SIMetrix Component4.14.244.21nmos_sub opamp_paramgndSIMPLIS_COMPARATORreszDifferential_Voltage_Probe ind_lossysimplis_pwlr_boxInlineCurrentProbevwaveresvcvsdioSIMPLIS_TOTEM_OUT1_BBcapccvs NLB_MULTI dc_sourceind probev_new 7 probev_new Probe VoltageConnections;Probes<<<x<NODE % SIMULATORDUAL"X PROBETYPEVWSIMPLIS_TEMPLATE/.PRINT V();.GRAPH : %VALUE%8xTEMPLATE.GRAPH %VALUE%-h VALUESCRIPT edit_probe!@REFProbe?VALUELabel"CLASSPROBEx /indInductorPassiveshx$l0Hl<<$l0H<l<$h<h$x<xPN .  INIT_SCRIPT ic_reactive% SIMULATORDUALNREFL?VALUE1u2 DECSCRIPTinc_dec_passive 12 INCSCRIPTinc_dec_passive 0@MODELLMhTEMPLATE- %FORM%0 valuescript edit_reactive@SIMPLIS_TEMPLATE %VALUE%&X@ICANAL0;1;0;0;G  dc_sourceDC Voltage SourceSources88080xxPNREFV? VALUE5@MODELV%  SIMULATORDUAL0 VALUESCRIPT edit_dcsourcex  NLB_MULTI NLB_MULTI SIMPLIS_NLBXh8@8@8@HXHxxxxXxXHXHxxx@8@88hhhxhOutAHLIMREFB Pin$BBPin$AA"(Pin$REFREF$pPin$HLIMHLIM@REFX1x<PARAM_MODEL_NAME NLB_MULTI ITEMPLATEYxISIMPLIS_TEMPLATE1 %PARAM_MODEL_NAME% vars: %VALUE%( I SIMULATORSIMPLISD(HI VALUESCRIPT!edit_parameterised_subckt 'VALUE' ccvs!Current Controlled Voltage SourceSources <T<$<x<hhhhxhxhhh<hx<xhxPhhNxCPhCN~SIMPLIS_TEMPLATEV V%REF%$TP_CCVS %VALUE% ;V%REF%$TP_CCVS 0TEMPLATEh %REF%$TP_CCVS ;V%REF%$TP_CCVS 0% SIMULATORDUAL@MODELH!VALUE1000REFH?h cap CapacitorPassivesTTTTTNP &@ICANAL0;1;0;0;% SIMULATORDUALrREFC?rE VALUE1n2 DECSCRIPTinc_dec_passive 12 INCSCRIPTinc_dec_passive 0@MODELCMhTEMPLATE- %FORM%@SIMPLIS_TEMPLATE %VALUE%0X VALUESCRIPT edit_reactive.H INIT_SCRIPT ic_reactiveT SIMPLIS_TOTEM_OUT1_BBSIMPLIS_TOTEM_OUT1_BBSIMPLIS_BB;Controller Parts,,h,hhhHxHHH8x8HxHxxxH8Hxx8xHHHHHx(d,hhd,d,,hh dhh dH$d|d$d|dHBOTRTNINVOUTHTOP":Pin$RTNRTN%IROFF_BOT10meg$IRSAT_BOT100m$IVSAT_BOT100m%IROFF_TOP10meg$IRSAT_TOP100m$IVSAT_TOP100mIIC0=UvPARAM_MODEL_NAMESIMPLIS_TOTEM_OUT1_BBRefU?@ModelX(@ SIMULATORSIMPLISGUvۀ VALUESCRIPT$edit_parameterised_multi_prop_subcktUv[SIMPLIS_TEMPLATE %PARAM_MODEL_NAME% vars: THRESHOLD=%THRESHOLD% + HYSTWD=%HYSTWD% VSAT_TOP=%VSAT_TOP% RSAT_TOP=%RSAT_TOP% + ROFF_TOP=%ROFF_TOP% VSAT_BOT=%VSAT_BOT% RSAT_BOT=%RSAT_BOT% + ROFF_BOT=%ROFF_BOT% IC=%IC% !vfIHYSTWD1.0$XI THRESHOLD2.5 dioJunction DiodeSemiconductors;DiodesTTTTTTTTNPsREFD?$sE VALUED1N4148@MODELD: INIT_SCRIPTic_parameterised_subcktT vcvs!Voltage Controlled Voltage SourceSources <`<$xTxhhhxhxhhhhxxhxPhhNxCPhCN%  SIMULATORDUAL@MODELEVALUE1REFE?h resResistor (Box shape)PassivesZZ$ZhZ$$Z$hNP% SIMULATORDUALREFR? VALUE1K2 DECSCRIPTinc_dec_passive 12 INCSCRIPTinc_dec_passive 0@MODELR$h -vwaveVoltage WaveformSources 0,<,00,hx,,,0$xxhhhPN REFV?@MODELVH0 SIMPLIS_TEMPLATE %SIMPLIS_VALUE%%0H SIMULATORDUAL#@ USE_PHASENO=0HVALUE PULSE 0 1 0 100n 100n 49.9u 100u, VALUESCRIPT edit_waveV0HH SIMPLIS_VALUE1SQU V1=0 V2=1 FREQ=10k DELAY=0 OFF_UNTIL_DELAY=NO;0EditLiteralScriptedit_vwave_literalx InlineCurrentProbeInline Current ProbeConnections;Probes00000xHx000PN "HCLASSPROBEXHVALUEoSIMPLIS_TEMPLATEGV%REF% 0.0;.PRINT I(V%REF%);.GRAPH %REF%#P %VALUE%- VALUESCRIPT edit_probeRhTEMPLATE2V%REF% 0.0 ;.GRAPH %REF%#p %VALUE%" ProbeTypeIxLABEL"xQREFIPROBE?