: LOAD_2_4_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2560: GEN_5_3.GEN.port.u.im:VARIABLE(start = GEN_5_3.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
2561: GEN_5_3.GEN.port.u.re:VARIABLE(start = GEN_5_3.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
2562: GEN_5_3.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_5_3.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
2563: GEN_5_3.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_5_3.AVR.firstOrderLim.I.y_start )  "Connector of Real output signal" type: Real
2564: GEN_5_3.GEN.iqPu:VARIABLE(start = GEN_5_3.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
2565: GEN_5_3.GEN.lambdadPu:VARIABLE(start = GEN_5_3.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
2566: GEN_5_3.GEN.idPu:VARIABLE(start = GEN_5_3.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
2567: GEN_5_3.GEN.lambdaqPu:VARIABLE(start = GEN_5_3.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
2568: 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
2569: GEN_4_2.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_4_2.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
2570: GEN_4_2.GEN.port.u.im:VARIABLE(start = GEN_4_2.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
2571: GEN_4_2.GEN.port.u.re:VARIABLE(start = GEN_4_2.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
2572: GEN_4_2.GEN.uqPu:VARIABLE(start = GEN_4_2.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
2573: GEN_4_2.GEN.udPu:VARIABLE(start = GEN_4_2.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
2574: GEN_4_2.GEN.iqPu:VARIABLE(start = GEN_4_2.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
2575: GEN_4_2.GEN.lambdadPu:VARIABLE(start = GEN_4_2.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
2576: GEN_4_2.GEN.idPu:VARIABLE(start = GEN_4_2.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
2577: GEN_4_2.GEN.lambdaqPu:VARIABLE(start = GEN_4_2.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
2578: LOAD_5_2_1.port.u.im:VARIABLE(start = LOAD_5_2_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2579: LOAD_5_2_1.port.u.re:VARIABLE(start = LOAD_5_2_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2580: LOAD_5_2_1.port.iGen.re:VARIABLE(start = -LOAD_5_2_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
2581: LINE_HV_5_2_2.vAt.im:VARIABLE(start = LINE_HV_5_2_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2582: LOAD_5_2_1.port.iGen.im:VARIABLE(start = -LOAD_5_2_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
2583: LINE_HV_5_2_2.vAt.re:VARIABLE(start = LINE_HV_5_2_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2584: LOAD_5_2_2.port.u.im:VARIABLE(start = LOAD_5_2_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2585: LOAD_5_2_2.port.u.re:VARIABLE(start = LOAD_5_2_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2586: LOAD_5_2_2.port.iGen.re:VARIABLE(start = -LOAD_5_2_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
2587: LINE_HV_5_2_3.vAt.im:VARIABLE(start = LINE_HV_5_2_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2588: LOAD_5_2_2.port.iGen.im:VARIABLE(start = -LOAD_5_2_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
2589: LINE_HV_5_2_3.vAt.re:VARIABLE(start = LINE_HV_5_2_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2590: LOAD_5_2_3.port.u.im:VARIABLE(start = LOAD_5_2_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2591: LOAD_5_2_3.port.u.re:VARIABLE(start = LOAD_5_2_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2592: LOAD_5_2_3.port.iGen.re:VARIABLE(start = -LOAD_5_2_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
2593: LINE_HV_5_2_4.vAt.im:VARIABLE(start = LINE_HV_5_2_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2594: LOAD_5_2_3.port.iGen.im:VARIABLE(start = -LOAD_5_2_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
2595: LINE_HV_5_2_4.vAt.re:VARIABLE(start = LINE_HV_5_2_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2596: LOAD_5_2_4.port.u.im:VARIABLE(start = LOAD_5_2_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2597: LOAD_5_2_4.port.u.re:VARIABLE(start = LOAD_5_2_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2598: LINE_HV_5_2_4.iB.re:VARIABLE(start = LINE_HV_5_2_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 )  "Real part of complex number" type: Real
