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?<4"ȪȪxCOMPONENT/x /O<4"ȪȪxCOMPONENT?x ?O04$MKRORIGIN<4"ȪȪxCOMPONENTx O=4#x2D GRAPHICOH?H=4#x2D GRAPHIC?H?#=4#x2D GRAPHIC?#/#=4#x2D GRAPHIC/#/H=4#x2D GRAPHIC/HH=4#x2D GRAPHICH#=4#x2D GRAPHIC##=4#x2D GRAPHIC#H=4#x2D GRAPHICHH=4#x2D GRAPHICH#=4#x2D GRAPHIC##=4#x2D GRAPHIC#H=4#x2D GRAPHICH0H=4#x2D GRAPHIC0H0#=4#x2D GRAPHIC0#H#=4#x2D GRAPHICH#HH=4#x2D GRAPHICHH`H=4#x2D GRAPHIC`H`#=4#x2D GRAPHIC`#x #=4#x2D GRAPHICx #x H=4#x2D GRAPHICx H H=4#x2D GRAPHICO?=4#x2D GRAPHIC?? s=4#x2D GRAPHIC? s/ s=4#x2D GRAPHIC/ s/=4#x2D GRAPHIC/=4#x2D GRAPHIC s=4#x2D GRAPHIC s s=4#x2D GRAPHIC s=4#x2D GRAPHIC=4#x2D GRAPHIC s=4#x2D GRAPHIC s s=4#x2D GRAPHIC s=4#x2D GRAPHIC0=4#x2D GRAPHIC00 s=4#x2D GRAPHIC0 sH s=4#x2D GRAPHICH sH=4#x2D GRAPHICH`=4#x2D GRAPHIC`` s=4#x2D GRAPHIC` sx s=4#x2D GRAPHICx sx =4#x2D GRAPHICx  =4#x2D GRAPHIC)O=4#x2D GRAPHIC)?|=4#x2D GRAPHIC?|)=4#x2D GRAPHIC)`Y|=4#x2D GRAPHIC`Y|@)=4#x2D GRAPHIC@) s|=4#x2D GRAPHIC s|)=4#x2D GRAPHIC)|=4#x2D GRAPHIC|)=4#x2D GRAPHIC)|=4#x2D GRAPHIC|3)=4#x2D GRAPHIC3)`|=4#x2D GRAPHIC`|@M )=4#x2D GRAPHIC@M ) |=4#x2D GRAPHIC | PS<4"ȪȪxCOMPONENTO MD#x2D GRAPHICOOYMD#x2D GRAPHIChhMD#x2D GRAPHIChh93?آ?MD#x2D GRAPHICآ?w?HiHiMD#x2D GRAPHICHiHi/MD#x2D GRAPHIC/W((MD#x2D GRAPHIC((L??MD#x2D GRAPHIC?7,?MD#x2D GRAPHICxIMD#x2D GRAPHICxIMD#x2D GRAPHICf?X?MD#x2D GRAPHICX?E?ȜȜMD#x2D GRAPHICȜȜ8cMD#x2D GRAPHIC8c))MD#x2D GRAPHIC))y??MD#x2D GRAPHIC?_?MD#x2D GRAPHICY |MD#x2D GRAPHIC|hChCMD#x2D GRAPHIChChC9? ?MD#x2D GRAPHIC ?wy?HHMD#x2D GRAPHICHH'MD#x2D GRAPHICW(](]MD#x2D GRAPHIC(](]?#?MD#x2D GRAPHIC#?7?MD#x2D GRAPHIC@ x MD#x2D GRAPHICx  v v MD#x2D GRAPHICv v  ?X= ?MD#x2D GRAPHICX= ? X= ?  $PINDEFAULTA0$PINDEFAULTB$PINDEFAULTCp_$PINDEFAULTD/{*DEVICE} {ACTIVE=DSO,0,DLL} {*PROPDEFS} {PRIMITIVE="Primitive Type",HIDDEN STRING} {MODDLL="VSM Model",READONLY STRING} {TRIGAUTO="TRIGAUTO",HIDDEN STRING} {TRIGSRC="TRIGSRC",HIDDEN STRING} {TRIGEDGE="TRIGEDGE",HIDDEN STRING} {TRIGACDC="TRIGACDC",HIDDEN STRING} {TRIGLEVEL="TRIGLEVEL",HIDDEN STRING} {TRIGDELAY="TRIGDELAY",HIDDEN STRING} {HORIZSRC="HORIZSRC",HIDDEN STRING} {HORIZVAL="HORIZVAL",HIDDEN STRING} {HORIZPOS="HORIZPOS",HIDDEN STRING} {CHAINV="CHAINV",HIDDEN STRING} {CHASUM="CHASUM",HIDDEN STRING} {CHAACDC="CHAACDC",HIDDEN STRING} {CHAVAL="CHAVAL",HIDDEN STRING} {CHAPOS="CHAPOS",HIDDEN STRING} {CHBINV="CHBINV",HIDDEN STRING} {CHBACDC="CHBACDC",HIDDEN STRING} {CHBVAL="CHBVAL",HIDDEN STRING} {CHBPOS="CHBPOS",HIDDEN STRING} {CHCINV="CHCINV",HIDDEN STRING} {CHCSUM="CHCSUM",HIDDEN STRING} {CHCACDC="CHCACDC",HIDDEN STRING} {CHCVAL="CHCVAL",HIDDEN STRING} {CHCPOS="CHCPOS",HIDDEN STRING} {CHDINV="CHDINV",HIDDEN STRING} {CHDACDC="CHDACDC",HIDDEN STRING} {CHDVAL="CHDVAL",HIDDEN STRING} {CHDPOS="CHDPOS",HIDDEN STRING} {PACKAGE="PCB Package",PACKAGE,0} {*INDEX} {CAT=Virtual Instruments} {DESC=Digital Storage Oscilloscope} {SUBCAT=} {MFR=} {*COMPONENT} {MODDLL=DSO.DLL} {PRIMITIVE=ANALOG} {TRIGAUTO=TRUE} {TRIGSRC=0} {TRIGEDGE=0} {TRIGACDC=1} {TRIGLEVEL=0} {TRIGDELAY=0} {HORIZSRC=0} {HORIZVAL=1.e-003} {HORIZPOS=0} {CHAINV=FALSE} {CHASUM=FALSE} {CHAACDC=0} {CHAVAL=5.} {CHAPOS=120} {CHBINV=FALSE} {CHBACDC=0} {CHBVAL=5.} {CHBPOS=40} {CHCINV=FALSE} {CHCSUM=FALSE} {CHCACDC=0} {CHCVAL=5.} {CHCPOS=-40} {CHDINV=FALSE} {CHDACDC=0} {CHDVAL=5.} {CHDPOS=-120} {PACKAGE=NULL} $IPATTERN GENERATORѕFS@8"ȪȪCOMPONENT]0A*04$MKRORIGIN@8"ȪkCOMPONENT&@8"ȪkCOMPONENT4P00@8"ȪkCOMPONENT4 00@8"ȪkCOMPONENT4+00@8"ȪkCOMPONENT4K00@8"ȪkCOMPONENT4k00@8"ȪkCOMPONENT4`00@8"ȪkCOMPONENT4000@8"ȪkCOMPONENT400@8"ȪkCOMPONENT0P00@8"ȪkCOMPONENT0 00@8"ȪkCOMPONENT0+00@8"ȪkCOMPONENT0K00@8"ȪkCOMPONENT0k00@8"ȪkCOMPONENT0`00@8"ȪkCOMPONENT0000@8"ȪkCOMPONENT000@8"ȪkCOMPONENT`,P00@8"ȪkCOMPONENT`, 00@8"ȪkCOMPONENT`,+00@8"ȪkCOMPONENT`,K00@8"ȪkCOMPONENT`,k00@8"ȪkCOMPONENT`,`00@8"ȪkCOMPONENT`,000@8"ȪkCOMPONENT`,00@8"ȪkCOMPONENT0)P00@8"ȪkCOMPONENT0) 00@8"ȪkCOMPONENT0)+00@8"ȪkCOMPONENT0)K00@8"ȪkCOMPONENT0)k00@8"ȪkCOMPONENT0)`00@8"ȪkCOMPONENT0)000@8"ȪkCOMPONENT0)00@8"ȪkCOMPONENT5%P00@8"ȪkCOMPONENT5% 00@8"ȪkCOMPONENT5%+00@8"ȪkCOMPONENT5%K00@8"ȪkCOMPONENT5%k00@8"ȪkCOMPONENT5%`00@8"ȪkCOMPONENT5%000@8"ȪkCOMPONENT5%00@8"ȪkCOMPONENTT!P00@8"ȪkCOMPONENTT! 00@8"ȪkCOMPONENTT!+00@8"ȪkCOMPONENTT!K00@8"ȪkCOMPONENTT!k00@8"ȪkCOMPONENTT!`00@8"ȪkCOMPONENTT!000@8"ȪkCOMPONENTT!00@8"ȪkCOMPONENTtP00@8"ȪkCOMPONENTt 00@8"ȪkCOMPONENTt+00@8"ȪkCOMPONENTtK00@8"ȪkCOMPONENTtk00@8"ȪkCOMPONENTt`00@8"ȪkCOMPONENTt000@8"ȪkCOMPONENTt00@8"ȪkCOMPONENTpP00@8"ȪkCOMPONENTp 00@8"ȪkCOMPONENTp+00@8"ȪkCOMPONENTpK00@8"ȪkCOMPONENTpk00@8"ȪkCOMPONENTp`00@8"ȪkCOMPONENTp000@8"ȪkCOMPONENTp00@8"ȪkCOMPONENT@P00@8"ȪkCOMPONENT@ 00@8"ȪkCOMPONENT@+00@8"ȪkCOMPONENT@K00@8"ȪkCOMPONENT@k00@8"ȪkCOMPONENT@`00@8"ȪkCOMPONENT@000@8"ȪkCOMPONENT@00@8"ȪkCOMPONENTP00@8"ȪkCOMPONENT 00@8"ȪkCOMPONENT+00@8"ȪkCOMPONENTK00@8"ȪkCOMPONENTk00@8"ȪkCOMPONENT`00@8"ȪkCOMPONENT000@8"ȪkCOMPONENT00@$PINDEFAULTOE0A$PINBUSB[0..7]0Ap_$PINDEFAULTQ00A@$PINDEFAULTQ10A$PINDEFAULTQ20A$PINDEFAULTQ30A$PINDEFAULTQ40A$PINDEFAULTQ50AP$PINDEFAULTQ60A >$PINDEFAULTQ7 >$PINDEFAULTCASCADE$PINDEFAULTCLKIN?$PINDEFAULTHOLDp_$PINDEFAULTTRIGP$PINDEFAULTCLKOUT{*DEVICE} {ACTIVE=PATTGEN,0,DLL} {HELP=INSTRUMENTS>POPUP,504} {*PROPDEFS} {PRIMITIVE="Primitive Type",HIDDEN STRING} {MODDATA="",HIDDEN STRING} {MODDLL="VSM Model DLL",READONLY STRING} {CLOCKRATE="Clock Rate",STRING} {TRIGGERRATE="Reset Rate",STRING} {CLOCKMODE="Clock Mode",KWDLIST,3,0="Internal",1="External Pos Edge",2="External Neg Edge"} {TRIGGERMODE="Reset Mode",KWDLIST,5,0="Internal",1="Async External Pos Edge",2="Sync External Pos Edge",3="Async External Neg Edge",4="Sync External Neg Edge"} {PERIODSEL="Period Selected",HIDDEN INT} {CLOCKOUTSEL="Clockout Enabled in Internal Mode",YESNO} {OUTPUTMODE="Output Configuration",KWDLIST,3,0="Output to Both Pins and Bus",1="Output to Pins Only",2="Output to Bus Only"} {PROGRAM="Pattern Generator Script",FILENAME,FALSE,,Pattern Generator Script/*.PTN} {*INDEX} {*COMPONENT} {PRIMITIVE=DIGITAL} {MODDATA=1024,0} {MODDLL=PATTGEN.DLL} {CLOCKRATE=1.200kHz} {TRIGGERRATE=500.0mHz} {CLOCKOUTSEL=0} {TRIGGERMODE=0} {CLOCKMODE=0} {OUTPUTMODE=0} {PACKAGE=NULL} $ISIGNAL GENERATORѕF@8"ȪȪwCOMPONENT@p_ A80"`OȪaCOMPONENT?