% SIMULATORDUALH simplis_pwlr_boxVPWL Resistor (Box shape)Simplis;Primitives  0<0HZHH0<lZhZHZZ0$H$PhN IC1HMODEL!RREFR?2 VALUESCRIPTedit_pwlr 'dev'HSIMPLIS_TEMPLATEY %REF%$TP_SSPWLR IC= ;.MODEL %REF%$TP_SSPWLR VPWLR %VALUE%AJVALUE$NSEG=2 X0=0 Y0=0 X1=1 Y1=1 X2=2 Y2=2(X SIMULATORSIMPLISHh - ind_lossyInductor (Lossy)Passiveshx$l0Hl<<$l0H<l<$h<h$x<xPN -H INIT_SCRIPT ic_lossy_lSIMPLIS_TEMPLATE %REF%$TP_LOSSYL;.SUBCKT %REF%$TP_LOSSYL 1 2;.NODE_MAP P 1;.NODE_MAP N 2;:>;RSHUNT 1 3 %RSHUNT%;RSERIES 2 3 %RSERIES%;.ENDS %REF%$TP_LOSSYLQIC0% SIMULATORDUALREFL?MODELXTEMPLATE %REF%$TP_LOSSYL ;.SUBCKT %REF%$TP_LOSSYL 1 2;:>;RSHUNT 1 3 %RSHUNT%;RSERIES 2 3 %RSERIES%;.ENDS %REF%$TP_LOSSYLMh PARAMETERS+IND=1u RSHUNT=1MEG RSERIES=0.1 IC=0 USEIC=0IND1u"QRSHUNT1MEG"QRSERIES0.1G VALUESCRIPT$edit_parameterised_multi_prop_deviceiXLABELSKInductance,Shunt Resistance,Series Resistance,Initial Condition,Use IC:BoolG ]Differential_Voltage_ProbeProbe - differential voltageConnections;Probes0HxH00x00x0H0000hhhx8xx88x HHx8xhxxx0x0X0PxN % SIMULATORDUAL"H PROBETYPEV|SIMPLIS_TEMPLATETE$%REF%$TP_DIFFPRB 0 1 ;.PRINT V();.graph : %VALUE%"XCLASSPROBE- VALUESCRIPT edit_probeLRVALUE/Curvelabel = "Diff Probe" nowarn=true yunit="V"aTEMPLATEAE$%REF%$TP_DIFFPRB 0 1 ;.graph %VALUE%!RREFProbe?XlabelXh reszResistor (Z shape)PassivesZ,h<Z<,hNP% SIMULATORDUAL@MODELR, INCSCRIPT inc_passive, DECSCRIPT dec_passive VALUE1KREFR?h SIMPLIS_COMPARATORSIMPLIS ComparatorDigital hXhhhxxxxxXxXhxxhINNINPhRTNXhOUT@VALUE REFU?xX gndGroundConnections;TerminalsxHxxxGNDVALUE0@netnamex  opamp_param0Parameterised Operational Amplifier - 5 terminal%Analog;Amplifiers/Buffers/Comparators xxhhhhD<><8&$&T$xTx*hNh<`<hinnxinphoutvsnvsp %H SIMULATORDUAL^( VALUESCRIPT;edit_parameterised_subckt 'VALUE' 'PARAM_MODEL_NAME' '2169'"H MOD_LEVEL2Y8SIMPLIS_TEMPLATE1 %PARAM_MODEL_NAME% vars: %VALUE%^TEMPLATE> %PARAM_MODEL_NAME% params: %VALUE% CVALUE3HPARAM_MODEL_NAME PARAM_OPAMPMODELXxREFX?- PARAMSSCRIPT no_paramsB INIT_SCRIPTic_parameterised_subckt 'VALUE'h nmos_subNMOS 3 terminal!Semiconductors;MOSFETs (Discrete) HHx`xxx`xHSGDxREFQ?#xVALUEIRF530@MODELXHL-xr18gnd&HandleI480#@netname"VALUE00.P P (O ind_lossy&HandleI482"@USEIC01H INIT_SCRIPT ic_lossy_lSIMPLIS_TEMPLATE %REF%$TP_LOSSYL;.SUBCKT %REF%$TP_LOSSYL 1 2;.NODE_MAP P 1;.NODE_MAP N 2;:>;RSHUNT 1 3 %RSHUNT%;RSERIES 2 3 %RSERIES%;.ENDS %REF%$TP_LOSSYLQIC0) SIMULATORDUAL!RREFL2"MODELXTEMPLATE %REF%$TP_LOSSYL ;.SUBCKT %REF%$TP_LOSSYL 1 2;:>;RSHUNT 1 3 %RSHUNT%;RSERIES 2 3 %RSERIES%;.ENDS %REF%$TP_LOSSYLQh PARAMETERS+IND=1u RSHUNT=1MEG RSERIES=0.1 IC=0 USEIC=0"IND16u&QRSHUNT1Meg&QRSERIES20mK VALUESCRIPT$edit_parameterised_multi_prop_devicemXLABELSKInductance,Shunt Resistance,Series Resistance,Initial Condition,Use IC:Bool2830< XDifferential_Voltage_Probe &HandleI484(XlabelV1_diff%RREFProbe2eTEMPLATEAE$%REF%$TP_DIFFPRB 0 1 ;.graph %VALUE%RVALUE`axisType="auto" persistence=0 curveLabel="V1_diff" xLog="auto" yLog="lin" yUnit="V" nowarn=true1 VALUESCRIPT edit_probe&XCLASSPROBESIMPLIS_TEMPLATETE$%REF%$TP_DIFFPRB 0 1 ;.PRINT V();.graph : %VALUE%&H PROBETYPEV) SIMULATORDUAL2028f 0 p=P7resz&HandleI486"=REFR11%= VALUE2Meg0 DECSCRIPT dec_passive0 INCSCRIPT inc_passive"@MODELR) SIMULATORDUAL2623 dInlineCurrentProbe &HandleI488) SIMULATORDUAL&xQREFIPROBE2$xLABELIV1& ProbeTypeIVhTEMPLATE2V%REF% 0.0 ;.GRAPH %REF%#p %VALUE%1 VALUESCRIPT edit_probesSIMPLIS_TEMPLATEGV%REF% 0.0;.PRINT I(V%REF%);.GRAPH %REF%#P %VALUE%sXHVALUERaxisType="auto" persistence=0 curveLabel="IV1" xLog="auto" yLog="lin" nowarn=true&HCLASSPROBE2021 sU7cap &HandleI4902H INIT_SCRIPT ic_reactive4X VALUESCRIPT edit_reactiveDSIMPLIS_TEMPLATE %VALUE%QhTEMPLATE- %FORM%"@MODELC6 INCSCRIPTinc_dec_passive 06 DECSCRIPTinc_dec_passive 1%s VALUE4.7n!sREFC9) SIMULATORDUAL*@ICANAL0;1;0;0;2226 ps7cap &HandleI4922H INIT_SCRIPT ic_reactive4X VALUESCRIPT edit_reactiveDSIMPLIS_TEMPLATE %VALUE%QhTEMPLATE- %FORM%"@MODELC6 INCSCRIPTinc_dec_passive 06 DECSCRIPTinc_dec_passive 1#s VALUE4u!sREFC7) SIMULATORDUAL*@ICANAL0;1;0;0;2130 s7cap &HandleI494;@FORMBRANCH={IF(ANALYSIS=2,1,0)}2H INIT_SCRIPT ic_reactive4X VALUESCRIPT edit_reactiveDSIMPLIS_TEMPLATE %VALUE%QhTEMPLATE- %FORM%"@MODELC6 INCSCRIPTinc_dec_passive 06 DECSCRIPTinc_dec_passive 1/s VALUE100n IC=386.6m!sREFC6) SIMULATORDUAL*@ICANAL0;1;0;0;190e!xgnd&HandleI496#@netname"VALUE00R(#ccvs&HandleI498!REFH1"$VALUE1"@MODELH) SIMULATORDUALTEMPLATEh %REF%$TP_CCVS ;V%REF%$TP_CCVS 0SIMPLIS_TEMPLATEV V%REF%$TP_CCVS %VALUE% ;V%REF%$TP_CCVS 0360320Ignd&HandleI500#@netname"VALUE00?H!# probev_new &HandleI502&CLASSPROBE&LabelVref1(RVALUEhaxisType="auto" persistence=1 graphName="SIGNAL" curveLabel="Vref1" xLog="auto" yLog="auto" nowarn=true%@REFProbe81h VALUESCRIPT edit_probe<xTEMPLATE.GRAPH %VALUE%[SIMPLIS_TEMPLATE/.PRINT V();.GRAPH : %VALUE%&X PROBETYPEV) SIMULATORDUAL48;@# probev_new &HandleI504&CLASSPROBE&LabelVctrl(RVALUEhaxisType="auto" persistence=1 graphName="SIGNAL" curveLabel="Vctrl" xLog="auto" yLog="auto" nowarn=true%@REFProbe61h VALUESCRIPT edit_probe<xTEMPLATE.GRAPH %VALUE%[SIMPLIS_TEMPLATE/.PRINT V();.GRAPH : %VALUE%&X PROBETYPEV) SIMULATORDUAL444@&# probev_new &HandleI506&CLASSPROBE#LabelVg(RVALUEaaxisType="auto" persistence=1 graphName="AC" curveLabel="Vg" xLog="auto" yLog="auto" nowarn=true%@REFProbe41h VALUESCRIPT edit_probe<xTEMPLATE.GRAPH %VALUE%[SIMPLIS_TEMPLATE/.PRINT V();.GRAPH : %VALUE%&X PROBETYPEV) SIMULATORDUAL19 Pgnd&HandleI508#@netname"VALUE00,xywSIMPLIS_COMPARATOR &HandleI510F@ INIT_SCRIPTic_parameterised_subckt 'VALUE'H@ VALUESCRIPT!edit_parameterised_subckt 'VALUE']@SIMPLIS_TEMPLATE1 %PARAM_MODEL_NAME% vars: %VALUE%8@PARAM_MODEL_NAME SIMPLIS_COMP"@MODELX1@ PARAMSSCRIPT no_params,@ SIMULATORSIMPLIS!,x REFU1W@VALUE6IC=1 RIN=10Meg ROUT=1 HYSTWD=100m VOL=0 VOH=10 DELAY=037413840 xk NLB_MULTI&HandleI512M@VALUE,IC=0 GAIN=1 VOH=15 VOL=1m LOWPASS_FREQ=10MegH(HI VALUESCRIPT!edit_parameterised_subckt 'VALUE', I SIMULATORSIMPLIS]xISIMPLIS_TEMPLATE1 %PARAM_MODEL_NAME% vars: %VALUE%$ITEMPLATE5x<PARAM_MODEL_NAME NLB_MULTI @REFX470354448gnd&HandleI514#@netname"VALUE00gnd&HandleI516#@netname"VALUE00$ Fdio &HandleI518A@ PARAMSSCRIPTedit_parameterised_subckt7@ VALUESCRIPTsimplis_edit_mod7@PARAM_MODEL_NAME DIODE_SPICEF@ PARAM_VALUESIS=1.6f N=1 RS=1 IMAX=0.2 IC=1)@ SIMULATORDUALw@ EDVT_TEMPLATEN%REF% | | REF=%REF% MODEL_NAME=%PARAM_MODEL_NAME% %PARAM_VALUES%j@SIMPLIS_TEMPLATE> %PARAM_MODEL_NAME% vars: %PARAM_VALUES%!REFD4( VALUED1n4148"@MODELD> INIT_SCRIPTic_parameterised_subckt022$ s:Fdio &HandleI520A@ PARAMSSCRIPTedit_parameterised_subckt7@ VALUESCRIPTsimplis_edit_mod7@PARAM_MODEL_NAME DIODE_SPICEF@ PARAM_VALUESIS=1.6f N=1 RS=1 IMAX=0.2 IC=1)@ SIMULATORDUALw@ EDVT_TEMPLATEN%REF% | | REF=%REF% MODEL_NAME=%PARAM_MODEL_NAME% %PARAM_VALUES%j@SIMPLIS_TEMPLATE> %PARAM_MODEL_NAME% vars: %PARAM_VALUES%!sREFD5(s VALUED1n4148"@MODELD> INIT_SCRIPTic_parameterised_subckt023%s:Fdio &HandleI522A@ PARAMSSCRIPTedit_parameterised_subckt7@ VALUESCRIPTsimplis_edit_mod7@PARAM_MODEL_NAME DIODE_SPICEF@ PARAM_VALUESIS=1.6f N=1 RS=1 IMAX=0.2 IC=1)@ SIMULATORDUALw@ EDVT_TEMPLATEN%REF% | | REF=%REF% MODEL_NAME=%PARAM_MODEL_NAME% %PARAM_VALUES%j@SIMPLIS_TEMPLATE> %PARAM_MODEL_NAME% vars: %PARAM_VALUES%!sREFD3(s VALUED1n4148"@MODELD> INIT_SCRIPTic_parameterised_subckt2319m8&vwave &HandleI524?0EditLiteralScriptedit_vwave_literalp0HH SIMPLIS_VALUEGSIN VOFFSET=0 APEAK=156 FREQ=50 TDELAY=0 OFF_UNTIL_DELAY=NO DAMP_COEF=00 VALUESCRIPT edit_wave40HVALUESIN 0 156 50 -20m 0'@ USE_PHASENO)0H SIMULATORDUALL0 SIMPLIS_TEMPLATE %SIMPLIS_VALUE%"@MODELV!REFV12028P(`gnd&HandleI526#@netname"VALUE00'Pcap &HandleI528;@FORMBRANCH={IF(ANALYSIS=2,1,0)}2H INIT_SCRIPT ic_reactive4X VALUESCRIPT edit_reactiveDSIMPLIS_TEMPLATE %VALUE%QhTEMPLATE- %FORM%"@MODELC6 INCSCRIPTinc_dec_passive 06 DECSCRIPTinc_dec_passive 1, VALUE 22n IC=2.22!