2599: LINE_HV_5_2_4.vB.im:VARIABLE(start = LOAD_5_2_4.port.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2600: LINE_HV_5_2_4.iB.im:VARIABLE(start = LINE_HV_5_2_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 )  "Imaginary part of complex number" type: Real
2601: LINE_HV_5_2_4.vB.re:VARIABLE(start = LOAD_5_2_4.port.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2602: LOAD_5_2_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2603: LOAD_5_2_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2604: LOAD_5_2_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2605: LOAD_5_2_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2606: LOAD_4_2_1.port.u.im:VARIABLE(start = LOAD_4_2_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2607: LOAD_4_2_1.port.u.re:VARIABLE(start = LOAD_4_2_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2608: 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
2609: LOAD_4_2_1.port.iGen.re:VARIABLE(start = -LOAD_4_2_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
2610: LOAD_4_2_1.port.iGen.im:VARIABLE(start = -LOAD_4_2_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
2611: 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
2612: LOAD_4_2_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2613: LOAD_4_2_2.port.u.im:VARIABLE(start = LOAD_4_2_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2614: LOAD_4_2_2.port.u.re:VARIABLE(start = LOAD_4_2_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2615: 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
2616: LOAD_4_2_2.port.iGen.re:VARIABLE(start = -LOAD_4_2_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
2617: LOAD_4_2_2.port.iGen.im:VARIABLE(start = -LOAD_4_2_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
2618: 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
2619: LOAD_4_2_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2620: LOAD_4_2_3.port.u.im:VARIABLE(start = LOAD_4_2_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2621: LOAD_4_2_3.port.u.re:VARIABLE(start = LOAD_4_2_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2622: 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
2623: LOAD_4_2_3.port.iGen.re:VARIABLE(start = -LOAD_4_2_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
2624: LOAD_4_2_3.port.iGen.im:VARIABLE(start = -LOAD_4_2_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
2625: 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
2626: LOAD_4_2_4.port.u.im:VARIABLE(start = LOAD_4_2_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2627: LOAD_4_2_4.port.u.re:VARIABLE(start = LOAD_4_2_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2628: 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
2629: 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
2630: 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
2631: 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
2632: LOAD_4_2_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2633: LOAD_4_2_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2634: LOAD_2_1_1.port.u.im:VARIABLE(start = LOAD_2_1_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2635: LOAD_2_1_1.port.u.re:VARIABLE(start = LOAD_2_1_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2636: LOAD_2_1_1.port.iGen.re:VARIABLE(start = -LOAD_2_1_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
2637: 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
2638: LOAD_2_1_1.port.iGen.im:VARIABLE(start = -LOAD_2_1_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
2639: 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
2640: LOAD_2_1_2.port.u.im:VARIABLE(start = LOAD_2_1_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2641: LOAD_2_1_2.port.u.re:VARIABLE(start = LOAD_2_1_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2642: 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
2643: LOAD_2_1_2.port.iGen.re:VARIABLE(start = -LOAD_2_1_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
2644: LOAD_2_1_2.port.iGen.im:VARIABLE(start = -LOAD_2_1_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
2645: 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
2646: LOAD_2_1_4.port.u.im:VARIABLE(start = LOAD_2_1_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2647: LOAD_2_1_4.port.u.re:VARIABLE(start = LOAD_2_1_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2648: 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