|HLD"ȪȪCOMPONENT`n"x 0x LD"ȪȪCOMPONENTH`Hn=x 0x LD"ȪȪCOMPONENTH`HSRH`HLD"ȪȪCOMPONENTx `x SmH`H<4"ȪȪCOMPONENTp<4"ȪȪCOMPONENTHp<4"ȪȪCOMPONENTHpH<4"ȪȪCOMPONENTHx p<4"ȪȪCOMPONENT@0X<4"ȪȪCOMPONENT0X`(<4"ȪȪCOMPONENT`(x @<4"ȪȪCOMPONENTO/<4"ȪȪCOMPONENT/H/<4"ȪȪCOMPONENTH/HO<4"ȪȪCOMPONENTHOx O<4"ȪȪCOMPONENTx Ox /<4"wȪȪxCOMPONENT?@M ?80"`OȪ`COMPONENT<4"wȪȪxCOMPONENT80"`OȪ`COMPONENT@<4"wȪȪxCOMPONENT@kc"ȪȪCOMPONENTp_O ArialAMkc"ȪȪCOMPONENTO ArialFMjb"ȪȪCOMPONENT ` Arial+jb"ȪȪCOMPONENT ? Arial-04$MKRORIGIN p_p_$PINSHORTA p_$PINSHORTF `$PINSHORT+ ?$PINSHORT-{*DEVICE} {ACTIVE=SIGGEN,0,DLL} {HELP=INSTRUMENTS>POPUP,503} {*PROPDEFS} {PRIMITIVE="Primitive Type",HIDDEN STRING} {MODDLL="VSM Model",READONLY STRING} {*INDEX} {*COMPONENT} {MODDLL=SIGGEN.DLL} {PRIMITIVE=ANALOG} {PACKAGE=NULL} $ISPI DEBUGGERѕF)(@8"ȪȪCOMPONENTp_& A@8"ȪbCOMPONENTO/ 04$MKRORIGINld"ȪȪ{COMPONENT)  ArialSPI`$PINDEFAULTDIN0$PINDEFAULTDOUT$PINDEFAULTSCK$PINDEFAULT$SS$?$PINDEFAULTTRIGE{*DEVICE} {ACTIVE=SPI_DEBUG,0,DLL} {HELP=INSTRUMENTS>POPUP,509} {*PROPDEFS} {PRIMITIVE="Primitive Type",HIDDEN STRING} {MODDLL="VSM Model DLL",HIDDEN STRING} {MODE="SPI Mode",KWDLIST,3,Monitor,Master,Slave} {CLOCKFREQ="Master clock frequency in Hz",FLOAT,PNZ} {IDLESTATE="SCK Idle state is",HILOW} {SAMPLEEDGE="Sampling edge",KWDLIST,2,Idle to active,Active to idle} {BITORDER="Bit order",KWDLIST,2,MSB first,LSB first} {WORDLENGTH="Word length",ADVANCED INT,1,16} {STOPONEMPTY="Stop on output buffer empty",BOOL} {TIMEPREC="Time display precision",ADVANCED INT,1,12} {WRAPLENGTH="New line after",ADVANCED INT,1,64} {AUTOLOAD="Queue stored sequences at startup",ADVANCED YESNO} {SEQUENCE_FILE="Sequence file",ADVANCED FILENAME,FALSE,,Text file/*.txt} {LOOPBACK="Loopback mode",ADVANCED BOOL} {*INDEX} {CAT=Miscellaneous} {SUBCAT=} {MFR=} {DESC=SPI Protocol Debugger} {*COMPONENT} {PRIMITIVE=DIGITAL} {MODDLL=spidebug.dll} {AUTOLOAD=0} {MODE=Monitor} {CLOCKFREQ=1000000} {IDLESTATE=0} {SAMPLEEDGE=Idle to active} {BITORDER=MSB first} {WORDLENGTH=8} {STOPONEMPTY=1} {LOOPBACK=0} {PACKAGE=NULL} $IVIRTUAL TERMINALѕF@8"ȪȪwCOMPONENT@@.@8"8cȪmCOMPONENT@p_ A04$MKRORIGIN@8"ȪfCOMPONENTXo` $PINDEFAULTRXD$PINDEFAULTRTS0$PINDEFAULTTXDp_$PINDEFAULTCTSE{*DEVICE} {HELP=INSTRUMENTS>POPUP,506} {*PROPDEFS} {PRIMITIVE="Simulator Primitive",HIDDEN STRING} {MODDLL="VSM Model",HIDDEN STRING} {BAUDRATE="Baud Rate",KWDEDIT,9,110,300,1200,2400,4800,9600,19200,38400,57600} {DATABITS="Data Bits",KWDLIST,2,7,8} {PARITY="Parity",KWDLIST,3,NONE,EVEN,ODD} {STOPBITS="Stop Bits",KWDLIST,2,1,2} {XONXOFF="Send XON/XOFF",YESNO} {SIGPOL="RX/TX Polarity",ADVANCED KWDLIST,2,0="Normal",1="Inverted"} {CTLPOL="RTS/CTS Polarity",ADVANCED KWDLIST,2,0="Normal",1="Inverted"} {PACKAGE="PCB Package",PACKAGE} {TRACE="Trace Events",ADVANCED TRACEMODE} {*INDEX} {CAT=Virtual Instruments} {SUBCAT=} {MFR=} {DESC=Virtual RS232 / teletype terminal.} {*COMPONENT} {PRIMITIVE=DIGITAL} {MODDLL=VTERM.DLL} {BAUDRATE=9600} {DATABITS=8} {PARITY=NONE} {STOPBITS=1} {XONXOFF=0} {SIGPOL=0} {CTLPOL=0} {PACKAGE=NULL} {TRACE=1} 1N4007fC,j`"ȪȪCOMPONENT00000<4"ȪȪCOMPONENT00004$MKRORIGIN $PINSHORTA 0$PINSHORTK{{*DEVICE} PREFIX=D {*PROPDEFS} PRIMITIVE=Simulator Primitive Type,HIDDEN STRING MODEL=LISA Model,STRING PACKAGE=PCB Package,PACKAGE,1,DO41 {*INDEX} {CAT=Diodes} {SUBCAT=Rectifiers} {DESC=Silicon Rectifier. Maximum Recurrent Peak Reverse Voltage 1000V. Maximum Average Forward Rectified Current 1.0A} {*COMPONENT} {PRIMITIVE=ANALOGUE,DIODE} {MODEL=LX_D_POW,DIODE} {PACKAGE=DO41} BYW80fCk,j`"ȪȪCOMPONENT00000<4"ȪȪCOMPONENT00004$MKRORIGIN $PINSHORTA 0$PINSHORTK;{*DEVICE} PREFIX=D {*PROPDEFS} PRIMITIVE=Simulator Primitive Type,HIDDEN STRING MODEL=LISA Model,STRING PACKAGE=PCB Package,PACKAGE,1,DO220 {*INDEX} {CAT=Diodes} {SUBCAT=Rectifiers} {DESC=High Efficiency Fast Recovery Rectifier Diode} {*COMPONENT} {PRIMITIVE=ANALOGUE,DIODE} {MODEL=LX_D_POW,DIODE} {PACKAGE=DO220} CAPzFx,<4"ȪȪCOMPONENT)0)<4"ȪȪCOMPONENTX0X<4"ȪȪCOMPONENTX<4"ȪȪCOMPONENT)004$MKRORIGIN0$PINSHORT11$PINSHORT22{*DEVICE} PREFIX=C HELP="MODELS>POPUP",122 {*PROPDEFS} {PINSWAP="Pin Swap List",HIDDEN STRING} {PRIMITIVE="Simulator Primitive Type",HIDDEN STRING} {PACKAGE=PCB Package,PACKAGE,1,CAP10} {VALUE="Capacitance",FLOAT,PNZ} {*INDEX} {CAT=Capacitors} {SUBCAT=Generic} {DESC=Generic non-electrolytic capacitor} {*COMPONENT} {VALUE=1nF} {PINSWAP=1,2} {PRIMITIVE=ANALOGUE,CAPACITOR} {PACKAGE=CAP10} CAPACITOR@DG| Y (@8"ȪȪwCOMPONENTHip- @8"ȪȪwCOMPONENTHi(p- 64PIN` 64PIN?(04t$MKRORIGIN ` $PINSHORT1 ?t$PINSHORT2CAP_0"@8"ȪgCOMPONENTHip- @8"xȪgCOMPONENTHi p- 648cCvxPIN||648cCvxPIN@| s|648cCvxPIN9|p|648cCvxPIN||648cCvxPIN0|m|648cxPINxI648cxPIN648cxPIN`Y`YxI648cxPIN@ s648cxPINxI648cxPIN9p648cxPINxI648cxPIN648cxPINPSPSxI648cxPIN0m64PIN?(64PIN` CAP_1@8"lȪgCOMPONENTHip- @8"lȪgCOMPONENTHi p- 648cCvxPIN||648cCvxPIN|9|648cCvxPINp|PS|648cCvxPIN0|m|648cxPIN648cxPIN`Y`YxI648cxPIN9648cxPIN s sxI648cxPINpPS648cxPINxI648cxPIN0m648cxPINxI64PIN?(64PIN` CAP_2 @8"`ȪgCOMPONENTHip- @8"`ȪgCOMPONENTHi p- 648cCvxPIN||648cCvxPIN9|p|648cCvxPINPS|0|648cxPIN648cxPIN@@xI648cxPIN9p648cxPINxI648cxPINPS0648cxPINxI64PIN?(64PIN` CAP_3< @8"TȪgCOMPONENTHip- @8"TȪgCOMPONENTHi p- 648cCvxPIN@| s|648cCvxPIN||648cxPIN@ s648cxPINxI648cxPIN648cxPINPSPSxI64PIN?(64PIN` CAP_4@8"HȪgCOMPONENTHip- @8"HȪgCOMPONENTHi p- 648cCvxPIN9|p|648cxPIN9p648cxPINxI64PIN?(64PIN` CAP_5@8"ȪgCOMPONENTHip- @8"ȪgCOMPONENTHi(p- 64PIN` 64PIN?(CAP_6@8"HȪgCOMPONENTHip- @8"HȪgCOMPONENTHi(p- 648cCvxPIN9p648cxPIN9|p|648cxPINhC64PIN` 64PIN?(CAP_7< @8"TȪgCOMPONENTHip- @8"TȪgCOMPONENTHi(p- 648cCvxPIN@ s648cCvxPIN648cxPIN@| s|648cxPINhC648cxPIN||648cxPINPShCPS64PIN` 64PIN?(CAP_8 @8"`ȪgCOMPONENTHip- @8"`ȪgCOMPONENTHi(p- 648cCvxPIN648cCvxPIN9p648cCvxPINPS0648cxPIN||648cxPIN@hC@648cxPIN9|p|648cxPINhC648cxPINPS|0|648cxPINhC64PIN` 64PIN?(CAP_9@8"lȪgCOMPONENTHip- @8"lȪgCOMPONENTHi(p- 648cCvxPIN648cCvxPIN9648cCvxPINpPS648cCvxPIN0m648cxPIN||648cxPIN`YhC`Y648cxPIN|9|648cxPIN shC s648cxPINp|PS|648cxPINhC648cxPIN0|m|648cxPINhC64PIN` 64PIN?(CAP_10"@8"ȪgCOMPONENTHip- @8"xȪgCOMPONENTHi(p- 648cCvxPIN648cCvxPIN@ s648cCvxPIN9p648cCvxPIN648cCvxPIN0m648cxPINhC648cxPIN||648cxPIN`YhC`Y648cxPIN@| s|648cxPINhC648cxPIN9|p|648cxPINhC648cxPIN||648cxPINPShCPS648cxPIN0|m|64PIN` 64PIN?