Eq   "$&),/269:;<=?BEHKNQTUVWXYZ[\]^_`abcdefghijklmnopqrstuvwxyz{|}~    #%'()*+-1368;?ACDGIKMNQRSTUVWXYZ[\]abdefhijlmnpqrstuvwxy{}SN>>GroundGroundNameGroundD h N>>VSIN0Sinusoidal voltage sourceNameVD hPeak Amplitude110p Frequency60p[. Phase Angle0м| DC Offset00LTstart0d0nN>>RL0Resistor-inductor branchNameRLD h Resistance0R Inductance0DInitial Current0 Current Flag`- Core Type  Wire Type- Manufacturerm Part No.XN>>RC0Resistor-capacitor branchNameRCD h Resistance0R Capacitance0yInit. Cap. Voltage0$ؓ Current Flag`-Voltage RatingP Manufacturerm Part No.N>>LC0Inductor-capacitor branchNameLCD h Inductance0D Capacitance0yInitial Current0Initial Cap Voltage04 Current Flag`- Core Type  Wire Type- Manufacturerm Part No.:N>>L0 InductorNameLD h Inductance0DInitial Current0 Current Flag`- Core Type  Wire Type- Manufacturerm Part No.$N>>C0 CapacitorNameCD h Capacitance0yInit. Cap. Voltage0$ؓ Current Flag`-Voltage RatingP Manufacturerm Part No.N>>R0 ResistorNameRD h Resistance0R Current Flag`- Power Rating1/4W0 Manufacturerm Part No.N>>RLC0#Resistor-inductor-capacitor branchNameRLCD h Resistance0R Inductance0D Capacitance0yInitial Current0Initial Cap Voltage04 Current Flag`- Core Type  Wire Type- Manufacturerm Part No.V N>>R303-phase resistor branchNameRD h Resistance0RCurrent Flag_A`!7Current Flag_B`#9Current Flag_C`%; Power Rating00 Manufacturer0m Part No. N>>RL30!3-phase resistor-inductor branchNameRLD h Resistance0R Inductance0DCurrent Flag_A`!7Current Flag_B`#9Current Flag_C`%; Core Type  Wire Type- Manufacturerm Part No. N>>RC30"3-phase resistor-capacitor branchNameRCD h Resistance0R Capacitance0yCurrent Flag_A`!7Current Flag_B`#9Current Flag_C`%;Voltage RatingP Manufacturerm Part No.N N>>DIODE0DiodeNameDD hDiode Voltage Drop0$16Initial Position Current Flag`-Voltage RatingPCurrent Rating`M7 Manufacturerm Part No. N>>THY0 ThyristorNameTHYD h Voltage Drop0PHolding Current0p>Latching Current0qWIInitial Position Current Flag`-Voltage RatingPCurrent Rating`M7 Manufacturerm Part No.,N>>SSWI0Simple switchNameSSD hInitial Position Current Flag`-Voltage RatingPCurrent Rating`M7 Manufacturerm Part No.~N>>MOSFET0MOSFET switchNameMOSD hOn Resistance0}Diode Voltage Drop0$16Initial Position Current Flag`-Voltage RatingPCurrent Rating`M7 Manufacturerm Part No. N>>IGBT0 IGBT switchNameIGBTD hSaturation Voltage0$tDiode Voltage Drop0$16Initial Position Current Flag`-Voltage RatingPCurrent Rating`M7 Manufacturerm Part No.R N>>BDIODE10Single-phase diode bridge NameBD1D hDiode Voltage Drop0$16Init. Position_1$+Init. Position_2&3Init. Position_3(;Init. Position_4*CCurrent Flag_1`Current Flag_2`Current Flag_3`Current Flag_4`Voltage RatingPCurrent Rating`M7 Manufacturerm Part No.UN>>BTHY10Single-phase thyristor bridge NameBT1D h Voltage Drop0PInit. Position_1$+Init. Position_2&3Init. Position_3(;Init. Position_4*CCurrent Flag_1`Current Flag_2`Current Flag_3`Current Flag_4`Voltage RatingPCurrent Rating`M7Manufacturer Rating7 Part No.N>>BDIODE30Three-phase diode bridgeNameBD3D hDiode Voltage Drop0$16Init. Position_1$+Init. Position_2&3Init. Position_3(;Init. Position_4*CInit. Position_5,KInit. Position_6.SCurrent Flag_1`Current Flag_2`Current Flag_3`Current Flag_4`Current Flag_5` Current Flag_6` Voltage RatingPCurrent Rating`M7 Manufacturerm Part No.N>>BTHY30Three-phase thyristor bridgeNameBT3D h Voltage Drop0PInit. Position_1$+Init. Position_2&3Init. Position_3(;Init. Position_4*CInit. Position_5,KInit. Position_6.SCurrent Flag_1`Current Flag_2`Current Flag_3`Current Flag_4`Current Flag_5` Current Flag_6` Voltage RatingPCurrent Rating`M7 Manufacturerm Part No.N>>VSI30$3-phase PWM voltage source inverterNameVSI3D hOn Resistance0}Diode Voltage Drop0$16Init. Position_1$+Init. Position_2&3Init. Position_3(;Init. Position_4*CInit. Position_5,KInit. Position_6.SCurrent Flag_1`Current Flag_2`Current Flag_3`Current Flag_4`Current Flag_5` Current Flag_6` Voltage RatingPCurrent Rating`M7 Manufacturerm Part No.N>>CSI30$3-phase PWM current source inverterNameCSI3D h Voltage Drop0PInit. Position_1$+Init. Position_2&3Init. Position_3(;Init. Position_4*CInit. Position_5,KInit. Position_6.SCurrent