2649: 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
2650: 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
2651: 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
2652: LOAD_2_1_3.port.u.im:VARIABLE(start = LOAD_2_1_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2653: LOAD_2_1_3.port.u.re:VARIABLE(start = LOAD_2_1_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2654: LOAD_2_1_3.port.iGen.re:VARIABLE(start = -LOAD_2_1_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
2655: 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
2656: LOAD_2_1_3.port.iGen.im:VARIABLE(start = -LOAD_2_1_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
2657: 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
2658: LOAD_2_1_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2659: LOAD_2_1_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2660: LOAD_2_1_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2661: LOAD_2_1_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2662: 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
2663: 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
2664: 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
2665: 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
2666: LOAD_4_1_4.port.u.im:VARIABLE(start = LOAD_4_1_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2667: LOAD_4_1_4.port.u.re:VARIABLE(start = LOAD_4_1_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2668: LOAD_4_1_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2669: LOAD_4_1_3.port.u.im:VARIABLE(start = LOAD_4_1_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2670: LOAD_4_1_3.port.u.re:VARIABLE(start = LOAD_4_1_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2671: 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
2672: LOAD_4_1_3.port.iGen.re:VARIABLE(start = -LOAD_4_1_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
2673: LOAD_4_1_3.port.iGen.im:VARIABLE(start = -LOAD_4_1_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
2674: 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
2675: LOAD_4_1_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2676: LOAD_4_1_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2677: LOAD_4_1_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2678: GEN_3_1.GEN.lambdadPu:VARIABLE(start = GEN_3_1.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
2679: GEN_3_1.GEN.lambdaqPu:VARIABLE(start = GEN_3_1.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
2680: GEN_3_1.GEN.udPu:VARIABLE(start = GEN_3_1.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
2681: GEN_3_1.GEN.uqPu:VARIABLE(start = GEN_3_1.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
2682: GEN_3_1.GEN.idPu:VARIABLE(start = GEN_3_1.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
2683: GEN_3_1.GEN.iqPu:VARIABLE(start = GEN_3_1.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
2684: GEN_5_1.GEN.udPu:VARIABLE(start = GEN_5_1.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
2685: GEN_5_1.GEN.uqPu:VARIABLE(start = GEN_5_1.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
2686: GEN_5_1.GEN.lambdadPu:VARIABLE(start = GEN_5_1.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
2687: GEN_5_1.GEN.lambdaqPu:VARIABLE(start = GEN_5_1.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
2688: GEN_5_1.GEN.iqPu:VARIABLE(start = GEN_5_1.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
2689: GEN_5_1.GEN.idPu:VARIABLE(start = GEN_5_1.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
2690: LOAD_5_1_2.port.u.im:VARIABLE(start = LOAD_5_1_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2691: LOAD_5_1_2.port.u.re:VARIABLE(start = LOAD_5_1_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2692: LINE_HV_5_1_3.vAt.re:VARIABLE(start = LINE_HV_5_1_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2693: LOAD_5_1_2.port.iGen.re:VARIABLE(start = -LOAD_5_1_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
2694: LOAD_5_1_2.port.iGen.im:VARIABLE(start = -LOAD_5_1_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
