ISIS SCHEMATIC FILEy DesignplateDS kjh\ kjdg\bJS28/10/1222/10/14&PKGT * DESIGN CONFIGURATION DATAArialDefault Font` p M M ``@@@@ COMPONENTȪȪPINPORT@MARKER`O@ACTUATOR`O@@ INDICATOR`O@@VPROBE`OIPROBE`OTAPE`O GENERATOR`OTERMINAL@ SUBCIRCUIT=ȪȪ 2D GRAPHICWIRE DOT@@@WIRE@BUS WIREPSBORDERȪȪTEMPLATE COMPONENT ID&H Default FontCOMPONENT VALUE&0 Default Font PROPERTIES&0 Default FontTERMINAL LABEL&0 Default Font WIRE LABEL&0 Default Font SUBCKT ID&H Default Font SUBCKT NAME&0 Default FontSCRIPT&0 Default FontPIN NAME&0 Default Font PIN NUMBER&0 Default Font VPROBE LABEL&0 Default Font IPROBE LABEL&0 Default FontGENERATOR LABEL&0 Default Font TAPE LABEL&0 Default FontACTIVE READOUT0ArialPWRRAILS*RAILS *BINDINGS $MKRBUSNODE޳3I=8`O@MARKER9p s $MKRDECREMENT:70!`O@@ACTUATOR;4!`O@@ACTUATOR9ȜȜ;4!`O@@ACTUATOR98cȜ;4!`O@@ACTUATOR9p $MKRINCREMENT:70!`O@@ACTUATOR;4!`O@@ACTUATORpȜ8c;4!`O@@ACTUATORp8c8c;4!`O@@ACTUATORp9 $MKRLABEL޳304$MKRORIGINkf`O@MARKER0Default FontLABEL$MKRNODE޳3~94`O@MARKER9pp994`O@MARKER99pp $MKRORIGIN{3=8`O@MARKER9p s94`O@MARKER s94`O@MARKER s $MKRPINNAME޳304$MKRORIGINje`O@MARKER0Default FontNAME $MKRPINNUM޳304$MKRORIGINhc`O@MARKER/0Default Font99 $MKRTOGGLE7j70!`O@@ACTUATOR;4!`O@@ACTUATOR9p;4!`O@@ACTUATOR9ȜȜ;4!`O@@ACTUATOR98cȜ;4!`O@@ACTUATORȜ8cp;4!`O@@ACTUATORp8c8c$PINBUS޳304$MKRORIGIN04?$MKRBUSNODE04$MKRPINNAME $PINDEFAULT޳3264PIN?04$MKRORIGIN04?$MKRNODE04$MKRPINNUM04$MKRORIGIN04$MKRPINNAME $PININVERT޳3d20PINX)64PIN?04$MKRPINNUM04$MKRORIGIN04?$MKRNODE04$MKRORIGIN04$MKRPINNAME $PINNEGCLK޳3d`PINX))))X)64PIN?04$MKRPINNUM20PINX)04?$MKRNODE04$MKRORIGIN04$MKRORIGIN04$MKRPINNAME $PINPOSCLK޳3d`PINX))))X)64PIN?04$MKRPINNUM04$MKRORIGIN04?$MKRNODE04$MKRORIGIN04$MKRPINNAME $PINSHORT޳364PIN04$MKRPINNUM04$MKRNODE04$MKRORIGIN04$MKRORIGIN $TERBIDIR߳3{i`!@TERMINAL s0 s0;4!@TERMINAL;4!@TERMINAL s04$MKRORIGIN04$MKRNODE04H$MKRLABEL$TERBUS߳3i`!@TERMINAL040$MKRBUSNODE04$MKRORIGIN04$MKRLABEL $TERDEFAULT߳370!@TERMINAL;4!@TERMINAL90040$MKRNODE04$MKRORIGIN04/$MKRLABEL $TERGROUND߳3;4!@TERMINAL0;4!@TERMINAL0;4!@TERMINAL;4!@TERMINALȜ8c04$MKRORIGIN040$MKRNODE04?$MKRLABEL $TERINPUT߳3@i`!@TERMINAL s s;4!@TERMINAL004t$MKRORIGIN040t$MKRNODE04/$MKRLABEL $TEROUTPUT߳3@i`!@TERMINAL s0 s0;4!@TERMINAL04H$MKRLABEL04$MKRNODE04$MKRORIGIN $TERPOWER߳3@i`!@TERMINAL00;4!@TERMINAL004$MKRNODE04$MKRORIGIN04`$MKRLABEL $IAC AMMETERѕF3 v 80"ȪȪCOMPONENT`ph"ȪȪCOMPONENT ArialAC Amps04$MKRORIGIN<4"1ȪȪ}COMPONENTO<4"1ȪȪ}COMPONENT|<4"1ȪȪ}COMPONENTx PSX= PS@8"`O@@INDICATOR9 004$MKRORIGINnf"`O@@{INDICATOR) 0Default Font+88.8?$PINSHORT+ `$PINSHORT-IMETER_C80"ȪȪCOMPONENT`04$MKRORIGIN<4"1ȪȪ}COMPONENTO<4"1ȪȪ}COMPONENT|<4"1ȪȪ}COMPONENTx PSX= PS@8"`O@@INDICATOR9 004$MKRORIGINnf"`O@@{INDICATOR) 0Default Font+88.8IMETER_0X80"ȪȪCOMPONENT`04$MKRORIGIN<4"1ȪȪ}COMPONENTO<4"1ȪȪ}COMPONENT|<4"1ȪȪ}COMPONENTx PSX= PS04$MKRORIGINIMETER_1|@8"`O@@INDICATORm9 004$MKRORIGINIMETER_2ph"ȪȪCOMPONENT ArialAC Amps04$MKRORIGINIMETER_3nf"ȪȪCOMPONENT ArialAC mA04$MKRORIGINIMETER_404$MKRORIGINnf"ȪȪCOMPONENT ArialAC A_{*DEVICE} {ACTIVE=IMETER,5,DLL} {HELP=INSTRUMENTS>POPUP,507} {*PROPDEFS} {MODDLL="VSM Model DLL",HIDDEN STRING} {MODFILE="LISA Model File",HIDDEN