Flag_1`Current Flag_2`Current Flag_3`Current Flag_4`Current Flag_5` Current Flag_6` Voltage RatingPCurrent Rating`M7 Manufacturerm Part No.bN>>VP0Voltage probe (node to ground)NameVD hQN>>IP0Current probeNameID hgN>>VP20"Voltage probe (between two nodes)NameVPD h{N>>VDC0DC voltage sourceNameVDCD h Amplitude1005 N>> TF_IDEAL0Single-phase ideal transformerNameTID h Np (primary)1Ns (secondary)1P Core Type  Wire Type- Manufacturerm Part No."N>>TF_1F0Single-phase transformerNameTD h Rp (primary)0.0010Rs (secondary)0.001Lp (pri. leakage)0.0001Ls (sec. leakage)0.00011Lm (magnetizing)0.5qi Np (primary)1Ns (secondary)1P Core Type  Wire Type- Manufacturerm Part No.$N>> TF_1F_3W03-winding transformer NameT_3D h Rp (primary)0.0010Rs (secondary)0.001Rt (tertiary)0.001԰u Lp (primary)0.0001ЎLs (sec. leakage)0.00011Lt (tertiary leakage)0.0001TQu6Lm (magnetizing)0.5qi Np (primary)1Ns (secondary)1PNt (tertiary)1pu Core Type  Wire Type- Manufacturerm Part No.&N>>TF_3YY03-phase Y/Y transformerNameTYYD h Rp (primary)0.0010Rs (secondary)0.001Lp (pri. leakage)1E-005Ls (sec. leakage)1E-0051Lm (magnetizing)0.5qi Np (primary)1Ns (secondary)1P Core Type  Wire Type- Manufacturerm Part No.(N>>TF_3YD03-phase Y/D transformerNameTF_3YDD h Rp (primary)0.0010Rs (secondary)0.001Lp (pri. leakage)1E-005Ls (sec. leakage)1E-0051Lm (magnetizing)0.5qi Np (primary)1Ns (secondary)1P Core Type  Wire Type- Manufacturerm Part No. *N>>TF_3DD03-phase D/D transformerNameTDDD h Rp (primary)0.0010Rs (secondary)0.001Lp (pri. leakage)1E-005Ls (sec. leakage)1E-0051Lm (magnetizing)0.5qi Np (primary)1Ns (secondary)1P Core Type  Wire Type- Manufacturerm Part No.!,N>>TF_3YDD03-phase Y/D/D transformer NameTYDDD h Rp (primary)0.0010Rs (secondary)0.001Rt (tertiary)0.001԰uLp (pri. leakage)1E-005Ls (sec. leakage)1E-0051Lt (tertiary leakage)1E-005TQu6Lm (magnetizing)0.5qi Np (primary)1Ns (secondary)1PNt (tertiary)1pu Core Type  Wire Type- Manufacturerm Part No.".N>>TF_3YYD03-phase Y/Y/D transformer NameTYYDD h Rp (primary)0.0010Rs (secondary)0.001Rt (tertiary)0.001԰uLp (pri. leakage))1E-005$Ls (sec. leakage)1E-0051Lt (tertiary leakage)1E-005TQu6Lm (magnetizing)0.5qi Np (primary)1Ns (secondary)1PNt (tertiary)1pu Core Type  Wire Type- Manufacturerm Part No.q#0N>>P0Proportional blockNamePD hGain1A"0$2N>>PI0!Proportional-Integral controllerNamePID hGain1A"0Time Constant0.0010%4N>>I0Integral blockNameBD hTime Constant0.0010Initial Output Value0A!&6N>>COMP0 ComparatorNameCOMPD h Manufacturerm Part No.'8N>>SUM20SummerNameSUMD h Gain_1 (+)1* Gain_2 (-)-1L(:N>>SUM2P0SummerNameSUMPD hGain_11aGain_21a)<N>>SUM30SummerNameSUM3D hGain_11aGain_21aGain_31a*>N>> FILTER_LP202nd-order lowpass filterNameLPD hGain1A"0Cut-off Frequency1000aDamping Ratio0.7Ѱ(/+@N>> FILTER_HP202nd-order highpass filterNameHPD hGain1A"0Cut-off Frequency1000aDamping Ratio0.7Ѱ(/,BN>> FILTER_BP202nd-order bandpass filterNameBPD hGain1A"0Center Frequency60a Passing Band20p|-DN>> FILTER_BS202nd-order bandstop filterNameBSD hGain1A"0Center Frequency60aStopping Band20Ԁz.FN>>D0DifferentiatorNameBD hTime Constant0.0010/HN>>ANDGATE0 AND gateNameANDD h Manufacturerm Part No.0JN>>ORGATE0OR gateNameORD h Manufacturerm Part No.1LN>>NOTGATE0 NOT gateNameNOTD h Manufacturerm Part No.2NN>> NANDGATE0 NAND gateNameNANDD h Manufacturerm Part No.3PN>>NORGATE0 NOR gateNameNORD h Manufacturerm Part No.4RN>>SRFF0Set-Reset Flip-FlopNameSRFFD h Trigger FlagPN Manufacturerm Part No.5TN>>JKFF0 JK flip-flopNameJKFFD h Manufacturerm Part No.6VN>>MONO0Monostable multivibratorNameMONOD h Pulse Width0.0010ǁ Manufacturerm Part No.7XN>>MONOC0!Monostable with adjustable widthNameMONOCD h Manufacturerm Part No.8ZN>>PWCT0Pulse width counterNamePWCTD h Manufacturerm Part No.9\N>>MULT0 MultiplierNameMULTD h Manufacturerm Part No.:^N>>DIVD0DividerNameDIVDD h Manufacturerm Part No.;`N>>SAMP0Sampling/hold blockNameSAMPD h Manufacturerm Part No.