2695: LINE_HV_5_1_3.vAt.im:VARIABLE(start = LINE_HV_5_1_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2696: LOAD_5_1_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2697: LOAD_5_1_3.port.u.im:VARIABLE(start = LOAD_5_1_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2698: LOAD_5_1_3.port.u.re:VARIABLE(start = LOAD_5_1_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2699: LOAD_5_1_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2700: LINE_HV_5_1_4.vAt.re:VARIABLE(start = LINE_HV_5_1_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2701: LOAD_5_1_3.port.iGen.re:VARIABLE(start = -LOAD_5_1_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
2702: LOAD_5_1_3.port.iGen.im:VARIABLE(start = -LOAD_5_1_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
2703: LINE_HV_5_1_4.vAt.im:VARIABLE(start = LINE_HV_5_1_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2704: LOAD_5_1_4.port.u.im:VARIABLE(start = LOAD_5_1_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2705: LOAD_5_1_4.port.u.re:VARIABLE(start = LOAD_5_1_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2706: LOAD_5_1_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2707: LINE_HV_5_1_4.vB.re:VARIABLE(start = LOAD_5_1_4.port.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2708: LINE_HV_5_1_4.iB.re:VARIABLE(start = LINE_HV_5_1_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 )  "Real part of complex number" type: Real
2709: LINE_HV_5_1_4.iB.im:VARIABLE(start = LINE_HV_5_1_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 )  "Imaginary part of complex number" type: Real
2710: LINE_HV_5_1_4.vB.im:VARIABLE(start = LOAD_5_1_4.port.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2711: LOAD_5_1_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2712: GEN_5_2.GEN.port.u.im:VARIABLE(start = GEN_5_2.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
2713: GEN_5_2.GEN.port.u.re:VARIABLE(start = GEN_5_2.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
2714: GEN_5_2.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_5_2.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
2715: GEN_5_2.GEN.iqPu:VARIABLE(start = GEN_5_2.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
2716: GEN_5_2.GEN.lambdadPu:VARIABLE(start = GEN_5_2.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
2717: GEN_5_2.GEN.idPu:VARIABLE(start = GEN_5_2.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
2718: GEN_5_2.GEN.lambdaqPu:VARIABLE(start = GEN_5_2.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
2719: GEN_5_2.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_5_2.AVR.firstOrderLim.I.y_start )  "Connector of Real output signal" type: Real
2720: LOAD_6_1_1.port.u.im:VARIABLE(start = LOAD_6_1_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2721: LOAD_6_1_1.port.u.re:VARIABLE(start = LOAD_6_1_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2722: LOAD_6_1_1.port.iGen.re:VARIABLE(start = -LOAD_6_1_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
2723: LINE_HV_6_1_2.vAt.im:VARIABLE(start = LINE_HV_6_1_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2724: LOAD_6_1_1.port.iGen.im:VARIABLE(start = -LOAD_6_1_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
2725: LINE_HV_6_1_2.vAt.re:VARIABLE(start = LINE_HV_6_1_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2726: LOAD_6_1_2.port.u.im:VARIABLE(start = LOAD_6_1_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2727: LOAD_6_1_2.port.u.re:VARIABLE(start = LOAD_6_1_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2728: LINE_HV_6_1_3.vAt.re:VARIABLE(start = LINE_HV_6_1_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2729: LOAD_6_1_2.port.iGen.re:VARIABLE(start = -LOAD_6_1_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
2730: LOAD_6_1_2.port.iGen.im:VARIABLE(start = -LOAD_6_1_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
2731: LINE_HV_6_1_3.vAt.im:VARIABLE(start = LINE_HV_6_1_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2732: LOAD_6_1_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2733: LOAD_6_1_3.port.u.im:VARIABLE(start = LOAD_6_1_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2734: LOAD_6_1_3.port.u.re:VARIABLE(start = LOAD_6_1_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2735: LINE_HV_6_1_4.vAt.re:VARIABLE(start = LINE_HV_6_1_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2736: LOAD_6_1_3.port.iGen.re:VARIABLE(start = -LOAD_6_1_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
2737: LOAD_6_1_3.port.iGen.im:VARIABLE(start = -LOAD_6_1_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