({*DEVICE} PREFIX=C ACTIVE=CAP,11 {*PROPDEFS} {MODFILE="LISA Model File",HIDDEN STRING} {VMAX="Working Voltage",FLOAT,PNZ} {VALUE="Capacitance",FLOAT,PNZ} {*INDEX} {CAT=Capacitors} {SUBCAT=Animated} {DESC=Animated Capacitor model} {*COMPONENT} {VALUE=1000u} {VMAX=12V} {MODFILE=ACTVCAP} CELLzF$:<4"ȪȪCOMPONENTH/<4"ȪȪCOMPONENT<4"ȪȪCOMPONENT04 $MKRORIGIN $PINSHORT+  $PINSHORT-{*DEVICE} PREFIX=BAT {*PROPDEFS} {PRIMITIVE="Simulator Primitive Type",READONLY STRING} {VALUE="Voltage",FLOAT,PNZ} {*INDEX} {CAT=Miscellaneous} {DESC=Battery (single-cell)} {*COMPONENT} {VALUE=1.5V} {PRIMITIVE=ANALOGUE,BATTERY} DIODEzFk,j`"ȪȪCOMPONENT00000<4"ȪȪCOMPONENT00004$MKRORIGIN $PINSHORTA 0$PINSHORTK;{*DEVICE} PREFIX=D HELP=MODELS>POPUP,111 {*PROPDEFS} {PRIMITIVE="Model Type",KWDLIST,2,ANALOG,DIGITAL} {PACKAGE="PCB Package",PACKAGE,1,DIODE30} {PRIMTYPE="Primitive Type",HIDDEN STRING} {*INDEX} {CAT=Diodes} {SUBCAT=Generic} {DESC=Generic diode} {*COMPONENT} {PACKAGE=DIODE30} {PRIMITIVE=ANALOG} {PRIMTYPE=DIODE} FB180SA10H Fx 80"ȪȪwCOMPONENTj`"ȪȪCOMPONENTX0)0)0X@8"ȪȪCOMPONENTHp_<4"ȪȪCOMPONENT0<4"ȪȪCOMPONENT?<4"ȪȪCOMPONENT000<4"ȪȪCOMPONENT0<4"ȪȪCOMPONENT0m04$MKRORIGIN<4"ȪȪCOMPONENT0`<4"ȪȪCOMPONENT`000<4"ȪȪCOMPONENTmmj`"ȪȪCOMPONENTXpXX`pX<4"ȪȪCOMPONENT))<4"ȪȪCOMPONENT)x 8c<4"ȪȪCOMPONENTH)<4"ȪȪCOMPONENT`0`)<4"ȪȪCOMPONENT`X`<4"ȪȪCOMPONENT`0`(]<4"ȪȪCOMPONENT``?b``|$PINSHORTD3?$PINSHORTG2B`?t$PINSHORTS1,4{*DEVICE} {PREFIX=Q} {DATA=fb180sa10.pdf,,,,,Proteus CD,pdfs\IR} {*PROPDEFS} {PRIMITIVE="Simulator Primitive Type",HIDDEN STRING} {SPICEPINS="SPICE SUBCKT Pin List",HIDDEN STRING} {SPICEMODEL="SPICE Model",READONLY STRING} {SPICELIB="SPICE Library",READONLY STRING} {PACKAGE="PCB Package",PACKAGE,1,SOT227} {*INDEX} {CAT=Transistors} {SUBCAT=MOSFET} {MFR=International Rectifier} {DESC=100V, 180A @ 25C, 480W, Single N-Channel HEXFET Power MOSFET in a SOT-227 (Iso) package} {*COMPONENT} {PRIMITIVE=ANALOG,SUBCKT} {SPICEPINS=D,G,S} {SPICELIB=IRPOWER} {PACKAGE=SOT227} {SPICEMODEL=fb180sa10} *PINOUT SOT227 {ELEMENTS=1} {PIN "D" = 3} {PIN "G" = 2} {PIN "S" = 1/4} IRF840&XC(> j`"ȪȪCOMPONENTX0)0)0X@8"ȪȪCOMPONENTHp_<4"ȪȪCOMPONENT0<4"ȪȪCOMPONENT?<4"ȪȪCOMPONENT000<4"ȪȪCOMPONENT0<4"ȪȪCOMPONENT0`04$MKRORIGIN<4"ȪȪCOMPONENT0`<4"ȪȪCOMPONENT``?<4"ȪȪCOMPONENT```0<4"ȪȪCOMPONENT`000<4"ȪȪCOMPONENT````|$PINSHORTD2?$PINSHORTG1`?t$PINSHORTS3|{*DEVICE} PREFIX=Q {*PROPDEFS} MODEL=LISA Model,STRING MODFILE=LISA Model File,STRING PACKAGE=PCB Package,PACKAGE,1,P1 PRIMITIVE=Primitive Type,HIDDEN STRING {*INDEX} {CAT=Transistors} {SUBCAT=MOSFET} {DESC=N-Channel MOSFET. Max. Voltage: 500V, Full Scale Current: 4.5A, Max. Power: 40W} {*COMPONENT} {PRIMITIVE=ANALOG,NMOSFET} {MODFILE=FETTRAN} {PACKAGE=P1} {MODEL=LX_MFET_PWN} IRG4BC10KDC6J80"ȪȪwCOMPONENTj`"ȪcCOMPONENTc% ä)J0 )J@8"ȪȪCOMPONENTHp_<4"ȪȪCOMPONENT0<4"ȪȪCOMPONENT?04$MKRORIGINj`"ȪȪCOMPONENTXpXX`pX<4"ȪȪCOMPONENT))<4"ȪȪCOMPONENT`)``<4"ȪȪCOMPONENT`X`?<4"ȪȪCOMPONENT)0<4"ȪȪCOMPONENT(](]Hj`"ȪcCOMPONENTp@@p(<4"ȪȪCOMPONENT`آ/<4"ȪȪCOMPONENT)@<4"ȪȪCOMPONENT0b``|$PINSHORTC2?$PINSHORTG1B`?t$PINSHORTE3~{*DEVICE} {PREFIX=Q} {NOTES=If the simulation aborts with "timestep too small" then set:\nRELTOL=0.005 (up to 0.01)\nITL4=300 (up to 500)\nITL1=300\nand in extreme cases (in order of importance):\nGMIN=1e-09\nABSTOL=1e-08\nVNTOL=1e-05 (up to 1e-03) only if required\nTMAX=10 to 100ns} {DATA=irg4bc10kd.pdf,,,,,Proteus CD,pdfs\IR} {*PROPDEFS} {PRIMITIVE="Simulator Primitive Type",HIDDEN STRING} {SPICEPINS="SPICE SUBCKT Pin List",HIDDEN STRING} {SPICEMODEL="SPICE Model",READONLY STRING} {SPICELIB="SPICE Library",READONLY STRING} {PACKAGE="PCB Package",PACKAGE,1,TO220} {*INDEX} {CAT=Transistors} {SUBCAT=IGBT} {MFR=International Rectifier} {DESC=600V UltraFast 8-25 kHz Copack IGBT in a TO-220AB package} {*COMPONENT} {PRIMITIVE=ANALOG,SUBCKT} {SPICEPINS=C,G,E} {SPICELIB=IRIGBT} {PACKAGE=TO220} {SPICEMODEL=irg4bc10kd} *PINOUT TO220 {ELEMENTS=1} {PIN "C" = 2} {PIN "E" = 3} {PIN "G" = 1} IRG4BC10UC, 80"ȪȪwCOMPONENTj`"ȪcCOMPONENTc% ä)J0 )J@8"ȪȪCOMPONENTHp_<4"ȪȪCOMPONENT0<4"ȪȪCOMPONENT?04$MKRORIGIN<4"ȪȪCOMPONENT)0<4"ȪȪCOMPONENT(](]Hj`"ȪcCOMPONENTp@@p(<4"ȪȪCOMPONENT`آ/<4"ȪȪCOMPONENT)@<4"ȪȪCOMPONENT0b``|$PINSHORTC2?$PINSHORTG1B`?t$PINSHORTE3}{*DEVICE} {PREFIX=Q} {NOTES=If the simulation aborts with "timestep too small" then set:\nRELTOL=0.005 (up to 0.01)\nITL4=300 (up to 500)\nITL1=300\nand in extreme cases (in order of importance):\nGMIN=1e-09\nABSTOL=1e-08\nVNTOL=1e-05 (up to 1e-03) only if required\nTMAX=10 to 100ns} {DATA=irg4bc10ud.pdf,,,,,Proteus CD,pdfs\IR} {*PROPDEFS} {PRIMITIVE="Simulator Primitive Type",HIDDEN STRING} {SPICEPINS="SPICE SUBCKT Pin List",HIDDEN STRING} {SPICEMODEL="SPICE Model",READONLY STRING} {SPICELIB="SPICE Library",READONLY STRING} {PACKAGE="PCB Package",PACKAGE,1,TO220} {*INDEX} {CAT=Transistors} {SUBCAT=IGBT} {MFR=International Rectifier} {DESC=600V UltraFast 8-60 kHz Copack IGBT in a TO-220AB package} {*COMPONENT} {PRIMITIVE=ANALOG,SUBCKT} {SPICEPINS=C,G,E} {SPICELIB=IRIGBT} {PACKAGE=TO220} {SPICEMODEL=irg4bc10u} *PINOUT TO220 {ELEMENTS=1} {PIN "C" = 2} {PIN "E" = 3} {PIN "G" = 1} IRGS15B60KDC8J80"ȪȪwCOMPONENTj`"ȪcCOMPONENTc% ä)J0 )J@8"ȪȪCOMPONENTHp_<4"ȪȪCOMPONENT0<4"ȪȪCOMPONENT?04$MKRORIGINj`"ȪȪCOMPONENTXpXX`pX<4"ȪȪCOMPONENT))<4"ȪȪCOMPONENT`)``<4"ȪȪCOMPONENT`X`?<4"ȪȪCOMPONENT)0<4"ȪȪCOMPONENT(](]Hj`"ȪcCOMPONENTp@@p(<4"ȪȪCOMPONENT`آ/<4"ȪȪCOMPONENT)@<4"ȪȪCOMPONENT0b``|$PINSHORTC1?$PINSHORTG2B`?t$PINSHORTE3{*DEVICE} {PREFIX=Q} {NOTES=If the simulation aborts with "timestep too small" then set:\nRELTOL=0.005 (up to 0.01)\nITL4=300 (up to 500)\nITL1=300\nand in extreme cases (in order of importance):\nGMIN=1e-09\nABSTOL=1e-08\nVNTOL=1e-05 (up to 1e-03) only if required\nTMAX=10 to 100ns} {DATA=irgs15b60kd.pdf,,,,,Proteus CD,pdfs\IR} {*PROPDEFS} {PRIMITIVE="Simulator Primitive Type",HIDDEN STRING} {SPICEPINS="SPICE SUBCKT Pin List",HIDDEN STRING} {SPICEMODEL="SPICE Model",READONLY STRING} {SPICELIB="SPICE Library",READONLY STRING} {PACKAGE="PCB Package",PACKAGE,1,TO263} {*INDEX} {CAT=Transistors} {SUBCAT=IGBT} {MFR=International Rectifier} {DESC=600V UltraFast 10-30 kHz Copack IGBT in a D2Pak package} {*COMPONENT} {PRIMITIVE=ANALOG,SUBCKT} {SPICEPINS=C,G,E} {SPICELIB=IRIGBT} {PACKAGE=TO263} {SPICEMODEL=irgbsl15b60kd} *PINOUT TO263 {ELEMENTS=1} {PIN "C" = 1} {PIN "E" = 3} {PIN "G" = 2} LAMP@DGx)Z( 80"ȪgCOMPONENT`FD8c```xPIN|@PSFD8c```xPINȜȜ98cXpXFD8c```xPIN||XpXFD8c```xPIN|PShC0FD8c```xPINȜȜp8c)p)648c```xPIN`0648c```xPIN?FD8c```xPIN||>)p)04$MKRORIGIN648cxPINH`(] 648cxPIN0X= m648cxPINx g 648cxPINX= 648cxPINH?