Running: ./testmodel.py --libraries=/home/hudson/saved_omc/libraries/.openmodelica/libraries --ompython_omhome=/usr Buildings_3.0.0_Buildings.Electrical.AC.ThreePhasesBalanced.Lines.Examples.ACLine.conf.json
loadFile("/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica_StateGraph2 2.0.2/package.mo", uses=false)
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/Buildings 3.0.0/package.mo", uses=false)
Using package Buildings with version 3.0.0 (/home/hudson/saved_omc/libraries/.openmodelica/libraries/Buildings 3.0.0/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)
Using package Modelica_StateGraph2 with version 2.0.2 (/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica_StateGraph2 2.0.2/package.mo)
Running command: translateModel(Buildings.Electrical.AC.ThreePhasesBalanced.Lines.Examples.ACLine,tolerance=1e-06,outputFormat="empty",numberOfIntervals=5000,variableFilter="",fileNamePrefix="Buildings_3.0.0_Buildings.Electrical.AC.ThreePhasesBalanced.Lines.Examples.ACLine")
translateModel(Buildings.Electrical.AC.ThreePhasesBalanced.Lines.Examples.ACLine,tolerance=1e-06,outputFormat="empty",numberOfIntervals=5000,variableFilter="",fileNamePrefix="Buildings_3.0.0_Buildings.Electrical.AC.ThreePhasesBalanced.Lines.Examples.ACLine")
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica_StateGraph2 2.0.2/package.mo:257:38-257:110:writable] Warning: The file was not encoded in UTF-8:
  "<html> <p> An important practical aspect of state machines is the abilit...".
  Defaulting to 7-bit ASCII with unknown characters replaced by '?'.
  To change encoding when loading a file: loadFile(encoding="ISO-XXXX-YY").
  To change it in a package: add a file package.encoding at the top-level.
  Note: The Modelica Language Specification only allows files encoded in UTF-8.
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica_StateGraph2 2.0.2/package.mo:761:36-761:108:writable] Warning: The file was not encoded in UTF-8:
  "<html> <p> The Modelica_StateGraph2 library is described in detail in (O...".
  Defaulting to 7-bit ASCII with unknown characters replaced by '?'.
  To change encoding when loading a file: loadFile(encoding="ISO-XXXX-YY").
  To change it in a package: add a file package.encoding at the top-level.
  Note: The Modelica Language Specification only allows files encoded in UTF-8.
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica_StateGraph2 2.0.2/package.mo:1435:36-1435:108:writable] Warning: The file was not encoded in UTF-8:
  "<html> <dl> <dt><b>Main Authors:</b> <dd> </dl>  <table border=0 cellspa...".
  Defaulting to 7-bit ASCII with unknown characters replaced by '?'.
  To change encoding when loading a file: loadFile(encoding="ISO-XXXX-YY").
  To change it in a package: add a file package.encoding at the top-level.
  Note: The Modelica Language Specification only allows files encoded in UTF-8.
Notification: Performance of loadFile(/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica_StateGraph2 2.0.2/package.mo): time 0.09314/0.09314, allocations: 13.49 MB / 29.81 MB, free: 5.207 MB / 26.18 MB
Notification: Performance of loadFile(/home/hudson/saved_omc/libraries/.openmodelica/libraries/ModelicaServices 4.0.0+maint.om/package.mo): time 0.001017/0.001017, allocations: 104.1 kB / 33.87 MB, free: 1.137 MB / 26.18 MB
Notification: Performance of loadFile(/home/hudson/saved_omc/libraries/.openmodelica/libraries/Complex 4.0.0+maint.om/package.mo): time 0.00139/0.00139, allocations: 193.5 kB / 38.05 MB, free: 1.867 MB / 26.18 MB
Notification: Performance of loadFile(/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica 3.2.3+maint.om/package.mo): time 1.435/1.435, allocations: 205.1 MB / 247.2 MB, free: 10.66 MB / 206.1 MB
Notification: Performance of loadFile(/home/hudson/saved_omc/libraries/.openmodelica/libraries/Buildings 3.0.0/package.mo): time 0.7676/0.7676, allocations: 133.6 MB / 431.3 MB, free: 0.8789 MB / 334.1 MB
Notification: Performance of FrontEnd - Absyn->SCode: time 2.444e-05/2.445e-05, allocations: 6 kB / 0.5923 GB, free: 18.61 MB / 446.1 MB
Notification: Performance of NFInst.instantiate(Buildings.Electrical.AC.ThreePhasesBalanced.Lines.Examples.ACLine): time 0.01148/0.01151, allocations: 13.72 MB / 0.6057 GB, free: 5.246 MB / 446.1 MB
Notification: Performance of NFInst.instExpressions: time 0.01183/0.02338, allocations: 9.626 MB / 0.6151 GB, free: 11.59 MB / 462.1 MB
Notification: Performance of NFInst.updateImplicitVariability: time 0.00154/0.02496, allocations: 59.62 kB / 0.6151 GB, free: 11.53 MB / 462.1 MB
Notification: Performance of NFTyping.typeComponents: time 0.003967/0.02894, allocations: 1.679 MB / 0.6168 GB, free: 9.848 MB / 462.1 MB
Notification: Performance of NFTyping.typeBindings: time 0.004755/0.0337, allocations: 1.572 MB / 0.6183 GB, free: 8.273 MB / 462.1 MB
Notification: Performance of NFTyping.typeClassSections: time 0.002004/0.03572, allocations: 0.747 MB / 0.619 GB, free: 7.527 MB / 462.1 MB
Notification: Performance of NFFlatten.flatten: time 0.003651/0.03937, allocations: 2.766 MB / 0.6217 GB, free: 4.754 MB / 462.1 MB
Notification: Performance of NFFlatten.resolveConnections: time 0.001576/0.04096, allocations: 1.2 MB / 0.6229 GB, free: 3.531 MB / 462.1 MB
Notification: Performance of NFEvalConstants.evaluate: time 0.001536/0.04251, allocations: 1.024 MB / 0.6239 GB, free: 2.504 MB / 462.1 MB
Notification: Performance of NFSimplifyModel.simplify: time 0.00113/0.04365, allocations: 0.9335 MB / 0.6248 GB, free: 1.566 MB / 462.1 MB
Notification: Performance of NFPackage.collectConstants: time 0.0001724/0.04383, allocations: 136 kB / 0.6249 GB, free: 1.434 MB / 462.1 MB
Notification: Performance of NFFlatten.collectFunctions: time 0.001365/0.0452, allocations: 0.6707 MB / 0.6256 GB, free: 0.7617 MB / 462.1 MB
Notification: Performance of combineBinaries: time 0.001996/0.04721, allocations: 2.69 MB / 0.6282 GB, free: 14.04 MB / 478.1 MB
Notification: Performance of replaceArrayConstructors: time 0.001024/0.04825, allocations: 1.728 MB / 0.6299 GB, free: 12.3 MB / 478.1 MB
Notification: Performance of NFVerifyModel.verify: time 0.0003047/0.04856, allocations: 263.2 kB / 0.6302 GB, free: 12.04 MB / 478.1 MB
Notification: Performance of FrontEnd: time 0.0002018/0.04877, allocations: 43.88 kB / 0.6302 GB, free: 12 MB / 478.1 MB
Notification: Model statistics after passing the front-end and creating the data structures used by the back-end:
 * Number of equations: 317 (243)
 * Number of variables: 317 (234)
Notification: Performance of Bindings: time 0.006368/0.05514, allocations: 7.4 MB / 0.6374 GB, free: 4.348 MB / 478.1 MB
Notification: Performance of FunctionAlias: time 0.0006637/0.05582, allocations: 0.6192 MB / 0.638 GB, free: 3.75 MB / 478.1 MB
Notification: Performance of Early Inline: time 0.006033/0.06186, allocations: 6.582 MB / 0.6445 GB, free: 13.12 MB / 494.1 MB
Notification: Performance of simplify1: time 0.0005727/0.06245, allocations: 499.3 kB / 0.6449 GB, free: 12.63 MB / 494.1 MB
Notification: Performance of Alias: time 0.005718/0.06817, allocations: 5.329 MB / 0.6501 GB, free: 6.82 MB / 494.1 MB
Notification: Performance of simplify2: time 0.0005645/0.06875, allocations: 455.3 kB / 0.6506 GB, free: 6.375 MB / 494.1 MB
Notification: Performance of Events: time 0.001094/0.06985, allocations: 1.056 MB / 0.6516 GB, free: 5.395 MB / 494.1 MB
Notification: Performance of Detect States: time 0.001171/0.07103, allocations: 1.34 MB / 0.6529 GB, free: 4.031 MB / 494.1 MB
Notification: Performance of Partitioning: time 0.00174/0.07278, allocations: 1.68 MB / 0.6545 GB, free: 2.254 MB / 494.1 MB
Error: Internal error NBSlice.fillDependencyArray failed because number of flattened indices 1 for dependency R1.X could not be divided by the body size 2 without rest.