STRING} {STATE="Display Range",KWDLIST,3,2="Amps",3="Milliamps",4="Microamps"} {TC="Time Constant",FLOAT,PNZ} {*INDEX} {*COMPONENT} {MODDLL=READOUT} {MODFILE=ACIMETER} {STATE=2} {TC=100ms} {PACKAGE=NULL} $IAC VOLTMETERѕF7 G80"ȪȪCOMPONENT`qi"ȪȪCOMPONENT ArialAC Volts<4"1ȪȪ}COMPONENT sv @v <4"1ȪȪ}COMPONENTX= x <4"1ȪȪ}COMPONENT s@@8"`O@@INDICATOR9 0nf"`O@@{INDICATOR) 0Default Font+88.804$MKRORIGIN ? $PINSHORT- `t$PINSHORT+VMETER_C80"ȪȪCOMPONENT`<4"1ȪȪ}COMPONENT sv @v <4"1ȪȪ}COMPONENTX= x <4"1ȪȪ}COMPONENT s@@8"`O@@INDICATOR9 0nf"`O@@{INDICATOR) 0Default Font+88.804$MKRORIGINVMETER_0(80"ȪȪCOMPONENT`<4"1ȪȪ}COMPONENT sv @v <4"1ȪȪ}COMPONENTX= x <4"1ȪȪ}COMPONENT s@04$MKRORIGINVMETER_1|@8"`O@@INDICATORm9 004$MKRORIGINVMETER_2qi"ȪȪCOMPONENT ArialAC Volts04$MKRORIGINVMETER_3nf"ȪȪCOMPONENT ArialAC mV04$MKRORIGIN04$MKRORIGINVMETER_4nf"ȪȪCOMPONENT ArialAC V04$MKRORIGIN04$MKRORIGIN{*DEVICE} {ACTIVE=VMETER,5,DLL} {HELP=INSTRUMENTS>POPUP,507} {*PROPDEFS} {MODDLL="VSM Model DLL",HIDDEN STRING} {MODFILE="LISA Model File",HIDDEN STRING} {STATE="Display Range",KWDLIST,3,2="Volts",3="Millivolts",4="Microvolts"} {LOAD="Load Resistance",FLOAT,PNZ} {TC="Time Constant",FLOAT,PNZ} {*INDEX} {*COMPONENT} {LOAD=100M} {MODDLL=READOUT} {MODFILE=ACVMETER} {STATE=2} {TC=100ms} {PACKAGE=NULL} $ICOUNTER TIMERѕFT$k"  ;@8"ȪȪCOMPONENT@04$MKRORIGIN@8"Ȫ`COMPONENT Xo1 <4"ȪȪxCOMPONENT p<4"ȪȪxCOMPONENTp- 8 آ<4"ȪȪxCOMPONENTp- ? ?<4"ȪȪxCOMPONENTpآ<4"ȪȪxCOMPONENT8 hg p_<4"ȪȪxCOMPONENTph p_<4"ȪȪxCOMPONENT8 8h8<4"ȪȪxCOMPONENT` A<4"ȪȪxCOMPONENTآ<4"ȪȪxCOMPONENT??<4"ȪȪxCOMPONENTX Aآ<4"ȪȪxCOMPONENThH7p_<4"ȪȪxCOMPONENT Ahp_<4"ȪȪxCOMPONENT8z8<4"ȪȪxCOMPONENT81h<4"ȪȪxCOMPONENTjآ<4"ȪȪxCOMPONENT?0?<4"ȪȪxCOMPONENTthآ<4"ȪȪxCOMPONENTjhp_<4"ȪȪxCOMPONENThh0p_<4"ȪȪxCOMPONENTj8J8<4"ȪȪxCOMPONENT"<4"ȪȪxCOMPONENTH;آ<4"ȪȪxCOMPONENTH?x~"?<4"ȪȪxCOMPONENTD#"آ<4"ȪȪxCOMPONENT;hp_<4"ȪȪxCOMPONENT"hx~"p_<4"ȪȪxCOMPONENT;8@"8<4"ȪȪxCOMPONENT$(<4"ȪȪxCOMPONENTn$X $آ<4"ȪȪxCOMPONENTn$?N(?<4"ȪȪxCOMPONENT0)(آ<4"ȪȪxCOMPONENTX $h #p_<4"ȪȪxCOMPONENT(hN(p_<4"ȪȪxCOMPONENTX $8'8<4"ȪȪxCOMPONENT*@.<4"ȪȪxCOMPONENT>*)آ<4"ȪȪxCOMPONENT>*?.?<4"ȪȪxCOMPONENTx.@.آ<4"ȪȪxCOMPONENT)hhx)p_<4"ȪȪxCOMPONENT@.h.p_<4"ȪȪxCOMPONENT)8л-8<4"ȪȪxCOMPONENTXr0R4<4"ȪȪxCOMPONENT 0/آ<4"ȪȪxCOMPONENT 0?P3?<4"ȪȪxCOMPONENT4R4آ<4"ȪȪxCOMPONENT/hH/p_<4"ȪȪxCOMPONENTR4hP3p_<4"ȪȪxCOMPONENT/838<4"ȪȪxCOMPONENTB6":<4"ȪȪxCOMPONENTh50|5آ<4"ȪȪxCOMPONENTh5?9?<4"ȪȪxCOMPONENT:":آ<4"ȪȪxCOMPONENT0|5h5p_<4"ȪȪxCOMPONENT":h9p_<4"ȪȪxCOMPONENT0|58`\98p_$PINDEFAULTRST$PINPOSCLKCLK?$PINDEFAULTCECTIMER_0<4" FȪȪxCOMPONENT/m/<4" ȪȪxCOMPONENT)pO04$MKRORIGIN<4" ȪȪxCOMPONENT)P P<4" ȪȪxCOMPONENT)<4" ȪȪxCOMPONENT3H<4" ȪȪxCOMPONENTHmO<4" ȪȪxCOMPONENT sH sCTIMER_1<4" FȪȪxCOMPONENT)<4" FȪȪxCOMPONENT)pO<4" FȪȪxCOMPONENT)P P<4" FȪȪxCOMPONENT/m/<4" FȪȪxCOMPONENT sH s<4" ȪȪxCOMPONENT3H<4" ȪȪxCOMPONENTHmO04$MKRORIGINCTIMER_2<4" FȪȪxCOMPONENTHmO<4" FȪȪxCOMPONENT)<4" ȪȪxCOMPONENT)pO<4" ȪȪxCOMPONENT)P P<4" ȪȪxCOMPONENT/m/<4" ȪȪxCOMPONENT sH s<4" ȪȪxCOMPONENT3H04$MKRORIGINCTIMER_3<4" ȪȪxCOMPONENTHmO<4" FȪȪxCOMPONENT)<4" FȪȪxCOMPONENT)pO<4" ȪȪxCOMPONENT)P P<4" ȪȪxCOMPONENT/m/<4" ȪȪxCOMPONENT sH s<4" ȪȪxCOMPONENT3H04$MKRORIGINCTIMER_4<4" FȪȪxCOMPONENT)pO<4" FȪȪxCOMPONENT)P