_REFC4) SIMULATORDUAL*@ICANAL0;1;0;0;3842p$(@res&HandleI530"@MODELR6 INCSCRIPTinc_dec_passive 06 DECSCRIPTinc_dec_passive 1%L VALUE1.8k!L/REFR6) SIMULATORDUAL3936>%6 opamp_param &HandleI532)H SIMULATORDUALb( VALUESCRIPT;edit_parameterised_subckt 'VALUE' 'PARAM_MODEL_NAME' '2169'&H MOD_LEVEL2]8SIMPLIS_TEMPLATE1 %PARAM_MODEL_NAME% vars: %VALUE%bTEMPLATE> %PARAM_MODEL_NAME% params: %VALUE% LCVALUE+BA_IC_R_FF2=2 BA_IC_R_FF3=1 USE_BACK_ANNO=17HPARAM_MODEL_NAME PARAM_OPAMP"MODELX!x REFX31 PARAMSSCRIPT no_paramsF INIT_SCRIPTic_parameterised_subckt 'VALUE'4839504538p&@res&HandleI534"@MODELR6 INCSCRIPTinc_dec_passive 06 DECSCRIPTinc_dec_passive 1%L VALUE3.3k!L/REFR7) SIMULATORDUAL4239&X2cap &HandleI536;@FORMBRANCH={IF(ANALYSIS=2,1,0)}2H INIT_SCRIPT ic_reactive4X VALUESCRIPT edit_reactiveDSIMPLIS_TEMPLATE %VALUE%QhTEMPLATE- %FORM%"@MODELC6 INCSCRIPTinc_dec_passive 06 DECSCRIPTinc_dec_passive 1- VALUE 820p IC=2.24!_REFC5) SIMULATORDUAL*@ICANAL0;1;0;0;38399&h7 dc_source&HandleI5384 VALUESCRIPT edit_dcsource)  SIMULATORDUAL"@MODELV#i VALUE15!iREFV9500&`gnd&HandleI540#@netname"VALUE008&7 dc_source&HandleI5424 VALUESCRIPT edit_dcsource)  SIMULATORDUAL"@MODELV" VALUE3!REFV7520p@gnd&HandleI544#@netname"VALUE009}p`h7 dc_source&HandleI5464 VALUESCRIPT edit_dcsource)  SIMULATORDUAL"@MODELV#i VALUE15!iREFV5530{p8Pcap &HandleI548;@FORMBRANCH={IF(ANALYSIS=2,1,0)}2H INIT_SCRIPT ic_reactive4X VALUESCRIPT edit_reactiveDSIMPLIS_TEMPLATE %VALUE%QhTEMPLATE- %FORM%"@MODELC6 INCSCRIPTinc_dec_passive 06 DECSCRIPTinc_dec_passive 1, VALUE 61n IC=6.59!_REFC3) SIMULATORDUAL*@ICANAL0;1;0;0;4443pxp@res&HandleI550"@MODELR6 INCSCRIPTinc_dec_passive 06 DECSCRIPTinc_dec_passive 1%L VALUE260k!L/REFR3) SIMULATORDUAL4643bBdInlineCurrentProbe &HandleI552) SIMULATORDUAL&xQREFIPROBE1#xLABELIL& ProbeTypeIVhTEMPLATE2V%REF% 0.0 ;.GRAPH %REF%#p %VALUE%1 VALUESCRIPT edit_probesSIMPLIS_TEMPLATEGV%REF% 0.0;.PRINT I(V%REF%);.GRAPH %REF%#P %VALUE%XHVALUE`axisType="grid" persistence=1 graphName="AC" curveLabel="IL" xLog="auto" yLog="lin" nowarn=true&HCLASSPROBE1924[(ind &HandleI554;@FORMBRANCH={IF(ANALYSIS=2,0,1)}*X@ICANAL0;1;0;0;DSIMPLIS_TEMPLATE %VALUE%4 valuescript edit_reactiveQhTEMPLATE- %FORM%"@MODELL6 INCSCRIPTinc_dec_passive 06 DECSCRIPTinc_dec_passive 1*VALUE 2.2m IC=0!RREFL1) SIMULATORDUAL2  INIT_SCRIPT ic_reactive2425+8gnd&HandleI556#@netname"VALUE00i+X&vwave &HandleI558?0EditLiteralScriptedit_vwave_literal`0HH SIMPLIS_VALUE7SAW V1=-2.5 V2=2.5 FREQ=100k DELAY=0 OFF_UNTIL_DELAY=NO0 VALUESCRIPT edit_waveA0HVALUE PULSE -2.5 2.5 0 9.99u 10n 0 10u'@ USE_PHASENO)0H SIMULATORDUALL0 SIMPLIS_TEMPLATE %SIMPLIS_VALUE%"@MODELV!REFV2400-gnd&HandleI560#@netname"VALUE00*sY7cap &HandleI562;@FORMBRANCH={IF(ANALYSIS=2,1,0)}2H INIT_SCRIPT ic_reactive4X VALUESCRIPT edit_reactiveDSIMPLIS_TEMPLATE %VALUE%QhTEMPLATE- %FORM%"@MODELC6 INCSCRIPTinc_dec_passive 06 DECSCRIPTinc_dec_passive 1.s VALUE 330u IC=395.7!sREFC1) SIMULATORDUAL*@ICANAL0;1;0;0;1827o-C7res&HandleI564"@MODELR6 INCSCRIPTinc_dec_passive 06 DECSCRIPTinc_dec_passive 1$C