(]P` $PINSHORT1?t$PINSHORT2LAMP_080"ȪgCOMPONENT`FD8c```xPIN|@PSFD8c```xPINȜȜ98cXpXFD8c```xPIN||XpXFD8c```xPIN|PShC0FD8c```xPINȜȜp8c)p)648c```xPIN`0648c```xPIN?FD8c```xPIN||>)p)04$MKRORIGIN648cxPINH`(] 648cxPIN0X= m648cxPINx g 648cxPINX= 648cxPINH?(]PLAMP_180"ȪgCOMPONENT`FD8c`xPIN|@PSFD8c`xPINȜȜ98cXpXFD8c`xPIN||XpXFD8c`xPIN|PShC0FD8c`xPINȜȜp8c)p)648c`xPIN`0648c`xPIN?FD8c`xPIN||>)p)04$MKRORIGIN648c`xPINH`(] 648cxPIN0X= m648c`xPINx g 648c`xPINX= 648c`xPINH?(]P648c`xPIN0X= mLAMP_280"ȪgCOMPONENT`FD8cxxPIN|@PSFD8cxxPINȜȜ98cXpXFD8cxxPIN||XpXFD8cxxPIN|PShC0FD8cxxPINȜȜp8c)p)648cxxPIN`0648cxxPIN?FD8cxxPIN||>)p)04$MKRORIGIN648cxxPINH`(] 648cxxPIN0X= m648cxxPINx g 648cxxPINX= 648cxxPINH?(]PLAMP_380"ȪgCOMPONENT`FD8cxPIN|@PSFD8cxPINȜȜ98cXpXFD8cxPIN||XpXFD8cxPIN|PShC0FD8cxPINȜȜp8c)p)648cxPIN`0648cxPIN?FD8cxPIN||>)p)04$MKRORIGIN648cxPINH`(] 648cxPIN0X= m648cxPINx g 648cxPINX= 648cxPINH?(]PLAMP_480"ȪgCOMPONENT`LD"8cߨ`Ȫ`COMPONENT|@PSLD"8cߨ`Ȫ`COMPONENTȜȜ98cXpXLD"8cߨ`Ȫ`COMPONENT||XpXLD"8cߨ`Ȫ`COMPONENT|PShC0LD"8cߨ`Ȫ`COMPONENTȜȜp8c)p)<4"8cߨ`Ȫ`COMPONENT`0<4"8cߨ`Ȫ`COMPONENT?LD"8cߨ`Ȫ`COMPONENT||>)p)04$MKRORIGIN<4"8cߨ`Ȫ`COMPONENTH`(] <4"8cߨ`Ȫ`COMPONENT0X= m<4"8cߨ`Ȫ`COMPONENTx g <4"8cߨ`Ȫ`COMPONENTX= <4"8cߨ`Ȫ`COMPONENTH?(]PLAMP_580"ȪgCOMPONENT`FD8cߨxPIN|@PSFD8cߨxPINȜȜ98cXpXFD8cߨxPIN||XpXFD8cߨxPIN|PShC0FD8cߨxPINȜȜp8c)p)648cߨxPIN`0648cߨxPIN?FD8cߨxPIN||>)p)04$MKRORIGIN648cxPINH`(] 648cxPIN0X= m648cxPINx g 648cxPINX= 648cxPINH?(]PLAMP_680"ȪgCOMPONENT`FD8cxPIN|@PSFD8cxPINȜȜ98cXpXFD8cxPIN||XpXFD8cxPIN|PShC0FD8cxPINȜȜp8c)p)648cxPIN`0648cxPIN?FD8cxPIN||>)p)04$MKRORIGIN648cxPINH`(] 648cxPIN0X= m648cxPINx g 648cxPINX= 648cxPINH?(]PLAMP_780"ȪgCOMPONENT`FD8cxPIN|@PSFD8cxPINȜȜ98cXpXFD8cxPIN||XpXFD8cxPIN|PShC0FD8cxPINȜȜp8c)p)648cxPIN`0648cxPIN?FD8cxPIN||>)p)04$MKRORIGIN648cxPINH`(] 648cxPIN0X= m648cxPINx g 648cxPINX= 648cxPINH?(]PLAMP_880"ȪgCOMPONENT`FD8cxPIN|@PSFD8cxPINȜȜ98cXpXFD8cxPIN||XpXFD8cxPIN|PShC0FD8cxPINȜȜp8c)p)648cxPIN`0648cxPIN?FD8cxPIN||>)p)04$MKRORIGIN648cxPINH`(] 648cxPIN0X= m648cxPINx g 648cxPINX= 648cxPINH?(]PLAMP_980"ȪgCOMPONENT`FD8cxPIN|@PSFD8cxPINȜȜ98cXpXFD8cxPIN||XpXFD8cxPIN|PShC0FD8cxPINȜȜp8c)p)648cxPIN`0648cxPIN?FD8cxPIN||>)p)04$MKRORIGIN648cxPINH`(] 648cxPIN0X= m648cxPINx g 648cxPINX= 648cxPINH?(]P{*DEVICE} PREFIX=L ACTIVE=LAMP,10 {*PROPDEFS} {LOAD="Resistance",FLOAT,PNZ} {MODFILE="LISA Model File",HIDDEN STRING} {VALUE="Nominal Voltage",FLOAT,PNZ} {*INDEX} {CAT=Optoelectronics} {SUBCAT=Lamps} {DESC=Animated Light Bulb} {*COMPONENT} {VALUE=12V} {LOAD=24Ohms} {MODFILE=LAMP} MOTOR*BE?B@80"ȪgCOMPONENT``"ȪdCOMPONENT @`3j`kBǷ2ǷkBkB`"ȪdCOMPONENT 8``Vl3Vlj``9H29HkB`80"ȪȪCOMPONENT04$MKRORIGIN ` $PINSHORT+ ?t$PINSHORT-ROTOR_C|80"ȪgCOMPONENT`80"ȪȪCOMPONENTROTOR_0|`"ԔȪ`COMPONENT `8`3UljUl``29H9HkB``"ԔȪ`COMPONENT @`3j`kB2ǷǷkBkB`"Ȫ`COMPONENT @`3j`kBǷ2ǷkBkB`"Ȫ`COMPONENT 8``Vl3Vlj``9H29HkB`ROTOR_1j`"ԔȪ`COMPONENT O`]Dce`Ecu@8<\Dc`"ԔȪ`COMPONENT v&,"(]u'^fg(\`` v_\+"`Dc\@f;'\`` O]&ue(Dcu^8g(uROTOR_2|`"ԔȪ`COMPONENT xOf$$B[4Dn=PrC[`"ԔȪ`COMPONENT $B#T$ ˻,`"Ȫ`COMPONENT TBOfB[,4D=`"Ȫ`COMPONENT $$%x#$C[Pr n˻$ROTOR_3j`"ԔȪ`COMPONENT GE94``vWkO@xÕ{Wk9`"ԔȪ`COMPONENT 3FmD+ ^9>]u^N>jQ{^9`` FmHD+ F^9\4>a9{XkQ@>jx{^9`` 3v_`vWkOÕOv_ROTOR_4|`"ԔȪ`COMPONENT ~~p>vԩ2a-KN4a~`"ԔȪ`COMPONENT nb<2nb~;+VX‰2nbA,A4nb~`"Ȫ`COMPONENT <~nb~‰p,V~4a-,KA4nb~`"Ȫ`COMPONENT nb22nbթ;>vX2aNA2nbROTOR_5j`"ԔȪ`COMPONENT λBCsvqթ2a-NKa4~`"Ȫ`COMPONENT nb2nb2;ԩX>v2aNAnb2`"Ȫ`COMPONENT ~<~nbp‰+V~`4-J,3A~nbROTOR_9j`"ԔȪ`COMPONENT HFva`49Wk{Õx@OXkv`"ԔȪ`COMPONENT Fm3D+ ^v]>9_{Q>jO^v`` 3_v`vOWkÕO_v`` HFmFD+ 9^4]`>9Xk{@Qx>j{9^ROTOR_10|`"ԔȪ`COMPONENT $BT$$ ,˻`"ԔȪ`COMPONENT x%Of$C[n5DPr>C[`"Ȫ`COMPONENT $$$$x$C[ Pr˻n$`"Ȫ`COMPONENT TNfBB[4D,=ROTOR_11j`"ԔȪ`COMPONENT O]_uDc`eDc\;8@uDc`"ԔȪ`COMPONENT v&u](,"\(gf^'u`` O&]u&euDc^f8'u`` v_]`,"Dc\@;f\'ROTOR_12|`"ԔȪ`COMPONENT @`3j`kBǷ2ǷkBkB`"ԔȪ`COMPONENT 8``Vl3Vlj``9H29HkB``"Ȫ`COMPONENT `8`3UljUl``29H9HkB``"Ȫ`COMPONENT @`3j`kB2ǷǷkBkBROTOR_13j`"ԔȪ`COMPONENT v_\+"`Dc\@f;'\`"ԔȪ`COMPONENT O]&ue(Dcu^8g(u`` O`]Dce`Ecu@8<\Dc`` v&,"(]u'^fg(\ROTOR_14|`"ԔȪ`COMPONENT TBOfB[,4D=`"ԔȪ`COMPONENT $$%x#$C[Pr n˻$`"Ȫ`COMPONENT xOf$$B[4Dn=PrC[`"Ȫ`COMPONENT $B#T$ ˻,ROTOR_15j`"ԔȪ`COMPONENT FmHD+ F^9\4>a9{XkQ@>jx{^9`"ԔȪ`COMPONENT 3v_`vWkOÕOv_`` GE94``vWkO@xÕ{Wk9`` 3FmD+ ^9>]u^N>jQ{^9ROTOR_16|`"ԔȪ`COMPONENT <~nb~‰p,V~4a-,KA4nb~`"ԔȪ`COMPONENT nb22nbթ;>vX2aNA2nb`"Ȫ`COMPONENT ~~p>vԩ2a-KN4a~`"Ȫ`COMPONENT nb<2nb~;+VX‰2nbA,A4nb~ROTOR_17j`"ԔȪ`COMPONENT [λu BC0DACs<M(ת&q -XC`"ԔȪ`COMPONENT 2D=GV.{t<=N(~~uӧ*Uڎ~=`` λBCsv2aNAnb2`"ԔȪ`COMPONENT ~<~nbp‰+V~`4-J,3A~nb`"Ȫ`COMPONENT vqթ2a-NKa4~ROTOR_21j`"ԔȪ`COMPONENT 3_v`vOWkÕO_v`"ԔȪ`COMPONENT HFmFD+ 9^4]`>9Xk{@Qx>j{9^`` HFva`49Wk{Õx@OXkv`` Fm3D+ ^v]>9_{Q>jO^vROTOR_22|`"ԔȪ`COMPONENT $$$$x$C[ Pr˻n$`"ԔȪ`COMPONENT TNfBB[4D,=`"Ȫ`COMPONENT $BT$$ ,˻`"Ȫ`COMPONENT x%Of$C[n5DPr>C[ROTOR_23j`"ԔȪ`COMPONENT O&]u&euDc^f8'u`"ԔȪ`COMPONENT v_]`,"Dc\@;f\'`` O]_uDc`eDc\;8@uDc`` v&u](,"\(gf^'uROTOR_24|`"ԔȪ`COMPONENT `8`3UljUl``29H9HkB``"ԔȪ`COMPONENT @`3j`kB2ǷǷkBkB`"Ȫ`COMPONENT @`3j`kBǷ2ǷkBkB`"Ȫ`COMPONENT 8``Vl3Vlj``9H29HkB`n{*DEVICE} ACTIVE=ROTOR,25 {*PROPDEFS} {REVS="Nominal Revs.",FLOAT,PNZ} {LOAD="Load Resistance",FLOAT,PNZ} {ACTIVE="Active Symbols",HIDDEN STRING} {MODFILE="LISA Model File",HIDDEN STRING} {VALUE="Nominal Voltage",FLOAT,PNZ} {*INDEX} {CAT=Electromechanical} {DESC=Simple DC Motor model} {*COMPONENT} {VALUE=12V} {REVS=6} {LOAD=12Ohms} {MODFILE=MOTOR} {PACKAGE=NULL} MOTOR-DC*BEv h@8"`O@@INDICATOR 0nf"`O@@{INDICATOR 0Default Font+88.880"ȪgCOMPONENT``"ȪdCOMPONENT @``j3kBkBǷ2ǷkB``"ȪdCOMPONENT `8``jVl3Vl`kB9H29H``80"ȪgCOMPONENT04t$MKRORIGIN04t$MKRORIGIN ?