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DC-DC-Wandler-Eigenentwicklung/Komponentenauslegung/FETs/Spice/Lib/PFD_950V.lib
beri-he b0c5b22c30 Basic Files
2025-05-29 19:19:47 +02:00

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*****************************************************************
* INFINEON Power Transistors *
* Content: SPICE Model Library *
* Device: CoolMOS (Superjunction MOSFET) *
* Model Types: L0 L1 L3 *
* Technology: PFD7 950V *
* Date and time: 28.02.2022 15:02:54 *
* Version: 869-718-870-934-885-945 *
*****************************************************************
* *
* The models for Infineon Power MOSFET are evaluated with *
* SIMetrixTM-SPICE simulator. The Infineon Power MOSFET models *
* are tested, verified and provided in SPICE simulation code. *
* *
* Infineon | Terminals | Usage suggestion *
* Level | | *
* ------------------------------------------------------------- *
* L0 | G, D, S | General electrical simulations/ whole *
* | | application circuits. *
* ------------------------------------------------------------- *
* L1 | G, D, S | Transient, switching losses and *
* | | efficiency analyses. Behavior of *
* | | device over full temperature range. *
* ------------------------------------------------------------- *
* L2 | G, D, S, | Same as L1 but with individual device *
* | Tj, Tcase | temperature. This model is not *
* | | supported because it is covered by *
* | | L3-model. *
* ------------------------------------------------------------- *
* L3 | G, D, S, | Self-heating effects, modeling of heat *
* | Tj, Tcase | flow including thermal models of *
* | | application. *
* *
*****************************************************************
* Detailed Informations: *
* *
* The model files are available on the Infineon web page: *
* http://www.infineon.com *
* Please refer also to the Infineon application note AN 2014-02 *
* "Simulation models for Infineon Power MOSFET" *
* *
* This library contains models of the following INFINEON *
* CoolMOS transistors: *
* *
* PFD7 950V *
* IPW95R060PFD7 IPW95R130PFD7 IPA95R130PFD7 *
* IPB95R130PFD7 IPW95R310PFD7 IPA95R310PFD7 *
* IPB95R310PFD7 IPA95R450PFD7 IPB95R450PFD7 *
* IPD95R450PFD7 *
* *
*****************************************************************
**********************************************************************
************************ L1 TECHNOLOGY MODEL *************************
**********************************************************************
.SUBCKT cool_tech dd g s Tj t1 PARAMS: a=1 dVth=0 dR=0 Inn=1 Unn=1 Rmax=1
+gmin=1 Rs=1 Rdp=1 heat=0
.PARAM fpar42=298
.PARAM fpar1=3.61
.PARAM fpar2=0.004
.PARAM fpar3=-0.0011
.PARAM fpar4=11.8
.PARAM fpar5=2.35
.PARAM fpar6=3.3
.PARAM fpar7=0.393
.PARAM fpar8=10.5
.PARAM fpar9=1.3
.PARAM fpar10=5.68
.PARAM fpar11=1.7413
.PARAM fpar12=50
.PARAM fpar13=0.295
.PARAM fpar14=-23
.PARAM fpar15=1045
.PARAM fpar16=1.045
.PARAM fpar18=0.25
.PARAM fpar19=-30
.PARAM fpar20=0.8e-007