VALUE800!CREFR1) SIMULATORDUAL18326P(ddio &HandleI566A@ PARAMSSCRIPTedit_parameterised_subckt7@ VALUESCRIPTsimplis_edit_mod7@PARAM_MODEL_NAME DIODE_SPICEU@ PARAM_VALUES-IS=193.712u N=1.64274 RS=3.6073m IMAX=60 IC=1)@ SIMULATORDUALw@ EDVT_TEMPLATEN%REF% | | REF=%REF% MODEL_NAME=%PARAM_MODEL_NAME% %PARAM_VALUES%j@SIMPLIS_TEMPLATE> %PARAM_MODEL_NAME% vars: %PARAM_VALUES%!xREFD1*x^ VALUE mbr6045wt"@MODELD> INIT_SCRIPTic_parameterised_subckt2518.b# probev_new &HandleI568&CLASSPROBE$LabelVoaRVALUEdaxisType="grid" persistence=1 graphName="HVDC" curveLabel="Voa" xLog="auto" yLog="auto" nowarn=true%@REFProbe31h VALUESCRIPT edit_probe<xTEMPLATE.GRAPH %VALUE%[SIMPLIS_TEMPLATE/.PRINT V();.GRAPH : %VALUE%&X PROBETYPEV) SIMULATORDUAL37 cp6 opamp_param &HandleI570)H SIMULATORDUALb( VALUESCRIPT;edit_parameterised_subckt 'VALUE' 'PARAM_MODEL_NAME' '2169'&H MOD_LEVEL2]8SIMPLIS_TEMPLATE1 %PARAM_MODEL_NAME% vars: %VALUE%bTEMPLATE> %PARAM_MODEL_NAME% params: %VALUE% CVALUELEVEL=2 VOS=0 IB=100n IBOS=1n A0=100k GBW=1Meg SR_POS=1Meg SR_NEG=1Meg CMRR=100k PSRR=100k RIN=1Meg IO_SRC_MAX=5m IO_SNK_MAX=5m ROUT=100 RO_AC=50 IQ=1m VDIFF_POS=2 VDIFF_NEG=2 USE_BACK_ANNO=1 DEF_IC_R_FF2=1 DEF_IC_R_FF3=1 BA_IC_R_FF2=2 BA_IC_R_FF3=17HPARAM_MODEL_NAME PARAM_OPAMP"MODELX!x REFX21 PARAMSSCRIPT no_paramsF INIT_SCRIPTic_parameterised_subckt 'VALUE'5243534944pw9@res&HandleI572"@MODELR6 INCSCRIPTinc_dec_passive 06 DECSCRIPTinc_dec_passive 1%L VALUE4.7k!L/REFR2) SIMULATORDUAL4351z`2cap &HandleI574;@FORMBRANCH={IF(ANALYSIS=2,1,0)}2H INIT_SCRIPT ic_reactive4X VALUESCRIPT edit_reactiveDSIMPLIS_TEMPLATE %VALUE%QhTEMPLATE- %FORM%"@MODELC6 INCSCRIPTinc_dec_passive 06 DECSCRIPTinc_dec_passive 1- VALUE 490n IC=5.67!_REFC2) SIMULATORDUAL*@ICANAL0;1;0;0;4446:`=7 dc_source&HandleI5764 VALUESCRIPT edit_dcsource)  SIMULATORDUAL"@MODELV$ VALUE-15!REFV6490@gnd&HandleI578#@netname"VALUE00gnd&HandleI580#@netname"VALUE00%Fdio &HandleI582A@ PARAMSSCRIPTedit_parameterised_subckt7@ VALUESCRIPTsimplis_edit_mod7@PARAM_MODEL_NAME DIODE_SPICEF@ PARAM_VALUESIS=1.6f N=1 RS=1 IMAX=0.2 IC=1)@ SIMULATORDUALw@ EDVT_TEMPLATEN%REF% | | REF=%REF% MODEL_NAME=%PARAM_MODEL_NAME% %PARAM_VALUES%j@SIMPLIS_TEMPLATE> %PARAM_MODEL_NAME% vars: %PARAM_VALUES%!REFD2( VALUED1n4148"@MODELD> INIT_SCRIPTic_parameterised_subckt2219o*C%7res&HandleI584"@MODELR6 INCSCRIPTinc_dec_passive 06 DECSCRIPTinc_dec_passive 1$C VALUE27m!CREFR8) SIMULATORDUAL2732& gnd&HandleI586#@netname"VALUE00Pdvcvs&HandleI588!xREFE1%xVALUE100m"@MODELE)  SIMULATORDUAL340190 dvcvs&HandleI590!xREFE2&xVALUE41.1m"@MODELE)  SIMULATORDUAL3503400gnd&HandleI592#@netname"VALUE00: pb7 dc_source&HandleI5944 VALUESCRIPT edit_dcsource)  SIMULATORDUAL"@MODELV# VALUE15"REFV10470 pgnd&HandleI596#@netname"VALUE00:P(=7 dc_source&HandleI5984 VALUESCRIPT edit_dcsource)  SIMULATORDUAL"@MODELV$ VALUE-15!REFV34508-&# probev_new &HandleI600&CLASSPROBE#LabelVo(RVALUEaaxisType="auto" persistence=1 graphName="AC" curveLabel="Vo" xLog="auto" yLog="auto" nowarn=true%@REFProbe51h VALUESCRIPT edit_probe<xTEMPLATE.GRAPH %VALUE%[SIMPLIS_TEMPLATE/.PRINT V();.GRAPH : %VALUE%&X PROBETYPEV) SIMULATORDUAL18= H# probev_new &HandleI602&CLASSPROBE*Label Vg_signal(RVALUElaxisType="auto" persistence=1 graphName="SIGNAL" curveLabel="Vg_signal" xLog="auto" yLog="auto" nowarn=true%@REFProbe71h VALUESCRIPT edit_probe<xTEMPLATE.GRAPH %VALUE%[SIMPLIS_TEMPLATE/.PRINT V();.GRAPH : %VALUE%&X PROBETYPEV) SIMULATORDUAL35A)h:&# probev_new &HandleI604&CLASSPROBE#LabelVe(RVALUEfaxisType="auto" persistence=1 