$PINSHORT+ `$PINSHORT-ROTOR_C80"ȪgCOMPONENT`80"ȪgCOMPONENT04$MKRORIGINROTOR_0`"ԔȪ`COMPONENT 8``Vl3Vlj``9H29HkB``"Ȫ`COMPONENT @``j3kBkBǷ2ǷkB``"Ȫ`COMPONENT `8``jVl3Vl`kB9H29H``04$MKRORIGIN`"ԔȪ`COMPONENT @`3j`kBǷ2ǷkBkB80"ȪfCOMPONENT 8c80"ȪfCOMPONENT(8cROTOR_1|04$MKRORIGIN@8"`O@@INDICATOR 0 {*DEVICE} ACTIVE=ROTOR,2,DLL HELP=MOTORS>POPUP,1 {*PROPDEFS} {MODFILE="LISA Model File",READONLY STRING} {VNOM="Nominal Voltage",FLOAT,PNZ} {RCOIL="Coil Resistance",FLOAT,PNZ} {LCOIL="Coil Inductance",FLOAT,POZ} {RPM="Zero Load RPM",FLOAT,PNZ} {LOAD="Load/Max Torque %",FLOAT,1,100} {MASS="Effective Mass",FLOAT,PNZ} {*INDEX} {CAT=Electromechanical} {DESC=Animated DC Motor model With Inertia And Loading} {*COMPONENT} {MODFILE=DCMOTOR} {VNOM=12V} {RCOIL=12} {LCOIL=100mH} {RPM=1000} {LOAD=50} {MASS=0.01} {PACKAGE=NULL} NPNF j`"ȪȪCOMPONENT0`0H`0@8"ȪȪCOMPONENT?pp_<4"ȪȪCOMPONENT/ `<4"ȪȪCOMPONENT/x @<4"ȪȪCOMPONENTp_ ? 04$MKRORIGIN p_ $PINSHORTB `|$PINSHORTC 0t$PINSHORTE {*DEVICE} PREFIX=Q HELP=MODELS>POPUP,153 {*PROPDEFS} OFF=Initially OFF,BOOL SPICEMODEL=Spice Model,STRING SPICEFILE=Spice Model File,FILENAME,FALSE,.,SPICE Model Files/*.INC;*.LIB BF=Ideal forward beta,ADVANCED FLOAT,PNZ IS=Saturation Current,ADVANCED FLOAT,PNZ NF=Forward emission coefficient,ADVANCED FLOAT,POZ VAF=Forward Early voltage,ADVANCED FLOAT IKF=Forward beta roll-off corner current,ADVANCED FLOAT,POZ ISE=B-E leakage saturation current,ADVANCED FLOAT,PNZ NE=B-E leakage emission coefficient,ADVANCED FLOAT,POZ BR=Ideal reverse beta,ADVANCED FLOAT,PNZ NR=Reverse emission coefficient,ADVANCED FLOAT VAR=Reverse Early voltage,ADVANCED FLOAT IKR=reverse beta roll-off corner current,ADVANCED FLOAT ISC=B-C leakage saturation current,ADVANCED FLOAT NC=B-C leakage emission coefficient,ADVANCED FLOAT RB=Zero bias base resistance,ADVANCED FLOAT,POZ RBM=Minimum base resistance,ADVANCED FLOAT,POZ IRB=Current for base resistance=(rb+rbm)/2,ADVANCED FLOAT RE=Emitter resistance,ADVANCED FLOAT,POZ RC=Collector resistance,ADVANCED FLOAT,POZ CJE=Zero bias B-E depletion capacitance,ADVANCED FLOAT VJE=B-E built in potential,ADVANCED FLOAT MJE=B-E junction grading coefficient,ADVANCED FLOAT TF=Ideal forward transit time,ADVANCED FLOAT XTF=Coefficient for bias dependence of TF,ADVANCED FLOAT VTF=Voltage giving VBC dependence of TF,ADVANCED FLOAT ITF=High current dependence of TF,ADVANCED FLOAT PTF=Excess phase,ADVANCED FLOAT CJC=Zero bias B-C depletion capacitance,ADVANCED FLOAT VJC=B-C built in potential,ADVANCED FLOAT MJC=B-C junction grading coefficient,ADVANCED FLOAT XCJC=Fraction of B-C cap to internal base,ADVANCED FLOAT TR=Ideal reverse transit time,ADVANCED FLOAT CJS=Zero bias C-S capacitance,ADVANCED FLOAT VJS=Substrate junction built in potential,ADVANCED FLOAT MJS=Substrate junction grading coefficient,ADVANCED FLOAT XTB=Forward and reverse beta temp. exp.,ADVANCED FLOAT EG=Energy gap for IS temp. dependency,ADVANCED FLOAT XTI=Temp. exponent for IS,ADVANCED FLOAT FC=Forward bias junction fit parameter,ADVANCED FLOAT KF=Flicker Noise Coefficient,ADVANCED FLOAT AF=Flicker Noise Exponent,ADVANCED FLOAT PRIMITIVE=Primitive Type,HIDDEN STRING {*INDEX} {CAT=Modelling Primitives} {SUBCAT=Analog (SPICE)} {DESC=NPN Bipolar Transistor primitive} {*COMPONENT} {PRIMITIVE=ANALOGUE} OPAMPzFZj`"ȪȪCOMPONENT?O`x ?x ?O`?x <4"ȪȪCOMPONENT/<4"ȪȪCOMPONENT/00<4"ȪȪCOMPONENT`Y `Y04$MKRORIGIN ?0$PINDEFAULTPOS_IP ?$PINDEFAULTNEG_IP `$PINDEFAULTOP{*DEVICE} PREFIX=U {*PROPDEFS} {MODFILE="LISA Model File",HIDDEN STRING} {GAIN="Voltage Gain",FLOAT,PNZ} {VPOS="Positive Rail Voltage",FLOAT,POZ} {VNEG="Negative Rail Voltage",FLOAT,NOZ} {ZI="Input Impedance",FLOAT,PNZ} {ZO="Output Impedance",FLOAT,PNZ} {*INDEX} {CAT=Operational Amplifiers} {SUBCAT=Ideal} {DESC=Ideal operational amplfier (OPAMP)} {*COMPONENT} {GAIN=1E6} {VPOS=15} {VNEG=-15} {ZI=1E8} {ZO=1.0} {MODFILE=OA_3PIN} PNPzF^j`"ȪȪCOMPONENT//@8"ȪȪCOMPONENTHp_<4"ȪȪCOMPONENT0`<4"ȪȪCOMPONENT0?)(04$MKRORIGIN $PINSHORTB 0`|$PINSHORTC 0?t$PINSHORTE{*DEVICE} PREFIX=Q HELP=MODELS>POPUP,153 {*PROPDEFS} PRIMITIVE=Simulator Primitive Type,STRING {*INDEX} {CAT=Transistors} {SUBCAT=Generic,Bipolar} {DESC=Generic PNP bipolar transistor} {*COMPONENT} {PRIMITIVE=ANALOGUE} POT-LIN@DG  @8"ȪȪCOMPONENT s/ @64PIN?/64PINH`<4"ȪȪCOMPONENT9<4"ȪȪCOMPONENTp64PIN004$MKRORIGIN04`YhC$MKRINCREMENT04`Y$MKRDECREMENT ?$PINSHORT1 `$PINSHORT2 0$PINSHORT3POT_0@8"ȪȪCOMPONENT s/ @64PIN?/64PINH`64PIN/Hi64PIN/(64PIN/0/04$MKRORIGIN64PIN0/0POT_1@8"ȪȪCOMPONENT s/ @64PIN?/64PINH`64PIN`Y64PIN`Y64PIN`Y0`Y04$MKRORIGIN64PIN0`Y0POT_2@8"ȪȪCOMPONENT s/ @64PIN?/64PINH`64PIN64PINxI64PIN004$MKRORIGIN64PIN00POT_3@8"ȪȪCOMPONENT s/ @64PIN?/64PINH`64PIN@64PIN s64PIN004$MKRORIGIN64PIN00POT_4@8"ȪȪCOMPONENT s/ @64PIN?/64PINH`64PINX64PINXȜ64PINX0X04$MKRORIGIN64PIN0X0POT_5@8"ȪȪCOMPONENT s/ @64PIN?/64PINH`64PIN964PINp64PIN004$MKRORIGINPOT_6@8"ȪȪCOMPONENT sH @64PIN`H64PIN/?64PIN)64PIN)8c64PIN)0)04$MKRORIGIN64PIN0)0POT_7@8"ȪȪCOMPONENT sH @64PIN`H64PIN/?64PINPS64PINPS64PINPS0PS04$MKRORIGIN64PIN0PS0POT_8@8"ȪȪCOMPONENT sH @64PIN`H64PIN/?64PIN|hC64PIN|64PIN|0|04$MKRORIGIN64PIN0|0POT_9@8"ȪȪCOMPONENT sH @64PIN`H64PIN/?64PINm64PIN064PIN004$MKRORIGIN64PIN00POT_10@8"ȪȪCOMPONENT sH @64PIN`H64PIN/?64PINH64PINH 64PINH0H04$MKRORIGIN64PIN0H01{*DEVICE} PREFIX=RV ACTIVE=POT,11 {*PROPDEFS} {MODFILE="LISA Model File",READONLY STRING} {STATE="Active State",HIDDEN STRING} {VALUE="Resistance",FLOAT,PNZ} {*INDEX} {CAT=Resistors} {SUBCAT=Variable} {DESC=Interactive Potentiometer With Linear Track} {*COMPONENT} {VALUE=1k} {MODFILE=POT_LIN} {STATE=5} REALINDzF LD"ȪȪCOMPONENT??Hi0/0LD"ȪȪCOMPONENT`Y0/0LD"ȪȪCOMPONENTxI00LD"ȪȪCOMPONENT900LD"ȪȪCOMPONENTp00LD"ȪȪCOMPONENT0000LD"ȪȪCOMPONENT000H0LD"ȪȪCOMPONENT``0H004$MKRORIGIN?