***************************************************************** * * * INFINEON Power Transistors * * LTSPICE Library for OptiMOS5 150V Transistors * * * * Version 080324 * * * ***************************************************************** ***************************************************************** * * * The Simulation Model is subject to change without notice. In * * addition, models can be a useful tool in evaluating device * * performance, they cannot reflect the accurate device * * performance under all conditions, nor are they intended to * * replace bread boarding for final verification. Infineon * * therefore does not assume any warranty or liability * * whatsoever arising from their use. Infineon does not assume * * any warranty or liability for the values and functions of the * * Simulation Model. * * The methods and results of the Simulation Model are to the * * best of our knowledge * * correct. However, the user is fully responsible to verify and * * validate these results under the operating conditions and in * * the environment of its application. Infineon will not bear * * the responsibility arising out of or in connection with any * * malfunction of the Simulation Models. * * Models provided by Infineon are not warranted by Infineon as * * completely and comprehensively representing all the * * specifications and operating characteristics of the * * semiconductor products to which these models relate. The * * models describe the characteristics of typical devices. In * * all cases, the current data sheet information for a given * * device is the conclusive design guideline and the only actual * * performance specification. * * * * This library contains models of the following INFINEON * * OptiMOS5 150V transistors: * * * * BSC074N15NS5 BSC088N15LS5 BSC093N15NS5 * * BSC093N15NS5SC BSC105N15LS5 BSC110N15NS5 * * BSC110N15NS5SC BSC152N15LS5 BSC160N15NS5 * * BSC160N15NS5SC IPB044N15N5 IPB048N15N5 * * IPC331N15NM5R IPI051N15N5 IPP051N15N5 * * IPB060N15N5 IPB073N15N5 IPI076N15N5 * * IPP076N15N5 IPT039N15N5 IPT044N15N5 * * IPT054N15N5 IPT063N15N5 BSZ300N15NS5 * * IPTC039N15NM5 IPTC044N15NM5 IPTC054N15NM5 * * IPTC063N15NM5 IPTG039N15NM5 IPTG044N15NM5 * * IPTG054N15NM5 IPTG063N15NM5 IQD063N15NM5 * * IQE220N15NM5 IQE220N15NM5CG IQE220N15NM5CGSC * * IQE220N15NM5SC * * * ***************************************************************** * thermal nodes of level 3 models: * * * * .SUBCKT BSC074N15NS5 drain gate source Tj Tcase * * Tj : potential=temperature (in °C) at junction (typically * * not connected) * * Tcase : node where the boundary condition - external heat * * sinks etc - have to be connected (ideal heat sink * * can be modeled by using a voltage source stating the * * ambient temperature in °C between Tcase and ground. * * * ***************************************************************** .options Thev_Induc=1 .SUBCKT S5_150_f_var dd g s0 sp Tj PARAMS: a=1 Rsp=1 dVth=0 dR=0 dgfs=0 Inn=1 +Unn=1 Rmax=1 gmin=1 Rs=1 Rp=1 dC=0 Rm=1u .PARAM b0=15.26 p0=9.73 p1=-31.4m p2=50u mubet=987m fbet=0 .PARAM Vth0=4.83 c=1.4 Fm=200m Fn=500m al=500m auth=3.5m .PARAM dvx=550m dvgs=-200m auth_sub=3.5m .PARAM Rd=64.6m rpara=500u nmu=3.5 Rf=520m .PARAM lnIsj=-25.46 ndi=1.14 Rdi=13.96m nmu2=0 n_Isj=1 UB=161 .PARAM ab=65m ab2=0 UT=100m lB=-23 ta=30n .PARAM kbq=85.8u Tref=298 T0=273 .PARAM f3=176p f3a=51p .PARAM ps1=8.32p ps2=-774m ps3=19.3p ps4=-47.4m ps5=0.64p ps6=2.5p .PARAM ps7=0 pc0=15p .PARAM qs7=93.3p qs8=-19.1m .PARAM q80=53.1p q81=49.7p q82=0.61p qs1=25.6p qs4=67p qs5=-413m .PARAM x1={(q80-q81)/q82} x2={q80/q82} .PARAM Vmin=4.03 Vmax=5.63 dCmax=330m .PARAM Vth={Vth0+(Vmax-Vth0)*limit(dVth,0,1)-(Vmin-Vth0)*limit(dVth,-1,0)} .PARAM q0={b0*((1-fbet)*(T0/Tref)**mubet+fbet)*a} .PARAM q1={(Unn-Inn*Rs-Vth0)*q0} .PARAM q2={(Fm*SQRT(0.4)-c)*Inn*q0} .PARAM Rlim={((q1+2*q2*Rmax-SQRT(q1**2+4*q2))/(2*q2))/(1+rpara*(Inn/a)**2)} .PARAM dRd={Rd/a+if(dVth==0,limit(dR,0,1)*max(Rlim-Rd/a-Rs-Rp,0),0)} .PARAM bm={c/((1/gmin-Rs)**2*Inn*a*((1-fbet)*(T0/Tref)**mubet+fbet))} .PARAM bet={b0+(b0-bm)*if(dR==0,if(dVth==0,limit(dgfs,-1,0),0),0)} .PARAM dC1={1+dCmax*limit(dC,0,1)} .PARAM dC2={1+dCmax*limit(dC,0,1)} .PARAM Cgs0={f3*a*dC1} .PARAM Cgs1={f3a*a*dC1} .PARAM Cds2={qs7*a*dC1} .PARAM Cds5={qs1*a*dC1} .PARAM Cds7={qs4*a*dC1} .PARAM Cds8={q80*a*dC1} .PARAM Cdg1={(a*ps1+pc0*sqrt(a))*dC2} .PARAM Cdg2={ps3*a*dC2} .PARAM Cdg3={(ps5*a+ps6)*dC2} .PARAM dRdi={Rdi/a} .FUNC Ue(g,y,w) {(g-Vth+auth*(w-Tref)+Fm*y**Fn)} .FUNC Ue1(g,y,w) {Ue(g,y,w)+(1+limit(Ue(g,y,w)+dvx,0,1)**2*(2*limit(Ue(g,y,w)+dvx,0,1)-3))*(dvgs+(auth_sub-auth)*(w-Tref))} .FUNC I0(Uee,p,pp,z1) {if(Uee>pp,(Uee-c*z1)*z1,p*(pp-p)/c*exp((Uee-pp)/p))} .FUNC Ih(Uds,T,p,Uee) {bet*((1-fbet)*(T0/T)**mubet+fbet)*I0(Uee,p,min(2*p,p+c*Uds),min(Uds,Uee/(2*c)))} .FUNC Jh(d,g,w,y,s,x) {a*((Ih(s*y+min(d,0),w,(p0+(p1+p2*w)*w)*kbq*w,Ue1(g,y,w))+exp(min(lB+(d-UB-ab*(w-Tref))/UT,24))))} .FUNC Idiode(Usd,Tj,Iss) {exp(min(ln(Iss)+Usd/(ndi*kbq*Tj),7))-Iss} .FUNC Idiod(Usd,Tj) {a*Idiode(Usd,Tj,exp(min(lnIsj+(Tj/Tref-1)*1.12/(ndi*kbq*Tj),7))*(Tj/Tref)**n_Isj)} .FUNC Pr(Vss0,Vssp) {Vss0*Vss0/Rm+Vssp*Vssp/Rsp} .FUNC Q01(Uds) {a*(limit(Uds,x1,x2)*(q80-q82/2*limit(Uds,x1,x2))+min(Uds-x1,0)*q81-max(x1,0)*(q80-q81)/2)} C_Cgs g s {Cgs0} C_Cgs1 g sp {Cgs1} E_Eds2 d edep2 VALUE {if(qs8==0,0,V(d,s)-(exp(qs8*max(V(d,s),-1))-1)/min(qs8,-1u)-min(V(d,s)+1,0)*exp(-qs8))} C_Cds2 edep2 s {Cds2} C_Cds5 d sp {Cds5} E_Eds7 d edep7 VALUE {if(qs5==0,0,V(d,sp)-(exp(qs5*max(V(d,sp),0))-1)/min(qs5,-1u)-min(V(d,sp),0))} C_Cds7 edep7 sp {Cds7} E_Eds8 d edep8 VALUE {V(d,sp)-Q01(V(d,sp))/Cds8} C_Cds8 edep8 sp {Cds8} E_Edg1 d ox1 VALUE {if(ps2==0,0,V(d,g)-(exp(ps2*max(V(d,g),0))-1)/min(ps2,-1u)-min(V(d,g),0))} C_Cdg1 ox1 g {Cdg1} E_Edg2 d ox2 VALUE = +{if(ps4==0,0,V(d,g)-((exp(ps4*(max(V(d,g)+ps7,0)))-exp(ps4*max(ps7,0)))/min(ps4,-1u)+min(V(d,g)+max(ps7,0),max(0,-ps7))))} C_Cdg2 ox2 g {Cdg2} C_Cdg3 d g {Cdg3} Rfp s sp {Rsp} G_chan d5a s VALUE={Jh(V(d5a,s),V(g,s),T0+limit(V(Tj),-200,300),(SQRT(1+4*al*max(V(d5a,s),0))-1)/2/al,sgn(V(d5a,s)),0)} Rd06 d5a d5 1u V_sm d d5 0 G_RMos d1 d VALUE={V(d1,d)/(Rf*dRd+(1-Rf)*dRd*((limit(V(Tj),-200,999)+T0)/Tref)**nmu)/(1+rpara*(I(V_sense)/a)**2)} V_sense dd d1 0 G_Rdio d2 d1 VALUE={V(d2,d1)/(dRdi*((limit(V(Tj),-200,999)+T0)/Tref)**nmu2)} V_sense2 d2 d3 0 Dbody s d3 dbody .model dbody D (BV= {UB*10},CJO ={Cds2/1000},TT ={ta},IS ={a*exp(lnIsj)} m={0.3} RS={dRdi*1m} n={ndi}) R1 g s 1G Rd01 d s 500Meg Rd02 d2 s 500Meg Rd03 d1 d 1k Rssp g sp 100Meg Rmet s s0 {Rm} G_TH 0 Tj VALUE = +{(I(V_sense)-I(V_sense2))*V(d1,d)+I(V_sm)*V(d,s)+I(V_sense2)*V(d1,s)+Pr(V(s,s0),V(s,sp))} .ENDS ********** .SUBCKT S5_150_g_var dd g s0 sp Tj PARAMS: a=1 Rsp=1 dVth=0 dR=0 dgfs=0 Inn=1 +Unn=1 Rmax=1 gmin=1 Rs=1 Rp=1 dC=0 Rm=1u .PARAM b0=22 p0=6 p1=-15.4m p2=25u mubet=987m fbet=0 .PARAM Vth0=2.5 c=1.4 Fm=200m Fn=500m al=500m auth=2.6m .PARAM dvx=550m dvgs=-200m auth_sub=3.2m .PARAM Rd=69m rpara=500u nmu=3.1 Rf=400m .PARAM lnIsj=-24.2 ndi=1.14 Rdi=13.96m nmu2=0 n_Isj=1 UB=161 .PARAM ab=65m ab2=0 UT=100m lB=-23 td=10n ta=10n .PARAM kbq=85.8u Tref=298 T0=273 .PARAM f3=200p f3a=50p .PARAM ps1=10.26p ps2=-40m ps3=60p ps4=-500m ps5=0.755p ps6=2.68p .PARAM ps7=500m pc0=18.61p .PARAM qs7=93.3p qs8=-19.1m .PARAM q80=53.1p q81=49.7p q82=0.52p q85=0 qs1=25.6p qs4=67p .PARAM qs5=-413m .PARAM x1={(q80-q81)/q82} x2={q80/q82} .PARAM Vmin=2 Vmax=3 dCmax=330m .PARAM Vth={Vth0+(Vmax-Vth0)*limit(dVth,0,1)-(Vmin-Vth0)*limit(dVth,-1,0)} .PARAM q0={b0*((1-fbet)*(T0/Tref)**mubet+fbet)*a} .PARAM q1={(Unn-Inn*Rs-Vth0)*q0} .PARAM q2={(Fm*SQRT(0.4)-c)*Inn*q0} .PARAM Rlim={((q1+2*q2*Rmax-SQRT(q1**2+4*q2))/(2*q2))/(1+rpara*(Inn/a)**2)} .PARAM dRd={Rd/a+if(dVth==0,limit(dR,0,1)*max(Rlim-Rd/a-Rs-Rp,0),0)} .PARAM bm={c/((1/gmin-Rs)**2*Inn*a*((1-fbet)*(T0/Tref)**mubet+fbet))} .PARAM bet={b0+(b0-bm)*if(dR==0,if(dVth==0,limit(dgfs,-1,0),0),0)} .PARAM dC1={1+dCmax*limit(dC,0,1)} .PARAM dC2={1+dCmax*limit(dC,0,1)} .PARAM Cgs0={f3*a*dC1} .PARAM Cgs1={f3a*a*dC1} .PARAM Cds2={qs7*a*dC1} .PARAM Cds5={qs1*a*dC1} .PARAM Cds7={qs4*a*dC1} .PARAM Cds8={q80*a*dC1} .PARAM Cdg1={(ps1*a+pc0*sqrt(a))*dC2} .PARAM Cdg2={ps3*a*dC2} .PARAM Cdg3={(ps5*a+ps6)*dC2} .PARAM dRdi={Rdi/a} .FUNC Ue(g,y,w) {(g-Vth+auth*(w-Tref)+Fm*y**Fn)} .FUNC Ue1(g,y,w) {Ue(g,y,w)+(1+limit(Ue(g,y,w)+dvx,0,1)**2*(2*limit(Ue(g,y,w)+dvx,0,1)-3))*(dvgs+(auth_sub-auth)*(w-Tref))} .FUNC Ia(Uee,p,pp,z1) {if(Uee>pp,(Uee-c*z1)*z1,p*(pp-p)/c*exp((Uee-pp)/p))} .FUNC Ih(Uds,T,p,Uee) {bet*((1-fbet)*(T0/T)**mubet+fbet)*Ia(Uee,p,min(2*p,p+c*Uds),min(Uds,Uee/(2*c)))} .FUNC Jh(d,g,w,y,s,x) {a*((Ih(s*y+min(d,0),w,(p0+(p1+p2*w)*w)*kbq*w,Ue1(g,y,w))+exp(min(lB+(d-UB-ab*(w-Tref))/UT,24))))} .FUNC Idiode(Usd,Tj,Iss) {exp(min(ln(Iss)+Usd/(ndi*kbq*Tj),7))-Iss} .FUNC Idiod(Usd,Tj) {a*Idiode(Usd,Tj,exp(min(lnIsj+(Tj/Tref-1)*1.12/(ndi*kbq*Tj),7))*(Tj/Tref)**n_Isj)} .FUNC Pr(Vss0,Vssp) {Vss0*Vss0/Rm+Vssp*Vssp/Rsp} .FUNC Q01(Uds) {a*(limit(Uds,x1,x2)*(q80-q82/2*limit(Uds,x1,x2))+min(Uds-x1,0)*q81-max(x1,0)*(q80-q81)/2)} C_Cgs g s {Cgs0} C_Cgs1 g sp {Cgs1} E_Eds2 d edep2 VALUE {V(d,s)-I(V_sense3)/Cds2} C_Cds2 edep2 s {Cds2} C_Cds5 d sp {Cds5} E_Eds7 d edep7 VALUE {if(qs5==0,0,V(d,sp)-(exp(qs5*max(V(d,sp),0))-1)/min(qs5,-1u)-min(V(d,sp),0))} C_Cds7 edep7 sp {Cds7} E_Eds8 d edep8 VALUE {V(d,sp)-Q01(V(d,sp))/Cds8} C_Cds8 edep8 sp {Cds8} E_Edg1 d ox1 VALUE {if(ps2==0,0,V(d,g)-(exp(ps2*max(V(d,g),0))-1)/min(ps2,-1u)-min(V(d,g),0))} C_Cdg1 ox1 g {Cdg1} E_Edg2 d ox2 VALUE = +{if(ps4==0,0,V(d,g)-((exp(ps4*(max(V(d,g)+ps7,0)))-exp(ps4*max(ps7,0)))/min(ps4,-1u)+min(V(d,g)+max(ps7,0),max(0,-ps7))))} C_Cdg2 ox2 g {Cdg2} C_Cdg3 d g {Cdg3} Rfp s sp {Rsp} G_chan d5a s VALUE={Jh(V(d5a,s),V(g,s),T0+limit(V(Tj),-200,300),(SQRT(1+4*al*max(V(d5a,s),0))-1)/2/al,sgn(V(d5a,s)),0)} Rd06 d5a d5 1u V_sm d d5 0 G_RMos d1 d VALUE={V(d1,d)/(Rf*dRd+(1-Rf)*dRd*((limit(V(Tj),-200,999)+T0)/Tref)**nmu)/(1+rpara*(I(V_sense)/a)**2)} V_sense dd d1 0 G_diode s d3 VALUE={Idiod(V(s,d3),T0+limit(V(Tj),-200,499))} G_Rdio d2 d1 VALUE={V(d2,d1)/(dRdi*((limit(V(Tj),-200,999)+T0)/Tref)**nmu2)} V_sense2 d2 d3 0 L_L001 a c {td/(ta+td)} R_R001 a b {1/ta} V_sense3 c 0 0 E_E001 b 0 VALUE {I(V_sense2)} E_E002 e 0 VALUE {Cds2*((exp(qs8*max(V(d,s),-1))-1)/min(qs8,-1u)+min(V(d,s)+1,0)*exp(-qs8))} R_R002 e c 1 R_R003 a 0 500Meg R1 g s 1G Rd01 d s 500Meg Rd02 d2 s 500Meg Rd03 d1 d 1k Rd07 d3 s 1G Rssp g sp 100Meg Rmet s s0 {Rm} G_TH 0 Tj VALUE = +{(I(V_sense)-I(V_sense2))*V(d1,d)+I(V_sm)*V(d,s)+I(V_sense2)*V(d1,s)+Pr(V(s,s0),V(s,sp))} .ENDS ********** .SUBCKT BSC088N15LS5 drain gate source Tj Tcase PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Zthtype=0 Ls=350p Ld=100p Lg=2.2n .PARAM Rs=413u Rg=1.1 Rd=10u Rm=239u .PARAM Inn=46 Unn=10 Rmax=8.8m gmin=38 .PARAM act=10.66 Rsp=0.15 X1 d1 g s sp Tj S5_150_g_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} Rsb source s1 10 Rga gate g1 10 Rdb drain d2 10 Rth1 Tj t1 {3.38m+limit(Zthtype,0,1)*1.26m} Rth2 t1 t2 {33.22m+limit(Zthtype,0,1)*12.29m} Rth3 t2 t3 {116.82m+limit(Zthtype,0,1)*5.04m} Rth4 t3 t4 {67.04m+limit(Zthtype,0,1)*104.07m} Rth5 t4 Tcase {218.18m+limit(Zthtype,0,1)*338.7m} Cth1 Tj 0 185.51u Cth2 t1 0 304.2u Cth3 t2 0 2.41m Cth4 t3 0 1.88m Cth5 t4 0 10.64m Cth6 Tcase 0 30m .ENDS ********** .SUBCKT