graphName="Current" curveLabel="Ve" xLog="auto" yLog="auto" nowarn=true%@REFProbe91h VALUESCRIPT edit_probe<xTEMPLATE.GRAPH %VALUE%[SIMPLIS_TEMPLATE/.PRINT V();.GRAPH : %VALUE%&X PROBETYPEV) SIMULATORDUAL38HXdvcvs&HandleI606!xREFE3%xVALUE7.5m"@MODELE)  SIMULATORDUAL510180Jgnd&HandleI608#@netname"VALUE00Q8# probev_new &HandleI610&CLASSPROBE*Label Vo_signal(RVALUElaxisType="auto" persistence=1 graphName="SIGNAL" curveLabel="Vo_signal" xLog="auto" yLog="auto" nowarn=true%@REFProbe11h VALUESCRIPT edit_probe<xTEMPLATE.GRAPH %VALUE%[SIMPLIS_TEMPLATE/.PRINT V();.GRAPH : %VALUE%&X PROBETYPEV) SIMULATORDUAL51[z 1ga7simplis_pwlr_box&HandleI612g IC1#HMODEL!R"gREFRN26 VALUESCRIPTedit_pwlr 'dev'HSIMPLIS_TEMPLATEY %REF%$TP_SSPWLR IC= ;.MODEL %REF%$TP_SSPWLR VPWLR %VALUE%JVALUEmNSEG=6 X0=-5 Y0=0 X1=190 Y1=0.01 X2=195 Y2=0.962 X3=300 Y3=0.641 X4=355 Y4=0.528 X5=410 Y5=0.469 X6=420 Y6=2 ,X SIMULATORSIMPLIS1832 psm7cap &HandleI6142H INIT_SCRIPT ic_reactive4X VALUESCRIPT edit_reactiveDSIMPLIS_TEMPLATE %VALUE%QhTEMPLATE- %FORM%"@MODELC6 INCSCRIPTinc_dec_passive 06 DECSCRIPTinc_dec_passive 1%s VALUE470n!sREFC8) SIMULATORDUAL*@ICANAL0;1;0;0;2923 psU7cap &HandleI6162H INIT_SCRIPT ic_reactive4X VALUESCRIPT edit_reactiveDSIMPLIS_TEMPLATE %VALUE%QhTEMPLATE- %FORM%"@MODELC6 INCSCRIPTinc_dec_passive 06 DECSCRIPTinc_dec_passive 1%s VALUE4.7n"sREFC10) SIMULATORDUAL*@ICANAL0;1;0;0;2623c =7resz&HandleI618!=REFR5#= VALUE1m0 DECSCRIPT dec_passive0 INCSCRIPT inc_passive"@MODELR) SIMULATORDUAL2229f 0 =P7resz&HandleI620"=REFR10%= VALUE2Meg0 DECSCRIPT dec_passive0 INCSCRIPT inc_passive"@MODELR) SIMULATORDUAL2226O ` (1 ind_lossy&HandleI622"@USEIC01H INIT_SCRIPT ic_lossy_lSIMPLIS_TEMPLATE %REF%$TP_LOSSYL;.SUBCKT %REF%$TP_LOSSYL 1 2;.NODE_MAP P 1;.NODE_MAP N 2;:>;RSHUNT 1 3 %RSHUNT%;RSERIES 2 3 %RSERIES%;.ENDS %REF%$TP_LOSSYLQIC0) SIMULATORDUAL!RREFL3"MODELXTEMPLATE %REF%$TP_LOSSYL ;.SUBCKT %REF%$TP_LOSSYL 1 2;:>;RSHUNT 1 3 %RSHUNT%;RSERIES 2 3 %RSERIES%;.ENDS %REF%$TP_LOSSYLQh PARAMETERS+IND=1u RSHUNT=1MEG RSERIES=0.1 IC=0 USEIC=0!IND5u&QRSHUNT1Meg&QRSERIES10mK VALUESCRIPT$edit_parameterised_multi_prop_devicemXLABELSKInductance,Shunt Resistance,Series Resistance,Initial Condition,Use IC:Bool2122!P ` P (1 ind_lossy&HandleI624"@USEIC01H INIT_SCRIPT ic_lossy_lSIMPLIS_TEMPLATE %REF%$TP_LOSSYL;.SUBCKT %REF%$TP_LOSSYL 1 2;.NODE_MAP P 1;.NODE_MAP N 2;:>;RSHUNT 1 3 %RSHUNT%;RSERIES 2 3 %RSERIES%;.ENDS %REF%$TP_LOSSYLQIC0) SIMULATORDUAL!RREFL4"MODELXTEMPLATE %REF%$TP_LOSSYL ;.SUBCKT %REF%$TP_LOSSYL 1 2;:>;RSHUNT 1 3 %RSHUNT%;RSERIES 2 3 %RSERIES%;.ENDS %REF%$TP_LOSSYLQh PARAMETERS+IND=1u RSHUNT=1MEG RSERIES=0.1 IC=0 USEIC=0!IND5u&QRSHUNT1Meg&QRSERIES10mK VALUESCRIPT$edit_parameterised_multi_prop_devicemXLABELSKInductance,Shunt Resistance,Series Resistance,Initial Condition,Use IC:Bool3023 -xr0jSIMPLIS_TOTEM_OUT1_BB&HandleI626&XI THRESHOLD5#vfIHYSTWD1Uv[SIMPLIS_TEMPLATE %PARAM_MODEL_NAME% vars: THRESHOLD=%THRESHOLD% + HYSTWD=%HYSTWD% VSAT_TOP=%VSAT_TOP% RSAT_TOP=%RSAT_TOP% + ROFF_TOP=%ROFF_TOP% VSAT_BOT=%VSAT_BOT% RSAT_BOT=%RSAT_BOT% + ROFF_BOT=%ROFF_BOT% IC=%IC% KUvۀ VALUESCRIPT$edit_parameterised_multi_prop_subckt,@ SIMULATORSIMPLIS"@ModelX!RefU2AUvPARAM_MODEL_NAMESIMPLIS_TOTEM_OUT1_BBIIC0(IVSAT_TOP100m(IRSAT_TOP100m)IROFF_TOP10Meg(IVSAT_BOT100m(IRSAT_BOT100m)IROFF_BOT10Meg333132370:-xr(20 &7 dc_source&HandleI6284 VALUESCRIPT edit_dcsource)  SIMULATORDUAL"@MODELV# VALUE12!REFV43332-xrp&L6nmos_sub &HandleI630A@ PARAMSSCRIPTedit_parameterised_subckt7@ VALUESCRIPTsimplis_edit_modw@ EDVT_TEMPLATEN%REF% | | REF=%REF% MODEL_NAME=%PARAM_MODEL_NAME% %PARAM_VALUES%j@SIMPLIS_TEMPLATE> %PARAM_MODEL_NAME% vars: %PARAM_VALUES%:@PARAM_MODEL_NAMEPWR_NMOS_SPICEi@ PARAM_VALUESAVGSNOM=10 IDMAX=9.78618 RDSON=2.50005 KP=2.15095 VTO=3.81033 RS=68.2662m LAMBDA=2.24033p IS=350.017f RSD=34.2995m N=1 CGS=318p VDSNOM=1000 QDG0=-4.39288n QDG1=1.66453n QDG2=3.32907n QDG3=4.9936n XDG0=-5 XDG1=8.9902 XDG2=58.5264 XDG3=158.489 QDS1=488.786p QDS2=977.571p QDS3=1.46636n XDS1=22.2835 XDS2=75.0872 XDS3=158.489)@ SIMULATORDUAL"@MODELX'xVALUEIRF820!xREFQ4253132,p&p%p31+:Q4#G,(20 (2 33+:V4#P,(2(232-:V4#N/5 531 +:U2#VOUT&..37.H0432+:U2#BOT.44 33+:U2#TOP.,h)h38+:U1#INP,,X+X40-:V2#P&h..37&..X37,!`'25-:L1#N.$%48+:X3#inp&6  18?-86818-:D1#N-:C1#P-:RN2#P-:R1#P,0 P @ P 23-:L4#N&820&20,8p828-:V1#N2828 -:V1#N-:L2#P228 -:V1#N-:L2#P,26-:C9#N40 26-:R10#N-:R11#P-0 0 p26+:R11#P822+:D2#P+:D4#N+:R5#P,22+:R5#P>0 22+:D2#P+:D4#N+:R5#P+:C9#P,` p21+:L3#P2p21 +:L3#P+:C7#P-` P 23-:C10#N,22+:C9#P,` P 23-:C8#N@P P 23-:L4#N-:R11#N-:C10#N-:C8#N,pppP 30-:C7#N&8820222 +:D2#P+:D4#N,22-:D2#P222 +:D2#P+:D4#N,p23-:D3#P@pp23-:L4#N-:R11#N-:C10#N-:C8#N& 18&X18-p p19+:E1#CP-"` `'` 32-:H1#CP%!` ! 0%! !0%P` ` 0+` 0-:C6#N+  0-:D4#P-1118+:RN2#P-1p1` 32-:RN2#N,P(`'25+:D1#P,"x"(36-:H1#P,851+:R2#N-H!48-:X#Out. 47-:X#HLIM+xxH35+:X#A,x35-:E2#P&P@19A*` -` 32+:RN2#N+:V4#N+:U2#BOT+:R1#N,-p-` 32-:R1#N,**27-:C1#N%P P` 0+  0-:D4#P2(P(19 -:D3#N-:D2#N,p23+:D5#N:))h38+:X3#out+:C4#P+:C5#P,P(P(45+:V3#P,%X%X39+:C5#N,''X38-:C5#P2''38 -:C4#P-:C5#P,$(%(39-:R6#P4%%(39+:X3#inn+:R6#P.'`'38-:X3#out,'X&X38-:C5#P:%X%39+:R7#N+:X3#inn+:R6#P.&P(45-:X3#vsn.&&50-:X3#vsp.ppp`53-:X2#vsp.p49-:X2#vsn:843+:R3#N+:X2#inn+:R2#P,`8p844-:C3#P.`44-:X2#out443+:X2#inn+:R2#P&19,24+:L1#P,**18+:C1#P,@)*18-:D1#N,`'`'25+:Q4#D,`'p`'` 32-:Q4#S,43-:R2#P3``44 +:X2#out+:X#B9``844+:C2#P+:X2#out+:X#B,8843+:C3#N,52-:V7#P:')38-:X3#out-:C4#P-:C5#P,22+:D4#N,((19-:D2#N&P(P19% P 0G`'` *` 32!+:R8#N+:RN2#N+:V4#N+:U2#BOT+:R1#N,"((#(36+:R6#N,`49+:V6#P,--18+:R1#P2*-18 -:D1#N-:C1#P-H!$48-:X#Out?--818+:D1#N+:C1#P+:RN2#P+:R1#P,34-:E1#P,00+:E2#CN+00-:E1#N+xH H35-:X#A+ H 35+:X#A-  p47+:V10#P,851-:E3#P+`@44+:X#B+ @44+:X#B-H0` 1` 32+:RN2#N-1-18+:RN2#P- 19+:E1#CP&19,19+:C6#P&@19%` !` 0-" "` 32+:H1#CP- p 19-:E1#CP-p19+:E1#CP@pP 23+:L4#N+:R11#N+:C10#N+:C8#N222 +:D2#P+:D4#N,88P 28+:L2#P,P 8P 28+:L2#P,pp21+:C7#P,pP P 30-:L2#N:P P 23-:L4#N-:R11#N-:C10#N-p26+:C10#P&820,` P pP 30+:L4#P30 P P 23 -:L4#N-:R11#N,p29-:R5#N-0 0 22+:R10#P-0 0 P 23-:R11#N228 +:V1#N+:L2#P&20,0 @ 22-:L3#N&686 18&  18-$$48+:X#Out-.037+:U2#IN-1180-:U2#RTN.4432-:U2#BOT.H0H032+:U2#BOT;-` H0` 32+:RN2#N+:V4#N+:U2#BOT/p5531 -:U2#VOUT/% 5 31 +:U2#VOUT,H0(232+:V4#N4H0` H032+:V4#N+:U2#BOT.(2 4 33+:U2#TOP/%p% 31 +:U2#VOUT[.SIMULATOR SIMetrix .TRAN 8m .OPTIONS minBreak=100p ** uncomment the following line if you experience convergence problems *.options pivrel=990m .model D1n4148 D(IS=1.6f RS=1.0 IKF=22m CJO=3p M=0.3 VJ=0.75 ISR=2.6n + BV=70 TT=20n) .subckt IRFR420 D G S .model mosfet NMOS( LEVEL=7 VTO=3.81 RS=0.06816 KP=2.149 RD=2.3567 TC1RD=0.0127 RG=15 IS=1e-36 + CGDMAX=1.00E-09 CGDMIN=1.06E-11 XG2CGD=0.5 XG1CGD=0.1 CBD=6.97E-11 VTCGD=0) .model diode D( IS=3.50e-13 RS=0.0343 TT=1.657e-06) M1 D G S S mosfet D1 S D Diode Cgs G S 3.18E-10 .ends .model mur110 D(IS=9p RS=23m IKF=11m CJO=40p M=0.37 VJ=0.75 ISR=820p + BV=100 IBV=100u tt=62n) .subckt BZX79-18 1 2 D1 1 2 D1 D2 2 3 D2 I1 1 3 1.71956 R1 1 3 10 TC1=0.8374m .model D1 D IS=9.19e-16 CJO=70p