$PINSHORT1`$PINSHORT2{*DEVICE} {PREFIX=L} {HELP=MODELS>POPUP,105} {*PROPDEFS} {PINSWAP="Pin Swap List",HIDDEN STRING} {VALUE="Inductance (Henry)",FLOAT,PNZ} {MODFILE="LISA Model File",READONLY STRING} {RP="Equivalent Parallel Resistance",STRING} {ESR="Equivalent Series Resistance",STRING} {CP="Equivalent Parallel Capacitance",STRING} {*INDEX} {CAT=Inductors} {SUBCAT=Generic} {DESC=Real Inductor} {*COMPONENT} {VALUE=1mH} {PINSWAP=1,2} {MODFILE=REALIND} {RP=1M} {ESR=0.2} {CP=0.2pF} {PINSWAP=1,2} RESzFr|@8"ȪȪCOMPONENT @04$MKRORIGIN$PINSHORT1`$PINSHORT2{*DEVICE} PREFIX=R HELP=MODELS>POPUP,100 {*PROPDEFS} {VALUE="Resistance",FLOAT,PNZ} {PRIMITIVE="Model Type",KWDLIST,2,ANALOG,DIGITAL} {PACKAGE="PCB Package",PACKAGE,1,RES40} {PRIMTYPE="Primitive Type",HIDDEN STRING} {PINSWAP="Pin Swap List",HIDDEN STRING} {*INDEX} {CAT=Resistors} {SUBCAT=Generic} {DESC=Generic resistor symbol} {*COMPONENT} {VALUE=10k} {PRIMITIVE=ANALOG} {PACKAGE=RES40} {PRIMTYPE=RESISTOR} {PINSWAP=1,2} SWITCH@DGf<4"ȪȪCOMPONENT8cm 80"ԔȪȪ|COMPONENTp80"ԔȪȪ|COMPONENTxIp64PIN64PIN(]`04$MKRORIGIN04`0$MKRINCREMENT04 0$MKRDECREMENT $PINSHORTCOM `$PINSHORTNOSWITCH_0T80"ԔȪȪ|COMPONENTp80"ԔȪȪ|COMPONENTxIp64PIN64PIN(]`04$MKRORIGIN<4"ȪȪCOMPONENT8cm SWITCH_1T80"ԔȪȪ|COMPONENTp80"ԔȪȪ|COMPONENTxIp64PIN64PIN(]`04$MKRORIGIN<4"ȪȪCOMPONENT8c3){*DEVICE} ACTIVE=SWITCH,2 {*PROPDEFS} {PRIMITIVE="Primitive Type",HIDDEN STRING} {R(0)="Off Resistance",FLOAT,PNZ} {R(1)="On Resistance",FLOAT,PNZ} {TSWITCH="Switching Time",STRING} {STATE="Active State",HIDDEN STRING} {*INDEX} {CAT=Switches & Relays} {SUBCAT=Switches} {DESC=Interactive SPST Switch (Latched Action)} {*COMPONENT} {STATE=0} {PRIMITIVE=PASSIVE,RTSWITCH} {R(0)=100M} {R(1)=0.01} {TSWITCH=1m} {PACKAGE=NULL} THYRISTORzFdj`"ȪȪCOMPONENT000000<4"ȪȪCOMPONENT0<4"ȪȪCOMPONENT/<4"ȪȪCOMPONENT04$MKRORIGIN64PIN?/ 0|$PINDEFAULTA t$PINSHORTK ?$PINSHORTGg{*DEVICE} PREFIX=U {*PROPDEFS} {MODFILE="LISA Model File",HIDDEN STRING} {IT="Trigger Current",FLOAT,PNZ} {IH="Holding Current",FLOAT,PNZ} {RON="On Resistance",FLOAT,PNZ} {ROFF="Off Resistance",FLOAT,PNZ} {*INDEX} {CAT=Switching Devices} {SUBCAT=Generic,SCRs} {DESC=Generic thyristor (SCR)} {*COMPONENT} {MODFILE=SCR} {IT=1mA} {IH=5mA} {RON=0.1} {ROFF=100M} TL081揩Cj`"ȪȪCOMPONENT?O`x ?x ?O`?x <4"ȪȪCOMPONENT/<4"ȪȪCOMPONENT/00<4"ȪȪCOMPONENT`Y `Y<4"ȪȪCOMPONENT(?<4"ȪȪCOMPONENT0xI0?04$MKRORIGIN ?0$PINDEFAULTPOS IP3 ?$PINDEFAULTNEG IP2 `$PINDEFAULTOP6 `|$PINDEFAULTV+7 ?t$PINDEFAULTV-4 ?t$PINDEFAULTON11 0?t$PINDEFAULTON25{*DEVICE} PREFIX=U {*PROPDEFS} MODFILE=LISA Model File,STRING PACKAGE=PCB Package,PACKAGE,0 {*INDEX} {CAT=Operational Amplifiers} SUBCAT=Single {DESC=Wide Bandwidth Operational Amplifier with JFET Inputs} {*COMPONENT} {PACKAGE=DIL08} {MODFILE=OA_FET} TL084揩CZj`"ȪȪCOMPONENT?O`x ?x ?O`?x <4"ȪȪCOMPONENT/<4"ȪȪCOMPONENT/00<4"ȪȪCOMPONENT`Y `Y04$MKRORIGIN ?0$PINDEFAULT+IP3 ?$PINDEFAULT-IP2 `$PINDEFAULTOP1 `|$PINDEFAULTV+4 ?t$PINDEFAULTV-11{*DEVICE} PREFIX=U {*PROPDEFS} MODFILE=LISA Model File,STRING {PACKAGE="PCB Package",PACKAGE,1,DIL14} {*INDEX} {CAT=Operational Amplifiers} SUBCAT=Quad {DESC=Quad Wide Bandwidth Operational Amplifier with JFET Inputs} {*COMPONENT} {MODFILE=OA_FET} {PACKAGE=DIL14} *PINOUT DIL14 {ELEMENTS=4} {PIN "+IP" = 3,5,10,12} {PIN "-IP" = 2,6,9,13} {PIN "OP" = 1,7,8,14} {PIN "V+" = 4,4,4,4} {PIN "V-" = 11,11,11,11} {COMMON=V+,V-} {GATESWAP=TRUE} VN121&XC> j`"ȪȪCOMPONENTX0)0)0X@8"ȪȪCOMPONENTHp_<4"ȪȪCOMPONENT0<4"ȪȪCOMPONENT?<4"ȪȪCOMPONENT000<4"ȪȪCOMPONENT0<4"ȪȪCOMPONENT0`04$MKRORIGIN<4"ȪȪCOMPONENT0`<4"ȪȪCOMPONENT``?<4"ȪȪCOMPONENT```0<4"ȪȪCOMPONENT`000<4"ȪȪCOMPONENT````|$PINSHORTD3?$PINSHORTG2`?t$PINSHORTS1A{*DEVICE} PREFIX=Q {*PROPDEFS} MODEL=LISA Model,STRING MODFILE=LISA Model File,STRING PACKAGE=PCB Package,PACKAGE,1,TO92 PRIMITIVE=Primitive Type,HIDDEN STRING {*INDEX} {CAT=Transistors} {SUBCAT=MOSFET} {DESC=N-Channel MOSFET} {*COMPONENT} {PRIMITIVE=ANALOG,NMOSFET} {MODFILE=FETTRAN} {PACKAGE=TO92} {MODEL=LX_MFET_SSN} VP2210(XC> j`"ȪȪCOMPONENTXH))HX)@8"ȪȪCOMPONENTHp_<4"ȪȪCOMPONENT0<4"ȪȪCOMPONENT?<4"ȪȪCOMPONENT000<4"ȪȪCOMPONENT0<4"ȪȪCOMPONENT0`<4"ȪȪCOMPONENT00`0<4"ȪȪCOMPONENT<4"ȪȪCOMPONENTH`04$MKRORIGIN<4"ȪȪCOMPONENT`0``<4"ȪȪCOMPONENT``?J``|$PINSHORTD ?$PINSHORTGJ`?t$PINSHORTS({*DEVICE} PREFIX=Q HELP=MODELS>POPUP,113 {*PROPDEFS} {PACKAGE="PCB Package",PACKAGE,1,TO92} {PRIMITIVE="Simulator Primitive Type",HIDDEN STRING} {SPICELIB="SPICE Library",HIDDEN STRING} {SPICEMODEL="SPICE Model",READONLY STRING} {L=Channel Length,HIDDEN FLOAT,POZ} {W=Channel Width,HIDDEN FLOAT,POZ} {*INDEX} {CAT=Transistors} {SUBCAT=MOSFET} {DESC=P-Channel MOSFET} {MFR=Supertex} {*COMPONENT} {PRIMITIVE=ANALOG,PMOSFET} {SPICEMODEL=VP2210} {SPICELIB=SUPERTEX} {PACKAGE=TO92} *PINOUT TO92 ELEMENTS=1 PS "D" = 3 PS "G" = 2 PS "S" = 1 GATESWAP=FALSE 'ISIS CIRCUIT FILEJ MOBJECT DATA` $TERGROUND 40 Default FontTERMINAL LABELЍsY2H Default FontCOMPONENT IDЍp950 Default FontCOMPONENT VALUE$IOSCILLOSCOPEЍ@510 Default FontSUBCKT NAME${MODDLL=DSO.DLL} {PRIMITIVE=ANALOG} Ѝ@500 Default FontPROPERTIES{MODDLL=DSO.DLL} {PRIMITIVE=ANALOG} {TRIGAUTO=TRUE} {TRIGSRC=1} {TRIGEDGE=0} {TRIGACDC=1} {TRIGLEVEL=24} {TRIGDELAY=0} {HORIZSRC=0} {HORIZVAL=1.6583333333333333e-003} {HORIZPOS=200} {CHAINV=FALSE} {CHASUM=FALSE} {CHAACDC=2} {CHAVAL=5.} {CHAPOS=86} {CHBINV=FALSE} {CHBACDC=1} {CHBVAL=5.} {CHBPOS=120} {CHCINV=FALSE} {CHCSUM=FALSE} {CHCACDC=1} {CHCVAL=5.} {CHCPOS=-40} {CHDINV=FALSE} {CHDACDC=3} {CHDVAL=5.} {CHDPOS=-120} {PACKAGE=NULL} {TRIGCURSORS=FALSE} $IOSCILLOSCOPE >Ix7$Z $TERGROUND zP40 Default FontTERMINAL LABEL 8=2H Default FontCOMPONENT ID8N750 Default FontCOMPONENT VALUE$IDC VOLTMETER8410 Default FontSUBCKT NAME0{LOAD=100M} {MODDLL=READOUT} {MODFILE=DCVMETER} 8400 Default FontPROPERTIESI{LOAD=100M} {MODDLL=READOUT} {MODFILE=DCVMETER} {STATE=2} {PACKAGE=NULL} $IDC VOLTMETER@.pb2Sh`| $TERPOWER VCC`ƃ40 Default FontTERMINAL LABEL``h@WIRE@.>@.```@WIRE`%x``OJBP,` Default FontSCRIPT%Exemple de montage hacheur srie command par MLI avec astable ALI rapport cyclique variable : - la valeur moyenne aux bornes du moteur varie en fonction du rapport cyclique du signal de commande - le transistor est utilis en simple "interrupteur command" - la frquence de hachage est de 3kHz - ce montage est entirement intractif : utilisation du GBF et de l'oscilloscope - en agissant sur le potentiomtre on constate en temps rel la variation de la tension aux bornes du moteur - malheureusement la variation de la vitesse du moteur n'est pas toujours perceptible l'cran - le choix de la diode de roue libre, du transistor, du moteur et de sa configuration est trs important - ce hacheur srie est utilis sur le chariot de Golf (pas forcment avec ces composants, mais c'est le principe qui est important) - sur le Scoot'Elec il y a galement ce type de hacheur srie, avec en plus une diode en anti-parallle sur le transistor assurant la rversibilit en courant Ralis par Jean-Christophe MICHEL le 11 fvrier 2011 www.gecif.net Q1h2H Default FontCOMPONENT IDIRF840h850 Default FontCOMPONENT VALUEIRF840h 10 Default FontSUBCKT NAME-{PRIMITIVE=ANALOG,NMOSFET} {MODFILE=FETTRAN} h 00 Default FontPROPERTIESN{PRIMITIVE=ANALOG,NMOSFET} {MODFILE=FETTRAN} {PACKAGE=P1} {MODEL=LX_MFET_PWN} IRF840 8a@WIRE``0`"SG@WIRE@.