.PARAM fpar21=1.09
.PARAM fpar22=0.25
.PARAM fpar23=1.47e-015
.PARAM fpar24=2.8e-010
.PARAM fpar25=8.546e-011
.PARAM fpar26=5.14e-012
.PARAM fpar27=1.66e-015
.PARAM fpar28=12e-013
.PARAM fpar29=8.334e-012
.PARAM fpar30=4.72e-013
.PARAM fpar31=1e-014
.PARAM fpar32=142
.PARAM fpar33=1.3e-012
.PARAM fpar34=0.5e-012
.PARAM fpar35=1.712e-010
.PARAM fpar36=6.739625e-008
.PARAM fpar37=3.46758e-009
.PARAM fpar38=1.6e-010
.PARAM fpar39=0.3e-010
.PARAM fpar17=0.0
.PARAM fpar40=85.8u
.PARAM fpar41=273
.PARAM dRdi={fpar18/a}
.PARAM Cdio={fpar23*a}
.PARAM Cdg1={fpar24*a+fpar25*SQRT(a)}
.PARAM Cdg2={fpar26*a}
.PARAM CdgV1={fpar27*a}
.PARAM CdgV2={(fpar31*a+fpar28)}
.PARAM Cds0={fpar33*a+fpar34*SQRT(a)}
.PARAM Cds1={a*fpar35+40p*4*SQRT(a)}
.PARAM Cgs0={fpar38*a+fpar39*(SQRT(a))}
.PARAM Vmin=3.01 Vmax=4.21
.PARAM Vth={fpar1+(Vmax-fpar1)*limit(dVth,0,1)-(Vmin-fpar1)*limit(dVth,-1,0)}
.PARAM r0={fpar8*((fpar41/fpar42)**fpar9)*a}
.PARAM r1={(Unn-Inn*Rs-fpar1)*r0}
.PARAM r2={(fpar17*SQRT(0.4)-fpar11)*Inn*r0}
.PARAM Rlim={(r1+2*r2*Rmax-SQRT(r1**2+4*r2))/(2*r2)}
.PARAM dRd={fpar5/a+if(dVth==0,limit(dR,0,1)*max(Rlim-fpar5/a-Rs-Rdp,0),0)}
.PARAM CAP_eedg=-0.556
.PARAM x0={(fpar29-fpar26)/fpar30} x1={fpar29/fpar30} dx={x1-x0}
.FUNC QCdg1(x) {Cdg2*min(x,x1)+CdgV2*max(x-x1,0)+CdgV1/2*max(0, x-fpar32)**2+(Cdg2-CdgV2)*((limit(x,x0,x1)-x0)**3/(dx*dx)*((limit(x,x0,x1)-x0)/(2*dx)-1))}
.PARAM Eds1={-6000} Eds2={-320} Eds3={-200} eeds1={-0.1667} eeds2={-6.25m} eeds3={-0.05}
.PARAM a0={(fpar36-fpar35)/fpar37} a1={fpar36/fpar37} da={a1-a0}
.FUNC QCds1(x) {Cds1*min(x,a1)+Cds1*((limit(x,a0,a1)-a0)**3/(da*da)*((limit(x,a0,a1)-a0)/(2*da)-1))}
E_Edg1 d1 ox VALUE {if(V(d1,g)>0,V(d1,g)-(exp(CAP_eedg*max(V(d1,g),0))-1)/CAP_eedg,0)}
C_Cdg1 ox g {Cdg1}
E_Edg2 d1 ox2 VALUE {V(d1,g)-QCdg1(V(d1,g))/Cdg2}
C_Cdg2 ox2 g {Cdg2}
C_Cds0 d1 s {Cds0}
E_Eds1 d1 edep1 VALUE {if(V(d1,s)>0,V(d1,s)-Eds1*(exp(eeds1*max(V(d1,s),0))-1)-Eds2*(exp(eeds2*max(V(d1,s),0))-1)-Eds3*(exp(eeds3*max(V(d1,s),0))-1),0)}
C_Cds1 edep1 s {Cds0}
E_Eds2 d1 edep2 VALUE {V(d1,s)-QCds1(V(d1,s))/Cds1}
C_Cds2 edep2 s {Cds1}
C_Cgs g s {Cgs0}
.FUNC I0(Uee,p,pp,z1,cc) {if(Uee>pp,(Uee-cc*z1)*z1,p*(pp-p)/cc*exp((Uee-pp)/p))}
.FUNC Ig(Uds,T,p,Uee,cc) {fpar8*(fpar41/T)**fpar9*I0(Uee,p,min(2*p,p+cc*Uds),min(Uds,Uee/(2*cc)),cc)}
.FUNC J(d,g,T,da,s)
+ {a*(s*(Ig(da,T,fpar10*fpar40*T,g-Vth+fpar2*(T-fpar42),fpar11)+1*exp(min(fpar14+(d-fpar15-fpar16*(T-fpar42))/fpar13,25))))}
G_chan d s VALUE={J(V(d,s),V(g,s),fpar41+limit(V(Tj),-200,499),(SQRT(1+4*fpar12*abs(V(d,s)))-1)/2/fpar12,sgn(V(d,s)))}
V_Ichannel d1 d 0
.FUNC Rd0(T) {(fpar7*dRd+(1-fpar7)*dRd*(T/fpar42)**fpar6)}
.FUNC CF(T,Iepi) {(fpar4**2)/max(1,fpar4**2-(Rd0(T)*Iepi)**limit(2+fpar3*(T-fpar42),1.2,3))}
V_Iepi dd d2 0
G_G_Rd d2 d1 VALUE {V(d2,d1)/(Rd0(fpar41+LIMIT(V(t1),-200,999))*CF(fpar41+LIMIT(V(t1),-200,999),abs(I(V_Iepi))))}
Dbody s dio dbody
.model dbody D (BV={fpar15*10}, CJO ={Cdio}, TT={fpar20}, IS ={a*exp(fpar19)} m={0.3} RS={dRdi/100} N={fpar21} )