BSC093N15NS5SC drain gate source Tj Ttop Tbottom PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Zthtype=0 Ls=250p Ld=100p Lg=2.2n .PARAM Rs=128u Rg=1.1 Rd=10u Rm=20u .PARAM Inn=44 Unn=10 Rmax=9.3m gmin=34 .PARAM act=10.66 Rsp=0.15 X1 d1 g s sp Tj S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} Rsb source s1 10 Rga gate g1 10 Rdb drain d2 10 Rth1 Tj t1 {3.38m+limit(Zthtype,0,1)*1.26m} Rth2 t1 t2 {33.22m+limit(Zthtype,0,1)*12.29m} Rth3 t2 t3 {117.51m+limit(Zthtype,0,1)*10.31m} Rth4 t3 t4 {67.04m+limit(Zthtype,0,1)*102.67m} Rth5 t4 Tbottom {218.18m+limit(Zthtype,0,1)*334.15m} Cth1 Tj 0 185.51u Cth2 t1 0 304.2u Cth3 t2 0 2.46m Cth4 t3 0 1.88m Cth5 t4 0 10.64m Cth6 Tbottom 0 30m Rth1t Tj tt1 {181.16m+limit(Zthtype,0,1)*136.1m} Rth2t tt1 tt2 {68.76m+limit(Zthtype,0,1)*136.1m} Rth3t tt2 Ttop {57.67m+limit(Zthtype,0,1)*140.22m} Cth1t tt1 0 1.52m Cth2t tt2 0 3.33m Cth3t Ttop 0 4.48m .ENDS ********** .SUBCKT BSC105N15LS5 drain gate source Tj Tcase PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Zthtype=0 Ls=350p Ld=100p Lg=2.2n .PARAM Rs=413u Rg=0.9 Rd=10u Rm=239u .PARAM Inn=40 Unn=10 Rmax=10.5m gmin=33 .PARAM act=9.09 Rsp=0.15 X1 d1 g s sp Tj S5_150_g_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} Rsb source s1 10 Rga gate g1 10 Rdb drain d2 10 Rth1 Tj t1 {3.97m+limit(Zthtype,0,1)*1.47m} Rth2 t1 t2 {38.79m+limit(Zthtype,0,1)*14.36m} Rth3 t2 t3 {136.28m+limit(Zthtype,0,1)*5.97m} Rth4 t3 t4 {78.62m+limit(Zthtype,0,1)*125.98m} Rth5 t4 Tcase {228.46m+limit(Zthtype,0,1)*366.1m} Cth1 Tj 0 158.19u Cth2 t1 0 260.46u Cth3 t2 0 2.07m Cth4 t3 0 1.6m Cth5 t4 0 9.33m Cth6 Tcase 0 30m .ENDS ********** .SUBCKT BSC110N15NS5SC drain gate source Tj Ttop Tbottom PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Zthtype=0 Ls=250p Ld=100p Lg=2.2n .PARAM Rs=128u Rg=0.9 Rd=10u Rm=20u .PARAM Inn=38 Unn=10 Rmax=11m gmin=29 .PARAM act=9.09 Rsp=0.15 X1 d1 g s sp Tj S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} Rsb source s1 10 Rga gate g1 10 Rdb drain d2 10 Rth1 Tj t1 {3.97m+limit(Zthtype,0,1)*1.47m} Rth2 t1 t2 {38.79m+limit(Zthtype,0,1)*14.36m} Rth3 t2 t3 {136.9m+limit(Zthtype,0,1)*12.15m} Rth4 t3 t4 {78.62m+limit(Zthtype,0,1)*124.25m} Rth5 t4 Tbottom {228.46m+limit(Zthtype,0,1)*361.04m} Cth1 Tj 0 158.19u Cth2 t1 0 260.46u Cth3 t2 0 2.11m Cth4 t3 0 1.6m Cth5 t4 0 9.33m Cth6 Tbottom 0 30m Rth1t Tj tt1 {181.16m+limit(Zthtype,0,1)*136.1m} Rth2t tt1 tt2 {68.76m+limit(Zthtype,0,1)*136.1m} Rth3t tt2 Ttop {57.67m+limit(Zthtype,0,1)*140.22m} Cth1t tt1 0 1.52m Cth2t tt2 0 3.33m Cth3t Ttop 0 4.48m .ENDS ********** .SUBCKT BSC152N15LS5 drain gate source Tj Tcase PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Zthtype=0 Ls=350p Ld=100p Lg=2.2n .PARAM Rs=413u Rg=1 Rd=10u Rm=239u .PARAM Inn=29 Unn=10 Rmax=15.2m gmin=23 .PARAM act=6 Rsp=0.15 X1 d1 g s sp Tj S5_150_g_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} Rsb source s1 10 Rga gate g1 10 Rdb drain d2 10 Rth1 Tj t1 {6.01m+limit(Zthtype,0,1)*2.23m} Rth2 t1 t2 {58.05m+limit(Zthtype,0,1)*21.49m} Rth3 t2 t3 {203.27m+limit(Zthtype,0,1)*9.31m} Rth4 t3 t4 {119.11m+limit(Zthtype,0,1)*195.64m} Rth5 t4 Tcase {259.18m+limit(Zthtype,0,1)*425.72m} Cth1 Tj 0 104.42u Cth2 t1 0 174.04u Cth3 t2 0 1.39m Cth4 t3 0 1.06m Cth5 t4 0 7.01m Cth6 Tcase 0 30m .ENDS ********** .SUBCKT BSC160N15NS5SC drain gate source Tj Ttop Tbottom PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Zthtype=0 Ls=250p Ld=100p Lg=2.2n .PARAM Rs=128u Rg=1 Rd=10u Rm=20u .PARAM Inn=28 Unn=10 Rmax=16m gmin=20 .PARAM act=6 Rsp=0.15 X1 d1 g s sp Tj S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} Rsb source s1 10 Rga gate g1 10 Rdb drain d2 10 Rth1 Tj t1 {6.01m+limit(Zthtype,0,1)*2.23m} Rth2 t1 t2 {58.05m+limit(Zthtype,0,1)*21.49m} Rth3 t2 t3 {203.36m+limit(Zthtype,0,1)*18.66m} Rth4 t3 t4 {119.11m+limit(Zthtype,0,1)*192.67m} Rth5 t4 Tbottom {259.18m+limit(Zthtype,0,1)*419.24m} Cth1 Tj 0 104.42u Cth2 t1 0 174.04u Cth3 t2 0 1.43m Cth4 t3 0 1.06m Cth5 t4 0 7.01m Cth6 Tbottom 0 30m Rth1t Tj tt1 {265.96m+limit(Zthtype,0,1)*164.66m} Rth2t tt1 tt2 {99.44m+limit(Zthtype,0,1)*164.66m} Rth3t tt2 Ttop {75.62m+limit(Zthtype,0,1)*169.65m} Cth1t tt1 0 1.04m Cth2t tt2 0 2.33m Cth3t Ttop 0 3.61m .ENDS ********** .SUBCKT IPB044N15N5 drain gate source Tj Tcase PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Zthtype=0 Ls=1.9n Ld=0.1n Lg=6.5n .PARAM Rs=357u Rg=0.8 Rd=20u Rm=83u .PARAM Inn=87 Unn=10 Rmax=4.4m gmin=72 .PARAM RRf=391m Rrbond=6m Rtb=3.8 g2=656m .PARAM act=26.15 Rsp=0.15 .FUNC Pb(I,dT,Rb) {Rb/(2*Rtb)*(I-limit(dT/(max(I,1n)*Rb)+RRf*I*g2,0,I))**2} X1 d1 g s sp Tj S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} Rsb source s1 10 Rga gate g1 10 Rdb drain d2 10 G_TH 0 Tb VALUE = {Pb(abs(I(Ls)),V(Tj,Tcase),Rrbond*(1+(limit((V(Tb)+V(Tj))/2,-200,999)-25)*4m))} Cthb Tb 0 10.14m Rthb Tb Tj {Rtb} Rth1 Tj t1 {1.26m+limit(Zthtype,0,1)*459.52u} Rth2 t1 t2 {13.78m+limit(Zthtype,0,1)*5.11m} Rth3 t2 t3 {30.36m+limit(Zthtype,0,1)*7.06m} Rth4 t3 t4 {67.7m+limit(Zthtype,0,1)*54.98m} Rth5 t4 Tcase {176.19m+limit(Zthtype,0,1)*143.1m} Cth1 Tj 0 364.066u Cth2 t1 0 826.951u Cth3 t2 0 3.402m Cth4 t3 0 4.445m Cth5 t4 0 132.594m Cth6 Tcase 0 190m .ENDS ********** .SUBCKT IPB048N15N5 drain gate source Tj Tcase PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Zthtype=0 Ls=3.6n Ld=0.1n Lg=6.5n .PARAM Rs=641u Rg=1.1 Rd=50u Rm=148u .PARAM Inn=87 Unn=10 Rmax=4.8m gmin=72 .PARAM RRf=350m Rrbond=12m Rtb=5.3 g2=729m .PARAM act=26.4 Rsp=0.15 .FUNC Pb(I,dT,Rb) {Rb/(2*Rtb)*(I-limit(dT/(max(I,1n)*Rb)+RRf*I*g2,0,I))**2} X1 d1 g s sp Tj S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} Rsb source s1 10 Rga gate g1 10 Rdb drain d2 10 G_TH 0 Tb VALUE = {Pb(abs(I(Ls)),V(Tj,Tcase),Rrbond*(1+(limit((V(Tb)+V(Tj))/2,-200,999)-25)*4m))} Cthb Tb 0 8.05m Rthb Tb Tj {Rtb} Rth1 Tj t1 {1.24m+limit(Zthtype,0,1)*463.24u} Rth2 t1 t2 {13.66m+limit(Zthtype,0,1)*5.05m} Rth3 t2 t3 {30.08m+limit(Zthtype,0,1)*6.99m} Rth4 t3 t4 {67.06m+limit(Zthtype,0,1)*55.32m} Rth5 t4 Tcase {175.43m+limit(Zthtype,0,1)*144.71m} Cth1 Tj 0 367.547u Cth2 t1 0 834.731u Cth3 t2 0 3.434m Cth4 t3 0 4.488m Cth5 t4 0 133.595m Cth6 Tcase 0 190m .ENDS ********** .SUBCKT IPC331N15NM5R drain gate source Tj Tcase PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Zthtype=0 Ls=10p Ld=10p Lg=10p .PARAM Rs=150u Rg=14 Rd=50u Rm=148u .PARAM Inn=2 Unn=10 Rmax=2.9m gmin=11 .PARAM RRf=350m Rrbond=0.012 Rtb=5.3 g2=729m .PARAM act=29.03 Rsp=0.15 .FUNC Pb(I,dT,Rb) {Rb/(2*Rtb)*(I-limit(dT/(max(I,1n)*Rb)+RRf*I*g2,0,I))**2} X1 d1 g s sp Tj S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} Rsb source s1 10 Rga gate g1 10 Rdb drain d2 10 G_TH 0 Tb VALUE = {Pb(abs(I(Ls)),V(Tj,Tcase),Rrbond*(1+(limit((V(Tb)+V(Tj))/2,-200,999)-25)*4m))} Cthb Tb 0 8.05m Rthb Tb Tj {Rtb} Rth1 Tj t1 {1.24m+limit(Zthtype,0,1)*462.28u} Rth2 t1 t2 {12.44m+limit(Zthtype,0,1)*4.6m} Rth3 t2 t3 {52.13m+limit(Zthtype,0,1)*22.92m} Rth4 t3 t4 {63.55m+limit(Zthtype,0,1)*20.47m} Rth5 t4 Tcase {168.05m+limit(Zthtype,0,1)*54.14m} Cth1 Tj 0 505.2u Cth2 t1 0 812.38u Cth3 t2 0 7m Cth4 t3 0 4.93m Cth5 t4 0 144.26m Cth6 Tcase 0 190m .ENDS ********** .SUBCKT IPI051N15N5 drain gate source Tj Tcase PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Zthtype=0 Ls=1.8n Ld=2.5n Lg=4n .PARAM Rs=641u Rg=1.1 Rd=350u Rm=148u .PARAM Inn=87 Unn=10 Rmax=5.1m gmin=72 .PARAM RRf=350m Rrbond=12m Rtb=5.3 g2=729m .PARAM act=26.4 Rsp=0.15 .FUNC Pb(I,dT,Rb) {Rb/(2*Rtb)*(I-limit(dT/(max(I,1n)*Rb)+RRf*I*g2,0,I))**2} X1 d1 g s sp Tj S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} Rsb source s1 10 Rga gate g1 10 Rdb drain d2 10 G_TH 0 Tb VALUE = {Pb(abs(I(Ls)),V(Tj,Tcase),Rrbond*(1+(limit((V(Tb)+V(Tj))/2,-200,999)-25)*4m))} Cthb Tb 0 8.05m Rthb Tb Tj {Rtb} Rth1 Tj t1 {1.24m+limit(Zthtype,0,1)*463.24u} Rth2 t1 t2 {13.66m+limit(Zthtype,0,1)*5.05m} Rth3 t2 t3 {30.08m+limit(Zthtype,0,1)*6.99m} Rth4 t3 t4 {67.06m+limit(Zthtype,0,1)*55.32m} Rth5 t4 Tcase {175.43m+limit(Zthtype,0,1)*144.71m} Cth1 Tj 0 367.547u Cth2 t1 0 834.731u Cth3 t2 0 3.434m Cth4 t3 0 4.488m Cth5 t4 0 133.595m Cth6 Tcase 0 190m .ENDS ********** .SUBCKT IPP051N15N5 drain gate source Tj Tcase PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Zthtype=0 Ls=1.8n Ld=2.5n Lg=4n .PARAM Rs=641u Rg=1.1 Rd=350u Rm=148u .PARAM Inn=87 Unn=10 Rmax=5.1m gmin=72 .PARAM RRf=350m Rrbond=12m Rtb=5.3 g2=729m .PARAM act=26.4 Rsp=0.15 .FUNC Pb(I,dT,Rb) {Rb/(2*Rtb)*(I-limit(dT/(max(I,1n)*Rb)+RRf*I*g2,0,I))**2} X1 d1 g s sp Tj S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} Rsb source s1 10 Rga gate g1 10 Rdb drain d2 10 G_TH 0 Tb VALUE = {Pb(abs(I(Ls)),V(Tj,Tcase),Rrbond*(1+(limit((V(Tb)+V(Tj))/2,-200,999)-25)*4m))} Cthb Tb 0 8.05m Rthb Tb Tj {Rtb} Rth1 Tj t1 {1.24m+limit(Zthtype,0,1)*463.24u} Rth2 t1 t2 {13.66m+limit(Zthtype,0,1)*5.05m} Rth3 t2 t3 {30.08m+limit(Zthtype,0,1)*6.99m} Rth4 t3 t4 {67.06m+limit(Zthtype,0,1)*55.32m} Rth5 t4 Tcase {175.43m+limit(Zthtype,0,1)*144.71m} Cth1 Tj 0 367.547u Cth2 t1 0 834.731u Cth3 t2 0 3.434m Cth4 t3 0 4.488m Cth5 t4 0 133.595m Cth6 Tcase 0 220m .ENDS ********** .SUBCKT IPB060N15N5 drain gate source Tj Tcase PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Zthtype=0 Ls=1.9n Ld=0.1n Lg=6.5n .PARAM Rs=370u Rg=0.9 Rd=20u Rm=96u .PARAM Inn=68 Unn=10 Rmax=6m gmin=54 .PARAM RRf=391m Rrbond=6m Rtb=3.8 g2=656m .PARAM act=17.95 Rsp=0.15 .FUNC Pb(I,dT,Rb) {Rb/(2*Rtb)*(I-limit(dT/(max(I,1n)*Rb)+RRf*I*g2,0,I))**2} X1 d1 g s sp Tj S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} Rsb source s1 10 Rga gate g1 10 Rdb drain d2 10 G_TH 0 Tb VALUE = {Pb(abs(I(Ls)),V(Tj,Tcase),Rrbond*(1+(limit((V(Tb)+V(Tj))/2,-200,999)-25)*4m))} Cthb Tb 0 10.14m Rthb Tb Tj {Rtb} Rth1 Tj t1 {1.83m+limit(Zthtype,0,1)*674.89u} Rth2 t1 t2 {19.95m+limit(Zthtype,0,1)*7.38m} Rth3 t2 t3 {43.68m+limit(Zthtype,0,1)*10.33m} Rth4 t3 t4 {98.63m+limit(Zthtype,0,1)*66.69m} Rth5 t4 Tcase {209.31m+limit(Zthtype,0,1)*141.53m} Cth1 Tj 0 249.904u Cth2 t1 0 571.381u Cth3 t2 0 2.371m Cth4 t3 0 3.051m Cth5 t4 0 100.722m Cth6 Tcase 0 190m .ENDS ********** .SUBCKT IPB073N15N5 drain gate source Tj Tcase PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Zthtype=0 Ls=3.6n Ld=0.1n Lg=6.5n .PARAM Rs=587u Rg=1.1 Rd=50u Rm=118u .PARAM Inn=56 Unn=10 Rmax=7.3m gmin=45 .PARAM RRf=319m Rrbond=10m Rtb=4.8 g2=710m .PARAM act=15.96 Rsp=0.15 .FUNC Pb(I,dT,Rb) {Rb/(2*Rtb)*(I-limit(dT/(max(I,1n)*Rb)+RRf*I*g2,0,I))**2} X1 d1 g s sp Tj S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} Rsb source s1 10 Rga gate g1 10 Rdb drain d2 10 G_TH 0 Tb VALUE = {Pb(abs(I(Ls)),V(Tj,Tcase),Rrbond*(1+(limit((V(Tb)+V(Tj))/2,-200,999)-25)*4m))} Cthb Tb 0 7.32m Rthb Tb Tj {Rtb} Rth1 Tj t1 {2.06m+limit(Zthtype,0,1)*757.79u} Rth2 t1 t2 {22.39m+limit(Zthtype,0,1)*8.28m} Rth3 t2 t3 {48.91m+limit(Zthtype,0,1)*11.64m} Rth4 t3 t4 {110.93m+limit(Zthtype,0,1)*91.57m} Rth5 t4 Tcase {221.02m+limit(Zthtype,0,1)*182.44m} Cth1 Tj 0 222.199u Cth2 t1 0 509.212u Cth3 t2 0 2.119m Cth4 t3 0 2.713m Cth5 t4 0 93.159m Cth6 Tcase 0 190m .ENDS ********** .SUBCKT IPI076N15N5 drain gate source Tj Tcase PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Zthtype=0 Ls=1.8n Ld=2.5n Lg=4n .PARAM Rs=587u Rg=1.1 Rd=350u Rm=118u .PARAM Inn=56 Unn=10 Rmax=7.6m gmin=45 .PARAM RRf=319m Rrbond=10m Rtb=4.8 g2=710m .PARAM act=15.96 