T! 7.0.5.111}}3E'k@P sKFihTx9lsL"+#0Qa`m+z( 2 z-p)}WFeWntW:fDE73DzU)Pg6A){=E(Y"yq/~ ^ehYxJ7^K!T.zn7^ r^fsyNsIj{TZN9<04 g@[Kcb_9/0HW- R:Av2mg54LsT6V'X#H{JE|,uh}>\~3?j=T>0' l7$E*8{ O#FOpnrY:D[n| eM[L$.W v{p0wI,=@}(+PUdhYXog~_S@b#P(SLl4F)M0;1T%0PSIM Standard Version AA AA AA A AAA A A LJC:\Program Files\Powersim\PSIM7.0.5\examples\ac-ac\cycloconvertisseur.sch DD?Z.TIME-C6 ??rN>>GroundN>>N>>VSINN>>N>>RLN>>N>>LN>>N>>BTHY3N>>N>>VP2N>>N>>VDCN>>'N>>TF_3YY&N>>&7N>>&COMP6N>>'9N>>'SUM28N>>,CN>>, FILTER_BP2BN>>1MN>>1NOTGATELN>>BoN>>BCOS_1nN>>EuN>>EVSENtN>>FwN>>FISENvN>>H{N>>HACTRLzN>>_N>>_VSIN3N>>N>>GroundGroundNameGroundD hNameN>>VSIN0Sinusoidal voltage sourceNameVD hNamePeak Amplitude110pPeak Amplitude Frequency60p[. Frequency Phase Angle0м| Phase Angle DC Offset00L DC OffsetTstart0d0TstartN>>RL0Resistor-inductor branchNameRLD hName Resistance0R Resistance Inductance0D InductanceInitial Current0Initial Current Current Flag0`- Current Flag Core Type  Core Type Wire Type- Wire Type Manufacturerm Manufacturer Part No. Part No.N>>L0 InductorNameLD hName Inductance0D InductanceInitial Current0Initial Current Current Flag0`- Current Flag Core Type  Core Type Wire Type- Wire Type Manufacturerm Manufacturer Part No. Part No.N>>BTHY30Three-phase thyristor bridgeNameBT3D hName Voltage Drop0P Voltage DropInit. Position_10$+Init. Position_1Init. Position_20&3Init. Position_2Init. Position_30(;Init. Position_3Init. Position_40*CInit. Position_4Init. Position_50,KInit. Position_5Init. Position_60.SInit. Position_6Current Flag_10`Current Flag_1Current Flag_20`Current Flag_2Current Flag_30`Current Flag_3Current Flag_40`Current Flag_4Current Flag_50` Current Flag_5Current Flag_60` Current Flag_6Voltage RatingPVoltage RatingCurrent Rating`M7Current Rating Manufacturerm Manufacturer Part No. Part No.N>>VP20"Voltage probe (between two nodes)NameVPD hNameN>>VDC0DC voltage sourceNameVDCD hName Amplitude100 Amplitude&N>>TF_3YY03-phase Y/Y transformerNameTYYD hName Rp (primary)0.0010 Rp (primary)Rs (secondary)0.001Rs (secondary)Lp (pri. leakage)1E-005Lp (pri. leakage)Ls (sec. leakage)1E-0051Ls (sec. leakage)Lm (magnetizing)0.5qiLm (magnetizing) Np (primary)1 Np (primary)Ns (secondary)1PNs (secondary) Core Type  Core Type Wire Type- Wire Type Manufacturerm Manufacturer Part No. Part No.&6N>>COMP0 ComparatorNameCOMPD hName Manufacturerm Manufacturer Part No. Part No.'8N>>SUM20SummerNameSUMD hName Gain_1 (+)1* Gain_1 (+) Gain_2 (-)-1L Gain_2 (-),BN>> FILTER_BP202nd-order bandpass filterNameBPD hNameGain1A"0GainCenter Frequency60aCenter Frequency Passing Band20p| Passing Band1LN>>NOTGATE0 NOT gateNameNOTD hName Manufacturerm Manufacturer Part No. Part No.BnN>>COS_10cosine inverse function blockNameCOSID hNameEtN>>VSEN0Voltage sensorNameVSEND hNameGain1A"0Gain Manufacturerm Manufacturer