P<4" ȪȪxCOMPONENT/m/<4" FȪȪxCOMPONENT sH s<4" ȪȪxCOMPONENT3H04$MKRORIGIN<4" ȪȪxCOMPONENT)<4" ȪȪxCOMPONENTHmOCTIMER_5<4" FȪȪxCOMPONENT)pO<4" FȪȪxCOMPONENT3H04$MKRORIGIN<4" ȪȪxCOMPONENTHmO<4" ȪȪxCOMPONENT)P P<4" ȪȪxCOMPONENT/m/<4" ȪȪxCOMPONENT sH s<4" ȪȪxCOMPONENT)CTIMER_6<4" ȪȪxCOMPONENT)pO<4" FȪȪxCOMPONENT3H04$MKRORIGIN<4" ȪȪxCOMPONENTHmO<4" ȪȪxCOMPONENT)P P<4" ȪȪxCOMPONENT/m/<4" ȪȪxCOMPONENT sH s<4" ȪȪxCOMPONENT)CTIMER_7<4" FȪȪxCOMPONENT)pO04$MKRORIGIN<4" FȪȪxCOMPONENT)P P<4" FȪȪxCOMPONENT/m/<4" FȪȪxCOMPONENT)<4" ȪȪxCOMPONENT3H<4" ȪȪxCOMPONENTHmO<4" ȪȪxCOMPONENT sH sCTIMER_8<4" ȪȪxCOMPONENT/m/<4" ȪȪxCOMPONENT)pO04$MKRORIGIN<4" ȪȪxCOMPONENT)P P<4" ȪȪxCOMPONENT)<4" ȪȪxCOMPONENT3H<4" ȪȪxCOMPONENTHmO<4" ȪȪxCOMPONENT sH sCTIMER_9<4" FȪȪxCOMPONENT)pO04$MKRORIGIN<4" ȪȪxCOMPONENT)P P<4" ȪȪxCOMPONENT/m/<4" ȪȪxCOMPONENT)<4" ȪȪxCOMPONENT3H<4" ȪȪxCOMPONENTHmO<4" ȪȪxCOMPONENT sH sCTIMER_10x04$MKRORIGIN<4" FȪȪxCOMPONENT33CTIMER_11x04$MKRORIGIN<4" ȪȪxCOMPONENT33{*DEVICE} {ACTIVE=CTIMER,12,DLL} {HELP=INSTRUMENTS>POPUP,505} {*PROPDEFS} {PRIMITIVE="Primitive Type",HIDDEN STRING} {MODDLL="VSM Model DLL",HIDDEN STRING} {MODE="Operating Mode",KWDLIST,4,0="Time (secs)",1="Time (hms)",2="Frequency",3="Count"} {GATEPOL="Count Enable Polarity",KWDLIST,2,0="High",1="Low"} {RSTEDGE="Reset Edge Polarity",KWDLIST,2,0="Low-High",1="High-Low"} {*INDEX} {*COMPONENT} {PRIMITIVE=DIGITAL} {MODDLL=CTIMER.DLL} {RSTEDGE=0} {GATEPOL=0} {MODE=0} {PACKAGE=NULL} $IDC AMMETERѕF s 80"ȪȪCOMPONENT`me"ȪȪCOMPONENT ArialAmps04$MKRORIGIN<4"1ȪȪ}COMPONENTO<4"1ȪȪ}COMPONENT|<4"1ȪȪ}COMPONENTx PSX= PS@8"`O@@INDICATOR9 004$MKRORIGINnf"`O@@{INDICATOR) 0Default Font+88.8?$PINSHORT+ `$PINSHORT-IMETER_C80"ȪȪCOMPONENT`04$MKRORIGIN<4"1ȪȪ}COMPONENTO<4"1ȪȪ}COMPONENT|<4"1ȪȪ}COMPONENTx PSX= PS@8"`O@@INDICATOR9 004$MKRORIGINnf"`O@@{INDICATOR) 0Default Font+88.8IMETER_0X80"ȪȪCOMPONENT`04$MKRORIGIN<4"1ȪȪ}COMPONENTO<4"1ȪȪ}COMPONENT|<4"1ȪȪ}COMPONENTx PSX= PS04$MKRORIGINIMETER_1|@8"`O@@INDICATORm9 004$MKRORIGINIMETER_2me"ȪȪCOMPONENT ArialAmps04$MKRORIGINIMETER_3kc"ȪȪCOMPONENT ArialmA04$MKRORIGINIMETER_404$MKRORIGINkc"ȪȪCOMPONENT ArialA5{*DEVICE} {ACTIVE=IMETER,5,DLL} {HELP=INSTRUMENTS>POPUP,507} {*PROPDEFS} {MODDLL="VSM Model DLL",HIDDEN STRING} {MODFILE="LISA Model File",HIDDEN STRING} {STATE="Display Range",KWDLIST,3,2="Amps",3="Milliamps",4="Microamps"} {*INDEX} {*COMPONENT} {MODDLL=READOUT} {MODFILE=DCIMETER} {STATE=2} {PACKAGE=NULL} $IDC VOLTMETERѕF D80"ȪȪCOMPONENT`nf"ȪȪCOMPONENT ArialVolts<4"1ȪȪ}COMPONENT sv @v <4"1ȪȪ}COMPONENTX= x <4"1ȪȪ}COMPONENT s@@8"`O@@INDICATOR9 0nf"`O@@{INDICATOR) 0Default Font+88.804$MKRORIGIN ? $PINSHORT- `t$PINSHORT+VMETER_C80"ȪȪCOMPONENT`<4"1ȪȪ}COMPONENT sv @v <4"1ȪȪ}COMPONENTX= x <4"1ȪȪ}COMPONENT s@@8"`O@@INDICATOR9 0nf"`O@@{INDICATOR) 0Default Font+88.804$MKRORIGINVMETER_0(80"ȪȪCOMPONENT`<4"1ȪȪ}COMPONENT sv @v <4"1ȪȪ}COMPONENTX= x <4"1ȪȪ}COMPONENT s@04$MKRORIGINVMETER_1|@8"`O@@INDICATORm9 004$MKRORIGINVMETER_2nf"ȪȪCOMPONENT ArialVolts04$MKRORIGINVMETER_3kc"ȪȪCOMPONENT ArialmV04$MKRORIGIN04$MKRORIGINVMETER_4kc"ȪȪCOMPONENT ArialV04$MKRORIGIN04$MKRORIGINg{*DEVICE} {ACTIVE=VMETER,5,DLL} {HELP=INSTRUMENTS>POPUP,507} {*PROPDEFS} {MODDLL="VSM Model DLL",HIDDEN STRING} {MODFILE="LISA Model File",HIDDEN STRING} {STATE="Display Range",KWDLIST,3,2="Volts",3="Millivolts",4="Microvolts"} {LOAD="Load Resistance",FLOAT,PNZ} {*INDEX} {*COMPONENT} {LOAD=100M} {MODDLL=READOUT} {MODFILE=DCVMETER} {STATE=2} {PACKAGE=NULL} $II2C DEBUGGERѕF(@8"ȪȪCOMPONENTp_& A@8"ȪbCOMPONENT/?ld"ȪȪ{COMPONENT(] ArialFI2C04$MKRORIGIN`$PINDEFAULTSDA$PINDEFAULTSCL?