Rsp=0.15 .FUNC Pb(I,dT,Rb) {Rb/(2*Rtb)*(I-limit(dT/(max(I,1n)*Rb)+RRf*I*g2,0,I))**2} X1 d1 g s sp Tj S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} Rsb source s1 10 Rga gate g1 10 Rdb drain d2 10 G_TH 0 Tb VALUE = {Pb(abs(I(Ls)),V(Tj,Tcase),Rrbond*(1+(limit((V(Tb)+V(Tj))/2,-200,999)-25)*4m))} Cthb Tb 0 7.32m Rthb Tb Tj {Rtb} Rth1 Tj t1 {2.06m+limit(Zthtype,0,1)*757.79u} Rth2 t1 t2 {22.39m+limit(Zthtype,0,1)*8.28m} Rth3 t2 t3 {48.91m+limit(Zthtype,0,1)*11.64m} Rth4 t3 t4 {110.93m+limit(Zthtype,0,1)*91.57m} Rth5 t4 Tcase {221.02m+limit(Zthtype,0,1)*182.44m} Cth1 Tj 0 222.199u Cth2 t1 0 509.212u Cth3 t2 0 2.119m Cth4 t3 0 2.713m Cth5 t4 0 93.159m Cth6 Tcase 0 190m .ENDS ********** .SUBCKT IPP076N15N5 drain gate source Tj Tcase PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Zthtype=0 Ls=1.8n Ld=2.5n Lg=4n .PARAM Rs=587u Rg=1.1 Rd=350u Rm=118u .PARAM Inn=56 Unn=10 Rmax=7.6m gmin=45 .PARAM RRf=319m Rrbond=10m Rtb=4.8 g2=710m .PARAM act=15.96 Rsp=0.15 .FUNC Pb(I,dT,Rb) {Rb/(2*Rtb)*(I-limit(dT/(max(I,1n)*Rb)+RRf*I*g2,0,I))**2} X1 d1 g s sp Tj S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} Rsb source s1 10 Rga gate g1 10 Rdb drain d2 10 G_TH 0 Tb VALUE = {Pb(abs(I(Ls)),V(Tj,Tcase),Rrbond*(1+(limit((V(Tb)+V(Tj))/2,-200,999)-25)*4m))} Cthb Tb 0 7.32m Rthb Tb Tj {Rtb} Rth1 Tj t1 {2.06m+limit(Zthtype,0,1)*757.79u} Rth2 t1 t2 {22.39m+limit(Zthtype,0,1)*8.28m} Rth3 t2 t3 {48.91m+limit(Zthtype,0,1)*11.64m} Rth4 t3 t4 {110.93m+limit(Zthtype,0,1)*91.57m} Rth5 t4 Tcase {221.02m+limit(Zthtype,0,1)*182.44m} Cth1 Tj 0 222.199u Cth2 t1 0 509.212u Cth3 t2 0 2.119m Cth4 t3 0 2.713m Cth5 t4 0 93.159m Cth6 Tcase 0 220m .ENDS ********** .SUBCKT IPT039N15N5 drain gate source Tj Tcase PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Zthtype=0 Ls=0.5n Ld=0.1n Lg=2.7n .PARAM Rs=203u Rg=0.9 Rd=20u Rm=65u .PARAM Inn=50 Unn=10 Rmax=3.9m gmin=56 .PARAM RRf=500m Rrbond=0.003 Rtb=2.6 g2=999m .PARAM act=25.67 Rsp=0.15 .FUNC Pb(I,dT,Rb) {Rb/(2*Rtb)*(I-limit(dT/(max(I,1n)*Rb)+RRf*I*g2,0,I))**2} X1 d1 g s sp Tj S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} Rsb source s1 10 Rga gate g1 10 Rdb drain d2 10 G_TH 0 Tb VALUE = {Pb(abs(I(Ls)),V(Tj,Tcase),Rrbond*(1+(limit((V(Tb)+V(Tj))/2,-200,999)-25)*4m))} Cthb Tb 0 10.974m Rthb Tb Tj {Rtb} Rth1 Tj t1 {1.41m+limit(Zthtype,0,1)*515.09u} Rth2 t1 t2 {14.04m+limit(Zthtype,0,1)*5.19m} Rth3 t2 t3 {51.04m+limit(Zthtype,0,1)*7.15m} Rth4 t3 t4 {55.68m+limit(Zthtype,0,1)*59.74m} Rth5 t4 Tcase {132.77m+limit(Zthtype,0,1)*142.46m} Cth1 Tj 0 446.73u Cth2 t1 0 719.73u Cth3 t2 0 5.85m Cth4 t3 0 4.52m Cth5 t4 0 80m Cth6 Tcase 0 30m .ENDS ********** .SUBCKT IPT044N15N5 drain gate source Tj Tcase PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Zthtype=0 Ls=0.7n Ld=0.1n Lg=2.7n .PARAM Rs=251u Rg=0.9 Rd=20u Rm=79u .PARAM Inn=87 Unn=10 Rmax=4.4m gmin=67 .PARAM RRf=500m Rrbond=0.004 Rtb=3.3 g2=999m .PARAM act=22.08 Rsp=0.15 .FUNC Pb(I,dT,Rb) {Rb/(2*Rtb)*(I-limit(dT/(max(I,1n)*Rb)+RRf*I*g2,0,I))**2} X1 d1 g s sp Tj S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} Rsb source s1 10 Rga gate g1 10 Rdb drain d2 10 G_TH 0 Tb VALUE = {Pb(abs(I(Ls)),V(Tj,Tcase),Rrbond*(1+(limit((V(Tb)+V(Tj))/2,-200,999)-25)*4m))} Cthb Tb 0 8.779m Rthb Tb Tj {Rtb} Rth1 Tj t1 {1.63m+limit(Zthtype,0,1)*608.1u} Rth2 t1 t2 {16.28m+limit(Zthtype,0,1)*6.03m} Rth3 t2 t3 {59.03m+limit(Zthtype,0,1)*8.33m} Rth4 t3 t4 {64.73m+limit(Zthtype,0,1)*58.42m} Rth5 t4 Tcase {149.77m+limit(Zthtype,0,1)*135.18m} Cth1 Tj 0 384.25u Cth2 t1 0 620.63u Cth3 t2 0 5.06m Cth4 t3 0 3.89m Cth5 t4 0 104.77m Cth6 Tcase 0 30m .ENDS ********** .SUBCKT IPT054N15N5 drain gate source Tj Tcase PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Zthtype=0 Ls=0.7n Ld=0.1n Lg=2.7n .PARAM Rs=257u Rg=0.9 Rd=20u Rm=85u .PARAM Inn=71 Unn=10 Rmax=5.4m gmin=55 .PARAM RRf=500m Rrbond=0.004 Rtb=3.3 g2=999m .PARAM act=18.12 Rsp=0.15 .FUNC Pb(I,dT,Rb) {Rb/(2*Rtb)*(I-limit(dT/(max(I,1n)*Rb)+RRf*I*g2,0,I))**2} X1 d1 g s sp Tj S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} Rsb source s1 10 Rga gate g1 10 Rdb drain d2 10 G_TH 0 Tb VALUE = {Pb(abs(I(Ls)),V(Tj,Tcase),Rrbond*(1+(limit((V(Tb)+V(Tj))/2,-200,999)-25)*4m))} Cthb Tb 0 8.779m Rthb Tb Tj {Rtb} Rth1 Tj t1 {1.99m+limit(Zthtype,0,1)*737.22u} Rth2 t1 t2 {19.77m+limit(Zthtype,0,1)*7.31m} Rth3 t2 t3 {71.41m+limit(Zthtype,0,1)*10.16m} Rth4 t3 t4 {78.88m+limit(Zthtype,0,1)*73.86m} Rth5 t4 Tcase {173.46m+limit(Zthtype,0,1)*162.42m} Cth1 Tj 0 315.34u Cth2 t1 0 511.15u Cth3 t2 0 4.19m Cth4 t3 0 3.19m Cth5 t4 0 74.96m Cth6 Tcase 0 30m .ENDS ********** .SUBCKT IPT063N15N5 drain gate source Tj Tcase PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Zthtype=0 Ls=0.7n Ld=0.1n Lg=2.7n .PARAM Rs=233u Rg=0.9 Rd=20u Rm=61u .PARAM Inn=61 Unn=10 Rmax=6.3m gmin=47 .PARAM RRf=500m Rrbond=0.004 Rtb=3.3 g2=999m .PARAM act=15.31 Rsp=0.15 .FUNC Pb(I,dT,Rb) {Rb/(2*Rtb)*(I-limit(dT/(max(I,1n)*Rb)+RRf*I*g2,0,I))**2} X1 d1 g s sp Tj S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} Rsb source s1 10 Rga gate g1 10 Rdb drain d2 10 G_TH 0 Tb VALUE = {Pb(abs(I(Ls)),V(Tj,Tcase),Rrbond*(1+(limit((V(Tb)+V(Tj))/2,-200,999)-25)*4m))} Cthb Tb 0 8.779m Rthb Tb Tj {Rtb} Rth1 Tj t1 {2.36m+limit(Zthtype,0,1)*867.77u} Rth2 t1 t2 {23.32m+limit(Zthtype,0,1)*8.63m} Rth3 t2 t3 {83.93m+limit(Zthtype,0,1)*12.07m} Rth4 t3 t4 {93.36m+limit(Zthtype,0,1)*90.87m} Rth5 t4 Tcase {194.9m+limit(Zthtype,0,1)*189.7m} Cth1 Tj 0 266.44u Cth2 t1 0 433.33u Cth3 t2 0 3.56m Cth4 t3 0 2.7m Cth5 t4 0 60.03m Cth6 Tcase 0 30m .ENDS ********** .SUBCKT BSC074N15NS5 drain gate source Tj Tcase PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Zthtype=0 Ls=250p Ld=100p Lg=2.2n .PARAM Rs=160u Rg=1 Rd=20u Rm=36u .PARAM Inn=50 Unn=10 Rmax=7.4m gmin=41 .PARAM act=13.53 Rsp=0.15 X1 d1 g s sp Tj S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} Rsb source s1 10 Rga gate g1 10 Rdb drain d2 10 Rth1 Tj t1 {2.67m+limit(Zthtype,0,1)*982.41u} Rth2 t1 t2 {26.32m+limit(Zthtype,0,1)*9.73m} Rth3 t2 t3 {93.42m+limit(Zthtype,0,1)*8.07m} Rth4 t3 t4 {105.64m+limit(Zthtype,0,1)*80.59m} Rth5 t4 Tcase {211.35m+limit(Zthtype,0,1)*161.23m} Cth1 Tj 0 235.46u Cth2 t1 0 383.96u Cth3 t2 0 3.09m Cth4 t3 0 2.38m Cth5 t4 0 52.31m Cth6 Tcase 0 30m .ENDS ********** .SUBCKT BSC093N15NS5 drain gate source Tj Tcase PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Zthtype=0 Ls=350p Ld=100p Lg=2.2n .PARAM Rs=410u Rg=0.9 Rd=20u Rm=239u .PARAM Inn=44 Unn=10 Rmax=9.3m gmin=34 .PARAM act=10.66 Rsp=0.15 X1 d1 g s sp Tj S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} Rsb source s1 10 Rga gate g1 10 Rdb drain d2 10 Rth1 Tj t1 {3.08m+limit(Zthtype,0,1)*1.14m} Rth2 t1 t2 {33.22m+limit(Zthtype,0,1)*12.29m} Rth3 t2 t3 {41.97m+limit(Zthtype,0,1)*5.15m} Rth4 t3 t4 {134.09m+limit(Zthtype,0,1)*150.19m} Rth5 t4 Tcase {244.74m+limit(Zthtype,0,1)*274.13m} Cth1 Tj 0 148.411u Cth2 t1 0 343.201u Cth3 t2 0 827.406u Cth4 t3 0 1.878m Cth5 t4 0 41.902m Cth6 Tcase 0 30m .ENDS ********** .SUBCKT BSC110N15NS5 drain gate source Tj Tcase PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Zthtype=0 Ls=350p Ld=100p Lg=2.2n .PARAM Rs=410u Rg=0.9 Rd=20u Rm=239u .PARAM Inn=38 Unn=10 Rmax=11m gmin=29 .PARAM act=9.09 Rsp=0.15 X1 d1 g s sp Tj S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} Rsb source s1 10 Rga gate g1 10 Rdb drain d2 10 Rth1 Tj t1 {3.61m+limit(Zthtype,0,1)*1.34m} Rth2 t1 t2 {38.79m+limit(Zthtype,0,1)*14.36m} Rth3 t2 t3 {49m+limit(Zthtype,0,1)*6.1m} Rth4 t3 t4 {157.24m+limit(Zthtype,0,1)*170.52m} Rth5 t4 Tcase {268.19m+limit(Zthtype,0,1)*290.85m} Cth1 Tj 0 126.553u Cth2 t1 0 293.853u Cth3 t2 0 709.506u Cth4 t3 0 1.602m Cth5 t4 0 37.071m Cth6 Tcase 0 30m .ENDS ********** .SUBCKT BSC160N15NS5 drain gate source Tj Tcase PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Zthtype=0 Ls=350p Ld=100p Lg=2.2n .PARAM Rs=410u Rg=1 Rd=20u Rm=239u .PARAM Inn=28 Unn=10 Rmax=16m gmin=20 .PARAM act=6 Rsp=0.15 X1 d1 g s sp Tj S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} Rsb source s1 10 Rga gate g1 10 Rdb drain d2 10 Rth1 Tj t1 {5.47m+limit(Zthtype,0,1)*2.02m} Rth2 t1 t2 {58.05m+limit(Zthtype,0,1)*21.49m} Rth3 t2 t3 {73.23m+limit(Zthtype,0,1)*9.51m} Rth4 t3 t4 {238.22m+limit(Zthtype,0,1)*233.28m} Rth5 t4 Tcase {332.82m+limit(Zthtype,0,1)*325.91m} Cth1 Tj 0 83.533u Cth2 t1 0 196.358u Cth3 t2 0 476.245u Cth4 t3 0 1.057m Cth5 t4 0 29.13m Cth6 Tcase 0 30m .ENDS ********** .SUBCKT BSZ300N15NS5 drain gate source Tj Tcase PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Zthtype=0 Ls=250p Ld=100p Lg=1.2n .PARAM Rs=598u Rg=0.8 Rd=20u Rm=210u .PARAM Inn=16 Unn=10 Rmax=30m gmin=11 .PARAM RRf=498m Rrbond=20m Rtb=6.9 g2=961m .PARAM act=3.21 Rsp=0.15 .FUNC Pb(I,dT,Rb) {Rb/(2*Rtb)*(I-limit(dT/(max(I,1n)*Rb)+RRf*I*g2,0,I))**2} X1 d1 g s sp Tj S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} Rsb source s1 10 Rga gate g1 10 Rdb drain d2 10 G_TH 0 Tb VALUE = {Pb(abs(I(Ls)),V(Tj,Tcase),Rrbond*(1+(limit((V(Tb)+V(Tj))/2,-200,999)-25)*4m))} Cthb Tb 0 1.84m Rthb Tb Tj {Rtb} Rth1 Tj t1 {10.22m+limit(Zthtype,0,1)*3.79m} Rth2 t1 t2 {105.96m+limit(Zthtype,0,1)*39.21m} Rth3 t2 t3 {133.36m+limit(Zthtype,0,1)*18.72m} Rth4 t3 t4 {445.28m+limit(Zthtype,0,1)*410.96m} Rth5 t4 Tcase {432.93m+limit(Zthtype,0,1)*399.57m} Cth1 Tj 0 44.69u Cth2 t1 0 107.583u Cth3 t2 0 263.193u Cth4 t3 0 565.663u Cth5 t4 0 25.041m Cth6 Tcase 0 10m .ENDS ********** .SUBCKT IPTC039N15NM5 drain gate source Tj Tcase PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Zthtype=0 Ls=0.9n Ld=0.6n Lg=4.4n .PARAM Rs=220u Rg=0.9 Rd=30u Rm=64u .PARAM Inn=50 Unn=10 Rmax=3.9m gmin=54 .PARAM RRf=500m Rrbond=0.003 Rtb=2.6 g2=999m .PARAM act=24.337 Rsp=0.15 .FUNC Pb(I,dT,Rb) {Rb/(2*Rtb)*(I-limit(dT/(max(I,1n)*Rb)+RRf*I*g2,0,I))**2} X1 d1 g s sp Tj S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} Rsb source s1 10 Rga gate g1 10 Rdb drain d2 10 G_TH 0 Tb VALUE = {Pb(abs(I(Ls)),V(Tj,Tcase),Rrbond*(1+(limit((V(Tb)+V(Tj))/2,-200,999)-25)*4m))} Cthb Tb 0 10.974m Rthb Tb Tj {Rtb} Rth1 Tj t1 {1.48m+limit(Zthtype,0,1)*550.54u} Rth2 t1 t2 {14.79m+limit(Zthtype,0,1)*5.48m} Rth3 t2 t3 {53.74m+limit(Zthtype,0,1)*7.54m} Rth4 t3 t4 {58.73m+limit(Zthtype,0,1)*56.22m} Rth5 t4 Tcase {138.69m+limit(Zthtype,0,1)*132.77m} Cth1 Tj 0 423.53u Cth2 t1 0 682.95u Cth3 t2 0 5.56m Cth4 t3 0 4.29m Cth5 t4 0 80m Cth6 Tcase 0 30m .ENDS ********** .SUBCKT IPTC044N15NM5 drain gate source Tj Tcase PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Zthtype=0 Ls=1n Ld=0.6n Lg=4.4n .PARAM Rs=272u Rg=0.9 Rd=30u Rm=82u .PARAM Inn=50 Unn=10 Rmax=4.4m gmin=53 .PARAM RRf=500m Rrbond=0.004 Rtb=3.3 g2=999m .PARAM act=23.52 Rsp=0.15 .FUNC Pb(I,dT,Rb) {Rb/(2*Rtb)*(I-limit(dT/(max(I,1n)*Rb)+RRf*I*g2,0,I))**2} X1 d1 g s sp Tj S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} Rsb source s1 10 Rga gate g1 10 Rdb drain d2 10 G_TH 0 Tb VALUE = {Pb(abs(I(Ls)),V(Tj,Tcase),Rrbond*(1+(limit((V(Tb)+V(Tj))/2,-200,999)-25)*4m))} Cthb Tb 0 8.779m Rthb Tb Tj {Rtb} Rth1 Tj t1 {1.53m+limit(Zthtype,0,1)*571.07u} Rth2 t1 t2 {15.3m+limit(Zthtype,0,1)*5.66m} Rth3 t2 t3 {55.54m+limit(Zthtype,0,1)*7.81m} Rth4 t3 t4 {60.77m+limit(Zthtype,0,1)*62.86m} Rth5 t4 Tcase {142.53m+limit(Zthtype,0,1)*147.43m} Cth1 Tj 0 409.31u Cth2 t1 0 660.39u Cth3 t2 0 5.38m Cth4 t3 0 4.14m Cth5 t4 0 