RS=0.57061 ISR=1.36e-08 .model D2 D IS=1.00e-15 .ends ** From psu.sxlib .subckt UC3844 Vout Osc Vp Comp Sense Vfb Ref Gnd A$U2 [U6_OUT U5_IN4] U2_OUT nand A$U3 [U2_OUT U7_OUT] U5_IN4 nand X$ARB1 R1_P Sense ARB1_OUT $$arbsourceARB1 pinnames: N1 N2 OUT .subckt $$arbsourceARB1 N1 N2 OUT B1 OUT 0 V=tanh(v(n1,n2)*1000)*2.5+2.5 .ends A$U16 U12_OUT U16_OUT DA X$U1 Vfb Ref Vp Comp Gnd R5_N $$error_amp_2 pinnames: VINN BIAS VP VOUT VN VINP A$U17 U9_OUT U17_OUT DA A$U6 U12_OUT U6_OUT inv V1 S2_P 0 5V A$U7 U15_OUT U7_OUT delay1 A$U15 ARB1_OUT U15_OUT AD A$U4 Vp U4_OUT schmitt A$U5 [U10_OUT U12_OUT U8_QP U5_IN4] U11_IN1 or A$U12 Osc U12_OUT schmitt_osc I2 R1_N Comp 10u A$U13 U11_OUT U13_OUT DA A$U10 U4_OUT U10_OUT inv A$U11 U11_IN1 U11_OUT inv_dead I1 Gnd I1_N 40m A$U18 U4_OUT U18_OUT DA A$VCC2 VCC2_P DIG_VCC D1 Comp D1_N Diode D2 D1_N R1_N Diode D3 R1_P I1_N Diode Q2 Vp S1_N Vout 0 N1 20 R4 S1_N Gnd 1K R5 Ref R5_N 10k X$S4 Osc 0 U16_OUT 0 gen_switch : RON=250 ROFF=100Meg VON=3 VOFF=2 pinnames: P N CP CN A$U8 VCC2_P U12_OUT U8_SET U8_SET U8_QP U8_QN Toggle A$GND2 U8_SET DIG_GND R6 R5_N Gnd 10k A$U9 U11_IN1 U9_OUT dead Q1 Vout U17_OUT Gnd 0 N1 20 X$S2 S2_P Ref U18_OUT 0 gen_switch : RON=1 ROFF=100Meg VON=3 VOFF=2 pinnames: P N CP CN R1 R1_P R1_N 20k X$S3 Vp 0 U18_OUT 0 gen_switch : RON=1.36k ROFF=30k VON=3 VOFF=2 pinnames: P N CP CN R2 Gnd R1_P 10k .ic Osc 0 R3 I1_N Gnd 10 X$S1 Vp S1_N U13_OUT Gnd gen_switch : RON=1 ROFF=1Meg VON=3 VOFF=2 pinnames: P N CP CN .model inv d_inverter .model or d_or .model DIG_GND d_pulldown strong=true out_family="FORCE5" .model DIG_VCC d_pullup strong=true out_family="FORCE5" .model toggle d_tff .model delay1 d_buffer rise_delay=150n fall_delay=150n .model dead d_buffer rise_delay=20n fall_delay=1n .model inv_dead d_inverter rise_delay=20n fall_delay=1n .model nand d_nand .model and d_and .model Diode D(IS=1.6f CJO=0.3p M=0.3 VJ=0.75 ISR=2.6n) .model N1 NPN BF=300 TF=0.5n CJC=0.3p VAF=100 .model P1 PNP BF=150 TF=2n CJC=0.3p VAF=150 .model D1 D .model schmitt_osc adc_schmitt in_low=1 in_high=3 * 842/4 .model schmitt adc_schmitt in_low=10 in_high=16 * 843/5 *.model schmitt adc_schmitt in_low=7.6 in_high=8.4 .subckt gen_switch 1 2 3 4 S1 1 2 3 4 SW .model SW VSWITCH RON={ron} ROFF={roff} VON={von} VOFF={voff} .ends .model AD adc_bridge + in_low=2.1 + in_high=2.2 + rise_delay=1e-12 + fall_delay=1e-12 + out_family = "UNIV" + out_low = 0 + out_high = 5 + clamp_bias=0.5 + clamp_res=10 .model DA dac_bridge + out_high=5 + input_load=-31p + t_rise=2n + t_fall=2n + g_pullup=0.024 + g_pulldown=0.034 + g_hiz=1e-9 + knee_low = 2.0 + knee_high =2.75 + v_smooth = 0.5 + in_family="UNIV" .subckt $$error_amp_2 VINN BIAS VP VOUT VN VINP Q8 Q6_C Q6_C VN 0 N1 Q9 Q10_B Q6_C VN 0 N1 V1 D2_N VN 5.5 Q10 VOUT Q10_B Q10_E 0 N1 C1 C1_P Q10_B 270p D1 Q10_E VN D1 D2 VOUT D2_N D1 E1 C1_P 0 VOUT 0 1 G2 VP G2_N BIAS VN 20u Q6 Q6_C R2_P G2_N 0 P1 Q7 Q10_B R3_P G2_N 0 P1 R2 R2_P VINN 2.7k X$S1 VP VOUT BIAS 0 gen_switch : RON=30k ROFF=1G VON=3 VOFF=2 pinnames: P N CP CN R3 R3_P VINP 2.7k .subckt gen_switch 1 2 3 4 S1 1 2 3 4 SW .model SW VSWITCH RON={ron} ROFF={roff} VON={von} VOFF={voff} .ends .model N1 NPN BF=200 TF=0.15n CJC=0.3p VAF=100 .model P1 PNP BF=150 TF=5n CJC=30p VAF=150 RB=100 .model D1 D .ends .ends .SIMULATOR SIMPLIS .PRINT + ALL .OPTIONS + PSP_NPT=1001 + SNAPSHOT_INTVL=20m + SNAPSHOT_NPT=11 .TRAN 40m 0 .var I_rating_F11=2.2 .var I2t_rating_F11=555m .var Rfuse_F11=11m .var Rfuse_delta_F11=111m .SIMULATOR DEFAULT H x