Error: Internal error NBAdjacency.Matrix.createPseudo failed for:
[ARRY] (2) R1.terminal.v = {{R1.R, -R1.X} * R1.terminal.i, {R1.X, R1.R} * R1.terminal.i} ($RES_SIM_125)
Error: Internal error NBAdjacency.Matrix.create failed to create adjacency matrix for system:
System Variables (175/276)
****************************
(1)       [DISC] (1) Boolean $SEV_27
(2)       [ALGB] (1) protected Real R3.X (start = 1.0)
(3)       [ALGB] (2) protected Real[2] line_sc.line.terminal_p.v
(4)       [DISC] (1) Boolean $SEV_26
(5)       [ALGB] (1) Real E.phi = Buildings.Electrical.AC.ThreePhasesBalanced.Lines.Examples.ACLine.E.PhaseSystem.phase(E.terminal.v) - Buildings.Electrical.AC.ThreePhasesBalanced.Lines.Examples.ACLine.E.PhaseSystem.phase(-E.terminal.i)
(6)       [DISC] (1) Boolean $SEV_25
(7)       [DISC] (1) Boolean $SEV_24
(8)       [ALGB] (2) protected Real[2] line_2a.line.Vc (start = line_2a.line.Vc_start, StateSelect = prefer)
(9)       [ALGB] (2) flow Real[2] line_3a.terminal_p.i
(10)      [ALGB] (2) flow Real[2] line_3b.terminal_p.i
(11)      [ALGB] (2) Real[2] R3.terminal.v
(12)      [DISC] (1) Boolean $SEV_23
(13)      [DER-] (1) Real[1] $DER.R2.terminal.theta
(14)      [DER-] (1) Real[1] $DER.R3.terminal.theta
(15)      [ALGB] (2) Real[2] line_2a.terminal_n.v
(16)      [ALGB] (2) Real[2] line_2b.terminal_n.v
(17)      [DISC] (1) Boolean $SEV_22
(18)      [ALGB] (2) Real[2] R3.S = Buildings.Electrical.AC.ThreePhasesBalanced.Lines.Examples.ACLine.R3.PhaseSystem.phasePowers_vi(R3.v, -R3.i)
(19)      [DISC] (1) Boolean $SEV_21
(20)      [DISC] (1) Boolean $SEV_20
(21)      [ALGB] (2) flow Real[2] load_sc.terminal.i
(22)      [ALGB] (2) protected Real[2] line_2b.line.terminal_p.v
(23)      [ALGB] (1) protected Real[1] line_sc.line.terminal_n.theta
(24)      [ALGB] (2) protected Real[2] line_3a.line.Ic
(25)      [ALGB] (2) protected flow Real[2] line_sc.line.terminal_p.i
(26)      [ALGB] (2) protected Real[2] line_sc.line.Vc (start = line_sc.line.Vc_start, StateSelect = prefer)
(27)      [ALGB] (2) flow Real[2] R3.terminal.i
(28)      [ALGB] (1) Real[1] line_2a.terminal_n.theta
(29)      [ALGB] (1) Real[1] line_3b.terminal_n.theta
(30)      [ALGB] (1) Real[1] line_2b.terminal_n.theta
(31)      [ALGB] (2) protected flow Real[2] line_1.line.terminal_n.i
(32)      [ALGB] (2) protected flow Real[2] line_2b.line.terminal_p.i
(33)      [ALGB] (1) Real line_1.VoltageLosses = abs(Buildings.Electrical.AC.ThreePhasesBalanced.Lines.Examples.ACLine.line_1.PhaseSystem_p.systemVoltage(line_1.terminal_p.v) - Buildings.Electrical.AC.ThreePhasesBalanced.Lines.Examples.ACLine.line_1.PhaseSystem_n.systemVoltage(line_1.terminal_n.v)) / Buildings.Utilities.Math.Functions.smoothMax(Buildings.Electrical.AC.ThreePhasesBalanced.Lines.Examples.ACLine.line_1.PhaseSystem_p.systemVoltage(line_1.terminal_p.v), Buildings.Electrical.AC.ThreePhasesBalanced.Lines.Examples.ACLine.line_1.PhaseSystem_n.systemVoltage(line_1.terminal_n.v), 1.0)
(34)      [ALGB] (1) protected Real[1] line_3a.line.terminal_n.theta
(35)      [ALGB] (2) flow Real[2] line_sc.terminal_n.i
(36)      [ALGB] (1) protected Real line_sc.line.omega
(37)      [DISC] (1) Boolean $SEV_19
(38)      [ALGB] (2) Real[2] R2.v = R2.terminal.v (start = Buildings.Electrical.AC.ThreePhasesBalanced.Lines.Examples.ACLine.R2.PhaseSystem.phaseVoltages(R2.V_nominal, 0.0))
(39)      [DISC] (1) Boolean $SEV_18
(40)      [DISC] (1) Boolean $SEV_17
(41)      [DISC] (1) Boolean $SEV_16
(42)      [DER-] (1) Real[1] $DER.line_2a.line.terminal_p.theta
(43)      [ALGB] (2) protected Real[2] line_1.line.terminal_n.v
(44)      [DISC] (1) Boolean $SEV_14
(45)      [ALGB] (2) protected Real[2] line_2b.line.Vc (start = line_2b.line.Vc_start, StateSelect = prefer)
(46)      [DISC] (1) Boolean $SEV_12
(47)      [ALGB] (1) protected Real line_2b.line.omega
(48)      [ALGB] (2) Real[2] line_sc.terminal_n.v
(49)      [ALGB] (2) protected flow Real[2] line_3b.line.terminal_p.i
(50)      [ALGB] (1) protected Real line_2b.line.R_actual
(51)      [ALGB] (2) protected flow Real[2] line_3a.line.terminal_p.i
(52)      [ALGB] (1) Real[1] line_1.terminal_p.theta
(53)      [ALGB] (2) Real[2] R2.i = R2.terminal.i (start = {0.0, 0.0})
(54)      [ALGB] (1) protected Real line_sc.line.R_actual
(55)      [ALGB] (2) protected Real[2] line_3b.line.Ic
(56)      [ALGB] (2) protected Real[2] line_3b.line.terminal_p.v
(57)      [ALGB] (2) protected Real[2] line_3a.line.terminal_p.v
(58)      [ALGB] (1) Real line_3b.VoltageLosses = abs(Buildings.Electrical.AC.ThreePhasesBalanced.Lines.Examples.ACLine.line_3b.PhaseSystem_p.systemVoltage(line_3b.terminal_p.v) - Buildings.Electrical.AC.ThreePhasesBalanced.Lines.Examples.ACLine.line_3b.PhaseSystem_n.systemVoltage(line_3b.terminal_n.v)) / Buildings.Utilities.Math.Functions.smoothMax(Buildings.Electrical.AC.ThreePhasesBalanced.Lines.Examples.ACLine.line_3b.PhaseSystem_p.systemVoltage(line_3b.terminal_p.v), Buildings.Electrical.AC.ThreePhasesBalanced.Lines.Examples.ACLine.line_3b.PhaseSystem_n.systemVoltage(line_3b.terminal_n.v), 1.0)
(59)      [ALGB] (1) protected Real R2.X (start = 1.0)
(60)      [ALGB] (1) Real line_3a.VoltageLosses = abs(Buildings.Electrical.AC.ThreePhasesBalanced.Lines.Examples.ACLine.line_3a.PhaseSystem_p.systemVoltage(line_3a.terminal_p.v) - Buildings.Electrical.AC.ThreePhasesBalanced.Lines.Examples.ACLine.line_3a.PhaseSystem_n.systemVoltage(line_3a.terminal_n.v)) / Buildings.Utilities.Math.Functions.smoothMax(Buildings.Electrical.AC.ThreePhasesBalanced.Lines.Examples.ACLine.line_3a.PhaseSystem_p.systemVoltage(line_3a.terminal_p.v), Buildings.Electrical.AC.ThreePhasesBalanced.Lines.Examples.ACLine.line_3a.PhaseSystem_n.systemVoltage(line_3a.terminal_n.v), 1.0)
(61)      [ALGB] (1) protected Real[1] line_3b.line.terminal_n.theta
(62)      [DER-] (1) Real[1] $DER.line_3b.line.terminal_p.theta
(63)      [ALGB] (2) Real[2] R2.S = Buildings.Electrical.AC.ThreePhasesBalanced.Lines.Examples.ACLine.R2.PhaseSystem.phasePowers_vi(R2.v, -R2.i)
(64)      [ALGB] (2) flow Real[2] E.terminal.i
(65)      [ALGB] (1) Real[1] line_sc.terminal_n.theta
(66)      [ALGB] (1) protected Real line_sc.line.LossPower
(67)      [ALGB] (1) protected Real line_2a.line.R_actual
(68)      [ALGB] (1) Real $FUN_9
(69)      [ALGB] (1) Real $FUN_8
(70)      [ALGB] (2) protected Real[2] line_1.line.Ic
(71)      [ALGB] (1) Real $FUN_7
(72)      [DER-] (1) Real[1] $DER.line_3a.line.terminal_p.theta
(73)      [ALGB] (4) Real[2, 2] $FUN_6
(74)      [ALGB] (4) Real[2, 2] $FUN_5
(75)      [ALGB] (4) Real[2, 2] $FUN_4
(76)      [ALGB] (4) Real[2, 2] $FUN_3
(77)      [ALGB] (2) Real[2] E.terminal.v
(78)      [ALGB] (4) Real[2, 2] $FUN_2
(79)      [ALGB] (4) Real[2, 2] $FUN_1
(80)      [ALGB] (1) Real[1] E.terminal.theta
(81)      [ALGB] (2) Real[2] R1.v = R1.terminal.v (start = Buildings.Electrical.AC.ThreePhasesBalanced.Lines.Examples.ACLine.R1.PhaseSystem.phaseVoltages(R1.V_nominal, 0.0))
(82)      [ALGB] (2) flow Real[2] line_1.terminal_p.i
(83)      [ALGB] (1) protected Real line_3b.line.omega
(84)      [ALGB] (2) protected flow Real[2] line_2a.line.terminal_p.i
(85)      [ALGB] (1) protected Real[1] line_2a.line.terminal_n.theta
(86)      [ALGB] (2) protected Real[2] line_3a.line.Vc (start = line_3a.line.Vc_start, StateSelect = prefer)
(87)      [ALGB] (2) Real[2] R1.terminal.v
(88)      [DER-] (1) Real[1] $DER.line_1.line.terminal_p.theta
(89)      [ALGB] (2) Real[2] R1.i = R1.terminal.i (start = {0.0, 0.0})
(90)      [ALGB] (2) Real[2] line_1.terminal_p.v
(91)      [ALGB] (2) protected Real[2] line_2a.line.terminal_p.v