80m Cth6 Tcase 0 30m .ENDS ********** .SUBCKT IPTC054N15NM5 drain gate source Tj Tcase PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Zthtype=0 Ls=1n Ld=0.6n Lg=4.4n .PARAM Rs=270u Rg=0.9 Rd=30u Rm=80u .PARAM Inn=50 Unn=10 Rmax=5.4m gmin=48 .PARAM RRf=500m Rrbond=0.004 Rtb=3.3 g2=999m .PARAM act=19.08 Rsp=0.15 .FUNC Pb(I,dT,Rb) {Rb/(2*Rtb)*(I-limit(dT/(max(I,1n)*Rb)+RRf*I*g2,0,I))**2} X1 d1 g s sp Tj S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} Rsb source s1 10 Rga gate g1 10 Rdb drain d2 10 G_TH 0 Tb VALUE = {Pb(abs(I(Ls)),V(Tj,Tcase),Rrbond*(1+(limit((V(Tb)+V(Tj))/2,-200,999)-25)*4m))} Cthb Tb 0 8.779m Rthb Tb Tj {Rtb} Rth1 Tj t1 {1.89m+limit(Zthtype,0,1)*700u} Rth2 t1 t2 {18.79m+limit(Zthtype,0,1)*6.95m} Rth3 t2 t3 {67.95m+limit(Zthtype,0,1)*9.65m} Rth4 t3 t4 {74.91m+limit(Zthtype,0,1)*78.01m} Rth5 t4 Tcase {167.12m+limit(Zthtype,0,1)*174.03m} Cth1 Tj 0 332.04u Cth2 t1 0 537.71u Cth3 t2 0 4.4m Cth4 t3 0 3.36m Cth5 t4 0 80m Cth6 Tcase 0 30m .ENDS ********** .SUBCKT IPTC063N15NM5 drain gate source Tj Tcase PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Zthtype=0 Ls=1n Ld=0.6n Lg=4.4n .PARAM Rs=255u Rg=0.9 Rd=30u Rm=65u .PARAM Inn=50 Unn=10 Rmax=6.3m gmin=44 .PARAM RRf=500m Rrbond=0.004 Rtb=3.3 g2=999m .PARAM act=16.3 Rsp=0.15 .FUNC Pb(I,dT,Rb) {Rb/(2*Rtb)*(I-limit(dT/(max(I,1n)*Rb)+RRf*I*g2,0,I))**2} X1 d1 g s sp Tj S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} Rsb source s1 10 Rga gate g1 10 Rdb drain d2 10 G_TH 0 Tb VALUE = {Pb(abs(I(Ls)),V(Tj,Tcase),Rrbond*(1+(limit((V(Tb)+V(Tj))/2,-200,999)-25)*4m))} Cthb Tb 0 8.779m Rthb Tb Tj {Rtb} Rth1 Tj t1 {2.21m+limit(Zthtype,0,1)*821.73u} Rth2 t1 t2 {21.93m+limit(Zthtype,0,1)*8.11m} Rth3 t2 t3 {79.04m+limit(Zthtype,0,1)*11.32m} Rth4 t3 t4 {87.69m+limit(Zthtype,0,1)*96.51m} Rth5 t4 Tcase {186.79m+limit(Zthtype,0,1)*205.57m} Cth1 Tj 0 283.67u Cth2 t1 0 460.76u Cth3 t2 0 3.78m Cth4 t3 0 2.87m Cth5 t4 0 64.86m Cth6 Tcase 0 30m .ENDS ********** .SUBCKT IPTG039N15NM5 drain gate source Tj Tcase PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Zthtype=0 Ls=1.1n Ld=0.1n Lg=4.6n .PARAM Rs=220u Rg=0.9 Rd=20u Rm=64u .PARAM Inn=50 Unn=10 Rmax=3.9m gmin=54 .PARAM RRf=500m Rrbond=0.003 Rtb=2.6 g2=999m .PARAM act=24.34 Rsp=0.15 .FUNC Pb(I,dT,Rb) {Rb/(2*Rtb)*(I-limit(dT/(max(I,1n)*Rb)+RRf*I*g2,0,I))**2} X1 d1 g s sp Tj S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} Rsb source s1 10 Rga gate g1 10 Rdb drain d2 10 G_TH 0 Tb VALUE = {Pb(abs(I(Ls)),V(Tj,Tcase),Rrbond*(1+(limit((V(Tb)+V(Tj))/2,-200,999)-25)*4m))} Cthb Tb 0 10.974m Rthb Tb Tj {Rtb} Rth1 Tj t1 {1.48m+limit(Zthtype,0,1)*550.29u} Rth2 t1 t2 {14.79m+limit(Zthtype,0,1)*5.48m} Rth3 t2 t3 {53.73m+limit(Zthtype,0,1)*7.54m} Rth4 t3 t4 {58.72m+limit(Zthtype,0,1)*56.24m} Rth5 t4 Tcase {138.67m+limit(Zthtype,0,1)*132.8m} Cth1 Tj 0 423.58u Cth2 t1 0 683.03u Cth3 t2 0 5.56m Cth4 t3 0 4.29m Cth5 t4 0 80m Cth6 Tcase 0 30m .ENDS ********** .SUBCKT IPTG044N15NM5 drain gate source Tj Tcase PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Zthtype=0 Ls=1.3n Ld=0.1n Lg=4.6n .PARAM Rs=272u Rg=0.9 Rd=20u Rm=82u .PARAM Inn=50 Unn=10 Rmax=4.4m gmin=53 .PARAM RRf=500m Rrbond=0.004 Rtb=3.3 g2=999m .PARAM act=23.52 Rsp=0.15 .FUNC Pb(I,dT,Rb) {Rb/(2*Rtb)*(I-limit(dT/(max(I,1n)*Rb)+RRf*I*g2,0,I))**2} X1 d1 g s sp Tj S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} Rsb source s1 10 Rga gate g1 10 Rdb drain d2 10 G_TH 0 Tb VALUE = {Pb(abs(I(Ls)),V(Tj,Tcase),Rrbond*(1+(limit((V(Tb)+V(Tj))/2,-200,999)-25)*4m))} Cthb Tb 0 8.779m Rthb Tb Tj {Rtb} Rth1 Tj t1 {1.53m+limit(Zthtype,0,1)*571.07u} Rth2 t1 t2 {15.3m+limit(Zthtype,0,1)*5.66m} Rth3 t2 t3 {55.54m+limit(Zthtype,0,1)*7.81m} Rth4 t3 t4 {60.77m+limit(Zthtype,0,1)*62.86m} Rth5 t4 Tcase {142.53m+limit(Zthtype,0,1)*147.43m} Cth1 Tj 0 409.31u Cth2 t1 0 660.39u Cth3 t2 0 5.38m Cth4 t3 0 4.14m Cth5 t4 0 80m Cth6 Tcase 0 30m .ENDS ********** .SUBCKT IPTG054N15NM5 drain gate source Tj Tcase PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Zthtype=0 Ls=1.3n Ld=0.1n Lg=4.6n .PARAM Rs=270u Rg=0.9 Rd=20u Rm=80u .PARAM Inn=50 Unn=10 Rmax=5.4m gmin=48 .PARAM RRf=500m Rrbond=0.004 Rtb=3.3 g2=999m .PARAM act=19.08 Rsp=0.15 .FUNC Pb(I,dT,Rb) {Rb/(2*Rtb)*(I-limit(dT/(max(I,1n)*Rb)+RRf*I*g2,0,I))**2} X1 d1 g s sp Tj S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} Rsb source s1 10 Rga gate g1 10 Rdb drain d2 10 G_TH 0 Tb VALUE = {Pb(abs(I(Ls)),V(Tj,Tcase),Rrbond*(1+(limit((V(Tb)+V(Tj))/2,-200,999)-25)*4m))} Cthb Tb 0 8.779m Rthb Tb Tj {Rtb} Rth1 Tj t1 {1.89m+limit(Zthtype,0,1)*700u} Rth2 t1 t2 {18.79m+limit(Zthtype,0,1)*6.95m} Rth3 t2 t3 {67.95m+limit(Zthtype,0,1)*9.65m} Rth4 t3 t4 {74.91m+limit(Zthtype,0,1)*78.01m} Rth5 t4 Tcase {167.12m+limit(Zthtype,0,1)*174.03m} Cth1 Tj 0 332.04u Cth2 t1 0 537.71u Cth3 t2 0 4.4m Cth4 t3 0 3.36m Cth5 t4 0 80m Cth6 Tcase 0 30m .ENDS ********** .SUBCKT IPTG063N15NM5 drain gate source Tj Tcase PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Zthtype=0 Ls=1.3n Ld=0.1n Lg=4.6n .PARAM Rs=255u Rg=0.9 Rd=20u Rm=65u .PARAM Inn=50 Unn=10 Rmax=6.3m gmin=44 .PARAM RRf=500m Rrbond=0.004 Rtb=3.3 g2=999m .PARAM act=16.3 Rsp=0.15 .FUNC Pb(I,dT,Rb) {Rb/(2*Rtb)*(I-limit(dT/(max(I,1n)*Rb)+RRf*I*g2,0,I))**2} X1 d1 g s sp Tj S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} Rsb source s1 10 Rga gate g1 10 Rdb drain d2 10 G_TH 0 Tb VALUE = {Pb(abs(I(Ls)),V(Tj,Tcase),Rrbond*(1+(limit((V(Tb)+V(Tj))/2,-200,999)-25)*4m))} Cthb Tb 0 8.779m Rthb Tb Tj {Rtb} Rth1 Tj t1 {2.21m+limit(Zthtype,0,1)*821.73u} Rth2 t1 t2 {21.93m+limit(Zthtype,0,1)*8.11m} Rth3 t2 t3 {79.04m+limit(Zthtype,0,1)*11.32m} Rth4 t3 t4 {87.69m+limit(Zthtype,0,1)*96.51m} Rth5 t4 Tcase {186.79m+limit(Zthtype,0,1)*205.57m} Cth1 Tj 0 283.67u Cth2 t1 0 460.76u Cth3 t2 0 3.78m Cth4 t3 0 2.87m Cth5 t4 0 64.86m Cth6 Tcase 0 30m .ENDS ********** .SUBCKT IQD063N15NM5 drain gate source Tj Tcase PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Zthtype=0 Ls=100p Ld=300p Lg=1n .PARAM Rs=11u Rg=0.89 Rd=75u Rm=10u .PARAM Inn=50 Unn=10 Rmax=6.32m gmin=45 .PARAM act=15.93 Rsp=0.029 X1 d1 g s sp Tj S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} Rsb source s1 10 Rga gate g1 10 Rdb drain d2 10 Rth1 Tj t1 {2.26m+limit(Zthtype,0,1)*842.14u} Rth2 t1 t2 {22.43m+limit(Zthtype,0,1)*8.3m} Rth3 t2 t3 {79.79m+limit(Zthtype,0,1)*6.82m} Rth4 t3 t4 {44.86m+limit(Zthtype,0,1)*16.65m} Rth5 t4 Tcase {195.48m+limit(Zthtype,0,1)*72.57m} Cth1 Tj 0 277.23u Cth2 t1 0 450.51u Cth3 t2 0 3.62m Cth4 t3 0 2.81m Cth5 t4 0 15.97m Cth6 Tcase 0 10m .ENDS ********** .SUBCKT IQE220N15NM5 drain gate source Tj Tcase PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Zthtype=0 Ls=100p Ld=0.25n Lg=1n .PARAM Rs=11u Rg=0.8 Rd=80u Rm=10u .PARAM Inn=26 Unn=10 Rmax=22m gmin=16.31 .PARAM act=4.63 Rsp=0.66 X1 d1 g s sp Tj S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} Rsb source s1 10 Rga gate g1 10 Rdb drain d2 10 Rth1 Tj t1 {7.78m+limit(Zthtype,0,1)*2.88m} Rth2 t1 t2 {74.5m+limit(Zthtype,0,1)*27.57m} Rth3 t2 t3 {260.2m+limit(Zthtype,0,1)*12.3m} Rth4 t3 t4 {154.22m+limit(Zthtype,0,1)*240.33m} Rth5 t4 Tcase {281.51m+limit(Zthtype,0,1)*438.7m} Cth1 Tj 0 80.64u Cth2 t1 0 135.63u Cth3 t2 0 1.09m Cth4 t3 0 816.6u Cth5 t4 0 6.07m Cth6 Tcase 0 10m .ENDS ********** .SUBCKT IQE220N15NM5CG drain gate source Tj Tcase PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Zthtype=0 Ls=100p Ld=0.25n Lg=1n .PARAM Rs=11u Rg=0.8 Rd=80u Rm=10u .PARAM Inn=26 Unn=10 Rmax=22m gmin=16.31 .PARAM act=4.63 Rsp=0.66 X1 d1 g s sp Tj S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} Rsb source s1 10 Rga gate g1 10 Rdb drain d2 10 Rth1 Tj t1 {7.67m+limit(Zthtype,0,1)*2.84m} Rth2 t1 t2 {73.49m+limit(Zthtype,0,1)*27.2m} Rth3 t2 t3 {256.72m+limit(Zthtype,0,1)*12.11m} Rth4 t3 t4 {152.06m+limit(Zthtype,0,1)*241.9m} Rth5 t4 Tcase {280.22m+limit(Zthtype,0,1)*445.78m} Cth1 Tj 0 81.79u Cth2 t1 0 137.49u Cth3 t2 0 1.1m Cth4 t3 0 828.23u Cth5 t4 0 6.12m Cth6 Tcase 0 10m .ENDS ********** .SUBCKT IQE220N15NM5CGSC drain gate source Tj Ttop Tbottom PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Zthtype=0 Ls=100p Ld=0.25n Lg=1n .PARAM Rs=11u Rg=0.8 Rd=80u Rm=10u .PARAM Inn=26 Unn=10 Rmax=22m gmin=16.31 .PARAM act=4.63 Rsp=0.66 X1 d1 g s sp Tj S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} Rsb source s1 10 Rga gate g1 10 Rdb drain d2 10 Rth1 Tj t1 {7.67m+limit(Zthtype,0,1)*2.84m} Rth2 t1 t2 {73.49m+limit(Zthtype,0,1)*27.2m} Rth3 t2 t3 {256.72m+limit(Zthtype,0,1)*12.11m} Rth4 t3 t4 {152.06m+limit(Zthtype,0,1)*241.9m} Rth5 t4 Tbottom {280.22m+limit(Zthtype,0,1)*445.78m} Cth1 Tj 0 81.79u Cth2 t1 0 137.49u Cth3 t2 0 1.1m Cth4 t3 0 828.23u Cth5 t4 0 6.12m Cth6 Tbottom 0 10m Rth1t Tj tt1 {406.25m+limit(Zthtype,0,1)*222.2m} Rth2t tt1 tt2 {150.94m+limit(Zthtype,0,1)*222.2m} Rth3t tt2 Ttop {169.48m+limit(Zthtype,0,1)*228.93m} Cth1t tt1 0 176.8u Cth2t tt2 0 603.63u Cth3t Ttop 0 1.67m .ENDS ********** .SUBCKT IQE220N15NM5SC drain gate source Tj Ttop Tbottom PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Zthtype=0 Ls=100p Ld=0.25n Lg=1n .PARAM Rs=11u Rg=0.8 Rd=80u Rm=10u .PARAM Inn=26 Unn=10 Rmax=22m gmin=16.31 .PARAM act=4.63 Rsp=0.66 X1 d1 g s sp Tj S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} Rsb source s1 10 Rga gate g1 10 Rdb drain d2 10 Rth1 Tj t1 {7.67m+limit(Zthtype,0,1)*2.84m} Rth2 t1 t2 {73.49m+limit(Zthtype,0,1)*27.2m} Rth3 t2 t3 {256.72m+limit(Zthtype,0,1)*12.11m} Rth4 t3 t4 {152.06m+limit(Zthtype,0,1)*241.9m} Rth5 t4 Tbottom {280.22m+limit(Zthtype,0,1)*445.78m} Cth1 Tj 0 81.79u Cth2 t1 0 137.49u Cth3 t2 0 1.1m Cth4 t3 0 828.23u Cth5 t4 0 6.12m Cth6 Tbottom 0 10m Rth1t Tj tt1 {406.25m+limit(Zthtype,0,1)*222.2m} Rth2t tt1 tt2 {150.94m+limit(Zthtype,0,1)*222.2m} Rth3t tt2 Ttop {169.48m+limit(Zthtype,0,1)*228.93m} Cth1t tt1 0 176.8u Cth2t tt2 0 603.63u Cth3t Ttop 0 1.67m .ENDS ********** .SUBCKT BSC088N15LS5_L1 drain gate source PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Ls=350p Ld=100p Lg=2.2n .PARAM Rs=413u Rg=1.1 Rd=10u Rm=239u .PARAM Inn=46 Unn=10 Rmax=8.8m gmin=38 .PARAM act=10.66 Rsp=0.15 X1 d1 g s sp Tj1 S5_150_g_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} E1 Tj w VALUE={TEMP} Vp Tj1 Tj 0 R1 Tj Tj1 1u G_power 0 Tj VALUE={V(s1,s)*V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)+V(g,g1)*V(g,g1)/Rg+V(d1,d2)*V(d1,d2)/Rd+I(Vp)} R2 w 0 1u .ENDS ********** .SUBCKT BSC093N15NS5SC_L1 drain gate source PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Ls=250p Ld=100p Lg=2.2n .PARAM Rs=128u Rg=1.1 Rd=10u Rm=20u .PARAM Inn=44 Unn=10 Rmax=9.3m gmin=34 .PARAM act=10.66 Rsp=0.15 X1 d1 g s sp Tj1 S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} E1 Tj w VALUE={TEMP} Vp Tj1 Tj 0 R1 Tj Tj1 1u G_power 0 Tj VALUE={V(s1,s)*V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)+V(g,g1)*V(g,g1)/Rg+V(d1,d2)*V(d1,d2)/Rd+I(Vp)} R2 w 0 1u .ENDS ********** .SUBCKT BSC105N15LS5_L1 drain gate source PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Ls=350p Ld=100p Lg=2.2n .PARAM Rs=413u Rg=0.9 Rd=10u Rm=239u .PARAM Inn=40 Unn=10 Rmax=10.5m gmin=33 .PARAM act=9.09 Rsp=0.15 X1 d1 g s sp Tj1 S5_150_g_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} E1 Tj w VALUE={TEMP} Vp Tj1 Tj 0 R1 Tj Tj1 1u G_power 0 Tj