G_Rdio dio2 dd VALUE={V(dio2,dd)/(dRdi*((limit(V(Tj),-200,999)+fpar41)/fpar42)**fpar22)}
V_sense2 dio2 dio 0
R_R_ERd_g d2 d1 10k
R1 g s 1G
Rd01 d s 500Meg
Rd02 d2 s 500Meg
Rd03 dio s 500Meg
G_G_Ptot_channel 0 Tj VALUE {heat*LIMIT(V(d,s)*I(V_Ichannel),0,100k) }
G_G_Ptot_Epi 0 t1 VALUE {heat*(LIMIT(V(dd,d1)*I(V_Iepi),0,100k)+LIMIT(V(dd,s)*I(V_sense2),0,100k))}
.ENDS
**********************************************************************
**********************************************************************
************************ L0 TECHNOLOGY MODEL *************************
**********************************************************************
.SUBCKT cool_tech0a d1 g2 s2 PARAMS: a=1
.PARAM MOS_KP_A={4.05}
.PARAM MOS_VTO={3.6}
.PARAM MOS_THETA={0.2}
.PARAM MOS_ETA={0.0+0.00}
.PARAM MOS_RdA={1.85}
.PARAM MOS_TC_RD={22m}
.PARAM MOSR_KPR_A={2.0}
.PARAM MOSR_VTOR={-1*1.0}
.PARAM MOSR_LAMBDAR={0.15*1.4}
.PARAM Dbt_BV={950}
.PARAM Dbt_M={0.9*1.0}
.PARAM Dbt_CJ0_A={0.3n}
.PARAM Dbt_VJ={0.5*1.0}
.PARAM DBODY_IS_A={200p}
.PARAM DBODY_N={1.5}
.PARAM DBODY_RRS={5u*1}
.PARAM DBODY_EG={1.12*1}
.PARAM DBODY_TT=250n
.PARAM DBODY_RSA={250m}
.PARAM DBODY_RS_TC={0.70m}
.PARAM DGD_M={0.55*1.0}
.PARAM DGD_VJ={0.5*1.0}
.PARAM CAP_Cox_Aa={0.030n}
.PARAM CAP_Cgs_Aa={0.18n}
.PARAM CAP_Cds1_Aa={0.9p}
.PARAM MOS_KP={MOS_KP_A*a}
.PARAM MOS_Rd={MOS_RdA/a}
.PARAM MOSR_KPR={MOSR_KPR_A*a}
.PARAM Dbt_CJ0={Dbt_CJ0_A*a}
.PARAM DBODY_IS={DBODY_IS_A*a}
.PARAM DBODY_RS={DBODY_RSA/a}
.PARAM CAP_Cox_a={CAP_Cox_Aa*a}
.PARAM CAP_Cgs_a={CAP_Cgs_Aa*a}
.PARAM CAP_Cds1_a={CAP_Cds1_Aa*a}
M1 d2 g2 s2 s2 DMOS L=1u W=1u
.MODEL DMOS NMOS ( KP= {MOS_KP} VTO={MOS_VTO} THETA={MOS_THETA} VMAX=1.5e5 ETA={MOS_ETA} LEVEL=3)
Rd d2 d1a {MOS_Rd} TC1={MOS_TC_RD}
.MODEL MVDR NMOS (KP={MOSR_KPR} VTO={MOSR_VTOR} LAMBDA={MOSR_LAMBDAR})
Mr d1 d2a d1a d1a MVDR W=1u L=1u
Rx d2a d1a 1m
Cds1 s2 d2 {CAP_Cds1_a}
Dbd s2 d2 Dbt
.MODEL Dbt D(BV={Dbt_BV} M={Dbt_M} CJO={Dbt_CJ0} VJ={Dbt_VJ})
Dbody s2 21 DBODY
.MODEL DBODY D(IS={DBODY_IS} N={DBODY_N} RS={DBODY_RRS} EG={DBODY_EG} TT={DBODY_TT})
Rdiode d1 21 {DBODY_RS} TC1={DBODY_RS_TC}
.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 {10*CAP_Cox_a}
.MODEL DGD D(M={DGD_M} CJO={CAP_Cox_a} VJ={DGD_VJ})
Rpar b d2 1Meg
Dgd a d2 DGD
Rpar2 d2 a 10Meg
Cgs g2 s2 {CAP_Cgs_a}
.ENDS cool_tech0a
**********************************************************************
.SUBCKT IPW95R060PFD7_L0 drain gate source
.PARAM act=57.03
X1 dd g s cool_tech0a PARAMS: a={act}
Lg gate g1 8.32E-09
Ld drain dd 1.88E-09
Ls source s1 2.82E-09
Rs s1 s 3.42E-04
Rg g1 g 0.5
.ENDS IPW95R060PFD7_L0
********************************************************************************
.SUBCKT IPW95R060PFD7_L1 drain gate source PARAMS: dVth=0 dRdson=0
.PARAM Rs=3.42E-04 Rg=0.5 Rdp=7.44E-05 Ls=2.82E-09 Ld=1.88E-09
.PARAM Lg=8.32E-09 act=57.03 Inn={1.0*57.03} Unn=10.0 Rmax=60.0m
X1 dd g s Tj Tj cool_tech PARAMS: a={act} dVth={dVth} dR={dRdson} Inn={Inn} Unn={Unn}
+Rmax={Rmax} Rs={Rs} Rdp={Rdp} heat=0