(92)      [ALGB] (2) Real[2] load_sc.v = load_sc.terminal.v (start = Buildings.Electrical.AC.ThreePhasesBalanced.Lines.Examples.ACLine.load_sc.PhaseSystem.phaseVoltages(load_sc.V_nominal, 0.0))
(93)      [DER-] (1) Real[1] $DER.load_sc.terminal.theta
(94)      [ALGB] (2) Real[2] line_3a.terminal_n.v
(95)      [ALGB] (2) Real[2] line_3b.terminal_n.v
(96)      [ALGB] (1) protected Real load_sc.omega
(97)      [ALGB] (2) flow Real[2] line_2a.terminal_p.i
(98)      [ALGB] (2) flow Real[2] R1.terminal.i
(99)      [ALGB] (2) flow Real[2] line_2b.terminal_p.i
(100)     [ALGB] (1) Real[1] line_2a.terminal_p.theta
(101)     [ALGB] (1) Real[1] line_3b.terminal_p.theta
(102)     [ALGB] (1) protected Real line_2a.line.omega
(103)     [DER-] (1) Real[1] $DER.line_sc.line.terminal_p.theta
(104)     [ALGB] (1) Real[1] line_2b.terminal_p.theta
(105)     [ALGB] (1) Real $FUN_12
(106)     [ALGB] (1) Real $FUN_11
(107)     [ALGB] (1) protected Real line_2b.line.LossPower
(108)     [ALGB] (1) protected Real R1.X (start = 1.0)
(109)     [ALGB] (2) protected Real[2] line_sc.line.terminal_n.v
(110)     [ALGB] (1) Real $FUN_10
(111)     [ALGB] (2) Real[2] load_sc.i = load_sc.terminal.i (start = {0.0, 0.0})
(112)     [ALGB] (2) flow Real[2] line_3a.terminal_n.i
(113)     [ALGB] (2) flow Real[2] line_3b.terminal_n.i
(114)     [ALGB] (2) Real[2] line_2a.terminal_p.v
(115)     [ALGB] (2) Real[2] line_2b.terminal_p.v
(116)     [ALGB] (2) Real[2] R1.S = Buildings.Electrical.AC.ThreePhasesBalanced.Lines.Examples.ACLine.R1.PhaseSystem.phasePowers_vi(R1.v, -R1.i)
(117)     [ALGB] (1) protected Real R3.omega
(118)     [DISC] (1) Boolean $SEV_9
(119)     [ALGB] (2) protected Real[2] line_2b.line.terminal_n.v
(120)     [ALGB] (2) protected Real[2] line_3b.line.Vc (start = line_3b.line.Vc_start, StateSelect = prefer)
(121)     [DISC] (1) Boolean $SEV_7
(122)     [DISC] (1) Boolean $SEV_5
(123)     [ALGB] (2) protected flow Real[2] line_sc.line.terminal_n.i
(124)     [DISC] (1) Boolean $SEV_2
(125)     [ALGB] (1) protected Real load_sc.X (start = 1.0)
(126)     [ALGB] (1) protected Real line_2a.line.LossPower
(127)     [ALGB] (1) Real[1] line_1.terminal_n.theta
(128)     [ALGB] (2) protected flow Real[2] line_1.line.terminal_p.i
(129)     [ALGB] (1) Real[1] line_3a.terminal_n.theta
(130)     [ALGB] (2) protected flow Real[2] line_2b.line.terminal_n.i
(131)     [ALGB] (2) Real[2] load_sc.S = Buildings.Electrical.AC.ThreePhasesBalanced.Lines.Examples.ACLine.load_sc.PhaseSystem.phasePowers_vi(load_sc.v, -load_sc.i)
(132)     [ALGB] (2) flow Real[2] line_sc.terminal_p.i
(133)     [DER-] (1) Real[1] $DER.R1.terminal.theta
(134)     [ALGB] (1) protected Real line_3a.line.R_actual
(135)     [ALGB] (1) protected Real[1] line_1.line.terminal_n.theta
(136)     [ALGB] (2) protected Real[2] line_1.line.terminal_p.v
(137)     [ALGB] (2) Real[2] line_sc.terminal_p.v
(138)     [ALGB] (1) Real line_2a.VoltageLosses = abs(Buildings.Electrical.AC.ThreePhasesBalanced.Lines.Examples.ACLine.line_2a.PhaseSystem_p.systemVoltage(line_2a.terminal_p.v) - Buildings.Electrical.AC.ThreePhasesBalanced.Lines.Examples.ACLine.line_2a.PhaseSystem_n.systemVoltage(line_2a.terminal_n.v)) / Buildings.Utilities.Math.Functions.smoothMax(Buildings.Electrical.AC.ThreePhasesBalanced.Lines.Examples.ACLine.line_2a.PhaseSystem_p.systemVoltage(line_2a.terminal_p.v), Buildings.Electrical.AC.ThreePhasesBalanced.Lines.Examples.ACLine.line_2a.PhaseSystem_n.systemVoltage(line_2a.terminal_n.v), 1.0)
(139)     [ALGB] (2) protected Real[2] line_1.line.Vc (start = line_1.line.Vc_start, StateSelect = prefer)
(140)     [ALGB] (2) protected flow Real[2] line_3b.line.terminal_n.i
(141)     [ALGB] (2) protected Real[2] line_2a.line.Ic
(142)     [ALGB] (1) protected Real line_3a.line.omega
(143)     [ALGB] (2) protected flow Real[2] line_3a.line.terminal_n.i
(144)     [ALGB] (2) Real[2] E.S = Buildings.Electrical.AC.ThreePhasesBalanced.Lines.Examples.ACLine.E.PhaseSystem.phasePowers_vi(E.terminal.v, E.terminal.i)
(145)     [ALGB] (1) protected Real R2.omega
(146)     [ALGB] (2) Real[2] R2.terminal.v
(147)     [ALGB] (2) protected Real[2] line_sc.line.Ic
(148)     [ALGB] (2) protected Real[2] line_3b.line.terminal_n.v
(149)     [ALGB] (2) protected Real[2] line_3a.line.terminal_n.v
(150)     [DER-] (1) Real[1] $DER.line_2b.line.terminal_p.theta
(151)     [ALGB] (1) protected Real line_3b.line.LossPower
(152)     [ALGB] (2) flow Real[2] R2.terminal.i
(153)     [ALGB] (1) protected Real line_1.line.R_actual
(154)     [ALGB] (1) protected Real[1] line_2b.line.terminal_n.theta
(155)     [ALGB] (1) protected Real line_3a.line.LossPower
(156)     [ALGB] (1) protected Real line_1.line.LossPower
(157)     [ALGB] (1) Real line_2b.VoltageLosses = abs(Buildings.Electrical.AC.ThreePhasesBalanced.Lines.Examples.ACLine.line_2b.PhaseSystem_p.systemVoltage(line_2b.terminal_p.v) - Buildings.Electrical.AC.ThreePhasesBalanced.Lines.Examples.ACLine.line_2b.PhaseSystem_n.systemVoltage(line_2b.terminal_n.v)) / Buildings.Utilities.Math.Functions.smoothMax(Buildings.Electrical.AC.ThreePhasesBalanced.Lines.Examples.ACLine.line_2b.PhaseSystem_p.systemVoltage(line_2b.terminal_p.v), Buildings.Electrical.AC.ThreePhasesBalanced.Lines.Examples.ACLine.line_2b.PhaseSystem_n.systemVoltage(line_2b.terminal_n.v), 1.0)
(158)     [ALGB] (2) protected Real[2] line_2b.line.Ic
(159)     [ALGB] (1) Real line_sc.VoltageLosses = abs(Buildings.Electrical.AC.ThreePhasesBalanced.Lines.Examples.ACLine.line_sc.PhaseSystem_p.systemVoltage(line_sc.terminal_p.v) - Buildings.Electrical.AC.ThreePhasesBalanced.Lines.Examples.ACLine.line_sc.PhaseSystem_n.systemVoltage(line_sc.terminal_n.v)) / Buildings.Utilities.Math.Functions.smoothMax(Buildings.Electrical.AC.ThreePhasesBalanced.Lines.Examples.ACLine.line_sc.PhaseSystem_p.systemVoltage(line_sc.terminal_p.v), Buildings.Electrical.AC.ThreePhasesBalanced.Lines.Examples.ACLine.line_sc.PhaseSystem_n.systemVoltage(line_sc.terminal_n.v), 1.0)
(160)     [ALGB] (1) protected Real line_3b.line.R_actual
(161)     [ALGB] (2) Real[2] R3.v = R3.terminal.v (start = Buildings.Electrical.AC.ThreePhasesBalanced.Lines.Examples.ACLine.R3.PhaseSystem.phaseVoltages(R3.V_nominal, 0.0))
(162)     [ALGB] (2) flow Real[2] line_1.terminal_n.i
(163)     [ALGB] (1) protected Real R1.omega
(164)     [ALGB] (1) Real[1] line_sc.terminal_p.theta
(165)     [ALGB] (2) protected flow Real[2] line_2a.line.terminal_n.i
(166)     [ALGB] (2) Real[2] R3.i = R3.terminal.i (start = {0.0, 0.0})
(167)     [ALGB] (2) Real[2] line_1.terminal_n.v
(168)     [ALGB] (1) Real[1] line_3a.terminal_p.theta
(169)     [ALGB] (2) protected Real[2] line_2a.line.terminal_n.v
(170)     [ALGB] (2) Real[2] line_3a.terminal_p.v
(171)     [ALGB] (2) Real[2] line_3b.terminal_p.v
(172)     [ALGB] (1) protected Real line_1.line.omega
(173)     [ALGB] (2) flow Real[2] line_2a.terminal_n.i
(174)     [ALGB] (2) flow Real[2] line_2b.terminal_n.i
(175)     [ALGB] (2) Real[2] load_sc.terminal.v


System Equations (184/276)
****************************
(1)       [ARRY] (2) line_3a.line.terminal_n.v = line_3a.terminal_n.v ($RES_SIM_205)