}<bN>>LKUP0 Lookup tableNameLKUPD h File Name test.tbl*=dN>>LKUP2D02-dimensional lookup tableNameLKUP2DD h File Name test.tbl*w>fN>>RMS0 rms blockNameRMSD hBase Frequency60䐃Eb?hN>>SQROT0Square-root function blockNameSQD hZ@jN>>SIN0Sine function blockNameSIND h\AlN>>COS0cosine function blockNameCOSD hgBnN>>COS_10cosine inverse function blockNameCOSID hfCpN>>TG_10Tangent inverse function blockNameTAND hDrN>>FFT0FFT function blockNameFFTD hNo. of SamplesPuFundmental Freq.60aEtN>>VSEN0Voltage sensorNameVSEND hGain1A"0 Manufacturerm Part No.FvN>>ISEN0Current sensorNameISEND hGain1A"0 Manufacturerm Part No.aGxN>>ONCTRL0On-off switch controllerNameOND hHzN>>ACTRL0Delay angle alpha controllerNameACTRLD h Frequency60p[. Pulse Width1200ǁI|N>> PATTCTRL0PWM pattern controllerNamePWMD h Frequency60p[. Update Angle360಩ File Namepwm.tbl*iJ~N>>CTOP0!Control-to-power interface blockNameCTOPD hgKN>>ABC2DQO0abc-dqo transformation blockNameABCD hgLN>>DQO2ABC0dqo-abc transformation blockNameDQOD h?MN>>VTRI0Triangular-wave voltage sourceNameVTRID hV_peak_to_peak2" Frequency5000p[. Duty Cycle0.5p DC OffsetV-10LTstartsec0d0 Phase Delaydeg0И5NN>>VSQU0Square-wave voltage sourceNameVSQD h Vpeak_peak10 Frequency1000p[. Duty Cycle0.5p DC OffsetV00LTstartsec0d0 Phase Delaydeg0ИON>>VSTEP0Step voltage sourceNameVSTEPD hVstep1TPTstep0Q0PN>>VGNL0 Piecewise linear voltage sourceNameVGNLD h Frequency0p[.No. of Points nP3~Values V1..Vn 0 1Է Times T1..Tn 0 10mQN>>VVCVS0"Voltage-controlled voltage sourceNameVVCVSD hGain1A"0RN>>VCCVS0"Current-controlled voltage sourceNameVCCVSD hGain1A"0SN>>IVCCS0"Voltage-controlled current sourceNameIVCCSD hGain1A"0TN>>VNONM0&Voltage source (input multiplication)NameVNONMD hGain1A"0UN>>VNOND0 Voltage source (input division)NameVNONDD hGain1A"0VN>>VNONSQ0#Voltage source (input square-root)NameVNONSQD hGain1A"0 WN>>ISIN0Sinusoidal current sourceNameID hPeak Amplitude110p Frequency60p[. Phase Angle0м| DC Offset00LTstart0d0@XN>>ITRI0Triangular-wave current sourceNameITRID hPeak-peak Amplitude14q Frequency60p[. Duty Cycle0.5p DC Offset00LTstartsec0d0 Phase Delaydeg0И5YN>>ISQU0Square-wave current sourceNameISQUD h Ipeak_peak1`E Frequency1000p[. Duty Cycle0.5p DC Offset00LTstartsec0d0 Phase Delaydeg0ИZN>>ISTEP0Step current sourceNameISTEPD hStep-up Amplitude1tTstep0T0[N>>IGNL0 Piecewise linear current sourceNameIGNLD h Frequency0p[.No. of Points nP3~Values I1..In 0 1 Times T1..Tn 0 10m\N>>ICCCS0"Current-controlled current sourceNameICCCSD hGain1A"0]N>>BTHY3H0Half-wave thyristor bridgeNameBH3D h Voltage Drop0PInit. Position_1$+Init. Position_2&3Init. Position_3(;Current Flag_1`Current Flag_2`Current Flag_3`Voltage RatingPCurrent Rating`M7 Manufacturerm Part No.^N>>BTHY6H0Half-wave thyristor bridgeNameBH6D h Voltage Drop0PInit. Position_1$+Init. Position_2&3Init. Position_3(;Init. Position_4*CInit. Position_5,KInit. Position_6.SCurrent Flag_1`Current Flag_2`Current Flag_3`Current Flag_4`Current Flag_5` Current Flag_6` Voltage RatingPCurrent Rating`M7 Manufacturerm Part No._N>>VSIN30"3-phase sinusoidal voltage sourceNameVSIN3D hV (line-line-rms)110qNT Frequency60p[.Init. Angle (phase A)0T0s{`N>>IDC0DC current sourceNameIDCD h Amplitude100aN>>LIM0LimiterNameLIMD h Lower Limit-1jb Upper Limit1੪`bN>>GTO0Gate-Turn-Off (GTO) thyristorNameGTOD h Voltage Drop0PInitial Position Current Flag`-Voltage RatingPCurrent Rating`M7 Manufacturerm Part No.cN>>MUT20Coupled inductor (2 branches)NameMD h L11 (self)0.0010} L12 (mutual)0.0009p L22 (self)0.001} i1_initial0) i2_initial0 iIflag_1rIflag_2r Core Type  Wire Type- Manufacturerm Part No.dN>>MUT30Coupled inductor (3 branches) NameMUTD h L11 (self)0.0010} L12 (mutual)0.0009p L22 (self)0.001} L13 (mutual)0.0009İ L23 (mutual)0.0009С L33 (self)0.001} i1_initial0) i2_initial0 i i3_initial0@Iflag_1rIflag_2rIflag_3r Core Type  Wire Type- Manufacturerm Part No.eN>>TF_3F0$3-phase transformer (not connected) NameTF_3FD h Rp (primary)0.0010Rs (secondary)0.001Lp (pri. leakage)1E-005Ls (sec. leakage)1E-0051Lm (magnetizing)0.5qi Np (primary)1Ns (secondary)1P Core Type  Wire Type- Manufacturerm Part No.fN>> TF_1F_5W05-winding transformer NameT_5D h Rp (primary)0.0010Rs_1 (secondary 1)0.001$чRs_2 (secondary 2)0.001$QRs_3 (secondary 3)0.001$шRs_4 (secondary 4)0.001$QLp (pri. leakage)0.0001Ls_1 (sec. 1 leakage)0.0001TqgLs_2 (sec. 2 leakage)0.0001TLs_3 (sec. 3 leakage)0.0001TqhLs_4 (sec. 4 leakage)0.0001TLm (magnetizing)0.5qi Np (primary)1Ns_1 (secondary 1)1!Ns_2 (secondary 2)1!Ns_3 (secondary 3)1!Ns_4 (secondary 4)1! Core Type  Wire Type- Manufacturerm Part No.gN>>TFCTN0Transfer function blockNameTFCND hOrder nsbtGain1A"0Coeff. Bn..B0 0. 