L_Ld drain ldrd {Ld}
R_Ld drain ldrd 10
R_Rd dd ldrd {Rdp}
L_Ls source lsrs {Ls}
R_Ls source lsrs 10
R_Rs s lsrs {Rs}
L_Lg gate lgrg {Lg}
R_Lg gate lgrg 10
R_Rg lgrg g {Rg}
E1 Tj w VALUE={TEMP}
R1 w 0 1u
.ENDS
********************************************************************************
.SUBCKT IPW95R060PFD7_L3 drain gate source Tj Tcase PARAMS: dVth=0 dRdson=0 Zthtype=0
.PARAM Rs=3.42E-04 Rg=0.5 Rdp=7.44E-05 Ls=2.82E-09 Ld=1.88E-09
.PARAM Lg=8.32E-09 act=57.03 Inn={1.0*57.03} Unn=10.0 Rmax=60.0m
.PARAM lzth={limit(Zthtype,0,1)}
X1 dd g s Tj 1 cool_tech PARAMS: a={act} dVth={dVth} dR={dRdson} Inn={Inn} Unn={Unn}
+Rmax={Rmax} Rs={Rs} Rdp={Rdp} heat=1
L_Ld drain ldrd {Ld}
R_Ld drain ldrd 10
R_Rd dd ldrd {Rdp}
L_Ls source lsrs {Ls}
R_Ls source lsrs 10
R_Rs s lsrs {Rs}
L_Lg gate lgrg {Lg}
R_Lg gate lgrg 10
R_Rg lgrg g {Rg}
C_Czth1 Tj 0 548.626u
C_Czth2 0 1 5.615m
C_Czth3 0 2 4.999m
C_Czth4 0 3 26.628m
C_Czth5 0 4 145.15m
C_Czth6 0 Tcase 500.0m
C_Czth7 0 6 1.9
C_Czth8 0 7 2.0
R_Rth1 Tj 1 {4.14m+lzth*1.07m}
R_Rth2 1 2 {5.89m+lzth*1.53m}
R_Rth3 2 3 {22.26m+lzth*5.77m}
R_Rth4 3 4 {42.61m+lzth*66.98m}
R_Rth5 4 Tcase {63.3m+lzth*66.44m}
R_Rth6 Tcase 6 200.0m
R_Rth7 6 7 6.3
.ENDS
********************************************************************************
.SUBCKT IPW95R130PFD7_L0 drain gate source
.PARAM act=25.05
X1 dd g s cool_tech0a PARAMS: a={act}
Lg gate g1 8.38E-09
Ld drain dd 1.94E-09
Ls source s1 3.12E-09
Rs s1 s 4.38E-04
Rg g1 g 0.9
.ENDS IPW95R130PFD7_L0
********************************************************************************
.SUBCKT IPW95R130PFD7_L1 drain gate source PARAMS: dVth=0 dRdson=0
.PARAM Rs=4.38E-04 Rg=0.9 Rdp=7.44E-05 Ls=3.12E-09 Ld=1.94E-09
.PARAM Lg=8.38E-09 act=25.05 Inn={1.0*25.05} Unn=10.0 Rmax=130.0m
X1 dd g s Tj Tj cool_tech PARAMS: a={act} dVth={dVth} dR={dRdson} Inn={Inn} Unn={Unn}
+Rmax={Rmax} Rs={Rs} Rdp={Rdp} heat=0
L_Ld drain ldrd {Ld}
R_Ld drain ldrd 10
R_Rd dd ldrd {Rdp}
L_Ls source lsrs {Ls}
R_Ls source lsrs 10
R_Rs s lsrs {Rs}
L_Lg gate lgrg {Lg}
R_Lg gate lgrg 10
R_Rg lgrg g {Rg}
E1 Tj w VALUE={TEMP}
R1 w 0 1u
.ENDS
********************************************************************************
.SUBCKT IPW95R130PFD7_L3 drain gate source Tj Tcase PARAMS: dVth=0 dRdson=0 Zthtype=0
.PARAM Rs=4.38E-04 Rg=0.9 Rdp=7.44E-05 Ls=3.12E-09 Ld=1.94E-09
.PARAM Lg=8.38E-09 act=25.05 Inn={1.0*25.05} Unn=10.0 Rmax=130.0m
.PARAM lzth={limit(Zthtype,0,1)}
X1 dd g s Tj 1 cool_tech PARAMS: a={act} dVth={dVth} dR={dRdson} Inn={Inn} Unn={Unn}
+Rmax={Rmax} Rs={Rs} Rdp={Rdp} heat=1
L_Ld drain ldrd {Ld}
R_Ld drain ldrd 10
R_Rd dd ldrd {Rdp}
L_Ls source lsrs {Ls}
R_Ls source lsrs 10
R_Rs s lsrs {Rs}
L_Lg gate lgrg {Lg}
R_Lg gate lgrg 10
R_Rg lgrg g {Rg}
C_Czth1 Tj 0 240.98u
C_Czth2 0 1 2.466m
C_Czth3 0 2 2.196m
C_Czth4 0 3 11.696m
C_Czth5 0 4 63.756m
C_Czth6 0 Tcase 500.0m
C_Czth7 0 6 1.9
C_Czth8 0 7 2.0
R_Rth1 Tj 1 {9.43m+lzth*2.45m}
R_Rth2 1 2 {13.41m+lzth*3.48m}
R_Rth3 2 3 {50.68m+lzth*13.14m}