$PINDEFAULTTRIG{*DEVICE} {ACTIVE=I2C_DEBUG,0,DLL} {HELP=INSTRUMENTS>POPUP,510} {*PROPDEFS} {PRIMITIVE="Primitive Type",HIDDEN STRING} {MODDLL="VSM Model DLL",HIDDEN STRING} {CLOCKFREQ="Clock frequency in Hz",INT,PNZ} {ADDRESS1="Address byte 1",INT,0,255} {ADDRESS2="Address byte 2",INT,0,255} {STOPONEMPTY="Stop on 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} {*INDEX} {CAT=Miscellaneous} {SUBCAT=} {MFR=} {DESC=I2C Protocol Debugger} {*COMPONENT} {PRIMITIVE=DIGITAL} {MODDLL=i2cdebug.dll} {AUTOLOAD=0} {CLOCKFREQ=100000} {STOPONEMPTY=1} {WRAPLENGTH=64} {PACKAGE=NULL} $ILOGIC ANALYSERѕF@8"ȪȪCOMPONENT@ >`E*04$MKRORIGIN@8"8cȪdCOMPONENTȜPP'D#04$MKRORIGIN<4" ȪȪxCOMPONENT&<4" ȪȪxCOMPONENT?&?<4" ȪȪxCOMPONENTp_&p_<4" ȪȪxCOMPONENT@&@<4" ȪȪxCOMPONENT&<4" ȪȪxCOMPONENT&<4" ȪȪxCOMPONENT&<4"ȪȪxCOMPONENT00P<4" ȪȪxCOMPONENT&<4"ȪȪxCOMPONENT``P<4"ȪȪxCOMPONENT P<4"ȪȪxCOMPONENTP<4"ȪȪxCOMPONENT``P<4"ȪȪxCOMPONENT A AP<4"ȪȪxCOMPONENTP!P!P<4"ȪȪxCOMPONENTP<4"ȪȪxCOMPONENT""P@$PINDEFAULTA0@$PINDEFAULTA1@?$PINDEFAULTA2@p_$PINDEFAULTA3@@$PINDEFAULTA4@$PINDEFAULTA5@$PINDEFAULTA6@$PINDEFAULTA7B6$PINDEFAULTA8B6$PINDEFAULTA9B6?$PINDEFAULTA10B6p_$PINDEFAULTA11B6@$PINDEFAULTA12B6$PINDEFAULTA13B6$PINDEFAULTA14B6$PINDEFAULTA15@$PINBUSB0[0..7]@P$PINBUSB1[0..7]B6$PINBUSB2[0..7]B6P$PINBUSB3[0..7]){*DEVICE} {ACTIVE=DLA,0,DLL} {HELP=INSTRUMENTS>POPUP,502} {*PROPDEFS} {PRIMITIVE="Primitive Type",HIDDEN STRING} {MODDLL="VSM Model",READONLY STRING} {PACKAGE="PCB Package",PACKAGE,0} {*INDEX} {CAT=Virtual Instrument} {SUBCAT=} {MFR=} {*COMPONENT} {PRIMITIVE=DIGITAL} {MODDLL=DLA} {PACKAGE=NULL} $IOSCILLOSCOPEѕF!1k@8"ȪȪwCOMPONENT@"@8"8c0ȪhCOMPONENTOOQ`<4"ȪȪxCOMPONENTO0 0<4"ȪȪxCOMPONENTO` `<4"ȪȪxCOMPONENTx O<4"ȪȪxCOMPONENTx O<4"ȪȪxCOMPONENTx O<4"ȪȪxCOMPONENT0x 0O<4"ȪȪxCOMPONENTHx HO<4"ȪȪxCOMPONENT`x `O<4"ȪȪxCOMPONENTx x x O<4"ȪȪxCOMPONENTOH H<4"ȪȪxCOMPONENTO <4"ȪȪxCOMPONENTO <4"ȪȪxCOMPONENTO <4"ȪȪxCOMPONENTO/ /<4"ȪȪxCOMPONENTO? ?<4"ȪȪxCOMPONENT/x /O<4"ȪȪxCOMPONENT?x ?O04$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} LATCH_6i(H@|@8"ȪȪCOMPONENT`0P!}04$MKRORIGIN`$PINDEFAULTD0"$PINDEFAULTQ0`P$PINDEFAULTOE`$PINDEFAULTD1"$PINDEFAULTQ1`?$PINDEFAULTD2"?$PINDEFAULTQ2`p_$PINDEFAULTD3"p_$PINDEFAULTQ3`@$PINDEFAULTD4"@$PINDEFAULTQ4`$PINDEFAULTD5"$PINDEFAULTQ5`$PINPOSCLKCLK` >$PINDEFAULTRESET`$PINDEFAULTEN{*DEVICE} PREFIX=U HELP=MODELS>POPUP,135 {*PROPDEFS} {PRIMITIVE=Primitive Type,HIDDEN STRING} {EDGE=Edge Triggered Latch?,BOOL} {TDLHCQ=Clock To Q Delay (Low-High),ADVANCED FLOAT,POZ} {TDHLCQ=Clock To Q Delay (High-Low),ADVANCED FLOAT,POZ} {TDLHDQ=Data To Q Delay (Low-High),ADVANCED FLOAT,POZ} {TDHLDQ=Data To Q Delay (High-Low),ADVANCED FLOAT,POZ} {TDLZOQ=Output Enable To Q Delay (Low-HiZ),ADVANCED