1.`vCoeff. An..A0 0.01 1.`hN>>TDELAY0Time delay blockNameTDD h Time Delay0.0010iN>>RESETI0Resetable integratorNameRESETID hTime Constant0.0010Initial Output Value0A! Reset FlagjN>>GATING0Gating block for switch(es)NameGD h Frequency5000p[.No. of PointsP=Switching Points 0 180.aK Manufacturerm Part No.kN>>INONM0&Current source (input multiplication)NameINONMD hGain1A"0lN>>INOND0 Current source (input division)NameINONDD hGain1A"0mN>>INONSQ0#Current source (input square-root)NameINONSQD hGain1A"0nN>>OP_AMP0Operational amplifierNameOP_AMPD h Voltage Vs+V12P Voltage Vs-V-12P Manufacturerm Part No.4oN>>ZENER0 Zener diodeNameZD hBreakdown Voltage1213Forward Voltage DropV0DQ% Current Flag`-Current Rating`M7 Manufacturerm Part No.pN>>THD0 Total-Harmonic-Distortion blockNameTHDD hFundamental Freq.60zPassing Band Freq.20$q-qN>> TF_1F_4W04-winding transformerNameT_4D hRp_1 (primary 1)0.001qRp_2 (primary 2)0.001Rs_1 (secondary 1)0.001$чRs_2 (secondary 2)0.001$QLp_1 (pri. 1 leakage)0.0001T#Lp_2 (pri. 2 leakage)0.0001TLs_1 (sec. 1 leakage)0.0001TqgLs_2 (sec. 2 leakage)0.0001TLm (magnetizing)0.5qiNp_1 (primary 1)11Np_2 (primary 2)1Ns_1 (secondary 1)1!Ns_2 (secondary 2)1! Core Type  Wire Type- Manufacturerm Part No.rN>>RLC303-phase R-L-C branchNameRLCD h Resistance0R Inductance0D Capacitance0yCurrent Flag_A`!7Current Flag_B`#9Current Flag_C`%; Core Type  Wire Type- Manufacturerm Part No.vsN>>W WattmeterNameWD hCut-off Frequency20axtN>>W3 WattmeterNameW3D hCut-off Frequency30a|uN>>VAR Var MeterNameVARD hOperating Frequency604AvN>>VAR33-phase Var meterNameVAR3D hOperating Frequency604AwN>>V_DC DC VoltmeterNameVPDCD hCut-off Frequency10axN>>V_AC AC VoltmeterNameVPACD hOperating Frequency604ACut-off Frequency10a|yN>>A_DC DC AmmeterNameADCD hCut-off Frequency10azN>>A_AC AC AmmeterNameAACD hOperating Frequency604ACut-off Frequency10aU{N>> Ground_1GroundNameGroundD h~|N>>VDC_GND0DC voltage sourceNameVCCD h Amplitude12}N>>MUX2Multiplexer with 2 inputsNameMUX2D h Manufacturerm Part No.~N>>MUX4Multiplexer with 4 inputsNameMUX4D h Manufacturerm Part No.N>>MUX8Multiplexer with 8 inputs NameMUX8D h Manufacturerm Part No.N>> TF_1F_7W07-winding transformerNameT_7D h Rp (primary)0.0010Rs_1 (secondary 1)0.001$чRs_2 (secondary 2)0.001$QRs_3 (secondary 3)0.001$шRs_4 (secondary 4)0.001$QRs_5 (secondary 5)0.001$щRs_6 (secondary 6)0.001$QLp (pri. leakage)0.0001Ls_1 (sec. 1 leakage)0.0001TqgLs_2 (sec. 2 leakage)0.0001TLs_3 (sec. 3 leakage)0.0001TqhLs_4 (sec. 4 leakage)0.0001TLs_5 (sec. 5 leakage)0.0001TqiLs_6 (sec. 6 leakage)0.0001TLm (magnetizing)0.5qi Np (primary)1Ns_1 (secondary 1)1!Ns_2 (secondary 2)1!Ns_3 (secondary 3)1!Ns_4 (secondary 4)1!Ns_5 (secondary 5)1!Ns_6 (secondary 6)1! Core Type  Wire Type- Manufacturerm Part No.N>> TF_3F_3W0$3-phase transformer (not connected) NameTF_3FD h Rp (primary)0.0010Rs (secondary)0.001Rt (tertiary)0.001԰uLp (pri. leakage)1E-005Ls (sec. leakage)1E-0051Lt (tertiary leakage)1E-005TQu6Lm (magnetizing)0.5qi Np (primary)1Ns (secondary)1PNt (tertiary)1pu Core Type  Wire Type- Manufacturerm Part No.N>>VRAND0Random voltage sourceNameVRANDD hPeak-peak Amplitude14q DC Offset00LN>>IRAND0Random current sourceNameIRANDD hPeak-peak Amplitude14q DC Offset00LN>>INDM_3S0 Squirrel-cage induction machine NameIMD h Rs (stator)0.294 Ls (stator)1.390 Rr (rotor)0.156p Lr (rotor)0.74mLm (magnetizing)41mqiNo. of Poles P6PtMoment of Inertia0.4V Torque Flag0Master/Slave FlagxVoltage RatingPCurrent Rating`M7 Power Rating0 Speed RatingG Manufacturerm Part No.N>>DCM0 DC machine NameDCD hRa (armature)0.5PLa (armature)0.01 Rf (field)75i Lf (field)0.02iMoment of Inertia0.4V Vt (rated)120k Ia (rated)10hn (rated, in rpm)1200, If (rated)1.6`i Torque Flag0Master/Slave FlagxVoltage RatingPCurrent Rating`M7 Power Rating0 Speed RatingG Manufacturerm Part No.N>>WSEN0 Speed sensorNameWSEND hGain1A"0 Manufacturerm Part No.N>>TSEN0Torque sensorNameTSEND hGain1A"0 Manufacturerm Part No.