(2)       [SCAL] (1) line_3a.VoltageLosses = $FUN_9 / smooth(1, if $SEV_20 then line_3a.terminal_p.v / (line_3a.terminal_p.v * (line_3a.terminal_p.v * line_3a.terminal_p.v * (line_3a.terminal_p.v * line_3a.terminal_p.v) + 1.0000000000000002e-10) ^ 0.25) else if $SEV_21 then line_3a.terminal_n.v / (line_3a.terminal_n.v * (line_3a.terminal_n.v * line_3a.terminal_n.v * (line_3a.terminal_n.v * line_3a.terminal_n.v) + 1.0000000000000002e-10) ^ 0.25) else 0.25 * (line_3a.terminal_n.v / (line_3a.terminal_n.v * (line_3a.terminal_n.v * line_3a.terminal_n.v * (line_3a.terminal_n.v * line_3a.terminal_n.v) + 1.0000000000000002e-10) ^ 0.25) - line_3a.terminal_p.v / (line_3a.terminal_p.v * (line_3a.terminal_p.v * line_3a.terminal_p.v * (line_3a.terminal_p.v * line_3a.terminal_p.v) + 1.0000000000000002e-10) ^ 0.25)) * ((-3.0) + (line_3a.terminal_p.v / ((line_3a.terminal_p.v * line_3a.terminal_p.v * (line_3a.terminal_p.v * line_3a.terminal_p.v) + 1.0000000000000002e-10) ^ 0.25 * line_3a.terminal_p.v) - line_3a.terminal_n.v / ((line_3a.terminal_n.v * line_3a.terminal_n.v * (line_3a.terminal_n.v * line_3a.terminal_n.v) + 1.0000000000000002e-10) ^ 0.25 * line_3a.terminal_n.v)) ^ 2.0) * (line_3a.terminal_p.v / (line_3a.terminal_p.v * (line_3a.terminal_p.v * line_3a.terminal_p.v * (line_3a.terminal_p.v * line_3a.terminal_p.v) + 1.0000000000000002e-10) ^ 0.25) - line_3a.terminal_n.v / (line_3a.terminal_n.v * (line_3a.terminal_n.v * line_3a.terminal_n.v * (line_3a.terminal_n.v * line_3a.terminal_n.v) + 1.0000000000000002e-10) ^ 0.25)) + 0.5 * (line_3a.terminal_p.v / (line_3a.terminal_p.v * (line_3a.terminal_p.v * line_3a.terminal_p.v * (line_3a.terminal_p.v * line_3a.terminal_p.v) + 1.0000000000000002e-10) ^ 0.25) + line_3a.terminal_n.v / (line_3a.terminal_n.v * (line_3a.terminal_n.v * line_3a.terminal_n.v * (line_3a.terminal_n.v * line_3a.terminal_n.v) + 1.0000000000000002e-10) ^ 0.25))) ($RES_BND_258)
(3)       [FOR-] (2) ($RES_SIM_208)
(3)       [----] for $i1 in 1:2 loop
(3)       [----]   [SCAL] (1) line_2b.line.terminal_p.i[$i1] - line_2b.terminal_p.i[$i1] = 0.0 ($RES_SIM_209)
(3)       [----] end for;
(4)       [ARRY] (2) R1.terminal.v = {{R1.R, -R1.X} * R1.terminal.i, {R1.X, R1.R} * R1.terminal.i} ($RES_SIM_125)
(5)       [ARRY] (4) $FUN_1 = diagonal(fill(1.0, 2) .* line_1.line.R_actual / 2.0) ($RES_$AUX_286)
(6)       [SCAL] (1) R1.X = R1.omega * R1.L ($RES_SIM_126)
(7)       [ARRY] (4) $FUN_2 = diagonal(fill(1.0, 2) .* line_2a.line.R_actual / 2.0) ($RES_$AUX_285)
(8)       [ARRY] (2) R2.terminal.v = {{R2.R, -R2.X} * R2.terminal.i, {R2.X, R2.R} * R2.terminal.i} ($RES_SIM_87)
(9)       [SCAL] (1) R1.omega = $DER.R1.terminal.theta[1] ($RES_SIM_127)
(10)      [ARRY] (4) $FUN_3 = diagonal(fill(1.0, 2) .* line_2b.line.R_actual / 2.0) ($RES_$AUX_284)
(11)      [SCAL] (1) R2.X = R2.omega * R2.L ($RES_SIM_88)
(12)      [ARRY] (2) E.terminal.v = {E.V * cos(E.phiSou), E.V * sin(E.phiSou)} ($RES_SIM_128)
(13)      [ARRY] (4) $FUN_4 = diagonal(fill(1.0, 2) .* line_3a.line.R_actual / 2.0) ($RES_$AUX_283)
(14)      [SCAL] (1) R2.omega = $DER.R2.terminal.theta[1] ($RES_SIM_89)
(15)      [ARRY] (4) $FUN_5 = diagonal(fill(1.0, 2) .* line_3b.line.R_actual / 2.0) ($RES_$AUX_282)
(16)      [ARRY] (4) $FUN_6 = diagonal(fill(1.0, 2) .* line_sc.line.R_actual / 2.0) ($RES_$AUX_281)
(17)      [SCAL] (1) $FUN_7 = abs(line_sc.terminal_p.v / ((line_sc.terminal_p.v * line_sc.terminal_p.v * (line_sc.terminal_p.v * line_sc.terminal_p.v) + 1.0000000000000002e-10) ^ 0.25 * line_sc.terminal_p.v) - line_sc.terminal_n.v / ((line_sc.terminal_n.v * line_sc.terminal_n.v * (line_sc.terminal_n.v * line_sc.terminal_n.v) + 1.0000000000000002e-10) ^ 0.25 * line_sc.terminal_n.v)) ($RES_$AUX_280)
(18)      [SCAL] (1) $SEV_5 = line_3b.line.R_actual >= 0.0 ($RES_EVT_292)
(19)      [SCAL] (1) $SEV_7 = line_3a.line.R_actual >= 0.0 ($RES_EVT_294)
(20)      [ARRY] (2) load_sc.terminal.v = {{load_sc.R, -load_sc.X} * load_sc.terminal.i, {load_sc.X, load_sc.R} * load_sc.terminal.i} ($RES_SIM_11)
(21)      [SCAL] (1) $SEV_9 = line_2b.line.R_actual >= 0.0 ($RES_EVT_296)
(22)      [ARRY] (2) line_2b.terminal_p.v = line_2b.line.terminal_p.v ($RES_SIM_210)
(23)      [SCAL] (1) load_sc.X = load_sc.omega * load_sc.L ($RES_SIM_12)
(24)      [ARRY] (1) line_2b.terminal_p.theta = line_2b.line.terminal_p.theta ($RES_SIM_211)
(25)      [SCAL] (1) load_sc.omega = $DER.load_sc.terminal.theta[1] ($RES_SIM_13)
(26)      [SCAL] (1) line_3b.VoltageLosses = $FUN_8 / smooth(1, if $SEV_18 then line_3b.terminal_p.v / (line_3b.terminal_p.v * (line_3b.terminal_p.v * line_3b.terminal_p.v * (line_3b.terminal_p.v * line_3b.terminal_p.v) + 1.0000000000000002e-10) ^ 0.25) else if $SEV_19 then line_3b.terminal_n.v / (line_3b.terminal_n.v * (line_3b.terminal_n.v * line_3b.terminal_n.v * (line_3b.terminal_n.v * line_3b.terminal_n.v) + 1.0000000000000002e-10) ^ 0.25) else 0.25 * (line_3b.terminal_n.v / (line_3b.terminal_n.v * (line_3b.terminal_n.v * line_3b.terminal_n.v * (line_3b.terminal_n.v * line_3b.terminal_n.v) + 1.0000000000000002e-10) ^ 0.25) - line_3b.terminal_p.v / (line_3b.terminal_p.v * (line_3b.terminal_p.v * line_3b.terminal_p.v * (line_3b.terminal_p.v * line_3b.terminal_p.v) + 1.0000000000000002e-10) ^ 0.25)) * ((-3.0) + (line_3b.terminal_p.v / ((line_3b.terminal_p.v * line_3b.terminal_p.v * (line_3b.terminal_p.v * line_3b.terminal_p.v) + 1.0000000000000002e-10) ^ 0.25 * line_3b.terminal_p.v) - line_3b.terminal_n.v / ((line_3b.terminal_n.v * line_3b.terminal_n.v * (line_3b.terminal_n.v * line_3b.terminal_n.v) + 1.0000000000000002e-10) ^ 0.25 * line_3b.terminal_n.v)) ^ 2.0) * (line_3b.terminal_p.v / (line_3b.terminal_p.v * (line_3b.terminal_p.v * line_3b.terminal_p.v * (line_3b.terminal_p.v * line_3b.terminal_p.v) + 1.0000000000000002e-10) ^ 0.25) - line_3b.terminal_n.v / (line_3b.terminal_n.v * (line_3b.terminal_n.v * line_3b.terminal_n.v * (line_3b.terminal_n.v * line_3b.terminal_n.v) + 1.0000000000000002e-10) ^ 0.25)) + 0.5 * (line_3b.terminal_p.v / (line_3b.terminal_p.v * (line_3b.terminal_p.v * line_3b.terminal_p.v * (line_3b.terminal_p.v * line_3b.terminal_p.v) + 1.0000000000000002e-10) ^ 0.25) + line_3b.terminal_n.v / (line_3b.terminal_n.v * (line_3b.terminal_n.v * line_3b.terminal_n.v * (line_3b.terminal_n.v * line_3b.terminal_n.v) + 1.0000000000000002e-10) ^ 0.25))) ($RES_BND_262)
(27)      [FOR-] (2) ($RES_SIM_212)
(27)      [----] for $i1 in 1:2 loop
(27)      [----]   [SCAL] (1) line_2b.line.terminal_n.i[$i1] - line_2b.terminal_n.i[$i1] = 0.0 ($RES_SIM_213)
(27)      [----] end for;
(28)      [SCAL] (1) $SEV_12 = line_2a.line.R_actual >= 0.0 ($RES_EVT_299)
(29)      [ARRY] (2) line_2b.line.terminal_n.v = line_2b.terminal_n.v ($RES_SIM_214)
(30)      [SCAL] (1) line_sc.line.R_actual = (0.7240000000000001 * (line_sc.line.M + ((-273.15) + line_sc.TCable))) / (line_sc.line.M + ((-273.15) + line_sc.line.T_ref)) ($RES_SIM_16)
(31)      [ARRY] (2) R3.v = R3.terminal.v ($RES_BND_265)
(32)      [SCAL] (1) E.terminal.theta[1] = 6.283185307179586 * E.f * time ($RES_SIM_130)
(33)      [ARRY] (1) line_2b.line.terminal_n.theta = line_2b.terminal_n.theta ($RES_SIM_215)
(34)      [ARRY] (2) R3.i = R3.terminal.i ($RES_BND_266)
(35)      [ARRY] (1) line_sc.line.terminal_p.theta = line_sc.line.terminal_n.theta ($RES_SIM_18)
(36)      [ARRY] (2) R3.S = {R3.v[1] * (-R3.i)[1] + R3.v[2] * (-R3.i)[2], R3.v[2] * (-R3.i)[1] - R3.v[1] * (-R3.i)[2]} ($RES_BND_267)
(37)      [SCAL] (1) line_2a.line.R_actual = (0.36200000000000004 * (line_2a.line.M + ((-273.15) + line_2a.TCable))) / (line_2a.line.M + ((-273.15) + line_2a.line.T_ref)) ($RES_SIM_92)
(38)      [SCAL] (1) line_sc.line.LossPower = (0.5 * line_sc.line.R_actual) * (line_sc.line.terminal_p.i[1] ^ 2.0 + line_sc.line.terminal_p.i[2] ^ 2.0) + (0.5 * line_sc.line.R_actual) * (line_sc.line.terminal_n.i[1] ^ 2.0 + line_sc.line.terminal_n.i[2] ^ 2.0) ($RES_SIM_19)
(39)      [SCAL] (1) $FUN_8 = abs(line_3b.terminal_p.v / ((line_3b.terminal_p.v * line_3b.terminal_p.v * (line_3b.terminal_p.v * line_3b.terminal_p.v) + 1.0000000000000002e-10) ^ 0.25 * line_3b.terminal_p.v) - line_3b.terminal_n.v / ((line_3b.terminal_n.v * line_3b.terminal_n.v * (line_3b.terminal_n.v * line_3b.terminal_n.v) + 1.0000000000000002e-10) ^ 0.25 * line_3b.terminal_n.v)) ($RES_$AUX_279)