FLOAT,POZ} {TDZLOQ=Output Enable To Q Delay (HiZ-Low),ADVANCED FLOAT,POZ} {TDHZOQ=Output Enable To Q Delay (High-HiZ),ADVANCED FLOAT,POZ} {TDZHOQ=Output Enable To Q Delay (HiZ-High),ADVANCED FLOAT,POZ} {TDRQ=Reset to Q Delay,ADVANCED FLOAT,POZ} {TGQ=Deglitch Time For Q Output,ADVANCED FLOAT,POZ} {INIT=Initial Output,INT,0,63} {*INDEX} {CAT=Modelling Primitives} {SUBCAT=Digital (Sequential)} {DESC=Universal Latch Digital Primitive Model With Edge/Transparent Clock, Enable, Tristate Outputs and Reset} {*COMPONENT} {PRIMITIVE=DIGITAL} LM016LmJu@8"ȪȪCOMPONENT >M@8"8c2FȪaCOMPONENTP0y`E 04$MKRORIGINP!$PINDEFAULTD714 A$PINDEFAULTD613`$PINDEFAULTD512$PINDEFAULTD411 $PINDEFAULTD310`$PINDEFAULTD290$PINDEFAULTD18$PINDEFAULTD07?$PINDEFAULTE6p_$PINDEFAULTRW5@$PINDEFAULTRS4$PINDEFAULTVSS1$PINDEFAULTVDD2$PINDEFAULTVEE3LCD_16X2_0|@8"8c2FȪaCOMPONENTP0y`E 04$MKRORIGINLCD_16X2_1|@8"8cȪaCOMPONENTP0y`E 04$MKRORIGIN{*DEVICE} PREFIX=LCD ACTIVE=LCD_16X2,2,DLL HELP=DISPLAYS>POPUP,2 {DATA=pdfs/Display/HD44780.pdf} {*PROPDEFS} {MODDLL="VSM Model",READONLY STRING} {PRIMITIVE="Simulator Primitive",HIDDEN STRING} {NUMCOLS="Number of Columns",READONLY INT} {NUMROWS="Number of Rows",READONLY INT} {CLOCK="Clock Frequency",ADVANCED FLOAT,PNZ} {ROW1="Row 1",ADVANCED STRING} {ROW2="Row 2",ADVANCED STRING} {PACKAGE=PCB Footprint,PACKAGE,0} {TRACE=Controller Diagnostics,HIDDEN TRACEMODE} {*INDEX} {CAT=Optoelectronics} {SUBCAT=Alphanumeric LCDs} {DESC=16x2 Alphanumeric LCD} {*COMPONENT} {NUMCOLS=16} {NUMROWS=2} {CLOCK=250kHz} {ROW1=80-8F} {ROW2=C0-CF} {PACKAGE=CONN-DIL14} {PRIMITIVE=DIGITAL,LCD} {MODDLL=LCDALPHA} {TRACE=1} LM018LmJ@8"ȪȪCOMPONENT໪@04 >$MKRORIGIN@8"8c2FȪaCOMPONENT0yǢ 04$MKRORIGIN$PINDEFAULTD714$PINDEFAULTD613$PINDEFAULTD512$PINDEFAULTD411P$PINDEFAULTD310 >$PINDEFAULTD29]$PINDEFAULTD18}$PINDEFAULTD07`$PINDEFAULTE60$PINDEFAULTRW5$PINDEFAULTRS4@|$PINDEFAULTVSS1p\$PINDEFAULTVDD2<$PINDEFAULTVEE3LCD_40X2_0|@8"8c2FȪaCOMPONENT0yǢ 04$MKRORIGINLCD_40X2_1|@8"8cȪaCOMPONENT0yǢ 04$MKRORIGIN{*DEVICE} PREFIX=LCD ACTIVE=LCD_40X2,2,DLL HELP=DISPLAYS>POPUP,2 {DATA=pdfs/Display/HD44780.pdf} {*PROPDEFS} {MODDLL="VSM Model",READONLY STRING} {PRIMITIVE="Simulator Primitive",HIDDEN STRING} {NUMCOLS="Number of Columns",READONLY INT} {NUMROWS="Number of Rows",READONLY INT} {CLOCK="Clock Frequency",ADVANCED FLOAT,PNZ} {ROW1="Row 1",ADVANCED STRING} {ROW2="Row 2",ADVANCED STRING} {PACKAGE=PCB Footprint,PACKAGE,0} {TRACE=Controller Diagnostics,HIDDEN TRACEMODE} {*INDEX} {CAT=Optoelectronics} {SUBCAT=Alphanumeric LCDs} {DESC=40x2 Alphanumeric LCD} {*COMPONENT} {PRIMITIVE=DIGITAL,LCD} {MODDLL=LCDALPHA} {NUMCOLS=40} {NUMROWS=2} {PACKAGE=CONN-DIL14} {ROW1=80-A7} {ROW2=C0-E7} {CLOCK=250kHz} {TRACE=1} ISIS CIRCUIT FILE MOBJECT DATA 0}"ȪȪ{COMPONENT Default FontDfinition et affichage de caractres accentus sur un afficheur 0"ȪȪ{COMPONENT `Default FontDu circuit LATCH_6 nous ne gardons que le symbole graphique avec 6 sorties Q0 Q5 : son comportement est remplac K"ȪȪ{COMPONENT Default FontTlchargez d'autres exemples ISIS Proteus sur www.gecif.net},0 Default FontSCRIPT>Ralis par Jean-Christophe MICHEL www.gecif.net Octobre 2014 (j"ȪȪ{COMPONENT Default FontLCD LM018L configur en 4 bits avec un script EasyHDL ۦ"ȪȪ{COMPONENT `Default FontLe script EasyHDL, nomm GECIF, est sur la page 2 (voir menu Projet) et contient le message affich. og"ȪȪ{COMPONENT Default FontPage 1 /p\"ȪȪ{COMPONENT `Default Fontpar le script EasyHDL qui crit sur les 6 sorties Q0 Q5 les commandes pour piloter l'afficheur LCD.