VALUE={V(s1,s)*V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)+V(g,g1)*V(g,g1)/Rg+V(d1,d2)*V(d1,d2)/Rd+I(Vp)} R2 w 0 1u .ENDS ********** .SUBCKT BSC110N15NS5SC_L1 drain gate source PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Ls=250p Ld=100p Lg=2.2n .PARAM Rs=128u Rg=0.9 Rd=10u Rm=20u .PARAM Inn=38 Unn=10 Rmax=11m gmin=29 .PARAM act=9.09 Rsp=0.15 X1 d1 g s sp Tj1 S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} E1 Tj w VALUE={TEMP} Vp Tj1 Tj 0 R1 Tj Tj1 1u G_power 0 Tj VALUE={V(s1,s)*V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)+V(g,g1)*V(g,g1)/Rg+V(d1,d2)*V(d1,d2)/Rd+I(Vp)} R2 w 0 1u .ENDS ********** .SUBCKT BSC152N15LS5_L1 drain gate source PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Ls=350p Ld=100p Lg=2.2n .PARAM Rs=413u Rg=1 Rd=10u Rm=239u .PARAM Inn=29 Unn=10 Rmax=15.2m gmin=23 .PARAM act=6 Rsp=0.15 X1 d1 g s sp Tj1 S5_150_g_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} E1 Tj w VALUE={TEMP} Vp Tj1 Tj 0 R1 Tj Tj1 1u G_power 0 Tj VALUE={V(s1,s)*V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)+V(g,g1)*V(g,g1)/Rg+V(d1,d2)*V(d1,d2)/Rd+I(Vp)} R2 w 0 1u .ENDS ********** .SUBCKT BSC160N15NS5SC_L1 drain gate source PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Ls=250p Ld=100p Lg=2.2n .PARAM Rs=128u Rg=1 Rd=10u Rm=20u .PARAM Inn=28 Unn=10 Rmax=16m gmin=20 .PARAM act=6 Rsp=0.15 X1 d1 g s sp Tj1 S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} E1 Tj w VALUE={TEMP} Vp Tj1 Tj 0 R1 Tj Tj1 1u G_power 0 Tj VALUE={V(s1,s)*V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)+V(g,g1)*V(g,g1)/Rg+V(d1,d2)*V(d1,d2)/Rd+I(Vp)} R2 w 0 1u .ENDS ********** .SUBCKT IPB044N15N5_L1 drain gate source PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Ls=1.9n Ld=0.1n Lg=6.5n .PARAM Rs=357u Rg=0.8 Rd=20u Rm=83u .PARAM Inn=87 Unn=10 Rmax=4.4m gmin=72 .PARAM act=26.15 Rsp=0.15 X1 d1 g s sp Tj1 S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} E2 Tj w VALUE={TEMP} Vp Tj1 Tj 0 R1 Tj Tj1 1u G_power 0 Tj VALUE ={V(s1,s)*V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)+V(g,g1)*V(g,g1)/Rg+V(d1,d2)*V(d1,d2)/Rd+I(Vp)} R2 w 0 1u .ENDS ********** .SUBCKT IPB048N15N5_L1 drain gate source PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Ls=3.6n Ld=0.1n Lg=6.5n .PARAM Rs=641u Rg=1.1 Rd=50u Rm=148u .PARAM Inn=87 Unn=10 Rmax=4.8m gmin=72 .PARAM act=26.4 Rsp=0.15 X1 d1 g s sp Tj1 S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} E2 Tj w VALUE={TEMP} Vp Tj1 Tj 0 R1 Tj Tj1 1u G_power 0 Tj VALUE ={V(s1,s)*V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)+V(g,g1)*V(g,g1)/Rg+V(d1,d2)*V(d1,d2)/Rd+I(Vp)} R2 w 0 1u .ENDS ********** .SUBCKT IPC331N15NM5R_L1 drain gate source PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Ls=10p Ld=10p Lg=10p .PARAM Rs=150u Rg=14 Rd=50u Rm=148u .PARAM Inn=2 Unn=10 Rmax=2.9m gmin=11 .PARAM act=29.03 Rsp=0.15 X1 d1 g s sp Tj1 S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} E1 Tj w VALUE={TEMP} Vp Tj1 Tj 0 R1 Tj Tj1 1u G_power 0 Tj VALUE={V(s1,s)*V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)+V(g,g1)*V(g,g1)/Rg+V(d1,d2)*V(d1,d2)/Rd+I(Vp)} R2 w 0 1u .ENDS ********** .SUBCKT IPI051N15N5_L1 drain gate source PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Ls=1.8n Ld=2.5n Lg=4n .PARAM Rs=641u Rg=1.1 Rd=350u Rm=148u .PARAM Inn=87 Unn=10 Rmax=5.1m gmin=72 .PARAM act=26.4 Rsp=0.15 X1 d1 g s sp Tj1 S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} E2 Tj w VALUE={TEMP} Vp Tj1 Tj 0 R1 Tj Tj1 1u G_power 0 Tj VALUE ={V(s1,s)*V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)+V(g,g1)*V(g,g1)/Rg+V(d1,d2)*V(d1,d2)/Rd+I(Vp)} R2 w 0 1u .ENDS ********** .SUBCKT IPP051N15N5_L1 drain gate source PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Ls=1.8n Ld=2.5n Lg=4n .PARAM Rs=641u Rg=1.1 Rd=350u Rm=148u .PARAM Inn=87 Unn=10 Rmax=5.1m gmin=72 .PARAM act=26.4 Rsp=0.15 X1 d1 g s sp Tj1 S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} E2 Tj w VALUE={TEMP} Vp Tj1 Tj 0 R1 Tj Tj1 1u G_power 0 Tj VALUE ={V(s1,s)*V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)+V(g,g1)*V(g,g1)/Rg+V(d1,d2)*V(d1,d2)/Rd+I(Vp)} R2 w 0 1u .ENDS ********** .SUBCKT IPB060N15N5_L1 drain gate source PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Ls=1.9n Ld=0.1n Lg=6.5n .PARAM Rs=370u Rg=0.9 Rd=20u Rm=96u .PARAM Inn=68 Unn=10 Rmax=6m gmin=54 .PARAM act=17.95 Rsp=0.15 X1 d1 g s sp Tj1 S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} E2 Tj w VALUE={TEMP} Vp Tj1 Tj 0 R1 Tj Tj1 1u G_power 0 Tj VALUE ={V(s1,s)*V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)+V(g,g1)*V(g,g1)/Rg+V(d1,d2)*V(d1,d2)/Rd+I(Vp)} R2 w 0 1u .ENDS ********** .SUBCKT IPB073N15N5_L1 drain gate source PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Ls=3.6n Ld=0.1n Lg=6.5n .PARAM Rs=587u Rg=1.1 Rd=50u Rm=118u .PARAM Inn=56 Unn=10 Rmax=7.3m gmin=45 .PARAM act=15.96 Rsp=0.15 X1 d1 g s sp Tj1 S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} E2 Tj w VALUE={TEMP} Vp Tj1 Tj 0 R1 Tj Tj1 1u G_power 0 Tj VALUE ={V(s1,s)*V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)+V(g,g1)*V(g,g1)/Rg+V(d1,d2)*V(d1,d2)/Rd+I(Vp)} R2 w 0 1u .ENDS ********** .SUBCKT IPI076N15N5_L1 drain gate source PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Ls=1.8n Ld=2.5n Lg=4n .PARAM Rs=587u Rg=1.1 Rd=350u Rm=118u .PARAM Inn=56 Unn=10 Rmax=7.6m gmin=45 .PARAM act=15.96 Rsp=0.15 X1 d1 g s sp Tj1 S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} E2 Tj w VALUE={TEMP} Vp Tj1 Tj 0 R1 Tj Tj1 1u G_power 0 Tj VALUE ={V(s1,s)*V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)+V(g,g1)*V(g,g1)/Rg+V(d1,d2)*V(d1,d2)/Rd+I(Vp)} R2 w 0 1u .ENDS ********** .SUBCKT IPP076N15N5_L1 drain gate source PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Ls=1.8n Ld=2.5n Lg=4n .PARAM Rs=587u Rg=1.1 Rd=350u Rm=118u .PARAM Inn=56 Unn=10 Rmax=7.6m gmin=45 .PARAM act=15.96 Rsp=0.15 X1 d1 g s sp Tj1 S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} E2 Tj w VALUE={TEMP} Vp Tj1 Tj 0 R1 Tj Tj1 1u G_power 0 Tj VALUE ={V(s1,s)*V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)+V(g,g1)*V(g,g1)/Rg+V(d1,d2)*V(d1,d2)/Rd+I(Vp)} R2 w 0 1u .ENDS ********** .SUBCKT IPT039N15N5_L1 drain gate source PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Ls=0.5n Ld=0.1n Lg=2.7n .PARAM Rs=203u Rg=0.9 Rd=20u Rm=65u .PARAM Inn=50 Unn=10 Rmax=3.9m gmin=56 .PARAM act=25.67 Rsp=0.15 X1 d1 g s sp Tj1 S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} E1 Tj w VALUE={TEMP} Vp Tj1 Tj 0 R1 Tj Tj1 1u G_power 0 Tj VALUE={V(s1,s)*V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)+V(g,g1)*V(g,g1)/Rg+V(d1,d2)*V(d1,d2)/Rd+I(Vp)} R2 w 0 1u .ENDS ********** .SUBCKT IPT044N15N5_L1 drain gate source PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Ls=0.7n Ld=0.1n Lg=2.7n .PARAM Rs=251u Rg=0.9 Rd=20u Rm=79u .PARAM Inn=87 Unn=10 Rmax=4.4m gmin=67 .PARAM act=22.08 Rsp=0.15 X1 d1 g s sp Tj1 S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} E1 Tj w VALUE={TEMP} Vp Tj1 Tj 0 R1 Tj Tj1 1u G_power 0 Tj VALUE={V(s1,s)*V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)+V(g,g1)*V(g,g1)/Rg+V(d1,d2)*V(d1,d2)/Rd+I(Vp)} R2 w 0 1u .ENDS ********** .SUBCKT IPT054N15N5_L1 drain gate source PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Ls=0.7n Ld=0.1n Lg=2.7n .PARAM Rs=257u Rg=0.9 Rd=20u Rm=85u .PARAM Inn=71 Unn=10 Rmax=5.4m gmin=55 .PARAM act=18.12 Rsp=0.15 X1 d1 g s sp Tj1 S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} E1 Tj w VALUE={TEMP} Vp Tj1 Tj 0 R1 Tj Tj1 1u G_power 0 Tj VALUE={V(s1,s)*V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)+V(g,g1)*V(g,g1)/Rg+V(d1,d2)*V(d1,d2)/Rd+I(Vp)} R2 w 0 1u .ENDS ********** .SUBCKT IPT063N15N5_L1 drain gate source PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Ls=0.7n Ld=0.1n Lg=2.7n .PARAM Rs=233u Rg=0.9 Rd=20u Rm=61u .PARAM Inn=61 Unn=10 Rmax=6.3m gmin=47 .PARAM act=15.31 Rsp=0.15 X1 d1 g s sp Tj1 S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} E1 Tj w VALUE={TEMP} Vp Tj1 Tj 0 R1 Tj Tj1 1u G_power 0 Tj VALUE={V(s1,s)*V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)+V(g,g1)*V(g,g1)/Rg+V(d1,d2)*V(d1,d2)/Rd+I(Vp)} R2 w 0 1u .ENDS ********** .SUBCKT BSC074N15NS5_L1 drain gate source PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Ls=250p Ld=100p Lg=2.2n .PARAM Rs=160u Rg=1 Rd=20u Rm=36u .PARAM Inn=50 Unn=10 Rmax=7.4m gmin=41 .PARAM act=13.53 Rsp=0.15 X1 d1 g s sp Tj1 S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} E1 Tj w VALUE={TEMP} Vp Tj1 Tj 0 R1 Tj Tj1 1u G_power 0 Tj VALUE={V(s1,s)*V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)+V(g,g1)*V(g,g1)/Rg+V(d1,d2)*V(d1,d2)/Rd+I(Vp)} R2 w 0 1u .ENDS ********** .SUBCKT BSC093N15NS5_L1 drain gate source PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Ls=350p Ld=100p Lg=2.2n .PARAM Rs=410u Rg=0.9 Rd=20u Rm=239u .PARAM Inn=44 Unn=10 Rmax=9.3m gmin=34 .PARAM act=10.66 Rsp=0.15 X1 d1 g s sp Tj1 S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} E2 Tj w VALUE={TEMP} Vp Tj1 Tj 0 R1 Tj Tj1 1u G_power 0 Tj VALUE ={V(s1,s)*V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)+V(g,g1)*V(g,g1)/Rg+V(d1,d2)*V(d1,d2)/Rd+I(Vp)} R2 w 0 1u .ENDS ********** .SUBCKT BSC110N15NS5_L1 drain gate source PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Ls=350p Ld=100p Lg=2.2n .PARAM Rs=410u Rg=0.9 Rd=20u Rm=239u .PARAM Inn=38 Unn=10 Rmax=11m gmin=29 .PARAM act=9.09 Rsp=0.15 X1 d1 g s sp Tj1 S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} E2 Tj w VALUE={TEMP} Vp Tj1 Tj 0 R1 Tj Tj1 1u G_power 0 Tj VALUE ={V(s1,s)*V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)+V(g,g1)*V(g,g1)/Rg+V(d1,d2)*V(d1,d2)/Rd+I(Vp)} R2 w 0 1u .ENDS ********** .SUBCKT BSC160N15NS5_L1 drain gate source PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Ls=350p Ld=100p Lg=2.2n .PARAM Rs=410u Rg=1 Rd=20u Rm=239u .PARAM Inn=28 Unn=10 Rmax=16m gmin=20 .PARAM act=6 Rsp=0.15 X1 d1 g s sp Tj1 S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} E2 Tj w VALUE={TEMP} Vp Tj1 Tj 0 R1 Tj Tj1 1u G_power 0 Tj VALUE ={V(s1,s)*V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)+V(g,g1)*V(g,g1)/Rg+V(d1,d2)*V(d1,d2)/Rd+I(Vp)} R2 w 0 1u .ENDS ********** .SUBCKT BSZ300N15NS5_L1 drain gate source PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Ls=250p Ld=100p Lg=1.2n .PARAM Rs=598u Rg=0.8 Rd=20u Rm=210u .PARAM Inn=16 Unn=10 Rmax=30m gmin=11 .PARAM act=3.21 Rsp=0.15 X1 d1 g s sp Tj1 S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} E2 Tj w VALUE={TEMP} Vp Tj1 Tj 0 R1 Tj Tj1 1u G_power 0 Tj VALUE ={V(s1,s)*V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)+V(g,g1)*V(g,g1)/Rg+V(d1,d2)*V(d1,d2)/Rd+I(Vp)} R2 w 0 1u .ENDS ********** .SUBCKT IPTC039N15NM5_L1 drain gate source PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Ls=0.9n Ld=0.6n Lg=4.4n .PARAM Rs=220u Rg=0.9 Rd=30u Rm=64u .PARAM Inn=50 Unn=10 Rmax=3.9m gmin=54 .PARAM act=24.337 Rsp=0.15 X1 d1 g s sp Tj1 S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} E1 Tj w VALUE={TEMP} Vp Tj1 Tj 0 R1 Tj Tj1 1u G_power 0 Tj VALUE={V(s1,s)*V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)+V(g,g1)*V(g,g1)/Rg+V(d1,d2)*V(d1,d2)/Rd+I(Vp)} R2 w 0 1u .ENDS ********** .SUBCKT IPTC044N15NM5_L1 drain gate source PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Ls=1n Ld=0.6n Lg=4.4n .PARAM Rs=272u Rg=0.9 Rd=30u Rm=82u .PARAM Inn=50 Unn=10 