(40)      [FOR-] (2) ($RES_SIM_218)
(40)      [----] for $i1 in 1:2 loop
(40)      [----]   [SCAL] (1) line_2a.line.terminal_p.i[$i1] - line_2a.terminal_p.i[$i1] = 0.0 ($RES_SIM_219)
(40)      [----] end for;
(41)      [SCAL] (1) line_sc.VoltageLosses = $FUN_7 / smooth(1, if $SEV_16 then line_sc.terminal_p.v / (line_sc.terminal_p.v * (line_sc.terminal_p.v * line_sc.terminal_p.v * (line_sc.terminal_p.v * line_sc.terminal_p.v) + 1.0000000000000002e-10) ^ 0.25) else if $SEV_17 then line_sc.terminal_n.v / (line_sc.terminal_n.v * (line_sc.terminal_n.v * line_sc.terminal_n.v * (line_sc.terminal_n.v * line_sc.terminal_n.v) + 1.0000000000000002e-10) ^ 0.25) else 0.25 * (line_sc.terminal_n.v / (line_sc.terminal_n.v * (line_sc.terminal_n.v * line_sc.terminal_n.v * (line_sc.terminal_n.v * line_sc.terminal_n.v) + 1.0000000000000002e-10) ^ 0.25) - line_sc.terminal_p.v / (line_sc.terminal_p.v * (line_sc.terminal_p.v * line_sc.terminal_p.v * (line_sc.terminal_p.v * line_sc.terminal_p.v) + 1.0000000000000002e-10) ^ 0.25)) * ((-3.0) + (line_sc.terminal_p.v / ((line_sc.terminal_p.v * line_sc.terminal_p.v * (line_sc.terminal_p.v * line_sc.terminal_p.v) + 1.0000000000000002e-10) ^ 0.25 * line_sc.terminal_p.v) - line_sc.terminal_n.v / ((line_sc.terminal_n.v * line_sc.terminal_n.v * (line_sc.terminal_n.v * line_sc.terminal_n.v) + 1.0000000000000002e-10) ^ 0.25 * line_sc.terminal_n.v)) ^ 2.0) * (line_sc.terminal_p.v / (line_sc.terminal_p.v * (line_sc.terminal_p.v * line_sc.terminal_p.v * (line_sc.terminal_p.v * line_sc.terminal_p.v) + 1.0000000000000002e-10) ^ 0.25) - line_sc.terminal_n.v / (line_sc.terminal_n.v * (line_sc.terminal_n.v * line_sc.terminal_n.v * (line_sc.terminal_n.v * line_sc.terminal_n.v) + 1.0000000000000002e-10) ^ 0.25)) + 0.5 * (line_sc.terminal_p.v / (line_sc.terminal_p.v * (line_sc.terminal_p.v * line_sc.terminal_p.v * (line_sc.terminal_p.v * line_sc.terminal_p.v) + 1.0000000000000002e-10) ^ 0.25) + line_sc.terminal_n.v / (line_sc.terminal_n.v * (line_sc.terminal_n.v * line_sc.terminal_n.v * (line_sc.terminal_n.v * line_sc.terminal_n.v) + 1.0000000000000002e-10) ^ 0.25))) ($RES_BND_269)
(42)      [SCAL] (1) $FUN_9 = abs(line_3a.terminal_p.v / ((line_3a.terminal_p.v * line_3a.terminal_p.v * (line_3a.terminal_p.v * line_3a.terminal_p.v) + 1.0000000000000002e-10) ^ 0.25 * line_3a.terminal_p.v) - line_3a.terminal_n.v / ((line_3a.terminal_n.v * line_3a.terminal_n.v * (line_3a.terminal_n.v * line_3a.terminal_n.v) + 1.0000000000000002e-10) ^ 0.25 * line_3a.terminal_n.v)) ($RES_$AUX_278)
(43)      [ARRY] (1) line_2a.line.terminal_p.theta = line_2a.line.terminal_n.theta ($RES_SIM_94)
(44)      [SCAL] (1) $FUN_10 = abs(line_2b.terminal_p.v / ((line_2b.terminal_p.v * line_2b.terminal_p.v * (line_2b.terminal_p.v * line_2b.terminal_p.v) + 1.0000000000000002e-10) ^ 0.25 * line_2b.terminal_p.v) - line_2b.terminal_n.v / ((line_2b.terminal_n.v * line_2b.terminal_n.v * (line_2b.terminal_n.v * line_2b.terminal_n.v) + 1.0000000000000002e-10) ^ 0.25 * line_2b.terminal_n.v)) ($RES_$AUX_277)
(45)      [SCAL] (1) line_2a.line.LossPower = (0.5 * line_2a.line.R_actual) * (line_2a.line.terminal_p.i[1] ^ 2.0 + line_2a.line.terminal_p.i[2] ^ 2.0) + (0.5 * line_2a.line.R_actual) * (line_2a.line.terminal_n.i[1] ^ 2.0 + line_2a.line.terminal_n.i[2] ^ 2.0) ($RES_SIM_95)
(46)      [SCAL] (1) $FUN_11 = abs(line_2a.terminal_p.v / ((line_2a.terminal_p.v * line_2a.terminal_p.v * (line_2a.terminal_p.v * line_2a.terminal_p.v) + 1.0000000000000002e-10) ^ 0.25 * line_2a.terminal_p.v) - line_2a.terminal_n.v / ((line_2a.terminal_n.v * line_2a.terminal_n.v * (line_2a.terminal_n.v * line_2a.terminal_n.v) + 1.0000000000000002e-10) ^ 0.25 * line_2a.terminal_n.v)) ($RES_$AUX_276)
(47)      [ARRY] (2) line_2a.line.Vc = 0.5 .* (line_2a.line.terminal_p.v + line_2a.line.terminal_n.v) ($RES_SIM_96)
(48)      [SCAL] (1) $FUN_12 = abs(line_1.terminal_p.v / ((line_1.terminal_p.v * line_1.terminal_p.v * (line_1.terminal_p.v * line_1.terminal_p.v) + 1.0000000000000002e-10) ^ 0.25 * line_1.terminal_p.v) - line_1.terminal_n.v / ((line_1.terminal_n.v * line_1.terminal_n.v * (line_1.terminal_n.v * line_1.terminal_n.v) + 1.0000000000000002e-10) ^ 0.25 * line_1.terminal_n.v)) ($RES_$AUX_275)
(49)      [ARRY] (2) (0.5 * line_2a.line.L) * line_2a.line.omega * {-line_2a.line.terminal_n.i[2], line_2a.line.terminal_n.i[1]} + line_2a.line.terminal_n.i * $FUN_2 = line_2a.line.terminal_n.v - line_2a.line.Vc ($RES_SIM_97)
(50)      [FOR-] (2) ($RES_SIM_137)
(50)      [----] for $i1 in 1:2 loop
(50)      [----]   [SCAL] (1) line_sc.terminal_p.i[$i1] + load_sc.terminal.i[$i1] = 0.0 ($RES_SIM_138)
(50)      [----] end for;
(51)      [ARRY] (2) (0.5 * line_2a.line.L) * line_2a.line.omega * {-line_2a.line.terminal_p.i[2], line_2a.line.terminal_p.i[1]} + line_2a.line.terminal_p.i * $FUN_2 = line_2a.line.terminal_p.v - line_2a.line.Vc ($RES_SIM_98)
(52)      [ARRY] (2) line_2a.line.terminal_p.i + line_2a.line.terminal_n.i = line_2a.line.Ic ($RES_SIM_99)
(53)      [ARRY] (2) line_sc.terminal_p.v = load_sc.terminal.v ($RES_SIM_139)
(54)      [SCAL] (1) $SEV_14 = line_1.line.R_actual >= 0.0 ($RES_EVT_301)
(55)      [SCAL] (1) $SEV_16 = line_sc.terminal_p.v / (line_sc.terminal_p.v * (line_sc.terminal_p.v * line_sc.terminal_p.v * (line_sc.terminal_p.v * line_sc.terminal_p.v) + 1.0000000000000002e-10) ^ 0.25) - line_sc.terminal_n.v / (line_sc.terminal_n.v * (line_sc.terminal_n.v * line_sc.terminal_n.v * (line_sc.terminal_n.v * line_sc.terminal_n.v) + 1.0000000000000002e-10) ^ 0.25) > 1.0 ($RES_EVT_303)
(56)      [SCAL] (1) $SEV_17 = line_sc.terminal_p.v / (line_sc.terminal_p.v * (line_sc.terminal_p.v * line_sc.terminal_p.v * (line_sc.terminal_p.v * line_sc.terminal_p.v) + 1.0000000000000002e-10) ^ 0.25) - line_sc.terminal_n.v / (line_sc.terminal_n.v * (line_sc.terminal_n.v * line_sc.terminal_n.v * (line_sc.terminal_n.v * line_sc.terminal_n.v) + 1.0000000000000002e-10) ^ 0.25) < (-1.0) ($RES_EVT_304)
(57)      [SCAL] (1) $SEV_18 = line_3b.terminal_p.v / (line_3b.terminal_p.v * (line_3b.terminal_p.v * line_3b.terminal_p.v * (line_3b.terminal_p.v * line_3b.terminal_p.v) + 1.0000000000000002e-10) ^ 0.25) - line_3b.terminal_n.v / (line_3b.terminal_n.v * (line_3b.terminal_n.v * line_3b.terminal_n.v * (line_3b.terminal_n.v * line_3b.terminal_n.v) + 1.0000000000000002e-10) ^ 0.25) > 1.0 ($RES_EVT_305)
(58)      [SCAL] (1) $SEV_19 = line_3b.terminal_p.v / (line_3b.terminal_p.v * (line_3b.terminal_p.v * line_3b.terminal_p.v * (line_3b.terminal_p.v * line_3b.terminal_p.v) + 1.0000000000000002e-10) ^ 0.25) - line_3b.terminal_n.v / (line_3b.terminal_n.v * (line_3b.terminal_n.v * line_3b.terminal_n.v * (line_3b.terminal_n.v * line_3b.terminal_n.v) + 1.0000000000000002e-10) ^ 0.25) < (-1.0) ($RES_EVT_306)
(59)      [SCAL] (1) $SEV_20 = line_3a.terminal_p.v / (line_3a.terminal_p.v * (line_3a.terminal_p.v * line_3a.terminal_p.v * (line_3a.terminal_p.v * line_3a.terminal_p.v) + 1.0000000000000002e-10) ^ 0.25) - line_3a.terminal_n.v / (line_3a.terminal_n.v * (line_3a.terminal_n.v * line_3a.terminal_n.v * (line_3a.terminal_n.v * line_3a.terminal_n.v) + 1.0000000000000002e-10) ^ 0.25) > 1.0 ($RES_EVT_307)
(60)      [SCAL] (1) $SEV_21 = line_3a.terminal_p.v / (line_3a.terminal_p.v * (line_3a.terminal_p.v * line_3a.terminal_p.v * (line_3a.terminal_p.v * line_3a.terminal_p.v) + 1.0000000000000002e-10) ^ 0.25) - line_3a.terminal_n.v / (line_3a.terminal_n.v * (line_3a.terminal_n.v * line_3a.terminal_n.v * (line_3a.terminal_n.v * line_3a.terminal_n.v) + 1.0000000000000002e-10) ^ 0.25) < (-1.0) ($RES_EVT_308)