`Q $TERGROUND 0 40 Default FontTERMINAL LABELBF > ,0 Default FontSCRIPTHLe cblage des bornes d'alimentation VSS et VDD n'est pas indispensable U1x 2H Default FontCOMPONENT IDLATCH_6x50 Default FontCOMPONENT VALUELATCH_6x10 Default FontSUBCKT NAME&PRIMITIVE=DIGITAL,SCRIPT SCRIPT=GECIF x00 Default FontPROPERTIES&LATCH_6xH F LCD1OsY2H Default FontCOMPONENT IDLM018LOhS50 Default FontCOMPONENT VALUELM018LO8O10 Default FontSUBCKT NAME*{PRIMITIVE=DIGITAL,LCD} {MODDLL=LCDALPHA} O8O00 Default FontPROPERTIES{PRIMITIVE=DIGITAL,LCD} {MODDLL=LCDALPHA} {NUMCOLS=40} {NUMROWS=2} {PACKAGE=CONN-DIL14} {ROW1=80-A7} {ROW2=C0-E7} {CLOCK=250kHz} {TRACE=1} LM018L0A? F@WIREO/@./@.$@WIREO**$@WIREO&&$@WIREOH"H"$@WIREOXo Xo " " $@WIRE`81`$@WIREOOO"0"0$ISIS CIRCUIT FILE \EOBJECT DATA (jdog"ȪȪ{COMPONENT Default FontPage 2VQ|$*SCRIPT PROGRAM GECIF *END SCRIPT H ,0 Default FontSCRIPT,///////////////////////////////////////////////////////////////////////////////////////////// // Script EasyHDL ralis par Jean-Christophe MICHEL // www.gecif.net // Octobre 2014 ///////////////////////////////////////////////////////////////////////////////////////////// *SCRIPT PROGRAM GECIF PIN Q[0..3],Q4,Q5 FLOAT temporisation=0.4m INT i,n,adresse STRING s ///////////////////////////////////////////////////////////////////////////////////////////// // Envoie des instructions l'afficheur : ///////////////////////////////////////////////////////////////////////////////////////////// n=$33 // configure l'afficheur en 4 bits, 2 lignes, 5x8 GOSUB envoyer_instruction n=$32 GOSUB envoyer_instruction n=$0C // configure l'affichage avec le curseur invisible GOSUB envoyer_instruction n=$06 // configure le dplacement du curseur vers la droite GOSUB envoyer_instruction n=$28 // configure l'afficheur en multiligne en mode 4 bits GOSUB envoyer_instruction ///////////////////////////////////////////////////////////////////////////////////////////// // Dfinit le caractre en envoyant 8 octets dans la CGRAM de l'adresse $40 $47 : ///////////////////////////////////////////////////////////////////////////////////////////// DATA $04,$08,$0E,$11,$1F,$10,$0E,$00 FOR adresse=$40 TO $47 n=adresse GOSUB envoyer_instruction READ n GOSUB envoyer_donnee NEXT adresse ///////////////////////////////////////////////////////////////////////////////////////////// // Dfinit le caractre en envoyant 8 octets dans la CGRAM de l'adresse $48 $4F : ///////////////////////////////////////////////////////////////////////////////////////////// DATA $04,$02,$0E,$11,$1F,$10,$0E,$00 FOR adresse=$48 TO $4F n=adresse GOSUB envoyer_instruction READ n GOSUB envoyer_donnee NEXT adresse ///////////////////////////////////////////////////////////////////////////////////////////// // Dfinit le caractre en envoyant 8 octets dans la CGRAM