[N>>MLOAD0Mechanical loadNameMLOADD hTc1$pK1 (coefficient)0߯K2 (coefficient)0K3 (coefficient)0!Moment of Inertia0V Manufacturerm Part No.*N>>MLOAD_P0Constant-power mech. loadNameMLOADPD hMaximum Torque30သBase Speed (in rpm)2001Moment of Inertia0V Manufacturerm Part No.N>>MLOAD_T0Constant-torque mech. loadNameMLOADTD hConstant Torque1 hMoment of Inertia0V Manufacturerm Part No. N>> INONSP_10Current source (polynomial)Name INONSP_1D hK0 (coefficient)1߯K1 (coefficient)0߯K2 (coefficient)0K3 (coefficient)0!N>> INONSP_20 Current source (constant-power)Name INONSP_2D hMaximum Current30 Base Input0.2g Maximum Input1ԀlN>> INDM_3SN0 Squirrel-cage induction machine NameIMD h Rs (stator)0.294 Ls (stator)1.39m0 Rr (rotor)0.156p Lr (rotor)0.74mLm (magnetizing)41mqiNo. of Poles P6PtMoment of Inertia0.4V Torque Flag0Master/Slave FlagxVoltage RatingPCurrent Rating`M7 Power Rating0 Speed RatingG Manufacturerm Part No.^N>>ABS0Absolute function blockNameABSD hN>> ROUNDOFF0Round-off function blockNameRNDOFD hNo. of DigitsPTruncation FlagШ N>>EXP0Exponential function blockNameEXPD hCoefficient k11`bCoefficient k22.71828`d8 N>>DIGIT0Quantization function blockNameDIGITD h No. of BitsPrVin_min-5t~Vin_max5tVo_min-5d̫Vo_max5dSampling FrequencyHz1000!eUN>> TF_1F_8W08-winding transformerNameT_8D hRp_1 (primary 1)0.001qRp_2 (primary 2)0.001Rs_1 (secondary 1)0.001$чRs_2 (secondary 2)0.001$QRs_3 (secondary 3)0.001$шRs_4 (secondary 4)0.001$QRs_5 (secondary 5)0.001$щRs_6 (secondary 6)0.001$QLp_1 (pri. 1 leakage)0.0001T#Lp_2 (pri. 2 leakage)0.0001TLs_1 (sec. 1 leakage)0.0001TqgLs_2 (sec. 2 leakage)0.0001TLs_3 (sec. 3 leakage)0.0001TqhLs_4 (sec. 4 leakage)0.0001TLs_5 (sec. 5 leakage)0.0001TqiLs_6 (sec. 6 leakage)0.0001TLm (magnetizing)0.5qiNp_1 (primary 1)11Np_2 (primary 2)1Ns_1 (secondary 1)1!Ns_2 (secondary 2)1!Ns_3 (secondary 3)1!Ns_4 (secondary 4)1!Ns_5 (secondary 5)1!Ns_6 (secondary 6)1! Core Type  Wire Type- Manufacturerm Part No.N>> ANDGATE30AND gate (3-input)NameAND3D h Manufacturerm Part No.N>>ORGATE30OR gate (3-input)NameOR3D h Manufacturerm Part No.N>>POWER0Power function blockNamePOWD hCoefficient k11`bCoefficient k21`dKN>>ArrowNameArrowD hN>>ZOH0Zero-order holdNameZOHD hSampling Frequency1000!eN>>UDELAY0 Unit delayNameUDELAYD hSampling Frequency1000!eN>>TFCTN_D0!z-domain transfer function blockNameTF_DD hOrder NsbtCoeff. b0..bN1 1`RCoeff. a0..aN1 1`Sampling FrequencyHz1000!eN>>I_D0Discrete integratorNameBD hAlgorithm FlagInitial Value0ԠTSampling FrequencyHz1000!e N>>D_D0Discrete differentiatorNameDD hSampling FrequencyHz1000!e "N>> I_RESET_D0Discrete resetable integratorNameISETD hAlgorithm FlagInitial Value0ԠT Reset FlagSampling FrequencyHz1000!e$N>> C_BUFFER0Circular bufferNameCBUFFD hBuffer Length P Sampling FrequencyHz1000!e&N>>ARRAY0 Data arrayNameARRD h Array length`FValues5. 10.gZ^(N>>CONV0Convolution blockNameCONVD h*N>>MEMREAD0Memory read blockNameMEMD hMemory Index Offset3A,N>> FILTER_FIR0%Finite Impulse Response (FIR) filterNameFIRD hOrder NsbtCoeff. b0..bN1 1`RSampling Frequency1000!e.N>> FILTER_D0Digital filterName FILTER_DD hOrder NsbtCoeff. b0..bN1 1`RCoeff. a0..aN1 1`Sampling Frequency1000!ey0N>>SUM101-input SummerNameSUM1D h Gain_1 (+)1*2N>> FILTER_FIR10%Finite Impulse Response (FIR) filterNameFIRD hFile for Coefficients coeff_b.tblT-Sampling Frequency1000!e4N>> FILTER_D10Digital filterName FILTER_DD hFile for Coefficients coeff_ab.tblT-Sampling Frequency1000!e6N>>XORGATE0exclusive-OR gateNameXORD h Manufacturerm Part No.K8N>>SRM3"3-phase switched reluctance motorNameSRM3D h Resistance0RInductance Lmin0֑Inductance Lmax0Theta_r (deg.)0$Moment of Inertia0V Torque Flag0Master/Slave FlagxVoltage RatingPCurrent Rating`M7 Power Rating0 Speed RatingG Manufacturerm Part No.:N>> DLL_EXT10External DLL blockNameDLLD h File Name ms_user0.dll*<N>> DLL_EXT60External