Rmax=4.4m gmin=53 .PARAM act=23.52 Rsp=0.15 X1 d1 g s sp Tj1 S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} E1 Tj w VALUE={TEMP} Vp Tj1 Tj 0 R1 Tj Tj1 1u G_power 0 Tj VALUE={V(s1,s)*V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)+V(g,g1)*V(g,g1)/Rg+V(d1,d2)*V(d1,d2)/Rd+I(Vp)} R2 w 0 1u .ENDS ********** .SUBCKT IPTC054N15NM5_L1 drain gate source PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Ls=1n Ld=0.6n Lg=4.4n .PARAM Rs=270u Rg=0.9 Rd=30u Rm=80u .PARAM Inn=50 Unn=10 Rmax=5.4m gmin=48 .PARAM act=19.08 Rsp=0.15 X1 d1 g s sp Tj1 S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} E1 Tj w VALUE={TEMP} Vp Tj1 Tj 0 R1 Tj Tj1 1u G_power 0 Tj VALUE={V(s1,s)*V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)+V(g,g1)*V(g,g1)/Rg+V(d1,d2)*V(d1,d2)/Rd+I(Vp)} R2 w 0 1u .ENDS ********** .SUBCKT IPTC063N15NM5_L1 drain gate source PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Ls=1n Ld=0.6n Lg=4.4n .PARAM Rs=255u Rg=0.9 Rd=30u Rm=65u .PARAM Inn=50 Unn=10 Rmax=6.3m gmin=44 .PARAM act=16.3 Rsp=0.15 X1 d1 g s sp Tj1 S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} E1 Tj w VALUE={TEMP} Vp Tj1 Tj 0 R1 Tj Tj1 1u G_power 0 Tj VALUE={V(s1,s)*V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)+V(g,g1)*V(g,g1)/Rg+V(d1,d2)*V(d1,d2)/Rd+I(Vp)} R2 w 0 1u .ENDS ********** .SUBCKT IPTG039N15NM5_L1 drain gate source PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Ls=1.1n Ld=0.1n Lg=4.6n .PARAM Rs=220u Rg=0.9 Rd=20u Rm=64u .PARAM Inn=50 Unn=10 Rmax=3.9m gmin=54 .PARAM act=24.34 Rsp=0.15 X1 d1 g s sp Tj1 S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} E1 Tj w VALUE={TEMP} Vp Tj1 Tj 0 R1 Tj Tj1 1u G_power 0 Tj VALUE={V(s1,s)*V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)+V(g,g1)*V(g,g1)/Rg+V(d1,d2)*V(d1,d2)/Rd+I(Vp)} R2 w 0 1u .ENDS ********** .SUBCKT IPTG044N15NM5_L1 drain gate source PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Ls=1.3n Ld=0.1n Lg=4.6n .PARAM Rs=272u Rg=0.9 Rd=20u Rm=82u .PARAM Inn=50 Unn=10 Rmax=4.4m gmin=53 .PARAM act=23.52 Rsp=0.15 X1 d1 g s sp Tj1 S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} E1 Tj w VALUE={TEMP} Vp Tj1 Tj 0 R1 Tj Tj1 1u G_power 0 Tj VALUE={V(s1,s)*V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)+V(g,g1)*V(g,g1)/Rg+V(d1,d2)*V(d1,d2)/Rd+I(Vp)} R2 w 0 1u .ENDS ********** .SUBCKT IPTG054N15NM5_L1 drain gate source PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Ls=1.3n Ld=0.1n Lg=4.6n .PARAM Rs=270u Rg=0.9 Rd=20u Rm=80u .PARAM Inn=50 Unn=10 Rmax=5.4m gmin=48 .PARAM act=19.08 Rsp=0.15 X1 d1 g s sp Tj1 S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} E1 Tj w VALUE={TEMP} Vp Tj1 Tj 0 R1 Tj Tj1 1u G_power 0 Tj VALUE={V(s1,s)*V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)+V(g,g1)*V(g,g1)/Rg+V(d1,d2)*V(d1,d2)/Rd+I(Vp)} R2 w 0 1u .ENDS ********** .SUBCKT IPTG063N15NM5_L1 drain gate source PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Ls=1.3n Ld=0.1n Lg=4.6n .PARAM Rs=255u Rg=0.9 Rd=20u Rm=65u .PARAM Inn=50 Unn=10 Rmax=6.3m gmin=44 .PARAM act=16.3 Rsp=0.15 X1 d1 g s sp Tj1 S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} E1 Tj w VALUE={TEMP} Vp Tj1 Tj 0 R1 Tj Tj1 1u G_power 0 Tj VALUE={V(s1,s)*V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)+V(g,g1)*V(g,g1)/Rg+V(d1,d2)*V(d1,d2)/Rd+I(Vp)} R2 w 0 1u .ENDS ********** .SUBCKT IQD063N15NM5_L1 drain gate source PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Ls=100p Ld=300p Lg=1n .PARAM Rs=11u Rg=0.89 Rd=75u Rm=10u .PARAM Inn=50 Unn=10 Rmax=6.32m gmin=45 .PARAM act=15.93 Rsp=0.029 X1 d1 g s sp Tj1 S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} E1 Tj w VALUE={TEMP} Vp Tj1 Tj 0 R1 Tj Tj1 1u G_power 0 Tj VALUE={V(s1,s)*V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)+V(g,g1)*V(g,g1)/Rg+V(d1,d2)*V(d1,d2)/Rd+I(Vp)} R2 w 0 1u .ENDS ********** .SUBCKT IQE220N15NM5CGSC_L1 drain gate source PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Ls=100p Ld=0.25n Lg=1n .PARAM Rs=11u Rg=0.8 Rd=80u Rm=10u .PARAM Inn=26 Unn=10 Rmax=22m gmin=16.31 .PARAM act=4.63 Rsp=0.66 X1 d1 g s sp Tj1 S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} E1 Tj w VALUE={TEMP} Vp Tj1 Tj 0 R1 Tj Tj1 1u G_power 0 Tj VALUE={V(s1,s)*V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)+V(g,g1)*V(g,g1)/Rg+V(d1,d2)*V(d1,d2)/Rd+I(Vp)} R2 w 0 1u .ENDS ********** .SUBCKT IQE220N15NM5CG_L1 drain gate source PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Ls=100p Ld=0.25n Lg=1n .PARAM Rs=11u Rg=0.8 Rd=80u Rm=10u .PARAM Inn=26 Unn=10 Rmax=22m gmin=16.31 .PARAM act=4.63 Rsp=0.66 X1 d1 g s sp Tj1 S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} E1 Tj w VALUE={TEMP} Vp Tj1 Tj 0 R1 Tj Tj1 1u G_power 0 Tj VALUE={V(s1,s)*V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)+V(g,g1)*V(g,g1)/Rg+V(d1,d2)*V(d1,d2)/Rd+I(Vp)} R2 w 0 1u .ENDS ********** .SUBCKT IQE220N15NM5SC_L1 drain gate source PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Ls=100p Ld=0.25n Lg=1n .PARAM Rs=11u Rg=0.8 Rd=80u Rm=10u .PARAM Inn=26 Unn=10 Rmax=22m gmin=16.31 .PARAM act=4.63 Rsp=0.66 X1 d1 g s sp Tj1 S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} E1 Tj w VALUE={TEMP} Vp Tj1 Tj 0 R1 Tj Tj1 1u G_power 0 Tj VALUE={V(s1,s)*V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)+V(g,g1)*V(g,g1)/Rg+V(d1,d2)*V(d1,d2)/Rd+I(Vp)} R2 w 0 1u .ENDS ********** .SUBCKT IQE220N15NM5_L1 drain gate source PARAMS: dVth=0 dRdson=0 dgfs=0 dC=0 Ls=100p Ld=0.25n Lg=1n .PARAM Rs=11u Rg=0.8 Rd=80u Rm=10u .PARAM Inn=26 Unn=10 Rmax=22m gmin=16.31 .PARAM act=4.63 Rsp=0.66 X1 d1 g s sp Tj1 S5_150_f_var PARAMS: a={act} Rsp={Rsp} dVth={dVth} dR={dRdson} dgfs={dgfs} Inn={Inn} Unn={Unn} +Rmax={Rmax} gmin={gmin} Rs={Rs} Rp={Rd} dC={dC} Rm={Rm} Rg g1 g {Rg} Lg gate g1 {Lg*if(dgfs==99,0,1)} Gs s1 s VALUE={V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)} Rsa s1 s 1Meg Ls source s1 {Ls*if(dgfs==99,0,1)} Rda d1 d2 {Rd} Ld drain d2 {Ld*if(dgfs==99,0,1)} E1 Tj w VALUE={TEMP} Vp Tj1 Tj 0 R1 Tj Tj1 1u G_power 0 Tj VALUE={V(s1,s)*V(s1,s)/(Rs*(1+(limit(V(Tj),-200,999)-25)*4m)-Rm)+V(g,g1)*V(g,g1)/Rg+V(d1,d2)*V(d1,d2)/Rd+I(Vp)} R2 w 0 1u .ENDS ********** .SUBCKT BSC088N15LS5_L0 drain gate source Lg gate g1 2.2n Ld drain d1 100p Ls source s1 350p Rs s1 s2 413u TC=3m Rg g1 g2 1.1 M1 d2 g2 s2 s2 DMOS L=1u W=1u .MODEL DMOS NMOS ( KP=133.3 VTO=5 THETA=0 VMAX=1.5e5 ETA=0.005 LEVEL=3) Rd d1 d2 6.11m TC=9m Dbd s2 d2 Dbt .MODEL Dbt D(BV=161 M=0.65 CJO=0.99n VJ=2.5V) Rsp s2 s3 0.15 Dbd1 s3 d2 Dbt1 .MODEL Dbt1 D(BV=1000 M=0.65 CJO=3.96n VJ=2.5V) Dbody s2 21 DBODY .MODEL DBODY D(IS=4.3p N=1.05 RS=0.05u EG=1.12 TT=30n) Rdiode d1 21 1.13m TC=1m .MODEL sw NMOS(VTO=0 KP=10 LEVEL=1) Maux g2 c a a sw Maux2 b d g2 g2 sw Eaux c a d2 g2 1 Eaux2 d g2 d2 g2 -1 Cox b d2 0.35n .MODEL DGD D(M=0.42 CJO=0.35n VJ=0.5) Rpar b d2 1Meg Dgd a d2 DGD Rpar2 d2 a 10Meg Cgs g2 s2 2.42n .ENDS BSC088N15LS5_L0 ***************** .SUBCKT BSC093N15NS5SC_L0 drain gate source Lg gate g1 2.2n Ld drain d1 100p Ls source s1 250p Rs s1 s2 128u TC=3m Rg g1 g2 1.1 M1 d2 g2 s2 s2 DMOS L=1u W=1u .MODEL DMOS NMOS ( KP=133.3 VTO=5 THETA=0 VMAX=1.5e5 ETA=0.005 LEVEL=3) Rd d1 d2 6.11m TC=9m Dbd s2 d2 Dbt .MODEL Dbt D(BV=161 M=0.65 CJO=0.99n VJ=2.5V) Rsp s2 s3 0.15 Dbd1 s3 d2 Dbt1 .MODEL Dbt1 D(BV=1000 M=0.65 CJO=3.96n VJ=2.5V) Dbody s2 21 DBODY .MODEL DBODY D(IS=4.3p N=1.05 RS=0.05u EG=1.12 TT=30n) Rdiode d1 21 1.13m TC=1m .MODEL sw NMOS(VTO=0 KP=10 LEVEL=1) Maux g2 c a a sw Maux2 b d g2 g2 sw Eaux c a d2 g2 1 Eaux2 d g2 d2 g2 -1 Cox b d2 0.35n .MODEL DGD D(M=0.42 CJO=0.35n VJ=0.5) Rpar b d2 1Meg Dgd a d2 DGD Rpar2 d2 a 10Meg Cgs g2 s2 2.42n .ENDS BSC093N15NS5SC_L0 ***************** .SUBCKT BSC105N15LS5_L0 drain gate source Lg gate g1 2.2n Ld drain d1 100p Ls source s1 350p Rs s1 s2 413u TC=3m Rg g1 g2 0.9 M1 d2 g2 s2 s2 DMOS L=1u W=1u .MODEL DMOS NMOS ( KP=113.6 VTO=5 THETA=0 VMAX=1.5e5 ETA=0.005 LEVEL=3) Rd d1 d2 7.16m TC=9m Dbd s2 d2 Dbt .MODEL Dbt D(BV=161 M=0.65 CJO=0.85n VJ=2.5V) Rsp s2 s3 0.15 Dbd1 s3 d2 Dbt1 .MODEL Dbt1 D(BV=1000 M=0.65 CJO=3.39n VJ=2.5V) Dbody s2 21 DBODY .MODEL DBODY D(IS=3.6p N=1.05 RS=0.06u EG=1.12 TT=30n) Rdiode d1 21 1.32m TC=1m .MODEL sw NMOS(VTO=0 KP=10 LEVEL=1) Maux g2 c a a sw Maux2 b d g2 g2 sw Eaux c a d2 g2 1 Eaux2 d g2 d2 g2 -1 Cox b d2 0.3n .MODEL DGD D(M=0.42 CJO=0.3n VJ=0.5) Rpar b d2 1Meg Dgd a d2 DGD Rpar2 d2 a 10Meg Cgs g2 s2 2.06n .ENDS BSC105N15LS5_L0 ***************** .SUBCKT BSC110N15NS5SC_L0 drain gate source Lg gate g1 2.2n Ld drain d1 100p Ls source s1 250p Rs s1 s2 128u TC=3m Rg g1 g2 0.9 M1 d2 g2 s2 s2 DMOS L=1u W=1u .MODEL DMOS NMOS ( KP=113.6 VTO=5 THETA=0 VMAX=1.5e5 ETA=0.005 LEVEL=3) Rd d1 d2 7.16m TC=9m Dbd s2 d2 Dbt .MODEL Dbt D(BV=161 M=0.65 CJO=0.85n VJ=2.5V) Rsp s2 s3 0.15 Dbd1 s3 d2 Dbt1 .MODEL Dbt1 D(BV=1000 M=0.65 CJO=3.39n VJ=2.5V) Dbody s2 21 DBODY .MODEL DBODY D(IS=3.6p N=1.05 RS=0.06u EG=1.12 TT=30n) Rdiode d1 21 1.32m TC=1m .MODEL sw NMOS(VTO=0 KP=10 LEVEL=1) Maux g2 c a a sw Maux2 b d g2 g2 sw Eaux c a d2 g2 1 Eaux2 d g2 d2 g2 -1 Cox b d2 0.3n .MODEL DGD D(M=0.42 CJO=0.3n VJ=0.5) Rpar b d2 1Meg Dgd a d2 DGD Rpar2 d2 a 10Meg Cgs g2 s2 2.06n .ENDS BSC110N15NS5SC_L0 ***************** .SUBCKT BSC152N15LS5_L0 drain gate source Lg gate g1 2.2n Ld drain d1 100p Ls source s1 350p Rs s1 s2 413u TC=3m Rg g1 g2 1 M1 d2 g2 s2 s2 DMOS L=1u W=1u .MODEL DMOS NMOS ( KP=75 VTO=5 THETA=0 VMAX=1.5e5 ETA=0.005 LEVEL=3) Rd d1 d2 10.84m TC=9m Dbd s2 d2 Dbt .MODEL Dbt D(BV=161 M=0.65 CJO=0.56n VJ=2.5V) Rsp s2 s3 0.15 Dbd1 s3 d2 Dbt1 .MODEL Dbt1 D(BV=1000 M=0.65 CJO=2.27n VJ=2.5V) Dbody s2 21 DBODY .MODEL DBODY D(IS=2.4p N=1.05 RS=0.08u EG=1.12 TT=30n) Rdiode d1 21 2m TC=1m .MODEL sw NMOS(VTO=0 KP=10 LEVEL=1) Maux g2 c a a sw Maux2 b d g2 g2 sw Eaux c a d2 g2 1 Eaux2 d g2 d2 g2 -1 Cox b d2 0.2n .MODEL DGD D(M=0.42 CJO=0.2n VJ=0.5) Rpar b d2 1Meg Dgd a d2 DGD Rpar2 d2 a 10Meg Cgs g2 s2 1.36n .ENDS BSC152N15LS5_L0 ***************** .SUBCKT BSC160N15NS5SC_L0 drain gate source Lg gate g1 2.2n Ld drain d1 100p Ls source s1 250p Rs s1 s2 128u TC=3m Rg g1 g2 1 M1 d2 g2 s2 s2 DMOS L=1u W=1u .MODEL DMOS NMOS ( KP=75 VTO=5 THETA=0 VMAX=1.5e5 ETA=0.005 LEVEL=3) Rd d1 d2 10.84m TC=9m Dbd s2 d2 Dbt .MODEL Dbt D(BV=161 M=0.65 CJO=0.56n VJ=2.5V) Rsp s2 s3 0.15 Dbd1 s3 d2 Dbt1 .MODEL Dbt1 D(BV=1000 M=0.65 CJO=2.27n VJ=2.5V) Dbody s2 21 DBODY .MODEL DBODY D(IS=2.4p N=1.05 RS=0.08u EG=1.12 TT=30n) Rdiode d1 21 2m TC=1m .MODEL sw NMOS(VTO=0 KP=10 LEVEL=1) Maux g2 c a a sw Maux2 b d g2 g2 sw Eaux c a d2 g2 1 Eaux2 d g2 d2 g2 -1 Cox b d2 0.2n .MODEL DGD D(M=0.42 CJO=0.2n VJ=0.5) Rpar b d2 1Meg Dgd a d2 DGD Rpar2 d2 a 10Meg Cgs g2 s2 1.36n .ENDS BSC160N15NS5SC_L0 ***************** .SUBCKT IPB044N15N5_L0 drain gate source Lg gate g1 6.5n Ld drain d1 0.1n Ls source s1 1.9n Rs s1 s2 357u TC=3m Rg g1 g2 0.8 M1 d2 g2 s2 s2 DMOS L=1u W=1u .MODEL DMOS NMOS ( KP= 326.9 VTO=5 THETA=0 VMAX=1.5e5 ETA=0.005 LEVEL=3) Rd d1 d2 2.51m TC=9m Dbd s2 d2 Dbt .MODEL Dbt D(BV=161 M=0.65 CJO=2.43n VJ=2.5V) Rsp s2 s3 0.15 Dbd1 s3 d2 Dbt1 .MODEL Dbt1 D(BV=1000 M=0.65 CJO=9.51n VJ=2.5V) Dbody s2 21 DBODY .MODEL DBODY D(IS=10.5p N=1.05 RS=0.02u EG=1.12 TT=30n) Rdiode d1 21 0.46m TC=1m .MODEL sw NMOS(VTO=0 KP=10 LEVEL=1) Maux g2 c a a sw Maux2 b d g2 g2 sw Eaux c a d2 g2 1 Eaux2 d g2 d2 g2 -1 Cox b d2 0.86n .MODEL DGD D(M=0.42 