(61)      [SCAL] (1) $SEV_22 = line_2b.terminal_p.v / (line_2b.terminal_p.v * (line_2b.terminal_p.v * line_2b.terminal_p.v * (line_2b.terminal_p.v * line_2b.terminal_p.v) + 1.0000000000000002e-10) ^ 0.25) - line_2b.terminal_n.v / (line_2b.terminal_n.v * (line_2b.terminal_n.v * line_2b.terminal_n.v * (line_2b.terminal_n.v * line_2b.terminal_n.v) + 1.0000000000000002e-10) ^ 0.25) > 1.0 ($RES_EVT_309)
(62)      [ARRY] (2) line_sc.line.Vc = 0.5 .* (line_sc.line.terminal_p.v + line_sc.line.terminal_n.v) ($RES_SIM_20)
(63)      [ARRY] (2) (0.5 * line_sc.line.L) * line_sc.line.omega * {-line_sc.line.terminal_n.i[2], line_sc.line.terminal_n.i[1]} + line_sc.line.terminal_n.i * $FUN_6 = line_sc.line.terminal_n.v - line_sc.line.Vc ($RES_SIM_21)
(64)      [ARRY] (2) line_2a.terminal_p.v = line_2a.line.terminal_p.v ($RES_SIM_220)
(65)      [ARRY] (2) (0.5 * line_sc.line.L) * line_sc.line.omega * {-line_sc.line.terminal_p.i[2], line_sc.line.terminal_p.i[1]} + line_sc.line.terminal_p.i * $FUN_6 = line_sc.line.terminal_p.v - line_sc.line.Vc ($RES_SIM_22)
(66)      [ARRY] (1) line_2a.terminal_p.theta = line_2a.line.terminal_p.theta ($RES_SIM_221)
(67)      [ARRY] (2) line_sc.line.terminal_p.i + line_sc.line.terminal_n.i = line_sc.line.Ic ($RES_SIM_23)
(68)      [ARRY] (2) load_sc.v = load_sc.terminal.v ($RES_BND_272)
(69)      [FOR-] (2) ($RES_SIM_222)
(69)      [----] for $i1 in 1:2 loop
(69)      [----]   [SCAL] (1) line_2a.line.terminal_n.i[$i1] - line_2a.terminal_n.i[$i1] = 0.0 ($RES_SIM_223)
(69)      [----] end for;
(70)      [SCAL] (1) line_sc.line.omega = $DER.line_sc.line.terminal_p.theta[1] ($RES_SIM_24)
(71)      [ARRY] (2) load_sc.i = load_sc.terminal.i ($RES_BND_273)
(72)      [ARRY] (2) load_sc.S = {load_sc.v[1] * (-load_sc.i)[1] + load_sc.v[2] * (-load_sc.i)[2], load_sc.v[2] * (-load_sc.i)[1] - load_sc.v[1] * (-load_sc.i)[2]} ($RES_BND_274)
(73)      [ARRY] (2) line_2a.line.terminal_n.v = line_2a.terminal_n.v ($RES_SIM_224)
(74)      [ARRY] (1) line_2a.line.terminal_n.theta = line_2a.terminal_n.theta ($RES_SIM_225)
(75)      [ARRY] (1) line_sc.terminal_p.theta = load_sc.terminal.theta ($RES_SIM_140)
(76)      [SCAL] (1) line_3b.terminal_p.i[2] + R3.terminal.i[2] + line_3a.terminal_p.i[2] = 0.0 ($RES_SIM_141)
(77)      [SCAL] (1) line_3b.terminal_p.i[1] + R3.terminal.i[1] + line_3a.terminal_p.i[1] = 0.0 ($RES_SIM_142)
(78)      [FOR-] (2) ($RES_SIM_228)
(78)      [----] for $i1 in 1:2 loop
(78)      [----]   [SCAL] (1) line_1.line.terminal_p.i[$i1] - line_1.terminal_p.i[$i1] = 0.0 ($RES_SIM_229)
(78)      [----] end for;
(79)      [SCAL] (1) line_3b.terminal_p.v[2] = line_3a.terminal_p.v[2] ($RES_SIM_143)
(80)      [SCAL] (1) line_3b.terminal_p.v[2] = R3.terminal.v[2] ($RES_SIM_144)
(81)      [SCAL] (1) line_3b.terminal_p.v[1] = line_3a.terminal_p.v[1] ($RES_SIM_145)
(82)      [SCAL] (1) line_3b.terminal_p.v[1] = R3.terminal.v[1] ($RES_SIM_146)
(83)      [SCAL] (1) line_3b.terminal_p.theta[1] = line_3a.terminal_p.theta[1] ($RES_SIM_147)
(84)      [SCAL] (1) line_3b.terminal_p.theta[1] = R3.terminal.theta[1] ($RES_SIM_148)
(85)      [FOR-] (2) ($RES_SIM_149)
(85)      [----] for $i1 in 1:2 loop
(85)      [----]   [SCAL] (1) line_2b.terminal_p.i[$i1] + R2.terminal.i[$i1] = 0.0 ($RES_SIM_150)
(85)      [----] end for;
(86)      [SCAL] (1) $SEV_23 = line_2b.terminal_p.v / (line_2b.terminal_p.v * (line_2b.terminal_p.v * line_2b.terminal_p.v * (line_2b.terminal_p.v * line_2b.terminal_p.v) + 1.0000000000000002e-10) ^ 0.25) - line_2b.terminal_n.v / (line_2b.terminal_n.v * (line_2b.terminal_n.v * line_2b.terminal_n.v * (line_2b.terminal_n.v * line_2b.terminal_n.v) + 1.0000000000000002e-10) ^ 0.25) < (-1.0) ($RES_EVT_310)
(87)      [SCAL] (1) $SEV_24 = line_2a.terminal_p.v / (line_2a.terminal_p.v * (line_2a.terminal_p.v * line_2a.terminal_p.v * (line_2a.terminal_p.v * line_2a.terminal_p.v) + 1.0000000000000002e-10) ^ 0.25) - line_2a.terminal_n.v / (line_2a.terminal_n.v * (line_2a.terminal_n.v * line_2a.terminal_n.v * (line_2a.terminal_n.v * line_2a.terminal_n.v) + 1.0000000000000002e-10) ^ 0.25) > 1.0 ($RES_EVT_311)
(88)      [SCAL] (1) $SEV_25 = line_2a.terminal_p.v / (line_2a.terminal_p.v * (line_2a.terminal_p.v * line_2a.terminal_p.v * (line_2a.terminal_p.v * line_2a.terminal_p.v) + 1.0000000000000002e-10) ^ 0.25) - line_2a.terminal_n.v / (line_2a.terminal_n.v * (line_2a.terminal_n.v * line_2a.terminal_n.v * (line_2a.terminal_n.v * line_2a.terminal_n.v) + 1.0000000000000002e-10) ^ 0.25) < (-1.0) ($RES_EVT_312)
(89)      [SCAL] (1) $SEV_26 = line_1.terminal_p.v / (line_1.terminal_p.v * (line_1.terminal_p.v * line_1.terminal_p.v * (line_1.terminal_p.v * line_1.terminal_p.v) + 1.0000000000000002e-10) ^ 0.25) - line_1.terminal_n.v / (line_1.terminal_n.v * (line_1.terminal_n.v * line_1.terminal_n.v * (line_1.terminal_n.v * line_1.terminal_n.v) + 1.0000000000000002e-10) ^ 0.25) > 1.0 ($RES_EVT_313)
(90)      [SCAL] (1) $SEV_27 = line_1.terminal_p.v / (line_1.terminal_p.v * (line_1.terminal_p.v * line_1.terminal_p.v * (line_1.terminal_p.v * line_1.terminal_p.v) + 1.0000000000000002e-10) ^ 0.25) - line_1.terminal_n.v / (line_1.terminal_n.v * (line_1.terminal_n.v * line_1.terminal_n.v * (line_1.terminal_n.v * line_1.terminal_n.v) + 1.0000000000000002e-10) ^ 0.25) < (-1.0) ($RES_EVT_314)
(91)      [ARRY] (2) line_1.terminal_p.v = line_1.line.terminal_p.v ($RES_SIM_230)
(92)      [ARRY] (1) line_1.terminal_p.theta = line_1.line.terminal_p.theta ($RES_SIM_231)
(93)      [FOR-] (2) ($RES_SIM_232)
(93)      [----] for $i1 in 1:2 loop
(93)      [----]   [SCAL] (1) line_1.line.terminal_n.i[$i1] - line_1.terminal_n.i[$i1] = 0.0 ($RES_SIM_233)
(93)      [----] end for;
(94)      [ARRY] (2) line_1.line.terminal_n.v = line_1.terminal_n.v ($RES_SIM_234)
(95)      [ARRY] (1) line_1.line.terminal_n.theta = line_1.terminal_n.theta ($RES_SIM_235)
(96)      [ARRY] (2) R3.terminal.v = {{R3.R, -R3.X} * R3.terminal.i, {R3.X, R3.R} * R3.terminal.i} ($RES_SIM_37)
(97)      [SCAL] (1) R3.X = R3.omega * R3.L ($RES_SIM_38)
(98)      [ARRY] (2) line_2b.terminal_p.v = R2.terminal.v ($RES_SIM_151)
(99)      [SCAL] (1) R3.omega = $DER.R3.terminal.theta[1] ($RES_SIM_39)
(100)     [ARRY] (1) line_2b.terminal_p.theta = R2.terminal.theta ($RES_SIM_152)
(101)     [FOR-] (2) ($RES_SIM_153)
(101)     [----] for $i1 in 1:2 loop
(101)     [----]   [SCAL] (1) line_2a.terminal_p.i[$i1] + line_2b.terminal_n.i[$i1] = 0.0 ($RES_SIM_154)
(101)     [----] end for;
(102)     [ARRY] (2) line_2a.terminal_p.v = line_2b.terminal_n.v ($RES_SIM_155)
(103)     [ARRY] (1) line_2a.terminal_p.theta = line_2b.terminal_n.theta ($RES_SIM_156)
(104)     [SCAL] (1) line_2a.terminal_n.i[2] + line_3a.terminal_n.i[2] + line_3b.terminal_n.i[2] + line_sc.terminal_n.i[2] + E.terminal.i[2] + line_1.terminal_n.i[2] = 0.0 ($RES_SIM_157)
(105)     [SCAL] (1) line_2a.terminal_n.i[1] + line_3a.terminal_n.i[1] + line_3b.terminal_n.i[1] + line_sc.terminal_n.i[1] + E.terminal.i[1] + line_1.terminal_n.i[1] = 0.0 ($RES_SIM_158)
(106)     [SCAL] (1) E.terminal.v[2] = line_1.terminal_n.v[2] ($RES_SIM_159)
(107)     [SCAL] (1) line_3b.line.R_actual = (1.4480000000000002 * (line_3b.line.M + ((-273.15) + line_3b.TCable))) / (line_3b.line.M + ((-273.15) + line_3b.line.T_ref)) ($RES_SIM_42)
(108)     [ARRY] (1) line_3b.line.terminal_p.theta = line_3b.line.terminal_n.theta ($RES_SIM_44)