DLL block NameDLLD h File Name ms_user0.dll*>N>> DLL_EXT30External DLL blockNameDLLD h File Name ms_user0.dll*W@N>>Time0Time (in sec.)NameTimeD hBN>> DLL_EXT120External DLL blockNameDLLD h File Name ms_user0.dll*bDN>>NPN_10npn Transistor (3 modes)NameNPND hCurrent Gain beta100aQBias Voltage Vr0.7u\Vce,sat0.2tVoltage RatingPCurrent Rating`M7 Manufacturerm Part No.bFN>>PNP_10pnp Transistor (3 modes)NamePNPD hCurrent Gain beta100aQBias Voltage Vr0.7u\Vec,sat0.2t{Voltage RatingPCurrent Rating`M7 Manufacturerm Part No.HN>>VPOWERS0Voltage source VPOWERSNameVPOWERSD hGain1A"0Coefficient k11`bCoefficient k21`dJN>>LKUP_TZ0Trapezoidal wave lookup tableNameLKUP_TZD hRising Angle theta30$ Peak Value17p/{LN>>LKUP_SQ0Square wave lookup tableNameLKUP_SQD hPulse Width (deg.)120$1 \NN>>SIGN0Sign function blockNameSIGND hrPN>>BDCM30#Brushless dc machine (trapezoidal)NameBDCMD hR (stator resistance)11.9T%L (stator self ind.)0.00207DQEM (stator mutual ind.) -0.00069daM Vpk / krpm32.30 Vrms / krpm22.9pޱNo. of Poles P4PtMoment of Inertia7E-006VMech. Time Constant104Abtheta_0 (deg.)0䐜theta_advance (deg.)0DConduction Pulse Width120d Torque Flag0Master/Slave FlagxVoltage RatingPCurrent Rating`M7 Power Rating0 Speed RatingG Manufacturerm Part No.RN>> VDC_CELL0DC voltage sourceNameVDCD h Amplitude100uTN>>MUT40Coupled inductor (4 branches) NameMUTD h L11 (self)0.0010} L12 (mutual)0.0009p L22 (self)0.001} L13 (mutual)0.0009İ L23 (mutual)0.0009С L33 (self)0.001} L14 (mutual)0.0009 L24 (mutual)0.0009 L34 (mutual)0.00090 L44 (self)0.001P~ Core Type  Wire Type- Manufacturerm Part No.+VN>>VA_PFVA-power factor meterNameVAPFD hOperating Frequency604ACut-off Frequency20aVA Display FlagPF Display FlagFDPF Display Flag]5XN>>VA_PF33-phase VA-power factor meterNameVAPF3D hOperating Frequency604ACut-off Frequency40aVA Display FlagPF Display FlagFDPF Display Flag]ZN>>VVCVSV0(Variable-gain controlled voltage sourceNameVCVSVD hGain1A"0\N>>IVCCSV0(Variable-gain controlled current sourceNameIVCCSVD hGain1A"0^N>>ARRAY10 Data arrayNameARRD hFile for Coefficients coeff.tblT-`N>> DLL_EXT200External DLL block(NameDLLD h File Name ms_user0.dll*%bN>>TFCTN10Transfer function blockNameTFCN1D hOrder nsbtGain1A"0Coeff. Bn..B0 0. 1.`vCoeff. An..A0 0.01 1.`Initial Values xn..x1 0.T)$dN>> TF_3F_4W03-phase 4-winding transformerName TF_3F_4WD hRp_1 (primary 1)0.001qRp_2 (primary 2)0.001Rs (secondary)0.001Rt (tertiary)0.001԰uLp_1 (pri. 1 leakage)1E-005T#Lp_2 (pri. 2 leakage)1E-005TLs (sec. leakage)1E-0051Lt (tertiary leakage)1E-005TQu6Lm (magnetizing)0.5qiNp_1 (primary 1)11Np_2 (primary 2)1Ns (secondary)1PNt (tertiary)1pu Core Type  Wire Type- Manufacturerm Part No.fN>> MLOAD_WM0Constant-speed mech. loadNameMLOADWD hConstant Speed (rpm)1200A!Moment of Inertia0V Manufacturerm Part No.hN>>PMSM30Permanent-magnet sync. machine NamePMSM3D hRs (stator resistance)4.3dKLd (d-axis ind.)0.027QLq (q-axis ind.)0.067 Vpk / krpm98.670No. of Poles P4PtMoment of Inertia0.00179VMech. Time Constant104Ab Torque Flag0Master/Slave FlagxVoltage RatingPCurrent Rating`M7 Power Rating0 Speed RatingG Manufacturerm Part No.7jN>> TF_IDEAL_10Single-phase ideal transformerNameTID h Np (primary)1Ns (secondary)1P Core Type  Wire Type- Manufacturerm Part No.lN>>TF_1F_10Single-phase transformerNameTD h Rp (primary)0.0010Rs (secondary)0.001Lp (pri. leakage)0.0001Ls (sec. leakage)0.00011Lm (magnetizing)0.5qi Np (primary)1Ns (secondary)1P Core Type  Wire Type- Manufacturerm Part No.nN>> TF_1F_5W_105-winding transformer NameT_5D hRp_1 (primary 1)0.001qRp_2 (primary 2)0.001Rs_1 (secondary 1)0.001$чRs_2 (secondary 2)0.001$QRs_3 (secondary 3)0.001$шLp_1 (pri. 1 leakage)0.0001T#Lp_2 (pri. 2 leakage)0.0001TLs_1 (sec. 1 leakage)0.0001TqgLs_2 (sec. 2 leakage)0.0001TLs_3 (sec. 3 leakage)0.0001TqhLm (magnetizing)0.5qiNp_1 (primary 1)11Np_2 (primary 2)1Ns_1 (secondary 1)1!Ns_2 (secondary 2)1!Ns_3 (secondary 3)1! Core Type  Wire Type- Manufacturerm Part No.pN>> OP_AMP_10'Operational amplifier (with reference)NameOP_AMPD h Voltage Vs+V12P Voltage Vs-V-12P Manufacturerm Part No.rN>> OP_AMP_20'Operational