CJO=0.86n VJ=0.5) Rpar b d2 1Meg Dgd a d2 DGD Rpar2 d2 a 10Meg Cgs g2 s2 5.94n .ENDS IPB044N15N5_L0 ****** .SUBCKT IPB048N15N5_L0 drain gate source Lg gate g1 6.5n Ld drain d1 0.1n Ls source s1 3.6n Rs s1 s2 641u TC=3m Rg g1 g2 1.1 M1 d2 g2 s2 s2 DMOS L=1u W=1u .MODEL DMOS NMOS ( KP= 330 VTO=5 THETA=0 VMAX=1.5e5 ETA=0.005 LEVEL=3) Rd d1 d2 2.51m TC=9m Dbd s2 d2 Dbt .MODEL Dbt D(BV=161 M=0.65 CJO=2.46n VJ=2.5V) Rsp s2 s3 0.15 Dbd1 s3 d2 Dbt1 .MODEL Dbt1 D(BV=1000 M=0.65 CJO=9.6n VJ=2.5V) Dbody s2 21 DBODY .MODEL DBODY D(IS=10.6p N=1.05 RS=0.02u EG=1.12 TT=30n) Rdiode d1 21 0.45m TC=1m .MODEL sw NMOS(VTO=0 KP=10 LEVEL=1) Maux g2 c a a sw Maux2 b d g2 g2 sw Eaux c a d2 g2 1 Eaux2 d g2 d2 g2 -1 Cox b d2 0.87n .MODEL DGD D(M=0.42 CJO=0.87n VJ=0.5) Rpar b d2 1Meg Dgd a d2 DGD Rpar2 d2 a 10Meg Cgs g2 s2 5.99n .ENDS IPB048N15N5_L0 ****** .SUBCKT IPC331N15NM5R_L0 drain gate source Lg gate g1 10p Ld drain d1 10p Ls source s1 10p Rs s1 s2 150u TC=3m Rg g1 g2 14 M1 d2 g2 s2 s2 DMOS L=1u W=1u .MODEL DMOS NMOS ( KP=362.9 VTO=5 THETA=0 VMAX=1.5e5 ETA=0.005 LEVEL=3) Rd d1 d2 2.29m TC=9m Dbd s2 d2 Dbt .MODEL Dbt D(BV=161 M=0.65 CJO=2.7n VJ=2.5V) Rsp s2 s3 0.15 Dbd1 s3 d2 Dbt1 .MODEL Dbt1 D(BV=1000 M=0.65 CJO=10.54n VJ=2.5V) Dbody s2 21 DBODY .MODEL DBODY D(IS=11.6p N=1.05 RS=0.02u EG=1.12 TT=30n) Rdiode d1 21 0.41m TC=1m .MODEL sw NMOS(VTO=0 KP=10 LEVEL=1) Maux g2 c a a sw Maux2 b d g2 g2 sw Eaux c a d2 g2 1 Eaux2 d g2 d2 g2 -1 Cox b d2 0.96n .MODEL DGD D(M=0.42 CJO=0.96n VJ=0.5) Rpar b d2 1Meg Dgd a d2 DGD Rpar2 d2 a 10Meg Cgs g2 s2 6.59n .ENDS IPC331N15NM5R_L0 ***************** .SUBCKT IPI051N15N5_L0 drain gate source Lg gate g1 4n Ld drain d1 2.5n Ls source s1 1.8n Rs s1 s2 641u TC=3m Rg g1 g2 1.1 M1 d2 g2 s2 s2 DMOS L=1u W=1u .MODEL DMOS NMOS ( KP= 330 VTO=5 THETA=0 VMAX=1.5e5 ETA=0.005 LEVEL=3) Rd d1 d2 2.81m TC=9m Dbd s2 d2 Dbt .MODEL Dbt D(BV=161 M=0.65 CJO=2.46n VJ=2.5V) Rsp s2 s3 0.15 Dbd1 s3 d2 Dbt1 .MODEL Dbt1 D(BV=1000 M=0.65 CJO=9.6n VJ=2.5V) Dbody s2 21 DBODY .MODEL DBODY D(IS=10.6p N=1.05 RS=0.02u EG=1.12 TT=30n) Rdiode d1 21 0.45m TC=1m .MODEL sw NMOS(VTO=0 KP=10 LEVEL=1) Maux g2 c a a sw Maux2 b d g2 g2 sw Eaux c a d2 g2 1 Eaux2 d g2 d2 g2 -1 Cox b d2 0.87n .MODEL DGD D(M=0.42 CJO=0.87n VJ=0.5) Rpar b d2 1Meg Dgd a d2 DGD Rpar2 d2 a 10Meg Cgs g2 s2 5.99n .ENDS IPI051N15N5_L0 ****** .SUBCKT IPP051N15N5_L0 drain gate source Lg gate g1 4n Ld drain d1 2.5n Ls source s1 1.8n Rs s1 s2 641u TC=3m Rg g1 g2 1.1 M1 d2 g2 s2 s2 DMOS L=1u W=1u .MODEL DMOS NMOS ( KP= 330 VTO=5 THETA=0 VMAX=1.5e5 ETA=0.005 LEVEL=3) Rd d1 d2 2.81m TC=9m Dbd s2 d2 Dbt .MODEL Dbt D(BV=161 M=0.65 CJO=2.46n VJ=2.5V) Rsp s2 s3 0.15 Dbd1 s3 d2 Dbt1 .MODEL Dbt1 D(BV=1000 M=0.65 CJO=9.6n VJ=2.5V) Dbody s2 21 DBODY .MODEL DBODY D(IS=10.6p N=1.05 RS=0.02u EG=1.12 TT=30n) Rdiode d1 21 0.45m TC=1m .MODEL sw NMOS(VTO=0 KP=10 LEVEL=1) Maux g2 c a a sw Maux2 b d g2 g2 sw Eaux c a d2 g2 1 Eaux2 d g2 d2 g2 -1 Cox b d2 0.87n .MODEL DGD D(M=0.42 CJO=0.87n VJ=0.5) Rpar b d2 1Meg Dgd a d2 DGD Rpar2 d2 a 10Meg Cgs g2 s2 5.99n .ENDS IPP051N15N5_L0 ****** .SUBCKT IPB073N15N5_L0 drain gate source Lg gate g1 6.5n Ld drain d1 0.1n Ls source s1 3.6n Rs s1 s2 587u TC=3m Rg g1 g2 1.1 M1 d2 g2 s2 s2 DMOS L=1u W=1u .MODEL DMOS NMOS ( KP= 199.5 VTO=5 THETA=0 VMAX=1.5e5 ETA=0.005 LEVEL=3) Rd d1 d2 4.12m TC=9m Dbd s2 d2 Dbt .MODEL Dbt D(BV=161 M=0.65 CJO=1.48n VJ=2.5V) Rsp s2 s3 0.15 Dbd1 s3 d2 Dbt1 .MODEL Dbt1 D(BV=1000 M=0.65 CJO=5.87n VJ=2.5V) Dbody s2 21 DBODY .MODEL DBODY D(IS=6.4p N=1.05 RS=0.03u EG=1.12 TT=30n) Rdiode d1 21 0.75m TC=1m .MODEL sw NMOS(VTO=0 KP=10 LEVEL=1) Maux g2 c a a sw Maux2 b d g2 g2 sw Eaux c a d2 g2 1 Eaux2 d g2 d2 g2 -1 Cox b d2 0.53n .MODEL DGD D(M=0.42 CJO=0.53n VJ=0.5) Rpar b d2 1Meg Dgd a d2 DGD Rpar2 d2 a 10Meg Cgs g2 s2 3.62n .ENDS IPB073N15N5_L0 ****** .SUBCKT IPI076N15N5_L0 drain gate source Lg gate g1 4n Ld drain d1 2.5n Ls source s1 1.8n Rs s1 s2 587u TC=3m Rg g1 g2 1.1 M1 d2 g2 s2 s2 DMOS L=1u W=1u .MODEL DMOS NMOS ( KP= 199.5 VTO=5 THETA=0 VMAX=1.5e5 ETA=0.005 LEVEL=3) Rd d1 d2 4.42m TC=9m Dbd s2 d2 Dbt .MODEL Dbt D(BV=161 M=0.65 CJO=1.48n VJ=2.5V) Rsp s2 s3 0.15 Dbd1 s3 d2 Dbt1 .MODEL Dbt1 D(BV=1000 M=0.65 CJO=5.87n VJ=2.5V) Dbody s2 21 DBODY .MODEL DBODY D(IS=6.4p N=1.05 RS=0.03u EG=1.12 TT=30n) Rdiode d1 21 0.75m TC=1m .MODEL sw NMOS(VTO=0 KP=10 LEVEL=1) Maux g2 c a a sw Maux2 b d g2 g2 sw Eaux c a d2 g2 1 Eaux2 d g2 d2 g2 -1 Cox b d2 0.53n .MODEL DGD D(M=0.42 CJO=0.53n VJ=0.5) Rpar b d2 1Meg Dgd a d2 DGD Rpar2 d2 a 10Meg Cgs g2 s2 3.62n .ENDS IPI076N15N5_L0 ****** .SUBCKT IPP076N15N5_L0 drain gate source Lg gate g1 4n Ld drain d1 2.5n Ls source s1 1.8n Rs s1 s2 587u TC=3m Rg g1 g2 1.1 M1 d2 g2 s2 s2 DMOS L=1u W=1u .MODEL DMOS NMOS ( KP= 199.5 VTO=5 THETA=0 VMAX=1.5e5 ETA=0.005 LEVEL=3) Rd d1 d2 4.42m TC=9m Dbd s2 d2 Dbt .MODEL Dbt D(BV=161 M=0.65 CJO=1.48n VJ=2.5V) Rsp s2 s3 0.15 Dbd1 s3 d2 Dbt1 .MODEL Dbt1 D(BV=1000 M=0.65 CJO=5.87n VJ=2.5V) Dbody s2 21 DBODY .MODEL DBODY D(IS=6.4p N=1.05 RS=0.03u EG=1.12 TT=30n) Rdiode d1 21 0.75m TC=1m .MODEL sw NMOS(VTO=0 KP=10 LEVEL=1) Maux g2 c a a sw Maux2 b d g2 g2 sw Eaux c a d2 g2 1 Eaux2 d g2 d2 g2 -1 Cox b d2 0.53n .MODEL DGD D(M=0.42 CJO=0.53n VJ=0.5) Rpar b d2 1Meg Dgd a d2 DGD Rpar2 d2 a 10Meg Cgs g2 s2 3.62n .ENDS IPP076N15N5_L0 ****** .SUBCKT IPB060N15N5_L0 drain gate source Lg gate g1 6.5n Ld drain d1 0.1n Ls source s1 1.9n Rs s1 s2 370u TC=3m Rg g1 g2 0.9 M1 d2 g2 s2 s2 DMOS L=1u W=1u .MODEL DMOS NMOS ( KP= 224.4 VTO=5 THETA=0 VMAX=1.5e5 ETA=0.005 LEVEL=3) Rd d1 d2 3.64m TC=9m Dbd s2 d2 Dbt .MODEL Dbt D(BV=161 M=0.65 CJO=1.67n VJ=2.5V) Rsp s2 s3 0.15 Dbd1 s3 d2 Dbt1 .MODEL Dbt1 D(BV=1000 M=0.65 CJO=6.58n VJ=2.5V) Dbody s2 21 DBODY .MODEL DBODY D(IS=7.2p N=1.05 RS=0.03u EG=1.12 TT=30n) Rdiode d1 21 0.67m TC=1m .MODEL sw NMOS(VTO=0 KP=10 LEVEL=1) Maux g2 c a a sw Maux2 b d g2 g2 sw Eaux c a d2 g2 1 Eaux2 d g2 d2 g2 -1 Cox b d2 0.59n .MODEL DGD D(M=0.42 CJO=0.59n VJ=0.5) Rpar b d2 1Meg Dgd a d2 DGD Rpar2 d2 a 10Meg Cgs g2 s2 4.07n .ENDS IPB060N15N5_L0 ****** .SUBCKT IPT039N15N5_L0 drain gate source Lg gate g1 2.7n Ld drain d1 0.1n Ls source s1 0.5n Rs s1 s2 203u TC=3m Rg g1 g2 0.9 M1 d2 g2 s2 s2 DMOS L=1u W=1u .MODEL DMOS NMOS ( KP=320.9 VTO=5 THETA=0 VMAX=1.5e5 ETA=0.005 LEVEL=3) Rd d1 d2 2.55m TC=9m Dbd s2 d2 Dbt .MODEL Dbt D(BV=161 M=0.65 CJO=2.39n VJ=2.5V) Rsp s2 s3 0.15 Dbd1 s3 d2 Dbt1 .MODEL Dbt1 D(BV=1000 M=0.65 CJO=9.34n VJ=2.5V) Dbody s2 21 DBODY .MODEL DBODY D(IS=10.3p N=1.05 RS=0.02u EG=1.12 TT=30n) Rdiode d1 21 0.47m TC=1m .MODEL sw NMOS(VTO=0 KP=10 LEVEL=1) Maux g2 c a a sw Maux2 b d g2 g2 sw Eaux c a d2 g2 1 Eaux2 d g2 d2 g2 -1 Cox b d2 0.85n .MODEL DGD D(M=0.42 CJO=0.85n VJ=0.5) Rpar b d2 1Meg Dgd a d2 DGD Rpar2 d2 a 10Meg Cgs g2 s2 5.83n .ENDS IPT039N15N5_L0 ***************** .SUBCKT IPT044N15N5_L0 drain gate source Lg gate g1 2.7n Ld drain d1 0.1n Ls source s1 0.7n Rs s1 s2 251u TC=3m Rg g1 g2 0.9 M1 d2 g2 s2 s2 DMOS L=1u W=1u .MODEL DMOS NMOS ( KP=276 VTO=5 THETA=0 VMAX=1.5e5 ETA=0.005 LEVEL=3) Rd d1 d2 2.96m TC=9m Dbd s2 d2 Dbt .MODEL Dbt D(BV=161 M=0.65 CJO=2.05n VJ=2.5V) Rsp s2 s3 0.15 Dbd1 s3 d2 Dbt1 .MODEL Dbt1 D(BV=1000 M=0.65 CJO=8.06n VJ=2.5V) Dbody s2 21 DBODY .MODEL DBODY D(IS=8.8p N=1.05 RS=0.02u EG=1.12 TT=30n) Rdiode d1 21 0.54m TC=1m .MODEL sw NMOS(VTO=0 KP=10 LEVEL=1) Maux g2 c a a sw Maux2 b d g2 g2 sw Eaux c a d2 g2 1 Eaux2 d g2 d2 g2 -1 Cox b d2 0.73n .MODEL DGD D(M=0.42 CJO=0.73n VJ=0.5) Rpar b d2 1Meg Dgd a d2 DGD Rpar2 d2 a 10Meg Cgs g2 s2 5.01n .ENDS IPT044N15N5_L0 ***************** .SUBCKT IPT054N15N5_L0 drain gate source Lg gate g1 2.7n Ld drain d1 0.1n Ls source s1 0.7n Rs s1 s2 257u TC=3m Rg g1 g2 0.9 M1 d2 g2 s2 s2 DMOS L=1u W=1u .MODEL DMOS NMOS ( KP=226.5 VTO=5 THETA=0 VMAX=1.5e5 ETA=0.005 LEVEL=3) Rd d1 d2 3.61m TC=9m Dbd s2 d2 Dbt .MODEL Dbt D(BV=161 M=0.65 CJO=1.69n VJ=2.5V) Rsp s2 s3 0.15 Dbd1 s3 d2 Dbt1 .MODEL Dbt1 D(BV=1000 M=0.65 CJO=6.64n VJ=2.5V) Dbody s2 21 DBODY .MODEL DBODY D(IS=7.2p N=1.05 RS=0.03u EG=1.12 TT=30n) Rdiode d1 21 0.66m TC=1m .MODEL sw NMOS(VTO=0 KP=10 LEVEL=1) Maux g2 c a a sw Maux2 b d g2 g2 sw Eaux c a d2 g2 1 Eaux2 d g2 d2 g2 -1 Cox b d2 0.6n .MODEL DGD D(M=0.42 CJO=0.6n VJ=0.5) Rpar b d2 1Meg Dgd a d2 DGD Rpar2 d2 a 10Meg Cgs g2 s2 4.11n .ENDS IPT054N15N5_L0 ***************** .SUBCKT IPT063N15N5_L0 drain gate source Lg gate g1 2.7n Ld drain d1 0.1n Ls source s1 0.7n Rs s1 s2 233u TC=3m Rg g1 g2 0.9 M1 d2 g2 s2 s2 DMOS L=1u W=1u .MODEL DMOS NMOS ( KP=191.4 VTO=5 THETA=0 VMAX=1.5e5 ETA=0.005 LEVEL=3) Rd d1 d2 4.27m TC=9m Dbd s2 d2 Dbt .MODEL Dbt D(BV=161 M=0.65 CJO=1.42n VJ=2.5V) Rsp s2 s3 0.15 Dbd1 s3 d2 Dbt1 .MODEL Dbt1 D(BV=1000 M=0.65 CJO=5.63n VJ=2.5V) Dbody s2 21 DBODY .MODEL DBODY D(IS=6.1p N=1.05 RS=0.03u EG=1.12 TT=30n) Rdiode d1 21 0.78m TC=1m .MODEL sw NMOS(VTO=0 KP=10 LEVEL=1) Maux g2 c a a sw Maux2 b d g2 g2 sw Eaux c a d2 g2 1 Eaux2 d g2 d2 g2 -1 Cox b d2 0.51n .MODEL DGD D(M=0.42 CJO=0.51n VJ=0.5) Rpar b d2 1Meg Dgd a d2 DGD Rpar2 d2 a 10Meg Cgs g2 s2 3.48n .ENDS IPT063N15N5_L0 ***************** .SUBCKT BSC074N15NS5_L0 drain gate source Lg gate g1 2.2n Ld drain d1 100p Ls source s1 250p Rs s1 s2 160u TC=3m Rg g1 g2 1 M1 d2 g2 s2 s2 DMOS L=1u W=1u .MODEL DMOS NMOS ( KP=169.1 VTO=5 THETA=0 VMAX=1.5e5 ETA=0.005 LEVEL=3) Rd d1 d2 4.82m TC=9m Dbd s2 d2 Dbt .MODEL Dbt D(BV=161 M=0.65 CJO=1.26n VJ=2.5V) Rsp s2 s3 0.15 Dbd1 s3 d2 Dbt1 .MODEL Dbt1 D(BV=1000 M=0.65 CJO=4.99n VJ=2.5V) Dbody s2 21 DBODY .MODEL DBODY D(IS=5.4p N=1.05 RS=0.04u EG=1.12 TT=30n) Rdiode d1 21 0.89m TC=1m .MODEL sw NMOS(VTO=0 KP=10 LEVEL=1) Maux g2 c a a sw Maux2 b d g2 g2 sw Eaux c a d2 g2 1 Eaux2 d g2 d2 g2 -1 Cox b d2 0.45n .MODEL DGD D(M=0.42 CJO=0.45n VJ=0.5) Rpar b d2 1Meg Dgd a d2 DGD Rpar2 d2 a 10Meg Cgs g2 s2 3.07n .ENDS BSC074N15NS5_L0 ***************** .SUBCKT BSC093N15NS5_L0 drain gate source Lg gate g1 2.2n Ld drain d1 100p Ls source s1 350p Rs s1 s2 410u TC=3m Rg g1 g2 0.9 M1 d2 g2 s2 s2 DMOS L=1u W=1u .MODEL DMOS NMOS ( KP= 133.3 VTO=5 THETA=0 VMAX=1.5e5 ETA=0.005 LEVEL=3) Rd d1 d2 6.12m TC=9m Dbd s2 d2 Dbt .MODEL Dbt D(BV=161 M=0.65 CJO=0.99n VJ=2.5V) Rsp s2 s3 0.15 Dbd1 s3 d2 Dbt1 .MODEL Dbt1 D(BV=1000 M=0.65 CJO=3.96n VJ=2.5V) Dbody s2 21 DBODY .MODEL DBODY D(IS=4.3p N=1.05 RS=0.05u EG=1.12 TT=30n) Rdiode d1 21 1.13m TC=1m .MODEL sw NMOS(VTO=0 KP=10 LEVEL=1) Maux g2 c a a sw Maux2 b d g2 g2 sw Eaux c a d2 g2 1 Eaux2 d g2 d2 g2 -1 Cox b d2 0.35n .MODEL DGD D(M=0.42 CJO=0.35n VJ=0.5) Rpar b d2 1Meg Dgd a d2 DGD Rpar2 d2 a 10Meg Cgs g2 s2 2.42n .ENDS BSC093N15NS5_L0 ****** .SUBCKT BSC110N15NS5_L0 drain gate source Lg gate g1 2.2n Ld drain d1 100p Ls source s1 350p Rs s1 s2 410u TC=3m Rg g1 g2 0.9 M1 d2 g2 s2 s2 DMOS L=1u W=1u .MODEL DMOS NMOS ( KP= 113.6 VTO=5 THETA=0 VMAX=1.5e5 ETA=0.005 LEVEL=3) Rd d1 d2 7.17m TC=9m Dbd s2 d2 Dbt .MODEL Dbt D(BV=161 M=0.65 CJO=0.85n VJ=2.5V) Rsp s2 s3 0.15 Dbd1 s3 d2 Dbt1 .MODEL Dbt1 D(BV=1000 M=0.65 CJO=3.39n VJ=2.5V) Dbody s2 21 DBODY .MODEL DBODY D(IS=3.6p N=1.05 RS=0.06u EG=1.12 TT=30n) Rdiode d1 21 1.32m TC=1m .MODEL sw NMOS(VTO=0 KP=10 LEVEL=1) Maux g2 c a a sw Maux2 b d g2 g2 sw Eaux c a d2 g2 1 Eaux2 d g2 d2 g2 -1 Cox b d2 0.3n .MODEL DGD D(M=0.42 CJO=0.3n VJ=0.5) Rpar b d2 1Meg Dgd a d2 DGD Rpar2 d2 a 10Meg Cgs g2 s2 2.06n .ENDS BSC110N15NS5_L0 ****** .SUBCKT BSC160N15NS5_L0 drain gate source Lg gate g1 2.2n Ld drain d1 100p Ls source s1 350p Rs s1 s2 410u TC=3m Rg g1 g2 1 M1 d2 g2 s2 s2 DMOS L=1u W=1u .MODEL DMOS NMOS ( KP= 75 VTO=5 THETA=0 VMAX=1.5e5 ETA=0.005 LEVEL=3) Rd d1 d2 10.85m TC=9m Dbd s2 d2 Dbt .MODEL Dbt D(BV=161 M=0.65 CJO=0.56n VJ=2.5V) Rsp s2 s3 0.15 Dbd1 s3 d2 Dbt1 .MODEL Dbt1 D(BV=1000 M=0.65 CJO=2.27n VJ=2.5V) Dbody s2 21 DBODY .MODEL DBODY D(IS=2.4p N=1.05 RS=0.08u EG=1.12 TT=30n) Rdiode d1 21 2m TC=1m .MODEL sw NMOS(VTO=0 KP=10 LEVEL=1) Maux g2 c a a sw Maux2 b d g2 g2 sw Eaux c a d2 g2 1 Eaux2 d g2 d2 g2 -1 Cox b d2 0.2n .MODEL DGD D(M=0.42 CJO=0.2n VJ=0.5) Rpar b d2 1Meg Dgd a d2 DGD Rpar2 d2 a 10Meg Cgs g2 s2 1.36n .ENDS BSC160N15NS5_L0 ****** .SUBCKT BSZ300N15NS5_L0 drain gate source Lg gate g1 1.2n Ld drain d1 100p Ls source s1 250p Rs s1 s2 598u TC=3m Rg g1 g2 0.8 M1 d2 g2 s2 s2 DMOS L=1u W=1u .MODEL DMOS NMOS ( KP= 40.1 VTO=5 THETA=0 VMAX=1.5e5 ETA=0.005 LEVEL=3) Rd d1 d2 20.27m TC=9m Dbd s2 d2 Dbt .MODEL Dbt D(BV=161 M=0.65 CJO=0.3n VJ=2.5V) Rsp s2 s3 0.15 Dbd1 s3 d2 Dbt1 .MODEL Dbt1 D(BV=1000 M=0.65 CJO=1.25n VJ=2.5V) Dbody s2 21 DBODY .MODEL DBODY D(IS=1.3p N=1.05 RS=0.16u EG=1.12 TT=30n) Rdiode d1 21 3.74m TC=1m .MODEL sw NMOS(VTO=0 KP=10 LEVEL=1) Maux g2 c a a sw Maux2 b d g2 g2 sw Eaux c a d2 g2 1 Eaux2 d g2 d2 g2 -1 Cox b d2 0.11n .MODEL DGD D(M=0.42 CJO=0.11n VJ=0.5) Rpar b d2 1Meg Dgd a d2 DGD Rpar2 d2 a 10Meg Cgs g2 s2 0.73n .ENDS BSZ300N15NS5_L0 .SUBCKT IPTC039N15NM5_L0 drain gate source Lg gate g1 4.4n Ld drain d1 0.6n Ls source s1 0.9n Rs s1 s2 220u TC=3m Rg g1 g2 0.9 M1 d2 g2 s2 s2 DMOS L=1u W=1u .MODEL DMOS NMOS ( KP=304.2 VTO=5 THETA=0 VMAX=1.5e5 ETA=0.005 LEVEL=3) Rd d1 d2 2.7m TC=9m Dbd s2 d2 Dbt .MODEL Dbt D(BV=161 M=0.65 CJO=2.26n VJ=2.5V) Rsp s2 s3 0.15 Dbd1 s3 d2 Dbt1 .MODEL Dbt1 D(BV=1000 M=0.65 CJO=8.86n VJ=2.5V) Dbody s2 21 DBODY .MODEL DBODY D(IS=9.7p N=1.05 RS=0.02u EG=1.12 TT=30n) Rdiode d1 21 0.49m TC=1m .MODEL sw NMOS(VTO=0 KP=10 LEVEL=1) Maux g2 c a a sw Maux2 b d g2 g2 sw Eaux c a d2 g2 1 Eaux2 d g2 d2 g2 -1 Cox b d2 0.8n .MODEL DGD D(M=0.42 CJO=0.8n VJ=0.5) Rpar b d2 1Meg Dgd a d2 DGD Rpar2 d2 a 10Meg Cgs g2 s2 5.52n .ENDS IPTC039N15NM5_L0 ***************** .SUBCKT IPTC044N15NM5_L0 drain gate source Lg gate g1 4.4n Ld drain d1 0.6n Ls source s1 1n Rs s1 s2 272u TC=3m Rg g1 g2 0.9 M1 d2 g2 s2 s2 DMOS L=1u W=1u .MODEL DMOS NMOS ( KP=294 VTO=5 THETA=0 VMAX=1.5e5 ETA=0.005 LEVEL=3) Rd d1 d2 2.79m TC=9m Dbd s2 d2 Dbt .MODEL Dbt D(BV=161 M=0.65 CJO=2.19n VJ=2.5V) Rsp s2 s3 0.15 Dbd1 s3 d2 Dbt1 .MODEL Dbt1 D(BV=1000 M=0.65 CJO=8.57n VJ=2.5V) Dbody s2 21 DBODY .MODEL DBODY D(IS=9.4p N=1.05 RS=0.02u EG=1.12 TT=30n) Rdiode d1 21 0.51m TC=1m .MODEL sw NMOS(VTO=0 KP=10 LEVEL=1) Maux g2 c a a sw Maux2 b d g2 g2 sw Eaux c a d2 g2 1 Eaux2 d g2 d2 g2 -1 Cox b d2 0.78n .MODEL DGD D(M=0.42 CJO=0.78n VJ=0.5) Rpar b d2 1Meg Dgd a d2 DGD Rpar2 d2 a 10Meg Cgs g2 s2 5.34n .ENDS IPTC044N15NM5_L0 ***************** .SUBCKT IPTC054N15NM5_L0 drain gate source Lg gate g1 4.4n Ld drain d1 0.6n Ls source s1 1n Rs s1 s2 270u TC=3m Rg g1 g2 0.9 M1 d2 g2 s2 s2 DMOS L=1u W=1u .MODEL DMOS NMOS ( KP=238.5 VTO=5 THETA=0 VMAX=1.5e5 ETA=0.005 LEVEL=3) Rd d1 d2 3.44m TC=9m Dbd s2 d2 Dbt .MODEL Dbt D(BV=161 M=0.65 CJO=1.77n VJ=2.5V) Rsp s2 s3 0.15 Dbd1 s3 d2 Dbt1 .MODEL Dbt1 D(BV=1000 M=0.65 CJO=6.98n VJ=2.5V) Dbody s2 21 DBODY .MODEL DBODY D(IS=7.6p N=1.05 RS=0.03u EG=1.12 TT=30n) Rdiode d1 21 0.63m TC=1m .MODEL sw NMOS(VTO=0 KP=10 LEVEL=1) Maux g2 c a a sw Maux2 b d g2 g2 sw Eaux c a d2 g2 1 Eaux2 d g2 d2 g2 -1 Cox b d2 0.63n .MODEL DGD D(M=0.42 CJO=0.63n VJ=0.5) Rpar b d2 1Meg Dgd a d2 DGD Rpar2 d2 a 10Meg Cgs g2 s2 4.33n .ENDS IPTC054N15NM5_L0 ***************** .SUBCKT IPTC063N15NM5_L0 drain gate source Lg gate g1 4.4n Ld drain d1 0.6n Ls source s1 1n Rs s1 s2 255u TC=3m Rg g1 g2 0.9 M1 d2 g2 s2 s2 DMOS L=1u W=1u .MODEL DMOS NMOS ( KP=203.8 VTO=5 THETA=0 VMAX=1.5e5 ETA=0.005 LEVEL=3) Rd d1 d2 4.02m TC=9m Dbd s2 d2 Dbt .MODEL Dbt D(BV=161 M=0.65 CJO=1.52n VJ=2.5V) Rsp s2 s3 0.15 Dbd1 s3 d2 Dbt1 .MODEL Dbt1 D(BV=1000 M=0.65 CJO=5.99n VJ=2.5V) Dbody s2 21 DBODY .MODEL DBODY D(IS=6.5p N=1.05 RS=0.03u EG=1.12 TT=30n) Rdiode d1 21 0.74m TC=1m .MODEL sw NMOS(VTO=0 KP=10 LEVEL=1) Maux g2 c a a sw Maux2 b d g2 g2 sw Eaux c a d2 g2 1 Eaux2 d g2 d2 g2 -1 Cox b d2 0.54n .MODEL DGD D(M=0.42 CJO=0.54n VJ=0.5) Rpar b d2 1Meg Dgd a d2 DGD Rpar2 d2 a 10Meg Cgs g2 s2 3.7n .ENDS IPTC063N15NM5_L0 ***************** .SUBCKT IPTG039N15NM5_L0 drain gate source Lg gate g1 4.6n Ld drain d1 0.1n Ls source s1 1.1n Rs s1 s2 220u TC=3m Rg g1 g2 0.9 M1 d2 g2 s2 s2 DMOS L=1u W=1u .MODEL DMOS NMOS ( KP=304.3 VTO=5 THETA=0 VMAX=1.5e5 ETA=0.005 LEVEL=3) Rd d1 d2 2.69m TC=9m Dbd s2 d2 Dbt .MODEL Dbt D(BV=161 M=0.65 CJO=2.26n VJ=2.5V) Rsp s2 s3 0.15 Dbd1 s3 d2 Dbt1 .MODEL Dbt1 D(BV=1000 M=0.65 CJO=8.86n VJ=2.5V) Dbody s2 21 DBODY .MODEL DBODY D(IS=9.7p N=1.05 RS=0.02u EG=1.12 TT=30n) Rdiode d1 21 0.49m TC=1m .MODEL sw NMOS(VTO=0 KP=10 LEVEL=1) Maux g2 c a a sw Maux2 b d g2 g2 sw Eaux c a d2 g2 1 Eaux2 d g2 d2 g2 -1 Cox b d2 0.8n .MODEL DGD D(M=0.42 CJO=0.8n VJ=0.5) Rpar b d2 1Meg Dgd a d2 DGD Rpar2 d2 a 10Meg Cgs g2 s2 5.53n .ENDS IPTG039N15NM5_L0 ***************** .SUBCKT IPTG044N15NM5_L0 drain gate source Lg gate g1 4.6n Ld drain d1 0.1n Ls source s1 1.3n Rs s1 s2 272u TC=3m Rg g1 g2 0.9 M1 d2 g2 s2 s2 DMOS L=1u W=1u .MODEL DMOS NMOS ( KP=294 VTO=5 THETA=0 VMAX=1.5e5 ETA=0.005 LEVEL=3) Rd d1 d2 2.78m TC=9m Dbd s2 d2 Dbt .MODEL Dbt D(BV=161 M=0.65 CJO=2.19n VJ=2.5V) Rsp s2 s3 0.15 Dbd1 s3 d2 Dbt1 .MODEL Dbt1 D(BV=1000 M=0.65 CJO=8.57n VJ=2.5V) Dbody s2 21 DBODY .MODEL DBODY D(IS=9.4p N=1.05 RS=0.02u EG=1.12 TT=30n) Rdiode d1 21 0.51m TC=1m .MODEL sw NMOS(VTO=0 KP=10 LEVEL=1) Maux g2 c a a sw Maux2 b d g2 g2 sw Eaux c a d2 g2 1 Eaux2 d g2 d2 g2 -1 Cox b d2 0.78n .MODEL DGD D(M=0.42 CJO=0.78n VJ=0.5) Rpar b d2 1Meg Dgd a d2 DGD Rpar2 d2 a 10Meg Cgs g2 s2 5.34n .ENDS IPTG044N15NM5_L0 ***************** .SUBCKT IPTG054N15NM5_L0 drain gate source Lg gate g1 4.6n Ld drain d1 0.1n Ls source s1 1.3n Rs s1 s2 270u TC=3m Rg g1 g2 0.9 M1 d2 g2 s2 s2 DMOS L=1u W=1u .MODEL DMOS NMOS ( KP=238.5 VTO=5 THETA=0 VMAX=1.5e5 ETA=0.005 LEVEL=3) Rd d1 d2 3.43m TC=9m Dbd s2 d2 Dbt .MODEL Dbt D(BV=161 M=0.65 CJO=1.77n VJ=2.5V) Rsp s2 s3 0.15 Dbd1 s3 d2 Dbt1 .MODEL Dbt1 D(BV=1000 M=0.65 CJO=6.98n VJ=2.5V) Dbody s2 21 DBODY .MODEL DBODY D(IS=7.6p N=1.05 RS=0.03u EG=1.12 TT=30n) Rdiode d1 21 0.63m TC=1m .MODEL sw NMOS(VTO=0 KP=10 LEVEL=1) Maux g2 c a a sw Maux2 b d g2 g2 sw Eaux c a d2 g2 1 Eaux2 d g2 d2 g2 -1 Cox b d2 0.63n .MODEL DGD D(M=0.42 CJO=0.63n VJ=0.5) Rpar b d2 1Meg Dgd a d2 DGD Rpar2 d2 a 10Meg Cgs g2 s2 4.33n .ENDS IPTG054N15NM5_L0 ***************** .SUBCKT IPTG063N15NM5_L0 drain gate source Lg gate g1 4.6n Ld drain d1 0.1n Ls source s1 1.3n Rs s1 s2 255u TC=3m Rg g1 g2 0.9 M1 d2 g2 s2 s2 DMOS L=1u W=1u .MODEL DMOS NMOS ( KP=203.8 VTO=5 THETA=0 VMAX=1.5e5 ETA=0.005 LEVEL=3) Rd d1 d2 4.01m TC=9m Dbd s2 d2 Dbt .MODEL Dbt D(BV=161 M=0.65 CJO=1.52n VJ=2.5V) Rsp s2 s3 0.15 Dbd1 s3 d2 Dbt1 .MODEL Dbt1 D(BV=1000 M=0.65 CJO=5.99n VJ=2.5V) Dbody s2 21 DBODY .MODEL DBODY D(IS=6.5p N=1.05 RS=0.03u EG=1.12 TT=30n) Rdiode d1 21 0.74m TC=1m .MODEL sw NMOS(VTO=0 KP=10 LEVEL=1) Maux g2 c a a sw Maux2 b d g2 g2 sw Eaux c a d2 g2 1 Eaux2 d g2 d2 g2 -1 Cox b d2 0.54n .MODEL DGD D(M=0.42 CJO=0.54n VJ=0.5) Rpar b d2 1Meg Dgd a d2 DGD Rpar2 d2 a 10Meg Cgs g2 s2 3.7n .ENDS IPTG063N15NM5_L0 ***************** .SUBCKT IQD063N15NM5_L0 drain gate source Lg gate g1 1n Ld drain d1 300p Ls source s1 100p Rs s1 s2 11u TC=3m Rg g1 g2 0.89 M1 d2 g2 s2 s2 DMOS L=1u W=1u .MODEL DMOS NMOS ( KP=199.1 VTO=5 THETA=0 VMAX=1.5e5 ETA=0.005 LEVEL=3) Rd d1 d2 4.16m TC=9m Dbd s2 d2 Dbt .MODEL Dbt D(BV=161 M=0.65 CJO=1.48n VJ=2.5V) Rsp s2 s3 0.029 Dbd1 s3 d2 Dbt1 .MODEL Dbt1 D(BV=1000 M=0.65 CJO=5.85n VJ=2.5V) Dbody s2 21 DBODY .MODEL DBODY D(IS=6.4p N=1.05 RS=0.03u EG=1.12 TT=30n) Rdiode d1 21 0.75m TC=1m .MODEL sw NMOS(VTO=0 KP=10 LEVEL=1) Maux g2 c a a sw Maux2 b d g2 g2 sw Eaux c a d2 g2 1 Eaux2 d g2 d2 g2 -1 Cox b d2 0.53n .MODEL DGD D(M=0.42 CJO=0.53n VJ=0.5) Rpar b d2 1Meg Dgd a d2 DGD Rpar2 d2 a 10Meg Cgs g2 s2 3.62n .ENDS IQD063N15NM5_L0 ***************** .SUBCKT IQE220N15NM5CGSC_L0 drain gate source Lg gate g1 1n Ld drain d1 0.25n Ls source s1 100p Rs s1 s2 11u TC=3m Rg g1 g2 0.8 M1 d2 g2 s2 s2 DMOS L=1u W=1u .MODEL DMOS NMOS ( KP=57.9 VTO=5 THETA=0 VMAX=1.5e5 ETA=0.005 LEVEL=3) Rd d1 d2 14.12m TC=9m Dbd s2 d2 Dbt .MODEL Dbt D(BV=161 M=0.65 CJO=0.43n VJ=2.5V) Rsp s2 s3 0.66 Dbd1 s3 d2 Dbt1 .MODEL Dbt1 D(BV=1000 M=0.65 CJO=1.77n VJ=2.5V) Dbody s2 21 DBODY .MODEL DBODY D(IS=1.9p N=1.05 RS=0.11u EG=1.12 TT=30n) Rdiode d1 21 2.59m TC=1m .MODEL sw NMOS(VTO=0 KP=10 LEVEL=1) Maux g2 c a a sw Maux2 b d g2 g2 sw Eaux c a d2 g2 1 Eaux2 d g2 d2 g2 -1 Cox b d2 0.15n .MODEL DGD D(M=0.42 CJO=0.15n VJ=0.5) Rpar b d2 1Meg Dgd a d2 DGD Rpar2 d2 a 10Meg Cgs g2 s2 1.05n .ENDS IQE220N15NM5CGSC_L0 ***************** .SUBCKT IQE220N15NM5CG_L0 drain gate source Lg gate g1 1n Ld drain d1 0.25n Ls source s1 100p Rs s1 s2 11u TC=3m Rg g1 g2 0.8 M1 d2 g2 s2 s2 DMOS L=1u W=1u .MODEL DMOS NMOS ( KP=57.9 VTO=5 THETA=0 VMAX=1.5e5 ETA=0.005 LEVEL=3) Rd d1 d2 14.12m TC=9m Dbd s2 d2 Dbt .MODEL Dbt D(BV=161 M=0.65 CJO=0.43n VJ=2.5V) Rsp s2 s3 0.66 Dbd1 s3 d2 Dbt1 .MODEL Dbt1 D(BV=1000 M=0.65 CJO=1.77n VJ=2.5V) Dbody s2 21 DBODY .MODEL DBODY D(IS=1.9p N=1.05 RS=0.11u EG=1.12 TT=30n) Rdiode d1 21 2.59m TC=1m .MODEL sw NMOS(VTO=0 KP=10 LEVEL=1) Maux g2 c a a sw Maux2 b d g2 g2 sw Eaux c a d2 g2 1 Eaux2 d g2 d2 g2 -1 Cox b d2 0.15n .MODEL DGD D(M=0.42 CJO=0.15n VJ=0.5) Rpar b d2 1Meg Dgd a d2 DGD Rpar2 d2 a 10Meg Cgs g2 s2 1.05n .ENDS IQE220N15NM5CG_L0 ***************** .SUBCKT IQE220N15NM5SC_L0 drain gate source Lg gate g1 1n Ld drain d1 0.25n Ls source s1 100p Rs s1 s2 11u TC=3m Rg g1 g2 0.8 M1 d2 g2 s2 s2 DMOS L=1u W=1u .MODEL DMOS NMOS ( KP=57.9 VTO=5 THETA=0 VMAX=1.5e5 ETA=0.005 LEVEL=3) Rd d1 d2 14.12m TC=9m Dbd s2 d2 Dbt .MODEL Dbt D(BV=161 M=0.65 CJO=0.43n VJ=2.5V) Rsp s2 s3 0.66 Dbd1 s3 d2 Dbt1 .MODEL Dbt1 D(BV=1000 M=0.65 CJO=1.77n VJ=2.5V) Dbody s2 21 DBODY .MODEL DBODY D(IS=1.9p N=1.05 RS=0.11u EG=1.12 TT=30n) Rdiode d1 21 2.59m TC=1m .MODEL sw NMOS(VTO=0 KP=10 LEVEL=1) Maux g2 c a a sw Maux2 b d g2 g2 sw Eaux c a d2 g2 1 Eaux2 d g2 d2 g2 -1 Cox b d2 0.15n .MODEL DGD D(M=0.42 CJO=0.15n VJ=0.5) Rpar b d2 1Meg Dgd a d2 DGD Rpar2 d2 a 10Meg Cgs g2 s2 1.05n .ENDS IQE220N15NM5SC_L0 ***************** .SUBCKT IQE220N15NM5_L0 drain gate source Lg gate g1 1n Ld drain d1 0.25n Ls source s1 100p Rs s1 s2 11u TC=3m Rg g1 g2 0.8 M1 d2 g2 s2 s2 DMOS L=1u W=1u .MODEL DMOS NMOS ( KP=57.9 VTO=5 THETA=0 VMAX=1.5e5 ETA=0.005 LEVEL=3) Rd d1 d2 14.12m TC=9m Dbd s2 d2 Dbt .MODEL Dbt D(BV=161 M=0.65 CJO=0.43n VJ=2.5V) Rsp s2 s3 0.66 Dbd1 s3 d2 Dbt1 .MODEL Dbt1 D(BV=1000 M=0.65 CJO=1.77n VJ=2.5V) Dbody s2 21 DBODY .MODEL DBODY D(IS=1.9p N=1.05 RS=0.11u EG=1.12 TT=30n) Rdiode d1 21 2.59m TC=1m .MODEL sw NMOS(VTO=0 KP=10 LEVEL=1) Maux g2 c a a sw Maux2 b d g2 g2 sw Eaux c a d2 g2 1 Eaux2 d g2 d2 g2 -1 Cox b d2 0.15n .MODEL DGD D(M=0.42 CJO=0.15n VJ=0.5) Rpar b d2 1Meg Dgd a d2 DGD Rpar2 d2 a 10Meg Cgs g2 s2 1.05n .ENDS IQE220N15NM5_L0 *****************