(109)     [SCAL] (1) line_3b.line.LossPower = (0.5 * line_3b.line.R_actual) * (line_3b.line.terminal_p.i[1] ^ 2.0 + line_3b.line.terminal_p.i[2] ^ 2.0) + (0.5 * line_3b.line.R_actual) * (line_3b.line.terminal_n.i[1] ^ 2.0 + line_3b.line.terminal_n.i[2] ^ 2.0) ($RES_SIM_45)
(110)     [ARRY] (2) line_3b.line.Vc = 0.5 .* (line_3b.line.terminal_p.v + line_3b.line.terminal_n.v) ($RES_SIM_46)
(111)     [ARRY] (2) (0.5 * line_3b.line.L) * line_3b.line.omega * {-line_3b.line.terminal_n.i[2], line_3b.line.terminal_n.i[1]} + line_3b.line.terminal_n.i * $FUN_5 = line_3b.line.terminal_n.v - line_3b.line.Vc ($RES_SIM_47)
(112)     [SCAL] (1) E.terminal.v[2] = line_2a.terminal_n.v[2] ($RES_SIM_160)
(113)     [ARRY] (2) (0.5 * line_3b.line.L) * line_3b.line.omega * {-line_3b.line.terminal_p.i[2], line_3b.line.terminal_p.i[1]} + line_3b.line.terminal_p.i * $FUN_5 = line_3b.line.terminal_p.v - line_3b.line.Vc ($RES_SIM_48)
(114)     [SCAL] (1) E.terminal.v[2] = line_3a.terminal_n.v[2] ($RES_SIM_161)
(115)     [ARRY] (2) line_3b.line.terminal_p.i + line_3b.line.terminal_n.i = line_3b.line.Ic ($RES_SIM_49)
(116)     [SCAL] (1) E.terminal.v[2] = line_3b.terminal_n.v[2] ($RES_SIM_162)
(117)     [SCAL] (1) E.terminal.v[2] = line_sc.terminal_n.v[2] ($RES_SIM_163)
(118)     [SCAL] (1) E.terminal.v[1] = line_1.terminal_n.v[1] ($RES_SIM_164)
(119)     [SCAL] (1) E.terminal.v[1] = line_2a.terminal_n.v[1] ($RES_SIM_165)
(120)     [SCAL] (1) E.terminal.v[1] = line_3a.terminal_n.v[1] ($RES_SIM_166)
(121)     [SCAL] (1) E.terminal.v[1] = line_3b.terminal_n.v[1] ($RES_SIM_167)
(122)     [SCAL] (1) E.terminal.v[1] = line_sc.terminal_n.v[1] ($RES_SIM_168)
(123)     [SCAL] (1) E.terminal.theta[1] = line_1.terminal_n.theta[1] ($RES_SIM_169)
(124)     [SCAL] (1) line_3b.line.omega = $DER.line_3b.line.terminal_p.theta[1] ($RES_SIM_50)
(125)     [SCAL] (1) line_3a.line.R_actual = (1.4480000000000002 * (line_3a.line.M + ((-273.15) + line_3a.TCable))) / (line_3a.line.M + ((-273.15) + line_3a.line.T_ref)) ($RES_SIM_54)
(126)     [ARRY] (1) line_3a.line.terminal_p.theta = line_3a.line.terminal_n.theta ($RES_SIM_56)
(127)     [SCAL] (1) line_3a.line.LossPower = (0.5 * line_3a.line.R_actual) * (line_3a.line.terminal_p.i[1] ^ 2.0 + line_3a.line.terminal_p.i[2] ^ 2.0) + (0.5 * line_3a.line.R_actual) * (line_3a.line.terminal_n.i[1] ^ 2.0 + line_3a.line.terminal_n.i[2] ^ 2.0) ($RES_SIM_57)
(128)     [SCAL] (1) E.terminal.theta[1] = line_2a.terminal_n.theta[1] ($RES_SIM_170)
(129)     [ARRY] (2) line_3a.line.Vc = 0.5 .* (line_3a.line.terminal_p.v + line_3a.line.terminal_n.v) ($RES_SIM_58)
(130)     [SCAL] (1) E.terminal.theta[1] = line_3a.terminal_n.theta[1] ($RES_SIM_171)
(131)     [ARRY] (2) (0.5 * line_3a.line.L) * line_3a.line.omega * {-line_3a.line.terminal_n.i[2], line_3a.line.terminal_n.i[1]} + line_3a.line.terminal_n.i * $FUN_4 = line_3a.line.terminal_n.v - line_3a.line.Vc ($RES_SIM_59)
(132)     [SCAL] (1) E.terminal.theta[1] = line_3b.terminal_n.theta[1] ($RES_SIM_172)
(133)     [SCAL] (1) E.terminal.theta[1] = line_sc.terminal_n.theta[1] ($RES_SIM_173)
(134)     [FOR-] (2) ($RES_SIM_174)
(134)     [----] for $i1 in 1:2 loop
(134)     [----]   [SCAL] (1) line_1.terminal_p.i[$i1] + R1.terminal.i[$i1] = 0.0 ($RES_SIM_175)
(134)     [----] end for;
(135)     [ARRY] (2) line_1.terminal_p.v = R1.terminal.v ($RES_SIM_176)
(136)     [ARRY] (1) line_1.terminal_p.theta = R1.terminal.theta ($RES_SIM_177)
(137)     [FOR-] (2) ($RES_SIM_179)
(137)     [----] for $i1 in 1:2 loop
(137)     [----]   [SCAL] (1) line_sc.line.terminal_p.i[$i1] - line_sc.terminal_p.i[$i1] = 0.0 ($RES_SIM_180)
(137)     [----] end for;
(138)     [ARRY] (2) (0.5 * line_3a.line.L) * line_3a.line.omega * {-line_3a.line.terminal_p.i[2], line_3a.line.terminal_p.i[1]} + line_3a.line.terminal_p.i * $FUN_4 = line_3a.line.terminal_p.v - line_3a.line.Vc ($RES_SIM_60)
(139)     [SCAL] (1) line_2a.line.omega = $DER.line_2a.line.terminal_p.theta[1] ($RES_SIM_100)
(140)     [ARRY] (2) line_3a.line.terminal_p.i + line_3a.line.terminal_n.i = line_3a.line.Ic ($RES_SIM_61)
(141)     [ARRY] (2) E.S = {E.terminal.v[1] * E.terminal.i[1] + E.terminal.v[2] * E.terminal.i[2], E.terminal.v[2] * E.terminal.i[1] - E.terminal.v[1] * E.terminal.i[2]} ($RES_BND_237)
(142)     [SCAL] (1) line_3a.line.omega = $DER.line_3a.line.terminal_p.theta[1] ($RES_SIM_62)
(143)     [SCAL] (1) E.phi = atan2(E.terminal.v[2], E.terminal.v[1]) - atan2((-E.terminal.i)[2], (-E.terminal.i)[1]) ($RES_BND_238)
(144)     [ARRY] (2) R1.v = R1.terminal.v ($RES_BND_239)
(145)     [SCAL] (1) line_1.line.R_actual = (0.7240000000000001 * (line_1.line.M + ((-273.15) + line_1.TCable))) / (line_1.line.M + ((-273.15) + line_1.line.T_ref)) ($RES_SIM_104)
(146)     [SCAL] (1) line_2b.line.R_actual = (0.36200000000000004 * (line_2b.line.M + ((-273.15) + line_2b.TCable))) / (line_2b.line.M + ((-273.15) + line_2b.line.T_ref)) ($RES_SIM_66)
(147)     [ARRY] (1) line_1.line.terminal_p.theta = line_1.line.terminal_n.theta ($RES_SIM_106)
(148)     [SCAL] (1) line_1.line.LossPower = (0.5 * line_1.line.R_actual) * (line_1.line.terminal_p.i[1] ^ 2.0 + line_1.line.terminal_p.i[2] ^ 2.0) + (0.5 * line_1.line.R_actual) * (line_1.line.terminal_n.i[1] ^ 2.0 + line_1.line.terminal_n.i[2] ^ 2.0) ($RES_SIM_107)
(149)     [ARRY] (1) line_2b.line.terminal_p.theta = line_2b.line.terminal_n.theta ($RES_SIM_68)
(150)     [ARRY] (2) line_sc.terminal_p.v = line_sc.line.terminal_p.v ($RES_SIM_181)
(151)     [ARRY] (2) line_1.line.Vc = 0.5 .* (line_1.line.terminal_p.v + line_1.line.terminal_n.v) ($RES_SIM_108)
(152)     [SCAL] (1) line_2b.line.LossPower = (0.5 * line_2b.line.R_actual) * (line_2b.line.terminal_p.i[1] ^ 2.0 + line_2b.line.terminal_p.i[2] ^ 2.0) + (0.5 * line_2b.line.R_actual) * (line_2b.line.terminal_n.i[1] ^ 2.0 + line_2b.line.terminal_n.i[2] ^ 2.0) ($RES_SIM_69)
(153)     [ARRY] (1) line_sc.terminal_p.theta = line_sc.line.terminal_p.theta ($RES_SIM_182)
(154)     [ARRY] (2) (0.5 * line_1.line.L) * line_1.line.omega * {-line_1.line.terminal_n.i[2], line_1.line.terminal_n.i[1]} + line_1.line.terminal_n.i * $FUN_1 = line_1.line.terminal_n.v - line_1.line.Vc ($RES_SIM_109)
(155)     [FOR-] (2) ($RES_SIM_183)
(155)     [----] for $i1 in 1:2 loop
(155)     [----]   [SCAL] (1) line_sc.line.terminal_n.i[$i1] - line_sc.terminal_n.i[$i1] = 0.0 ($RES_SIM_184)
(155)     [----] end for;
(156)     [ARRY] (2) line_sc.line.terminal_n.v = line_sc.terminal_n.v ($RES_SIM_185)
(157)     [ARRY] (1) line_sc.line.terminal_n.theta = line_sc.terminal_n.theta ($RES_SIM_186)
(158)     [FOR-] (2) ($RES_SIM_189)
(158)     [----] for $i1 in 1:2 loop
(158)     [----]   [SCAL] (1) line_3b.line.terminal_p.i[$i1] - line_3b.terminal_p.i[$i1] = 0.0 ($RES_SIM_190)
(158)     [----] end for;
(159)     [ARRY] (2) R1.i = R1.terminal.i ($RES_BND_240)
(160)     [ARRY] (2) R1.S = {R1.v[1] * (-R1.i)[1] + R1.v[2] * (-R1.i)[2], R1.v[2] * (-R1.i)[1] - R1.v[1] * (-R1.i)[2]} ($RES_BND_241)