amplifier (with reference)NameOP_AMPD h Voltage Vs+V12P Voltage Vs-V-12P Manufacturerm Part No.tN>>.FILEParameter File NameNameFILED h File Nameparameter.txt*vN>>TF_3DY03-phase D/Y transformerNameTF_3DYD h Rp (primary)0.0010Rs (secondary)0.001Lp (pri. leakage)1E-005Ls (sec. leakage)1E-0051Lm (magnetizing)0.5qi Np (primary)1Ns (secondary)1P Core Type  Wire Type- Manufacturerm Part No.SxN>>NPN0 npn switchNamenpnD hSaturation Voltage0$tInitial Position Current Flag`-Voltage RatingPCurrent Rating`M7 Manufacturerm Part No.SzN>>PNP0 pnp switchNamepnpD hSaturation Voltage0$tInitial Position Current Flag`-Voltage RatingPCurrent Rating`M7 Manufacturerm Part No.|N>> MOSFET_P0p-MOSFET switchNamePMOSD hOn Resistance0}Diode Voltage Drop0$16Initial Position Current Flag`-Voltage RatingPCurrent Rating`M7 Manufacturerm Part No.~N>> MECH_ELEC0&Mechanical-Electrical Interface BlockNameM2ED hMaster/Slave Flag0x Part No.N>>VSI3_10$3-phase PWM voltage source inverterNameVSI3D hSaturation Voltage0$tDiode Voltage Drop0$16Init. Position_1$+Init. Position_2&3Init. Position_3(;Init. Position_4*CInit. Position_5,KInit. Position_6.SCurrent Flag_1`Current Flag_2`Current Flag_3`Current Flag_4`Current Flag_5` Current Flag_6` N>> DLL_EXT250External DLL block2NameDLLD h File Name ms_user0.dll*N>>VSTEP_10Step voltage sourceNameVSTEPD hVstep10dPVstep21dPTstep1mT0 T_transition00~N>>ISTEP_10Step current sourceNameISTEPD h Amplitude 10 Amplitude 21Tstep1mT0 T_transition00~N>>IGNL_10 Piecewise linear current sourceNameIGNL_1D h Frequency0p[.Times, Values (t1,i1) ... (0, 1) (0.001, 2)1MlN>>VGNL_10 Piecewise linear voltage sourceNameVGNL_1D h Frequency0p[.Times, Values (t1,v1) ...(0, 1) (0.001, 2)1MN>>VCCVS_10"Current-controlled voltage sourceNameVCCVSD hGain1D"0N>>ICCCS_10"Current-controlled current sourceNameICCCSD hGain1D"0N>> GATING_10Gating block for switch(es)NameGATINGD h Frequency5000p[.File for Gating Table gating.tblTTeN>>SIN_10sine inverse function blockNameSINID hbN>>LOG0LOG (base e) function blockNameLOGD hgN>>LOG100LOG10 (base 10) function blockNameLOGD h]N>>TAN0Tangent function blockNameTAND hN>> TF_3F_6W03-phase 6-winding transformer$NameTD h Rp (primary)1m0Rs_1 (secondary 1)1m$чRs_2 (secondary 2)1m$QRs_3 (secondary 3)1m$шRs_4 (secondary 4)1m$QRs_5 (secondary 5)1m$щLp (pri. leakage)0.1mLs_1 (sec. 1 leakage)0.1mTqgLs_2 (sec. 2 leakage)0.1mTLs_3 (sec. 3 leakage)0.1mTqhLs_4 (sec. 4 leakage)0.1mTLs_5 (sec. 5 leakage)0.1mTqiLm (magnetizing)0.5qi Np (primary)1Ns_1 (secondary 1)1$Ns_2 (secondary 2)1$Ns_3 (secondary 3)1$Ns_4 (secondary 4)1$Ns_5 (secondary 5)1$N>>VMATH0Math expression voltage sourceNameVMATHD h Expression 1+2*3-4/5`)Tstart0d07N>>NONV0Nonlinear Element [v = f(i)]NameNONVD hExpression f(i)i^2`OExpression df/di2*iaOOInitial Value io0Lower Limit of i-1.e3%Upper Limit of i1.e3nN>> FCN_MATH0Math function blockNameFCNMD hExpression f(x)(1+x)*2`OExpression df/dx0amN>> FCN_MATH20Math function block (2 inputs)NameFCNMD hExpression f(x1,x2)x1+x24aOExpression df/x10a_Expression df/x20aaN>> FCN_MATH30Math function block (3 inputs)NameFCNMD hExpression f(x1,2,3) x1+x2+x3DaOExpression df/dx10a_Expression df/dx20aaExpression df/dx30actN>> SLINK_IN0"Link node for input from SimulinkNameSLINKID htN>> SLINK_OUT0!Link node for output to SimulinkNameSLINKOD hN>> .ACSWEEP0AC Sweep Parameters NameACSWEEPD hStart FrequencyHz100End FrequencyHz10k BNo. of Points51P=Flag for Points Source Namevsin1`Start Amplitude0.1End Amplitude0.1 F1Freq. for extra Pointsgq]N>> ACSWEEP_OUT0AC Sweep Probe NameVoD hqN>> ACSWEEP_OUT20!AC Sweep Probe (for closed loop)NameVacoD hN>> .PARAMSWEEP0Parameter SweepName PARAMSWEEPD h Start Value2) End Value10 [$Increment Step2 qParameter to be SweptRoT1[N>> RHEOSTAT0 RheostatNameRD hTotal Resistance0Tap Position (0 to 1)0.5Tq Current Flag`-N>> LIMIT_DVDT0Gradient (dv/dt) LimiterNameLIMD h dv/dt Limit1000"$SN>>D_FF0 D flip-flopNameDFFD h[N>>DAC88-bit D/A Converter NameDACD h[N>>ADC88-bit A/D Converter NameADCD hN>> VDC_GND_10DC voltage sourceNameVCCD h Amplitude12]N>>ADC1010-bit A/D Converter NameADCD