R_Rth4 3 4 {86.45m+lzth*121.96m}
R_Rth5 4 Tcase {128.27m+lzth*120.74m}
R_Rth6 Tcase 6 200.0m
R_Rth7 6 7 6.3
.ENDS
********************************************************************************
.SUBCKT IPA95R130PFD7_L0 drain gate source
.PARAM act=25.05
X1 dd g s cool_tech0a PARAMS: a={act}
Lg gate g1 6.17E-09
Ld drain dd 1.86E-09
Ls source s1 2.08E-09
Rs s1 s 3.83E-04
Rg g1 g 0.9
.ENDS IPA95R130PFD7_L0
********************************************************************************
.SUBCKT IPA95R130PFD7_L1 drain gate source PARAMS: dVth=0 dRdson=0
.PARAM Rs=3.83E-04 Rg=0.9 Rdp=2.36E-04 Ls=2.08E-09 Ld=1.86E-09
.PARAM Lg=6.17E-09 act=25.05 Inn={1.0*25.05} Unn=10.0 Rmax=130.0m
X1 dd g s Tj Tj cool_tech PARAMS: a={act} dVth={dVth} dR={dRdson} Inn={Inn} Unn={Unn}
+Rmax={Rmax} Rs={Rs} Rdp={Rdp} heat=0
L_Ld drain ldrd {Ld}
R_Ld drain ldrd 10
R_Rd dd ldrd {Rdp}
L_Ls source lsrs {Ls}
R_Ls source lsrs 10
R_Rs s lsrs {Rs}
L_Lg gate lgrg {Lg}
R_Lg gate lgrg 10
R_Rg lgrg g {Rg}
E1 Tj w VALUE={TEMP}
R1 w 0 1u
.ENDS
********************************************************************************
.SUBCKT IPA95R130PFD7_L3 drain gate source Tj Tcase PARAMS: dVth=0 dRdson=0 Zthtype=0
.PARAM Rs=3.83E-04 Rg=0.9 Rdp=2.36E-04 Ls=2.08E-09 Ld=1.86E-09
.PARAM Lg=6.17E-09 act=25.05 Inn={1.0*25.05} Unn=10.0 Rmax=130.0m
.PARAM lzth={limit(Zthtype,0,1)}
X1 dd g s Tj 1 cool_tech PARAMS: a={act} dVth={dVth} dR={dRdson} Inn={Inn} Unn={Unn}
+Rmax={Rmax} Rs={Rs} Rdp={Rdp} heat=1
L_Ld drain ldrd {Ld}
R_Ld drain ldrd 10
R_Rd dd ldrd {Rdp}
L_Ls source lsrs {Ls}
R_Ls source lsrs 10
R_Rs s lsrs {Rs}
L_Lg gate lgrg {Lg}
R_Lg gate lgrg 10
R_Rg lgrg g {Rg}
C_Czth1 Tj 0 240.98u
C_Czth2 0 1 2.466m
C_Czth3 0 2 2.196m
C_Czth4 0 3 11.696m
C_Czth5 0 4 36.599m
C_Czth6 0 5 18.0m
C_Czth7 0 6 500.0m
C_Czth8 0 7 600.0m
R_Rth1 Tj 1 {9.43m+lzth*2.45m}
R_Rth2 1 2 {13.41m+lzth*3.48m}
R_Rth3 2 3 {50.68m+lzth*13.14m}
R_Rth4 3 4 {86.45m+lzth*55.77m}
R_Rth5 4 5 {85.51m+lzth*54.55m}
R_Rth6 5 6 400.0m
R_Rth7 6 7 5.0
R_Rth8 5 Tcase {2.1+lzth*1.33}
.ENDS
********************************************************************************
.SUBCKT IPB95R130PFD7_L0 drain gate source
.PARAM act=25.05
X1 dd g s cool_tech0a PARAMS: a={act}
Lg gate g1 6.34E-09
Ld drain dd 2.34E-09
Ls source s1 2.55E-09
Rs s1 s 4.50E-04
Rg g1 g 0.9
.ENDS IPB95R130PFD7_L0
********************************************************************************
.SUBCKT IPB95R130PFD7_L1 drain gate source PARAMS: dVth=0 dRdson=0
.PARAM Rs=4.50E-04 Rg=0.9 Rdp=3.76E-04 Ls=2.55E-09 Ld=2.34E-09
.PARAM Lg=6.34E-09 act=25.05 Inn={1.0*25.05} Unn=10.0 Rmax=130.0m
X1 dd g s Tj Tj cool_tech PARAMS: a={act} dVth={dVth} dR={dRdson} Inn={Inn} Unn={Unn}
+Rmax={Rmax} Rs={Rs} Rdp={Rdp} heat=0
L_Ld drain ldrd {Ld}
R_Ld drain ldrd 10
R_Rd dd ldrd {Rdp}
L_Ls source lsrs {Ls}
R_Ls source lsrs 10
R_Rs s lsrs {Rs}
L_Lg gate lgrg {Lg}
R_Lg gate lgrg 10
R_Rg lgrg g {Rg}
E1 Tj w VALUE={TEMP}
R1 w 0 1u
.ENDS