(161)     [SCAL] (1) line_1.VoltageLosses = $FUN_12 / smooth(1, if $SEV_26 then line_1.terminal_p.v / (line_1.terminal_p.v * (line_1.terminal_p.v * line_1.terminal_p.v * (line_1.terminal_p.v * line_1.terminal_p.v) + 1.0000000000000002e-10) ^ 0.25) else if $SEV_27 then line_1.terminal_n.v / (line_1.terminal_n.v * (line_1.terminal_n.v * line_1.terminal_n.v * (line_1.terminal_n.v * line_1.terminal_n.v) + 1.0000000000000002e-10) ^ 0.25) else 0.25 * (line_1.terminal_n.v / (line_1.terminal_n.v * (line_1.terminal_n.v * line_1.terminal_n.v * (line_1.terminal_n.v * line_1.terminal_n.v) + 1.0000000000000002e-10) ^ 0.25) - line_1.terminal_p.v / (line_1.terminal_p.v * (line_1.terminal_p.v * line_1.terminal_p.v * (line_1.terminal_p.v * line_1.terminal_p.v) + 1.0000000000000002e-10) ^ 0.25)) * ((-3.0) + (line_1.terminal_p.v / ((line_1.terminal_p.v * line_1.terminal_p.v * (line_1.terminal_p.v * line_1.terminal_p.v) + 1.0000000000000002e-10) ^ 0.25 * line_1.terminal_p.v) - line_1.terminal_n.v / ((line_1.terminal_n.v * line_1.terminal_n.v * (line_1.terminal_n.v * line_1.terminal_n.v) + 1.0000000000000002e-10) ^ 0.25 * line_1.terminal_n.v)) ^ 2.0) * (line_1.terminal_p.v / (line_1.terminal_p.v * (line_1.terminal_p.v * line_1.terminal_p.v * (line_1.terminal_p.v * line_1.terminal_p.v) + 1.0000000000000002e-10) ^ 0.25) - line_1.terminal_n.v / (line_1.terminal_n.v * (line_1.terminal_n.v * line_1.terminal_n.v * (line_1.terminal_n.v * line_1.terminal_n.v) + 1.0000000000000002e-10) ^ 0.25)) + 0.5 * (line_1.terminal_p.v / (line_1.terminal_p.v * (line_1.terminal_p.v * line_1.terminal_p.v * (line_1.terminal_p.v * line_1.terminal_p.v) + 1.0000000000000002e-10) ^ 0.25) + line_1.terminal_n.v / (line_1.terminal_n.v * (line_1.terminal_n.v * line_1.terminal_n.v * (line_1.terminal_n.v * line_1.terminal_n.v) + 1.0000000000000002e-10) ^ 0.25))) ($RES_BND_243)
(162)     [ARRY] (2) line_2b.line.Vc = 0.5 .* (line_2b.line.terminal_p.v + line_2b.line.terminal_n.v) ($RES_SIM_70)
(163)     [ARRY] (2) (0.5 * line_1.line.L) * line_1.line.omega * {-line_1.line.terminal_p.i[2], line_1.line.terminal_p.i[1]} + line_1.line.terminal_p.i * $FUN_1 = line_1.line.terminal_p.v - line_1.line.Vc ($RES_SIM_110)
(164)     [ARRY] (2) (0.5 * line_2b.line.L) * line_2b.line.omega * {-line_2b.line.terminal_n.i[2], line_2b.line.terminal_n.i[1]} + line_2b.line.terminal_n.i * $FUN_3 = line_2b.line.terminal_n.v - line_2b.line.Vc ($RES_SIM_71)
(165)     [ARRY] (2) line_1.line.terminal_p.i + line_1.line.terminal_n.i = line_1.line.Ic ($RES_SIM_111)
(166)     [SCAL] (1) line_2a.VoltageLosses = $FUN_11 / smooth(1, if $SEV_24 then line_2a.terminal_p.v / (line_2a.terminal_p.v * (line_2a.terminal_p.v * line_2a.terminal_p.v * (line_2a.terminal_p.v * line_2a.terminal_p.v) + 1.0000000000000002e-10) ^ 0.25) else if $SEV_25 then line_2a.terminal_n.v / (line_2a.terminal_n.v * (line_2a.terminal_n.v * line_2a.terminal_n.v * (line_2a.terminal_n.v * line_2a.terminal_n.v) + 1.0000000000000002e-10) ^ 0.25) else 0.25 * (line_2a.terminal_n.v / (line_2a.terminal_n.v * (line_2a.terminal_n.v * line_2a.terminal_n.v * (line_2a.terminal_n.v * line_2a.terminal_n.v) + 1.0000000000000002e-10) ^ 0.25) - line_2a.terminal_p.v / (line_2a.terminal_p.v * (line_2a.terminal_p.v * line_2a.terminal_p.v * (line_2a.terminal_p.v * line_2a.terminal_p.v) + 1.0000000000000002e-10) ^ 0.25)) * ((-3.0) + (line_2a.terminal_p.v / ((line_2a.terminal_p.v * line_2a.terminal_p.v * (line_2a.terminal_p.v * line_2a.terminal_p.v) + 1.0000000000000002e-10) ^ 0.25 * line_2a.terminal_p.v) - line_2a.terminal_n.v / ((line_2a.terminal_n.v * line_2a.terminal_n.v * (line_2a.terminal_n.v * line_2a.terminal_n.v) + 1.0000000000000002e-10) ^ 0.25 * line_2a.terminal_n.v)) ^ 2.0) * (line_2a.terminal_p.v / (line_2a.terminal_p.v * (line_2a.terminal_p.v * line_2a.terminal_p.v * (line_2a.terminal_p.v * line_2a.terminal_p.v) + 1.0000000000000002e-10) ^ 0.25) - line_2a.terminal_n.v / (line_2a.terminal_n.v * (line_2a.terminal_n.v * line_2a.terminal_n.v * (line_2a.terminal_n.v * line_2a.terminal_n.v) + 1.0000000000000002e-10) ^ 0.25)) + 0.5 * (line_2a.terminal_p.v / (line_2a.terminal_p.v * (line_2a.terminal_p.v * line_2a.terminal_p.v * (line_2a.terminal_p.v * line_2a.terminal_p.v) + 1.0000000000000002e-10) ^ 0.25) + line_2a.terminal_n.v / (line_2a.terminal_n.v * (line_2a.terminal_n.v * line_2a.terminal_n.v * (line_2a.terminal_n.v * line_2a.terminal_n.v) + 1.0000000000000002e-10) ^ 0.25))) ($RES_BND_247)
(167)     [ARRY] (2) (0.5 * line_2b.line.L) * line_2b.line.omega * {-line_2b.line.terminal_p.i[2], line_2b.line.terminal_p.i[1]} + line_2b.line.terminal_p.i * $FUN_3 = line_2b.line.terminal_p.v - line_2b.line.Vc ($RES_SIM_72)
(168)     [SCAL] (1) line_1.line.omega = $DER.line_1.line.terminal_p.theta[1] ($RES_SIM_112)
(169)     [ARRY] (2) line_2b.line.terminal_p.i + line_2b.line.terminal_n.i = line_2b.line.Ic ($RES_SIM_73)
(170)     [SCAL] (1) line_2b.line.omega = $DER.line_2b.line.terminal_p.theta[1] ($RES_SIM_74)
(171)     [ARRY] (2) line_3b.terminal_p.v = line_3b.line.terminal_p.v ($RES_SIM_191)
(172)     [ARRY] (1) line_3b.terminal_p.theta = line_3b.line.terminal_p.theta ($RES_SIM_192)
(173)     [FOR-] (2) ($RES_SIM_193)
(173)     [----] for $i1 in 1:2 loop
(173)     [----]   [SCAL] (1) line_3b.line.terminal_n.i[$i1] - line_3b.terminal_n.i[$i1] = 0.0 ($RES_SIM_194)
(173)     [----] end for;
(174)     [ARRY] (2) line_3b.line.terminal_n.v = line_3b.terminal_n.v ($RES_SIM_195)
(175)     [ARRY] (1) line_3b.line.terminal_n.theta = line_3b.terminal_n.theta ($RES_SIM_196)
(176)     [FOR-] (2) ($RES_SIM_199)
(176)     [----] for $i1 in 1:2 loop
(176)     [----]   [SCAL] (1) line_3a.line.terminal_p.i[$i1] - line_3a.terminal_p.i[$i1] = 0.0 ($RES_SIM_200)
(176)     [----] end for;
(177)     [ARRY] (2) R2.v = R2.terminal.v ($RES_BND_250)
(178)     [ARRY] (2) R2.i = R2.terminal.i ($RES_BND_251)
(179)     [ARRY] (2) line_3a.terminal_p.v = line_3a.line.terminal_p.v ($RES_SIM_201)
(180)     [ARRY] (2) R2.S = {R2.v[1] * (-R2.i)[1] + R2.v[2] * (-R2.i)[2], R2.v[2] * (-R2.i)[1] - R2.v[1] * (-R2.i)[2]} ($RES_BND_252)
(181)     [ARRY] (1) line_3a.terminal_p.theta = line_3a.line.terminal_p.theta ($RES_SIM_202)
(182)     [SCAL] (1) $SEV_2 = line_sc.line.R_actual >= 0.0 ($RES_EVT_289)
(183)     [FOR-] (2) ($RES_SIM_203)
(183)     [----] for $i1 in 1:2 loop
(183)     [----]   [SCAL] (1) line_3a.line.terminal_n.i[$i1] - line_3a.terminal_n.i[$i1] = 0.0 ($RES_SIM_204)
(183)     [----] end for;
(184)     [SCAL] (1) line_2b.VoltageLosses = $FUN_10 / smooth(1, if $SEV_22 then line_2b.terminal_p.v / (line_2b.terminal_p.v * (line_2b.terminal_p.v * line_2b.terminal_p.v * (line_2b.terminal_p.v * line_2b.terminal_p.v) + 1.0000000000000002e-10) ^ 0.25) else if $SEV_23 then line_2b.terminal_n.v / (line_2b.terminal_n.v * (line_2b.terminal_n.v * line_2b.terminal_n.v * (line_2b.terminal_n.v * line_2b.terminal_n.v) + 1.0000000000000002e-10) ^ 0.25) else 0.25 * (line_2b.terminal_n.v / (line_2b.terminal_n.v * (line_2b.terminal_n.v * line_2b.terminal_n.v * (line_2b.terminal_n.v * line_2b.terminal_n.v) + 1.0000000000000002e-10) ^ 0.25) - line_2b.terminal_p.v / (line_2b.terminal_p.v * (line_2b.terminal_p.v * line_2b.terminal_p.v * (line_2b.terminal_p.v * line_2b.terminal_p.v) + 1.0000000000000002e-10) ^ 0.25)) * ((-3.0) + (line_2b.terminal_p.v / ((line_2b.terminal_p.v * line_2b.terminal_p.v * (line_2b.terminal_p.v * line_2b.terminal_p.v) + 1.0000000000000002e-10) ^ 0.25 * line_2b.terminal_p.v) - line_2b.terminal_n.v / ((line_2b.terminal_n.v * line_2b.terminal_n.v * (line_2b.terminal_n.v * line_2b.terminal_n.v) + 1.0000000000000002e-10) ^ 0.25 * line_2b.terminal_n.v)) ^ 2.0) * (line_2b.terminal_p.v / (line_2b.terminal_p.v * (line_2b.terminal_p.v * line_2b.terminal_p.v * (line_2b.terminal_p.v * line_2b.terminal_p.v) + 1.0000000000000002e-10) ^ 0.25) - line_2b.terminal_n.v / (line_2b.terminal_n.v * (line_2b.terminal_n.v * line_2b.terminal_n.v * (line_2b.terminal_n.v * line_2b.terminal_n.v) + 1.0000000000000002e-10) ^ 0.25)) + 0.5 * (line_2b.terminal_p.v / (line_2b.terminal_p.v * (line_2b.terminal_p.v * line_2b.terminal_p.v * (line_2b.terminal_p.v * line_2b.terminal_p.v) + 1.0000000000000002e-10) ^ 0.25) + line_2b.terminal_n.v / (line_2b.terminal_n.v * (line_2b.terminal_n.v * line_2b.terminal_n.v * (line_2b.terminal_n.v * line_2b.terminal_n.v) + 1.0000000000000002e-10) ^ 0.25))) ($RES_BND_254)