de l'adresse $50 $57 : ///////////////////////////////////////////////////////////////////////////////////////////// DATA $04,$0A,$0E,$11,$1F,$10,$0E,$00 FOR adresse=$50 TO $57 n=adresse GOSUB envoyer_instruction READ n GOSUB envoyer_donnee NEXT adresse ///////////////////////////////////////////////////////////////////////////////////////////// // Dfinit le caractre en envoyant 8 octets dans la CGRAM de l'adresse $58 $5F : ///////////////////////////////////////////////////////////////////////////////////////////// DATA $04,$02,$0E,$01,$0F,$11,$0F,$00 FOR adresse=$58 TO $5F n=adresse GOSUB envoyer_instruction READ n GOSUB envoyer_donnee NEXT adresse ///////////////////////////////////////////////////////////////////////////////////////////// // Dfinit le caractre en envoyant 8 octets dans la CGRAM de l'adresse $60 $67 : ///////////////////////////////////////////////////////////////////////////////////////////// DATA $04,$02,$11,$11,$11,$13,$0D,$00 FOR adresse=$60 TO $67 n=adresse GOSUB envoyer_instruction READ n GOSUB envoyer_donnee NEXT adresse ///////////////////////////////////////////////////////////////////////////////////////////// // Dfinit le caractre en envoyant 8 octets dans la CGRAM de l'adresse $68 $6F : ///////////////////////////////////////////////////////////////////////////////////////////// DATA $04,$0A,$11,$11,$11,$13,$0D,$00 FOR adresse=$68 TO $6F n=adresse GOSUB envoyer_instruction READ n GOSUB envoyer_donnee NEXT adresse ///////////////////////////////////////////////////////////////////////////////////////////// // Dfinit le caractre en envoyant 8 octets dans la CGRAM de l'adresse $70 $77 : ///////////////////////////////////////////////////////////////////////////////////////////// DATA $04,$0A,$0C,$04,$04,$04,$0E,$00 FOR adresse=$70 TO $77 n=adresse GOSUB envoyer_instruction READ n GOSUB envoyer_donnee NEXT adresse ///////////////////////////////////////////////////////////////////////////////////////////// // Dfinit le caractre en envoyant 8 octets dans la CGRAM de l'adresse $78 $7F : ///////////////////////////////////////////////////////////////////////////////////////////// DATA $0E,$10,$10,$11,$0E,$04,$0C,$00 FOR adresse=$78 TO $7F n=adresse GOSUB envoyer_instruction READ n GOSUB envoyer_donnee NEXT adresse ///////////////////////////////////////////////////////////////////////////////////////////// // Envoie des donnes l'afficheur : ///////////////////////////////////////////////////////////////////////////////////////////// // Le caractre de code ASCII $0 est dsormais pour l'afficheur // Le caractre de code ASCII $1 est dsormais pour l'afficheur // Le caractre de code ASCII $2 est dsormais pour l'afficheur // Le caractre de code ASCII $3 est dsormais pour l'afficheur // Le caractre de code ASCII $4 est dsormais pour l'afficheur // Le caractre de code ASCII $5 est dsormais pour l'afficheur // Le caractre de code ASCII $6 est dsormais pour l'afficheur // Le caractre de code ASCII $7 est dsormais pour l'afficheur // crit sur la ligne 1 : n=$80 GOSUB envoyer_instruction s="Une " GOSUB afficher_chaine s=CHR(6)+"le d'" GOSUB afficher_chaine // Pour