********************************************************************************
.SUBCKT IPB95R130PFD7_L3 drain gate source Tj Tcase PARAMS: dVth=0 dRdson=0 Zthtype=0
.PARAM Rs=4.50E-04 Rg=0.9 Rdp=3.76E-04 Ls=2.55E-09 Ld=2.34E-09
.PARAM Lg=6.34E-09 act=25.05 Inn={1.0*25.05} Unn=10.0 Rmax=130.0m
.PARAM lzth={limit(Zthtype,0,1)}
X1 dd g s Tj 1 cool_tech PARAMS: a={act} dVth={dVth} dR={dRdson} Inn={Inn} Unn={Unn}
+Rmax={Rmax} Rs={Rs} Rdp={Rdp} heat=1
L_Ld drain ldrd {Ld}
R_Ld drain ldrd 10
R_Rd dd ldrd {Rdp}
L_Ls source lsrs {Ls}
R_Ls source lsrs 10
R_Rs s lsrs {Rs}
L_Lg gate lgrg {Lg}
R_Lg gate lgrg 10
R_Rg lgrg g {Rg}
C_Czth1 Tj 0 240.98u
C_Czth2 0 1 2.466m
C_Czth3 0 2 2.196m
C_Czth4 0 3 11.696m
C_Czth5 0 4 30.499m
C_Czth6 0 Tcase 140.0m
C_Czth7 0 6 220.0m
C_Czth8 0 7 500.0m
R_Rth1 Tj 1 {9.43m+lzth*2.45m}
R_Rth2 1 2 {13.41m+lzth*3.48m}
R_Rth3 2 3 {50.68m+lzth*13.14m}
R_Rth4 3 4 {86.45m+lzth*143.34m}
R_Rth5 4 Tcase {85.51m+lzth*142.12m}
R_Rth6 Tcase 6 400.0m
R_Rth7 6 7 30.0
.ENDS
********************************************************************************
.SUBCKT IPW95R310PFD7_L0 drain gate source
.PARAM act=10.39
X1 dd g s cool_tech0a PARAMS: a={act}
Lg gate g1 8.96E-09
Ld drain dd 2.38E-09
Ls source s1 4.36E-09
Rs s1 s 1.16E-03
Rg g1 g 1
.ENDS IPW95R310PFD7_L0
********************************************************************************
.SUBCKT IPW95R310PFD7_L1 drain gate source PARAMS: dVth=0 dRdson=0
.PARAM Rs=1.16E-03 Rg=1 Rdp=7.67E-05 Ls=4.36E-09 Ld=2.38E-09
.PARAM Lg=8.96E-09 act=10.39 Inn={1.0*10.39} Unn=10.0 Rmax=310.0m
X1 dd g s Tj Tj cool_tech PARAMS: a={act} dVth={dVth} dR={dRdson} Inn={Inn} Unn={Unn}
+Rmax={Rmax} Rs={Rs} Rdp={Rdp} heat=0
L_Ld drain ldrd {Ld}
R_Ld drain ldrd 10
R_Rd dd ldrd {Rdp}
L_Ls source lsrs {Ls}
R_Ls source lsrs 10
R_Rs s lsrs {Rs}
L_Lg gate lgrg {Lg}
R_Lg gate lgrg 10
R_Rg lgrg g {Rg}
E1 Tj w VALUE={TEMP}
R1 w 0 1u
.ENDS
********************************************************************************
.SUBCKT IPW95R310PFD7_L3 drain gate source Tj Tcase PARAMS: dVth=0 dRdson=0 Zthtype=0
.PARAM Rs=1.16E-03 Rg=1 Rdp=7.67E-05 Ls=4.36E-09 Ld=2.38E-09
.PARAM Lg=8.96E-09 act=10.39 Inn={1.0*10.39} Unn=10.0 Rmax=310.0m
.PARAM lzth={limit(Zthtype,0,1)}
X1 dd g s Tj 1 cool_tech PARAMS: a={act} dVth={dVth} dR={dRdson} Inn={Inn} Unn={Unn}
+Rmax={Rmax} Rs={Rs} Rdp={Rdp} heat=1
L_Ld drain ldrd {Ld}
R_Ld drain ldrd 10
R_Rd dd ldrd {Rdp}
L_Ls source lsrs {Ls}
R_Ls source lsrs 10
R_Rs s lsrs {Rs}
L_Lg gate lgrg {Lg}
R_Lg gate lgrg 10
R_Rg lgrg g {Rg}
C_Czth1 Tj 0 99.951u
C_Czth2 0 1 1.023m
C_Czth3 0 2 910.819u
C_Czth4 0 3 4.851m
C_Czth5 0 4 26.444m
C_Czth6 0 Tcase 500.0m
C_Czth7 0 6 1.9
C_Czth8 0 7 2.0
R_Rth1 Tj 1 {22.74m+lzth*5.9m}
R_Rth2 1 2 {32.33m+lzth*8.38m}
R_Rth3 2 3 {122.19m+lzth*31.68m}
R_Rth4 3 4 {181.57m+lzth*164.59m}
R_Rth5 4 Tcase {268.97m+lzth*161.64m}
R_Rth6 Tcase 6 200.0m
R_Rth7 6 7 6.3
.ENDS
********************************************************************************
.SUBCKT IPA95R310PFD7_L0 drain gate source
.PARAM act=10.39