Part No. Part No.FvN>>ISEN0Current sensorNameISEND hNameGain1A"0Gain Manufacturerm Manufacturer Part No. Part No.HzN>>ACTRL0Delay angle alpha controllerNameACTRLD hName Frequency60p[. Frequency Pulse Width1200ǁ Pulse Width_N>>VSIN30"3-phase sinusoidal voltage sourceNameVSIN3D hNameV (line-line-rms)110qNTV (line-line-rms) Frequency60p[. FrequencyInit. Angle (phase A)0T0sInit. Angle (phase A)yDCDCDC??,,>D hBP2A"01a60p|20VDCDCDC??ppA6 A AHBHBAA??DC@!D@CDC?? Reference Courier New[[B@\B @4DCTD@CDDC?? passe bande Courier NewB@B UDBU5GDBU'DB??AC/AC Cycloconvertiseur Courier NewB@B_DC DCDC??D hGround_>CfCRCzCHCpC??D hGroundVRDCRDCRDC??@VpDCpDCpDC??\\BVkDCkDCkDC??ppAumDCrDCpDC??11D hB1mVpDCuDCrDC?? AVuDCuDCuDC??BV EDCEDCEDC??B!&D*C;DC0DC??Filtre Courier Newm+m+B@m+BV#\DHC^DHC@]DHC??@V%\DC^DC@]DC??@V&ODCODCODC??ppAV*CDCCDCCDC??ppAV21DC1DC1DC??ppA_3ODCTDCRDC??D hGround_4ODCTDCRDC??D hGround_5DCDCDC??D hGroundu6RDC^DC@XDC??&&D hB2mm7ODCTDCRDC??#D hVDC118086DzCCDCC\DRCUDHC??D hL3D0.0010`-16 -m:ODzC\DCUDC??AD hLnegD0.0010`-06 -m;6D>CCDRCHDHCODHCKDHC??ppA?EDzCJDCHDC??FF"D hISEN1A"01mV@CDCHDCEDC?? AVAHDCODCKDC??ppA}B'DC1DC,DC??HH3D hACTRL1p[.600ǁ80xCDC'DC@!DC??&&D hCOMP1mVG'DC*DC(DC??@VH*DC*DC*DC??@zIRDC\DCWDC??''0D hSUM1*1L-1VLCDpCCDCCDzC?? AGM^D4CrDChDaC??D hBT32P0$+0&30(;0*C0,K0.S0`0`0`0`0` 0` 06P`M7m_NDC"DC DC??D hGroundODCDCDC??EE"D hVSEN1A"01mPDC"DC DC??[D hV2p0.8p[.10м|900L0d00^Q@DHCEDpCCD\C??D hVload^R DC,DC@&DC??BBD hCOSI1SwCC@D DC@D??Frequence du rseau : 60 Hz Courier NewC@CT{C`D@D DC@D??Frequence de sortie : 10 Hz Courier NewC@C}UfDCpDCkDC??HH3D hACTRL2p[.600ǁ80VEDCRDCKDC??,,>D hBP1A"01a10p|10W@5DC}D@CYDC??Angle de retard l'amorage Courier NewC@CVXhDChDChDC??@yY%IDC۶D@CDC?? Courier Newm+m+B@m+BZ%IDC۶D@CDC??capteur Courier Newm+m+B@m+BV[,DC,DC,DC??A\C>CDC DfC??D hT100.0010.0011E-00511E-005qi0.11P16 -mV],DCWDCADC??BGn"D>C6DC,DkC??D hBT33P0$+0&30(;0*C0,K0.S0`0`0`0`0` 0` 06P`M7mVr,DC,DC,DC??ppAVDCDCDC??AVDCDCDC??@VDHCDCDkC?? B VDHC"DHCDHC??ppAVDHCDHCDHC?? AVhD4CkD4CiD4C??@VkD4CkDCkDuC??BV*DChDC@IDC??BV\DCkDCcDC??AV1DCuDC@SDC??CV^DCpDC@gDC?? BVrD*CrDHCrD9C??pApVrDfCuDfCsDfC??@VuD CuDfCuDCC?? B VwDCwDCwDMC??\B\VrDCwDCuDC?? AVC CCfCCCC?? BVC*CCCCWC??44BVCCCHCC/C??AVCHCCHCCHC??ppAVCfCCfCCfC?? AVCCCCCC??@VCCwDC7DC??CVC CuD C7D C??uuCVDfC"DfC@DfC??AVC*CrD*C7D*C??kkCVDC"DC@DC??A\CCCCCC??D hVP1\CCCCCC??D hVP2\CCCCCC??D hVP3VCHCCCCzC??HBHVCfCCCCC?? B VCfCCCCC??HBHVCfCCfCCfC?? AVCfCCfCCfC??HHBVCCCCCC?? B VCCCCCC??\B\VCCCCCC??@VCCCCCC??AVCHCCCCC??B\CCC*CC C??D hVP4\CCCCC C??D hVP5\CBCBCB??D hVP6VC CCfCCCC?? BVzCfCCfCCfC??@VC CCHCC4C??AVzCHCCHCCHC??AVCHCCHCCHC??ppAVC CCCCHC??ppBVCCCCCC??\\BVC CCfCC9C??44BVCfCCfCCfC??HHBVCfCCfCCfC??@VCBCHCCC??44BVCHCCHCCHC??AVCHCCHCCHC??44BVCBCCC9C??BVzCCCCCC?? BHC>CzCCaCfC??__>D hV1qNT115p[.60T0s0DUC DUCJDU՛C?? de tension Courier New[[B@\B0K