h]N>>DAC1010-bit D/A Converter NameDACD hN>>L_SAT0Saturable InductorNameLD hCurrent v.s. Inductance(0.1,1m) (0.2,0.6m)wai Current Flag`-7N>>NONI0Nonlinear Element [i = f(v)]NameNONID hExpression f(v)v^2`OExpression df/dv2*vaiInitial Value vo0Lower Limit of v-1.e3Upper Limit of v1.e3-AN>>NONV_10Nonlinear Element [v = f(i,x)]NameNONVD hExpression f(i,x)x*i^2aOExpression df/dix*2*iaOOInitial Value io0Lower Limit of i-1.D3%Upper Limit of i1.D3nAN>>NONI_10Nonlinear Element [i = f(v,x)]NameNONVD hExpression f(v,x)x*v^2aOExpression df/dvx*2*vaiInitial Value vo0Lower Limit of v-1.e3Upper Limit of v1.e3-zN>>GEARBOX0 Gear BoxNameGBOXD h Gear Ratio1`3UN>> Ground_2GroundNameGroundD hvN>> FCN_MATH50Math function block (5 inputs)NameFCNMD hExpression f(x1,2,...,5)x1+x2+x3+x4+x5aOZExpression df/dx10a_Expression df/dx20aaExpression df/dx30acExpression df/dx40aeExpression df/dx50agWN>> FCN_MATH100 Math function block (10 inputs) NameFCNMD hExpression f(x1,2,...,10)x1+x2+x3+x4+x5+x6+x7+x8+x9+x10aOZExpression df/dx10a_Expression df/dx20aaExpression df/dx30acExpression df/dx40aeExpression df/dx50agExpression df/dx60aiExpression df/dx70akExpression df/dx80amExpression df/dx90ao!Expression df/dx100$a][N>>DV_DT0dv/dt function blockNameBD h}N>>STACK0 Stack blockNameSTACKD h Stack Depth֙N>>PMSM3_V0Permanent-magnet sync. machine NamePMSM3D hRs (stator resistance)4.3dKLd (d-axis ind.)0.027QLq (q-axis ind.)0.067 Vpk / krpm98.670No. of Poles P4PtMoment of Inertia0.00179VMech. Time Constant104Ab Torque Flag0Master/Slave FlagxN>> INDM3_WR0Wound-rotor induction machine  NameIMD h Rs (stator)0.294 Ls (stator)1.39m0 Rr (rotor)0.156p Lr (rotor)0.74mLm (magnetizing)41mqiNs/Nr Turns Ratio1 No. of Poles P6PtMoment of Inertia0.4V Torque Flag0Master/Slave FlagxN>>SYNM303-phase synchronous machineNameIMD h Rs (stator)0.1 Ls (stator)0.79m0Ldm (d-axis mag. ind.)4.1md1Lqm (q-axis mag. ind.)2md11 Rf (field)0.016iLfl (field leakage ind.)0.37mDRdr (damping cage)0.17$1B[Ldrl (damping cage)0.28m4ѳRqr (damping cage)0.17$C[Lqrl (damping cage)0.91m4qNs/Nf (effective)1DNo. of Poles P4PtMoment of Inertia0.2V Torque Flag0Master/Slave FlagxN>>SYNM3_I0(Synch. machine (current-type interface)NameIMD h Rs (stator)0.1 Ls (stator)0.79m0Ldm (d-axis mag. ind.)4.1md1Lqm (q-axis mag. ind.)2md11 Rf (field)0.016iLfl (field leakage ind.)0.37mDRdr (damping cage)0.17$1B[Ldrl (damping cage)0.28m4ѳRqr (damping cage)0.17$C[Lqrl (damping cage)0.91m4qNs/Nf (effective)1DNo. of Poles P4PtMoment of Inertia0.2V Torque Flag0Master/Slave FlagxN>> INDM3_WR_LIN0Wound-rotor induction machine  NameIMD h Rs (stator)0.294 Ls (stator)1.39m0 Rr (rotor)0.156p Lr (rotor)0.74mLm (magnetizing)41mqiNs/Nr Turns Ratio1 No. of Poles P6PtMoment of Inertia0.4V Torque Flag0Master/Slave Flagx*N>> INDM3_WR_NON0Wound-rotor induction machine  NameIMD h Rs (stator)0.294 Ls (stator)1.39m0 Rr (rotor)0.156p Lr (rotor)0.74mNs/Nr Turns Ratio1 No. of Poles P6PtMoment of Inertia0.4V Torque Flag0Master/Slave FlagxIm v.s. Lm (Im1,Lm1) ...,(0,0.041) (5,0.041) (20,0.031) (1000,0.026)A TN>> INDM3_S_LIN0 Squirrel-cage induction machine NameIMD h Rs (stator)0.294 Ls (stator)1.39m0 Rr (rotor)0.156p Lr (rotor)0.74mLm (magnetizing)41mqiNo. of Poles P6PtMoment of Inertia0.4V Torque Flag0Master/Slave FlagxN>> INDM3_S_NON0 Squirrel-cage induction machine NameIMD h Rs (stator)0.294 Ls (stator)1.390 Rr (rotor)0.156p Lr (rotor)0.74mNo. of Poles P6PtMoment of Inertia0.4V Torque Flag0Master/Slave FlagxIm v.s. Lm (Im1,Lm1) ...-(0,0.041) (5,0.041) (20,0.031) (10000,0.026)A TN>>.TIMETstep1E-005Q0Ttotal0.01aTprint0aP$Iprintc#DIloadR`BIsaveR@D+N>>_PORT,N>>_LABELeNK>DIAC DIAC diodeNameDIACD hBreakover Voltage401Breakback Voltage51' Current Flag`-Peak Pulse Current2.0 A'q1>Power Dissipation1 W1 Manufacturerm Part No..NqM>TRIACTRIAC ThyristorNameTRIACD h Voltage Drop0P Current Flag`-Voltage RatingPCurrent Rating`M7 Manufacturerm Part No.N>>N>>.TIMEAAAAee`AeAAeAAeN>>PortN>>_PORT A Ae?A ;A ;e @A(=@e@ e~+~T@e@ @@e^ѿ@?H@=?@AAN>>LabelN>>_LABEL A AeAe$@. A@ex x G@eA3AT3@eA0;A0;e$  e$@` @Ax Courier New Courier New Courier New Courier New