X1 dd g s cool_tech0a PARAMS: a={act}
Lg gate g1 6.17E-09
Ld drain dd 2.02E-09
Ls source s1 2.92E-09
Rs s1 s 9.06E-04
Rg g1 g 1
.ENDS IPA95R310PFD7_L0
********************************************************************************
.SUBCKT IPA95R310PFD7_L1 drain gate source PARAMS: dVth=0 dRdson=0
.PARAM Rs=9.06E-04 Rg=1 Rdp=2.35E-04 Ls=2.92E-09 Ld=2.02E-09
.PARAM Lg=6.17E-09 act=10.39 Inn={1.0*10.39} Unn=10.0 Rmax=310.0m
X1 dd g s Tj Tj cool_tech PARAMS: a={act} dVth={dVth} dR={dRdson} Inn={Inn} Unn={Unn}
+Rmax={Rmax} Rs={Rs} Rdp={Rdp} heat=0
L_Ld drain ldrd {Ld}
R_Ld drain ldrd 10
R_Rd dd ldrd {Rdp}
L_Ls source lsrs {Ls}
R_Ls source lsrs 10
R_Rs s lsrs {Rs}
L_Lg gate lgrg {Lg}
R_Lg gate lgrg 10
R_Rg lgrg g {Rg}
E1 Tj w VALUE={TEMP}
R1 w 0 1u
.ENDS
********************************************************************************
.SUBCKT IPA95R310PFD7_L3 drain gate source Tj Tcase PARAMS: dVth=0 dRdson=0 Zthtype=0
.PARAM Rs=9.06E-04 Rg=1 Rdp=2.35E-04 Ls=2.92E-09 Ld=2.02E-09
.PARAM Lg=6.17E-09 act=10.39 Inn={1.0*10.39} Unn=10.0 Rmax=310.0m
.PARAM lzth={limit(Zthtype,0,1)}
X1 dd g s Tj 1 cool_tech PARAMS: a={act} dVth={dVth} dR={dRdson} Inn={Inn} Unn={Unn}
+Rmax={Rmax} Rs={Rs} Rdp={Rdp} heat=1
L_Ld drain ldrd {Ld}
R_Ld drain ldrd 10
R_Rd dd ldrd {Rdp}
L_Ls source lsrs {Ls}
R_Ls source lsrs 10
R_Rs s lsrs {Rs}
L_Lg gate lgrg {Lg}
R_Lg gate lgrg 10
R_Rg lgrg g {Rg}
C_Czth1 Tj 0 99.951u
C_Czth2 0 1 1.023m
C_Czth3 0 2 910.819u
C_Czth4 0 3 4.851m
C_Czth5 0 4 14.207m
C_Czth6 0 5 18.0m
C_Czth7 0 6 500.0m
C_Czth8 0 7 600.0m
R_Rth1 Tj 1 {22.74m+lzth*5.9m}
R_Rth2 1 2 {32.33m+lzth*8.38m}
R_Rth3 2 3 {122.19m+lzth*31.68m}
R_Rth4 3 4 {181.57m+lzth*99.74m}
R_Rth5 4 5 {179.32m+lzth*96.79m}
R_Rth6 5 6 400.0m
R_Rth7 6 7 5.0
R_Rth8 5 Tcase {2.1+lzth*1.12}
.ENDS
********************************************************************************
.SUBCKT IPB95R310PFD7_L0 drain gate source
.PARAM act=10.39
X1 dd g s cool_tech0a PARAMS: a={act}
Lg gate g1 6.35E-09
Ld drain dd 2.47E-09
Ls source s1 3.50E-09
Rs s1 s 9.95E-04
Rg g1 g 1
.ENDS IPB95R310PFD7_L0
********************************************************************************
.SUBCKT IPB95R310PFD7_L1 drain gate source PARAMS: dVth=0 dRdson=0
.PARAM Rs=9.95E-04 Rg=1 Rdp=3.76E-04 Ls=3.50E-09 Ld=2.47E-09
.PARAM Lg=6.35E-09 act=10.39 Inn={1.0*10.39} Unn=10.0 Rmax=310.0m
X1 dd g s Tj Tj cool_tech PARAMS: a={act} dVth={dVth} dR={dRdson} Inn={Inn} Unn={Unn}
+Rmax={Rmax} Rs={Rs} Rdp={Rdp} heat=0
L_Ld drain ldrd {Ld}
R_Ld drain ldrd 10
R_Rd dd ldrd {Rdp}
L_Ls source lsrs {Ls}
R_Ls source lsrs 10
R_Rs s lsrs {Rs}
L_Lg gate lgrg {Lg}
R_Lg gate lgrg 10
R_Rg lgrg g {Rg}
E1 Tj w VALUE={TEMP}
R1 w 0 1u
.ENDS
********************************************************************************
.SUBCKT IPB95R310PFD7_L3 drain gate source Tj Tcase PARAMS: dVth=0 dRdson=0 Zthtype=0
.PARAM Rs=9.95E-04 Rg=1 Rdp=3.76E-04 Ls=3.50E-09 Ld=2.47E-09
.PARAM Lg=6.35E-09 act=10.39 Inn={1.0*10.39} Unn=10.0 Rmax=310.0m
.PARAM lzth={limit(Zthtype,0,1)}