2738: LINE_HV_6_1_4.vAt.im:VARIABLE(start = LINE_HV_6_1_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2739: LOAD_6_1_4.port.u.im:VARIABLE(start = LOAD_6_1_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2740: LOAD_6_1_4.port.u.re:VARIABLE(start = LOAD_6_1_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2741: LINE_HV_6_1_4.vB.re:VARIABLE(start = LOAD_6_1_4.port.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2742: LINE_HV_6_1_4.iB.re:VARIABLE(start = LINE_HV_6_1_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 )  "Real part of complex number" type: Real
2743: LINE_HV_6_1_4.iB.im:VARIABLE(start = LINE_HV_6_1_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 )  "Imaginary part of complex number" type: Real
2744: LINE_HV_6_1_4.vB.im:VARIABLE(start = LOAD_6_1_4.port.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2745: LOAD_6_1_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2746: LOAD_6_1_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2747: LOAD_6_1_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2748: GEN_6_1.GEN.port.u.im:VARIABLE(start = GEN_6_1.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
2749: GEN_6_1.GEN.port.u.re:VARIABLE(start = GEN_6_1.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
2750: GEN_6_1.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_6_1.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
2751: GEN_6_1.GEN.iqPu:VARIABLE(start = GEN_6_1.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
2752: GEN_6_1.GEN.lambdadPu:VARIABLE(start = GEN_6_1.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
2753: GEN_6_1.GEN.idPu:VARIABLE(start = GEN_6_1.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
2754: GEN_6_1.GEN.lambdaqPu:VARIABLE(start = GEN_6_1.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
2755: GEN_6_1.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_6_1.AVR.firstOrderLim.I.y_start )  "Connector of Real output signal" type: Real
2756: LOAD_7_1_2.port.u.im:VARIABLE(start = LOAD_7_1_2.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2757: LOAD_7_1_2.port.u.re:VARIABLE(start = LOAD_7_1_2.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2758: LOAD_7_1_2.port.iGen.re:VARIABLE(start = -LOAD_7_1_2.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
2759: LINE_HV_7_1_3.vAt.im:VARIABLE(start = LINE_HV_7_1_2.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2760: LOAD_7_1_2.port.iGen.im:VARIABLE(start = -LOAD_7_1_2.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
2761: LINE_HV_7_1_3.vAt.re:VARIABLE(start = LINE_HV_7_1_2.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2762: LOAD_7_1_1.port.u.im:VARIABLE(start = LOAD_7_1_1.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2763: LOAD_7_1_1.port.u.re:VARIABLE(start = LOAD_7_1_1.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2764: LINE_HV_7_1_2.vAt.re:VARIABLE(start = LINE_HV_7_1_1.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2765: LOAD_7_1_1.port.iGen.re:VARIABLE(start = -LOAD_7_1_1.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
2766: LOAD_7_1_1.port.iGen.im:VARIABLE(start = -LOAD_7_1_1.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
2767: LINE_HV_7_1_2.vAt.im:VARIABLE(start = LINE_HV_7_1_1.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2768: LOAD_7_1_1.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2769: LOAD_7_1_3.port.u.im:VARIABLE(start = LOAD_7_1_3.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2770: LOAD_7_1_3.port.u.re:VARIABLE(start = LOAD_7_1_3.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2771: LOAD_7_1_3.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2772: LINE_HV_7_1_4.vAt.re:VARIABLE(start = LINE_HV_7_1_3.portB.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2773: LOAD_7_1_3.port.iGen.re:VARIABLE(start = -LOAD_7_1_3.port.iStart.re unit = "A" nominal = 2291.0724967842293 )  "Real part of complex number" type: Real
2774: LOAD_7_1_3.port.iGen.im:VARIABLE(start = -LOAD_7_1_3.port.iStart.im unit = "A" nominal = 2291.0724967842293 )  "Imaginary part of complex number" type: Real
2775: LINE_HV_7_1_4.vAt.im:VARIABLE(start = LINE_HV_7_1_3.portB.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2776: LOAD_7_1_4.port.u.im:VARIABLE(start = LOAD_7_1_4.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Imaginary part of complex number" type: Real
2777: LOAD_7_1_4.port.u.re:VARIABLE(start = LOAD_7_1_4.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 63000.0 )  "Real part of complex number" type: Real