le caractre de code ASCII 0 il faut directement envoyer la donne $00 sans // mettre de caractre nul dans la chane s n=0 GOSUB envoyer_donnee s="t" GOSUB afficher_chaine n=0 GOSUB envoyer_donnee s=" pour ao" GOSUB afficher_chaine s=CHR(5)+"t o" GOSUB afficher_chaine s=CHR(4)+" " GOSUB afficher_chaine s=CHR(7)+"a va tr" GOSUB afficher_chaine s=CHR(1)+"s" GOSUB afficher_chaine // crit sur la ligne 2 : n=$C0 GOSUB envoyer_instruction s="bien doit " GOSUB afficher_chaine s=CHR(2)+"tre " GOSUB afficher_chaine s=CHR(3)+" m" GOSUB afficher_chaine s=CHR(2)+"me de capter Gecif !" GOSUB afficher_chaine END ///////////////////////////////////////////////////////////////////////////////////////////// // Fonction afficher_chaine : ///////////////////////////////////////////////////////////////////////////////////////////// // Cette fonction "afficher_chaine" affiche la chaine s afficher_chaine: FOR i = 1 TO LEN(s) n=ASC(s[i]) GOSUB envoyer_donnee NEXT i RETURN ///////////////////////////////////////////////////////////////////////////////////////////// // Fonction envoyer_donnee : ///////////////////////////////////////////////////////////////////////////////////////////// // Cette fonction "envoyer_donnee" met RS 1 puis envoie l'octet n en 2 tapes envoyer_donnee: Q4=1 SLEEP FOR temporisation Q[0..3]=(n>>4) SLEEP FOR temporisation GOSUB valider Q[0..3]=n SLEEP FOR temporisation GOSUB valider RETURN ///////////////////////////////////////////////////////////////////////////////////////////// // Fonction envoyer_instruction : ///////////////////////////////////////////////////////////////////////////////////////////// // Cette fonction "envoyer_instruction" met RS 0 puis envoie l'octet n en 2 tapes envoyer_instruction: Q4=0 SLEEP FOR temporisation Q[0..3]=(n>>4) SLEEP FOR temporisation GOSUB valider Q[0..3]=n SLEEP FOR temporisation GOSUB valider RETURN ///////////////////////////////////////////////////////////////////////////////////////////// // Fonction valider : ///////////////////////////////////////////////////////////////////////////////////////////// // Cette fonction "valider" envoie une impulsion sur E, pour valider une instruction ou une donne valider: Q5=1 SLEEP FOR temporisation Q5=0 SLEEP FOR temporisation RETURN ///////////////////////////////////////////////////////////////////////////////////////////// // Fin du script ///////////////////////////////////////////////////////////////////////////////////////////// *ENDSCRIPT ISIS CIRCUIT FILE MOBJECT DATACCT000CCT001G __DEFAULT__ ROOT10Schma U1 LCD1CCT000ROOT30Script EasyHDLCCT001 __DEFAULT__ __DEFAULT__???@ư>1- ABSTOL1e-12 BADMOS3No BYPASSYes CHGTOL1e-14DEFAD0DEFAS0 DEFAULTS0 DEFL0.0001 DEFW0.0001 GMIN1e-18GMINSTEPS120 ITL1100ITL250ITL450 LOGSTART0 LOGTIME60 MAXORD2METHODTRAPEZOIDAL NOOPITERNo NUMSTEPS50 OLDLIMITNo PIVREL0.001 PIVTOL1e-13 RELTOL0.01 RSHUNT1e+12 SRCSTEPS120 TDLOWER0.9 TDSCALE1 TDUPPER1.1TEMP27 TMIN1e-12TNOM27TRACE_CONTENTIONS1,0TRACE_CONVERGENCE1,1TRACE_DCPATHS1,2TRACE_ITFMODS1,3TRACE_NETTYPES1,4TRACE_OPTIONS1,5TRACE_PERFORMANCE1,6TRACE_SPICELINK1,7TRANGMIN1e-18TRTOL7TRYTOCOMPACTNo TTOL1e-09 VNTOL1e-06@v6>pYx`k&0