&@."`"@WIRE`P!`"R1P| 2H Default FontCOMPONENT ID100PP 50 Default FontCOMPONENT VALUERESP 10 Default FontSUBCKT NAME#{PRIMITIVE=ANALOG} {PACKAGE=RES40} P 00 Default FontPROPERTIESE{PRIMITIVE=ANALOG} {PACKAGE=RES40} {PRIMTYPE=RESISTOR} {PINSWAP=1,2} RES 9)$a@WIRE p_ D1x?F2H Default FontCOMPONENT IDBYW80x?xB@50 Default FontCOMPONENT VALUEBYW80x?Hb<10 Default FontSUBCKT NAME2{PRIMITIVE=ANALOGUE,DIODE} {MODEL=LX_D_POW,DIODE} x?Hb<00 Default FontPROPERTIESB{PRIMITIVE=ANALOGUE,DIODE} {MODEL=LX_D_POW,DIODE} {PACKAGE=DO220} BYW800A:G@WIRE`"">@WIRE```I!I2H Default FontCOMPONENT ID!"D50 Default FontCOMPONENT VALUEMOTOR-DC!xB@10 Default FontSUBCKT NAME({MODFILE=DCMOTOR} {VNOM=12V} {RCOIL=12} !xB@00 Default FontPROPERTIESg{MODFILE=DCMOTOR} {VNOM=24V} {RCOIL=4} {LCOIL=100mH} {RPM=1000} {LOAD=30} {MASS=0.0001} {PACKAGE=NULL} MOTOR-DC`0A|;@WIRE```M@WIRE`"`B6 ໪Et"ȪȪ{COMPONENT Default Font6Hacheur srie command en MLI :U1:AJ2H Default FontCOMPONENT IDTL084J50 Default FontCOMPONENT VALUETL084JX10 Default FontSUBCKT NAME"{MODFILE=OA_FET} {PACKAGE=DIL14} JX00 Default FontPROPERTIES"TL084 ; >   @WIREZZZ& $TERPOWER VCCz@.40 Default FontTERMINAL LABEL @WIREZP!Z"D2il0r:2H Default FontCOMPONENT IDDIODEil250 Default FontCOMPONENT VALUEDIODEil2.10 Default FontSUBCKT NAME%{PACKAGE=DIODE30} {PRIMITIVE=ANALOG} il2.00 Default FontPROPERTIES6{PACKAGE=DIODE30} {PRIMITIVE=ANALOG} {PRIMTYPE=DIODE} DIODElB6?dD3ilS]2H Default FontCOMPONENT IDDIODEilT50 Default FontCOMPONENT VALUEDIODEilQ10 Default FontSUBCKT NAME%{PACKAGE=DIODE30} {PRIMITIVE=ANALOG} ilQ00 Default FontPROPERTIES6{PACKAGE=DIODE30} {PRIMITIVE=ANALOG} {PRIMTYPE=DIODE} DIODEpP$Y@ R2p[2H Default FontCOMPONENT ID1kpHW50 Default FontCOMPONENT VALUERESpgS10 Default FontSUBCKT NAME#{PRIMITIVE=ANALOG} {PACKAGE=RES40} pgS00 Default FontPROPERTIESE{PRIMITIVE=ANALOG} {PACKAGE=RES40} {PRIMTYPE=RESISTOR} {PINSWAP=1,2} RES0ڇP$YA4@WIRE@ytP$Y9|P$YR3p82H Default FontCOMPONENT ID1kp`f450 Default FontCOMPONENT VALUERESp0010 Default FontSUBCKT NAME#{PRIMITIVE=ANALOG} {PACKAGE=RES40} p0000 Default FontPROPERTIESE{PRIMITIVE=ANALOG} {PACKAGE=RES40} {PRIMTYPE=RESISTOR} {PINSWAP=1,2} RES0ڇB6Bd@WIRE@ytB69|B6RV1JPQ2H Default FontCOMPONENT ID100kJp950 Default FontCOMPONENT VALUEPOT-LINJ@510 Default FontSUBCKT NAME{MODFILE=POT_LIN} {STATE=5} J@500 Default FontPROPERTIESPOT-LINP`EC4@WIREB6PB6P":@WIREP$YPP$YPcQ UF@WIRE໪  dM @WIREhB6dB6dM@WIREhP$YdP$YdMC17g0o2H Default FontCOMPONENT ID100nF7g50 Default FontCOMPONENT VALUECAP7g10 Default FontSUBCKT NAME-{PINSWAP=1,2} {PRIMITIVE=ANALOGUE,CAPACITOR} 7g00 Default FontPROPERTIES={PINSWAP=1,2} {PRIMITIVE=ANALOGUE,CAPACITOR} {PACKAGE=CAP10} CAPPa?DNPa $TERGROUND 8]P40 Default FontTERMINAL LABELN@WIREPa@PaPa`@WIRE``Pa`@WIREPaPa`RV2 x(2H Default FontCOMPONENT ID10k@{T50 Default FontCOMPONENT VALUEPOT-LIN@{t10 Default FontSUBCKT NAME{MODFILE=POT_LIN} {STATE=5} @{t00 Default FontPROPERTIESPOT-LINE%R4M 2H Default FontCOMPONENT ID10kM 50 Default FontCOMPONENT VALUERESM10 Default FontSUBCKT NAME#{PRIMITIVE=ANALOG} {PACKAGE=RES40} M00 Default FontPROPERTIESE{PRIMITIVE=ANALOG} {PACKAGE=RES40} {PRIMTYPE=RESISTOR} {PINSWAP=1,2} RES0I`Fc&UW@WIREۦ`E`E@WIRE p @WIREpYxp@WIRE0I`0Ipz%W@WIREz@WIREz@WIRE&*z*z0I $TERGROUND EP40 Default FontTERMINAL LABEL&p\ Fx[$@WIRE p\ @WIRE DUp\ DUp\ Pa`7@WIREPa`Pa`@WIREdMPaMPa`@WIRE M໪M໪pb2zpb2z@.@.*l*l`Pa`x92H Default FontCOMPONENT IDx9N50 Default FontCOMPONENT VALUE$IDC VOLTMETERx910 Default FontSUBCKT NAME0{LOAD=100M} {MODDLL=READOUT} {MODFILE=DCVMETER} x900 Default FontPROPERTIESI{LOAD=100M} {MODDLL=READOUT} {MODFILE=DCVMETER} {STATE=2} {PACKAGE=NULL} $IDC VOLTMETER9|p_G! 9|   @WIRE`9|@WIREpp9|@WIRE9|9|9| $TERGROUND pYx >40 Default FontTERMINAL LABEL!@WIRE9|9|ƕ2H Default FontCOMPONENT ID~50 Default FontCOMPONENT VALUE$IDC VOLTMETERN10 Default FontSUBCKT NAME0{LOAD=100M} {MODDLL=READOUT} {MODFILE=DCVMETER} N00 Default FontPROPERTIESI{LOAD=100M} {MODDLL=READOUT} {MODFILE=DCVMETER} {STATE=2} {PACKAGE=NULL} $IDC VOLTMETER?H#$ $TERGROUND  >40 Default FontTERMINAL LABEL#@WIRE )$[$$$@WIRE @WIREp\ @WIRE0 @WIRE`E<`E< BAT1QЮ2H Default FontCOMPONENT ID6VQ50 Default FontCOMPONENT VALUECELLQX10 Default FontSUBCKT NAME{PRIMITIVE=ANALOGUE,BATTERY} QX00 Default FontPROPERTIESCELL0Ip_Ic&&@WIRE0I0I?@WIRE0I0I^T A,0 Default FontSCRIPTPour dclencher l'astable : mettre le potentiomtre RV2 en position droite Une fois les courbes sur l'oscilloscope, agir sur le potentiomtre RV1 pour modifier le rapport cyclique ISIS CIRCUIT FILE MOBJECT DATACCT000 __DEFAULT__'ROOT10 81Q192R112:3D1;4>7U1:A+IP3-IP2OP1V+4V-11?8D2@9D3A:R212B;R312C<RV1D=C11122E>RV2F?R412G@HAIBBAT1CCT000 __DEFAULT__ __DEFAULT__WDCMOTOR.MDFLISA MODEL DESCRIPTION FORMAT 6.1 ================================= Design: K:\PROLIBS\MOTORS\DCMOTOR.DSN Doc. no.: Revision: Author: Created: 21/04/01 Modified: 03/05/01 *PROPERTIES,3 OMEGA=(2**/60) PI=3.141592 RPV=(/) *MODELDEFS,0 *PARTLIST,10 C1,CAPACITOR,,PRIMITIVE=ANALOGUE C2,CAPACITOR,1F,PRIMITIVE=ANALOGUE E1,VCVS,/,PRIMITIVE=ANALOGUE G1,VCCS,-1/(*),PRIMITIVE=ANALOGUE G2,VCCS,-180/,PRIMITIVE=ANALOGUE L1,INDUCTOR,,preflux=0,PRIMITIVE=ANALOGUE R1,RESISTOR,,PRIMITIVE=PASSIVE R2,RESISTOR,^2**(100/-1),PRIMITIVE=PASSIVE VP1,RTVPROBE,RPM,ELEMENT=2,PRIMITIVE=ANALOG,SCALE=60/(2*) VP2,RTVPROBE,ANGLE,ELEMENT=1,PRIMITIVE=ANALOG,SCALE=1 *NETLIST,7 #00000,3 R1,PS,1 G1,PS,N E1,PS,+ #00001,3 R1,PS,2 G1,PS,P L1,PS,1 #00003,3,IC=0 C2,PS,2 VP2,PS,+ G2,PS,+ #00006,6,IC=0 G2,PS,P C1,PS,1 VP1,PS,+ E1,PS,P G1,PS,+ R2,PS,2 +,2 +,GT L1,PS,2 -,2 -,GT E1,PS,- GND,10 GND,PT E1,PS,N C2,PS,1 VP2,PS,- G2,PS,- G2,PS,N C1,PS,2 VP1,PS,- G1,PS,- R2,PS,1 *GATES,0 DCVMETER.MDFLISA MODEL DESCRIPTION FORMAT 6.1 ================================= Design: K:\PROLIBS\ACTIVE\DCMeters.DSN Doc. no.: Revision: Author: Created: 19/03/03 Modified: 05/12/05 *PROPERTIES,0 *MAPPINGS,3,STATE 2 : SCALE=1 3 : SCALE=1000 4 : SCALE=1000000 *MODELDEFS,0 *PARTLIST,1 VP1,RTVPROBE,RTVPROBE,LOAD=,PRIMITIVE=ANALOG,SCALE= *NETLIST,2 +,2 +,GT VP1,PS,+ -,2 -,GT VP1,PS,- *GATES,0 YDIODE.MDFLISA MODEL DESCRIPTION FORMAT 6.1 ================================= Design: K:\PROLIBS\DIODE\models.DSN Doc. no.: Revision: Author: Created: 28/10/98 Modified: 29/01/08 *PROPERTIES,0 *MODELDEFS,6 LX_D_LED : ISAT=1E-14, N=3, RS=2, BV=15.0, CJO=50pF LX_D_POW : IS=2.55E-9,RS=0.042,N=1.75,TT=5.76E-6,CJO=1.85E-11,VJ=0.75,M=0.333,BV=1000,IBV=9.86E-5 LX_D_SCHB : ISAT=100n,RS=12,CJO=1p,TT=5n,EG=0.69 LX_D_SS : IS=222p,RS=68.6m,BV=75.0,IBV=1.00u,CJO=4.00p,M=0.333,N=1.65,TT=5.76n LX_D_SSG : IS=54.12u,N=4.209,RS=42.72,IKF=0,XTI=3,EG=1.11,CJO=1p,M=.3333,VJ=.75,FC=.5,ISR=13.54E-21,NR=4.62,BV=22.5,IBV=5e-2,TT=5n LX_D_ZEN : ISAT=10n,RS=5,CJO=1p,TT=1n *PARTLIST,4 D1,1N4001,LX_D_POW,MODEL=LX_D_POW,PRIMITIVE=ACTIVE,PRIMTYPE=DIODE D2,1N4001,LX_D_POW,MODEL=LX_D_POW,PRIMITIVE=ACTIVE,PRIMTYPE=DIODE D3,1N4001,LX_D_POW,MODEL=LX_D_POW,PRIMITIVE=ACTIVE,PRIMTYPE=DIODE D4,1N4001,LX_D_POW,MODEL=LX_D_POW,PRIMITIVE=ACTIVE,PRIMTYPE=DIODE *NETLIST,4 AC1,3 AC1,GT D1,PS,A D4,PS,K +,3 +,GT D1,PS,K D3,PS,K -,3 -,GT D2,PS,A D4,PS,A AC2,3 AC2,GT D2,PS,K D3,PS,A *GATES,0 FETTRAN.MDFLISA MODEL DESCRIPTION FORMAT 4.5 ================================= Design: D:\PRODEV\LIBS\FET\models.DSN Doc. no.: Revision: Author: Created: 09-Dec-91 Modified: 17/11/98 *PROPERTIES,0 *MODELDEFS,5 LX_JFET_SSN : VTO=-1,BETA=10m,LAMBDA=100u,RD=20,IS=1n,CJS=5p,CJD=1p LX_JFET_SSP : VTO=-2,BETA=5m,LAMBDA=100u,RD=20,IS=1n,CJS=10p,CJD=2p LX_MFET_PWN : THREEPIN=TRUE,VTO=2,BETA=500m,LAMBDA=100u,GAMMA=0.1,RD=0.2,IS=10n,CJS=50p,CJD=10p,CGS=100p,CGD=80p LX_MFET_PWP : THREEPIN=TRUE,VTO=-2,BETA=400m,LAMBDA=100u,GAMMA=0.1,RD=0.2,IS=5n,CJS=50p,CJD=10p,CGS=100p,CGD=80p LX_MFET_SSN : THREEPIN=TRUE,VTO=2,BETA=10m,LAMBDA=100u,GAMMA=0.1,RD=1,IS=5n,CJS=1p,CJD=0p1,CGS=10p,CGD=10p *PARTLIST,0 *NETLIST,0 *GATES,0 OA_FET.MDFLISA MODEL DESCRIPTION FORMAT 6.1 ================================= Design: D:\PROLIBS\OPAMP\oa_fet.DSN Doc. no.: Revision: Author: Created: 03-Dec-91 Modified: 18/03/03 *PROPERTIES,0 *MAPPINGS,21,VALUE LF347 : GAIN=100k,CMRR=100k,FT=4M,SR=13M,IB=50p,IBOS=25p,VOS=5m,VPLIM=1.5,VNLIM=1.5 LF351 : GAIN=100k,CMRR=100k,FT=4M,SR=13M,IB=50p,IBOS=25p,VOS=5m,VPLIM=1.5,VNLIM=1.5 LF353 : GAIN=100k,CMRR=100k,FT=4M,SR=13M,IB=50p,IBOS=25p,VOS=5m,VPLIM=1.5,VNLIM=1.5 LF411 : GAIN=120k,CMRR=100k,FT=4M,SR=15M,IB=50p,IBOS=25p,VOS=0.8m,VPLIM=1.5,VNLIM=1.5 LF412CN : GAIN=120k,CMRR=100k,FT=4M,SR=15M,IB=50p,IBOS=25p,VOS=1m,VPLIM=1.5,VNLIM=1.5 LF441 : GAIN=100k,CMRR=32k,FT=1M,SR=1M,IB=10p,IBOS=5p,VOS=1m,VPLIM=2,VNLIM=2 LF442 : GAIN=100k,CMRR=32k,FT=1M,SR=1M,IB=10p,IBOS=5p,VOS=1m,VPLIM=2,VNLIM=2 LF444 : GAIN=100k,CMRR=32k,FT=1M,SR=1M,IB=10p,IBOS=5p,VOS=3m,VPLIM=2,VNLIM=2 LF13741 : GAIN=100k,CMRR=63k,FT=1M,SR=0M5,IB=50p,IBOS=10p,VOS=5m,VPLIM=2,VNLIM=2 OPA121KP : GAIN=500k,CMRR=100K,FT=3M,SR=2M,IB=1p,IBOS=0.7p,VOS=0.5m,VPLIM=3,VNLIM=3 OPA404KP : GAIN=100k,CMRR=100K,FT=6M4,SR=35M,IB=1p,IBOS=0.5p,VOS=0.75m,VPLIM=1.8,VNLIM=1.2 OPA606KP : GAIN=316k,CMRR=32k,FT=12M,SR=30M,IB=1p,IBOS=0.5p,VOS=0.3m,VPLIM=3,VNLIM=3 OPA2107AP : GAIN=63k,CMRR=50k,FT=4M5,SR=18M,IB=35p,IBOS=5p,VOS=100m,VPLIM=3,VNLIM=3 OPA2111KP : GAIN=200k,CMRR=320k,FT=4M,SR=13M,IB=3p,IBOS=1p,VOS=0m3,VPLIM=1.5,VNLIM=1.5 TL064 : GAIN=5K6,CMRR=56k,FT=1M,SR=3.5M,IB=30p,IBOS=5p,VOS=3m,VPLIM=1.5,VNLIM=1.5 TL071 : GAIN=200k,CMRR=6k3,FT=3M,SR=13M,IB=30p,IBOS=5p,VOS=3m,VPLIM=1.5,VNLIM=1.5 TL072 : GAIN=200k,CMRR=6k3,FT=3M,SR=13M,IB=30p,IBOS=5p,VOS=3m,VPLIM=1.5,VNLIM=1.5 TL074 : GAIN=200k,CMRR=6k3,FT=3M,SR=13M,IB=30p,IBOS=5p,VOS=3m,VPLIM=1.5,VNLIM=1.5 TL081 : GAIN=200k,CMRR=6k3,FT=3M,SR=13M,IB=30p,IBOS=5p,VOS=5m,VPLIM=1.5,VNLIM=1.5 TL082 : GAIN=200k,CMRR=6k3,FT=3M,SR=13M,IB=30p,IBOS=5p,VOS=5m,VPLIM=1.5,VNLIM=1.5 TL084 : GAIN=200k,CMRR=6k3,FT=3M,SR=13M,IB=30p,IBOS=5p,VOS=5m,VPLIM=1.5,VNLIM=1.5 *MODELDEFS,0 *PARTLIST,21 B1,BATTERY,0.8+,PRIMITIVE=PASSIVE B2,BATTERY,0.8+,PRIMITIVE=PASSIVE C1,CAPACITOR,15.9154u/,PRIMITIVE=PASSIVE CS,CAPACITOR,1E-4/-7.95774u/,PRIMITIVE=PASSIVE D1,DIODE,,IS=8E-16,PRIMITIVE=ACTIVE D2,DIODE,,IS=8E-16,PRIMITIVE=ANALOG D3,DIODE,,IS=8E-16,PRIMITIVE=ACTIVE D4,DIODE,,IS=8E-16,PRIMITIVE=ACTIVE ISS1,ISOURCE,100u,PRIMITIVE=PASSIVE Q1,PJFET,,BETA=12u5,IS=-/2,PRIMITIVE=ANALOG,VTO=-2 Q2,PJFET,,BETA=12u5,IS=+/2,PRIMITIVE=ANALOG,VTO=-2- R4,RESISTOR,100k,PRIMITIVE=PASSIVE R5,RESISTOR,43,PRIMITIVE=PASSIVE R6,RESISTOR,25u,PRIMITIVE=PASSIVE R7,RESISTOR,32,PRIMITIVE=PASSIVE RD1,RESISTOR,20k,PRIMITIVE=PASSIVE RD2,RESISTOR,20k,PRIMITIVE=PASSIVE VCI1,VCISOURCE,100u,PRIMITIVE=PASSIVE VCI2,VCISOURCE,/430,PRIMITIVE=PASSIVE VCI3,VCISOURCE,100u/,PRIMITIVE=PASSIVE VCI4,VCISOURCE,40k,PRIMITIVE=PASSIVE *NETLIST,14 #00000,5 VCI1,PS,- VCI3,PS,+ R4,PS,1 C1,PS,1 VCI2,PS,P #00001,3 VCI1,PS,P RD1,PS,1 Q1,PS,D #00002,3 VCI1,PS,N RD2,PS,1 Q2,PS,D #00003,6 C1,PS,2 R5,PS,1 R7,PS,2 D1,PS,K D2,PS,A VCI2,PS,- #00004,4 D1,PS,A VCI4,PS,+ R6,PS,2 D2,PS,K #00005,5 VCI3,PS,P ISS1,PS,+ Q2,PS,S Q1,PS,S CS,PS,2 #00006,2 D3,PS,A B1,PS,+ #00007,2 D4,PS,K B2,PS,- OP,5 OP,OT D3,PS,K D4,PS,A R7,PS,1 VCI4,PS,P *V-,4 *V-,GT B1,PS,- RD2,PS,2 RD1,PS,2 *V+,3 *V+,GT B2,PS,+ ISS1,PS,- NEG IP,3 NEG IP,IT -IP,IT Q1,PS,G POS IP,3 POS IP,IT +IP,IT Q2,PS,G GND,12 GND,PT CS,PS,1 VCI1,PS,+ R4,PS,2 VCI2,PS,+ R5,PS,2 R6,PS,1 VCI4,PS,N VCI4,PS,- VCI2,PS,N VCI3,PS,- VCI3,PS,N *GATES,0 3POT_LIN.MDFLISA MODEL DESCRIPTION FORMAT 6.1 ================================= Design: K:\PROLIBS\ACTIVE\Pots.DSN Doc. no.: Revision: Author: Created: 14/04/99 Modified: 03/05/00 *PROPERTIES,0 *MODELDEFS,0 *PARTLIST,2 R1,RTSWITCH,,PRIMITIVE=ANALOG,R(0)=1m*,R(1)=0.1*,R(2)=0.2*,R(3)=0.3*,R(4)=0.4*,R(5)=0.5*,R(6)=0.6*,R(7)=0.7*,R(8)=0.8*,R(9)=0.9*,R(10)=0.999*,STATE= R2,RTSWITCH,,PRIMITIVE=ANALOG,R(0)=0.999*,R(1)=0.9*,R(2)=0.8*,R(3)=0.7*,R(4)=0.6*,R(5)=0.5*,R(6)=0.4*,R(7)=0.3*,R(8)=0.2*,R(9)=0.1*,R(10)=1m*,STATE= *NETLIST,3 1,2 1,GT R1,PS,1 3,3 3,GT R1,PS,2 R2,PS,1 2,2 2,GT R2,PS,2 *GATES,0 ???@ư>1, ABSTOL1e-12 BADMOS3No BYPASSYes CHGTOL1e-14DEFAD0DEFAS0 DEFL0.0001 DEFW0.0001 GMIN1e-12GMINSTEPS120 ITL1100ITL250ITL410 LOGSTART0 LOGTIME60 MAXORD2 METHODGEAR NOOPITERNo NUMSTEPS50 OLDLIMITNo PIVREL0.001 PIVTOL1e-13 RELTOL0.001 RSHUNT1e+12 SRCSTEPS120 TDLOWER0.9 TDSCALE1 TDUPPER1.1TEMP27 TMIN1e-18TNOM27TRACE_CONTENTIONS1,0TRACE_CONVERGENCE1,1TRACE_DCPATHS1,2TRACE_ITFMODS1,3TRACE_NETTYPES1,4TRACE_OPTIONS1,5TRACE_PERFORMANCE1,6TRACE_SPICELINK1,7TRANGMIN1e-09TRTOL7TRYTOCOMPACTNo TTOL1e-09 VNTOL1e-06@v6>pYx`.h&00