2778: LINE_HV_7_1_4.vB.re:VARIABLE(start = LOAD_7_1_4.port.vStart.re unit = "V" nominal = 36373.06695894642 )  "Real part of complex number" type: Real
2779: LINE_HV_7_1_4.iB.re:VARIABLE(start = LINE_HV_7_1_4.portB.iStart.re unit = "A" nominal = 9164.289987136917 )  "Real part of complex number" type: Real
2780: LINE_HV_7_1_4.iB.im:VARIABLE(start = LINE_HV_7_1_4.portB.iStart.im unit = "A" nominal = 9164.289987136917 )  "Imaginary part of complex number" type: Real
2781: LINE_HV_7_1_4.vB.im:VARIABLE(start = LOAD_7_1_4.port.vStart.im unit = "V" nominal = 36373.06695894642 )  "Imaginary part of complex number" type: Real
2782: LOAD_7_1_4.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2783: LOAD_7_1_2.U_URef:VARIABLE(start = 1.0 unit = "1" )  "Ratio between voltage and reference voltage" type: Real
2784: GEN_7_1.GEN.iqPu:VARIABLE(start = GEN_7_1.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
2785: GEN_7_1.GEN.lambdadPu:VARIABLE(start = GEN_7_1.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
2786: GEN_7_1.GEN.idPu:VARIABLE(start = GEN_7_1.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
2787: GEN_7_1.GEN.lambdaqPu:VARIABLE(start = GEN_7_1.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
2788: GEN_8_1.GEN.idPu:VARIABLE(start = GEN_8_1.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
2789: GEN_8_1.GEN.iqPu:VARIABLE(start = GEN_8_1.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
2790: GEN_6_2.GEN.port.u.im:VARIABLE(start = GEN_6_2.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
2791: GEN_6_2.GEN.port.u.re:VARIABLE(start = GEN_6_2.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
2792: GEN_6_2.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_6_2.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
2793: GEN_6_2.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_6_2.AVR.firstOrderLim.I.y_start )  "Connector of Real output signal" type: Real
2794: GEN_6_2.GEN.iqPu:VARIABLE(start = GEN_6_2.GEN.iqPuStart unit = "1" )  "Current of quadrature axis in p.u." type: Real
2795: GEN_6_2.GEN.lambdadPu:VARIABLE(start = GEN_6_2.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
2796: GEN_6_2.GEN.idPu:VARIABLE(start = GEN_6_2.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
2797: GEN_6_2.GEN.lambdaqPu:VARIABLE(start = GEN_6_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 NLSJac649. (2)
========================================
1: GEN_6_3.AVR.firstOrderLim.G.y:VARIABLE(flow=false )  "Output signal connector" type: Real
2: GEN_6_3.AVR.inputLimiter.u:VARIABLE(flow=false )  "Connector of Real input signal" type: Real


Nonlinear iteration variables with predefined start attribute in NLSJac649. (11)
========================================
1: GEN_6_3.GEN.theta:VARIABLE(start = GEN_6_3.GEN.thetaStart unit = "rad" )  "Rotation between machine rotor frame and port phasor frame" type: Real
2: GEN_6_3.GEN.uqPu:VARIABLE(start = GEN_6_3.GEN.uqPuStart unit = "1" )  "Voltage of quadrature axis in p.u." type: Real
3: GEN_6_3.GEN.udPu:VARIABLE(start = GEN_6_3.GEN.udPuStart unit = "1" )  "Voltage of direct axis in p.u." type: Real
4: GEN_6_3.AVR.firstOrderLim.I.y:VARIABLE(flow=false start = GEN_6_3.AVR.firstOrderLim.I.y_start )  "Connector of Real output signal" type: Real
5: GEN_6_3.AVR.variableLimiter.u:VARIABLE(flow=false start = GEN_6_3.AVR.leadLag.yStart )  "Connector of Real input signal" type: Real
6: GEN_6_3.GEN.port.u.im:VARIABLE(start = GEN_6_3.GEN.port.vStart.im * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Imaginary part of complex number" type: Real
7: GEN_6_3.GEN.port.u.re:VARIABLE(start = GEN_6_3.GEN.port.vStart.re * 1.7320508075688772 unit = "V" nominal = 21000.0 )  "Real part of complex number" type: Real
8: GEN_6_3.GEN.lambdadPu:VARIABLE(start = GEN_6_3.GEN.lambdadPuStart unit = "1" )  "Flux of direct axis in p.u." type: Real
9: GEN_6_3.GEN.lambdaqPu:VARIABLE(start = GEN_6_3.GEN.lambdaqPuStart unit = "1" )  "Flux of quadrature axis in p.u." type: Real
10: GEN_6_3.GEN.idPu:VARIABLE(start = GEN_6_3.GEN.idPuStart unit = "1" )  "Current of direct axis in p.u." type: Real
11: GEN_6_3.GEN.iqPu:VARIABLE(start = GEN_6_3.GEN.iqPuStart unit = "1" )  "Current 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")

mmap(PROT_NONE) failed
Aborted (core dumped)
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.