X1 dd g s Tj 1 cool_tech PARAMS: a={act} dVth={dVth} dR={dRdson} Inn={Inn} Unn={Unn}
+Rmax={Rmax} Rs={Rs} Rdp={Rdp} heat=1
L_Ld drain ldrd {Ld}
R_Ld drain ldrd 10
R_Rd dd ldrd {Rdp}
L_Ls source lsrs {Ls}
R_Ls source lsrs 10
R_Rs s lsrs {Rs}
L_Lg gate lgrg {Lg}
R_Lg gate lgrg 10
R_Rg lgrg g {Rg}
C_Czth1 Tj 0 99.951u
C_Czth2 0 1 1.023m
C_Czth3 0 2 910.819u
C_Czth4 0 3 4.851m
C_Czth5 0 4 11.839m
C_Czth6 0 Tcase 140.0m
C_Czth7 0 6 220.0m
C_Czth8 0 7 500.0m
R_Rth1 Tj 1 {22.74m+lzth*5.9m}
R_Rth2 1 2 {32.33m+lzth*8.38m}
R_Rth3 2 3 {122.19m+lzth*31.68m}
R_Rth4 3 4 {181.57m+lzth*209.42m}
R_Rth5 4 Tcase {179.32m+lzth*206.47m}
R_Rth6 Tcase 6 400.0m
R_Rth7 6 7 30.0
.ENDS
********************************************************************************
.SUBCKT IPA95R450PFD7_L0 drain gate source
.PARAM act=7.16
X1 dd g s cool_tech0a PARAMS: a={act}
Lg gate g1 6.17E-09
Ld drain dd 2.02E-09
Ls source s1 2.92E-09
Rs s1 s 9.06E-04
Rg g1 g 1
.ENDS IPA95R450PFD7_L0
********************************************************************************
.SUBCKT IPA95R450PFD7_L1 drain gate source PARAMS: dVth=0 dRdson=0
.PARAM Rs=9.06E-04 Rg=1 Rdp=2.35E-04 Ls=2.92E-09 Ld=2.02E-09
.PARAM Lg=6.17E-09 act=7.16 Inn={1.0*7.16} Unn=10.0 Rmax=450.0m
X1 dd g s Tj Tj cool_tech PARAMS: a={act} dVth={dVth} dR={dRdson} Inn={Inn} Unn={Unn}
+Rmax={Rmax} Rs={Rs} Rdp={Rdp} heat=0
L_Ld drain ldrd {Ld}
R_Ld drain ldrd 10
R_Rd dd ldrd {Rdp}
L_Ls source lsrs {Ls}
R_Ls source lsrs 10
R_Rs s lsrs {Rs}
L_Lg gate lgrg {Lg}
R_Lg gate lgrg 10
R_Rg lgrg g {Rg}
E1 Tj w VALUE={TEMP}
R1 w 0 1u
.ENDS
********************************************************************************
.SUBCKT IPA95R450PFD7_L3 drain gate source Tj Tcase PARAMS: dVth=0 dRdson=0 Zthtype=0
.PARAM Rs=9.06E-04 Rg=1 Rdp=2.35E-04 Ls=2.92E-09 Ld=2.02E-09
.PARAM Lg=6.17E-09 act=7.16 Inn={1.0*7.16} Unn=10.0 Rmax=450.0m
.PARAM lzth={limit(Zthtype,0,1)}
X1 dd g s Tj 1 cool_tech PARAMS: a={act} dVth={dVth} dR={dRdson} Inn={Inn} Unn={Unn}
+Rmax={Rmax} Rs={Rs} Rdp={Rdp} heat=1
L_Ld drain ldrd {Ld}
R_Ld drain ldrd 10
R_Rd dd ldrd {Rdp}
L_Ls source lsrs {Ls}
R_Ls source lsrs 10
R_Rs s lsrs {Rs}
L_Lg gate lgrg {Lg}
R_Lg gate lgrg 10
R_Rg lgrg g {Rg}
C_Czth1 Tj 0 68.879u
C_Czth2 0 1 704.908u
C_Czth3 0 2 627.667u
C_Czth4 0 3 3.343m
C_Czth5 0 4 9.274m
C_Czth6 0 5 18.0m
C_Czth7 0 6 500.0m
C_Czth8 0 7 600.0m
R_Rth1 Tj 1 {33.0m+lzth*8.56m}
R_Rth2 1 2 {46.92m+lzth*12.16m}
R_Rth3 2 3 {177.31m+lzth*45.97m}
R_Rth4 3 4 {242.69m+lzth*115.96m}
R_Rth5 4 5 {239.42m+lzth*111.68m}
R_Rth6 5 6 400.0m
R_Rth7 6 7 5.0
R_Rth8 5 Tcase {2.1+lzth*966.34m}
.ENDS
********************************************************************************
.SUBCKT IPB95R450PFD7_L0 drain gate source
.PARAM act=7.16
X1 dd g s cool_tech0a PARAMS: a={act}
Lg gate g1 6.36E-09
Ld drain dd 2.56E-09
Ls source s1 4.29E-09
Rs s1 s 3.53E-03
Rg g1 g 1
.ENDS IPB95R450PFD7_L0
********************************************************************************
.SUBCKT IPB95R450PFD7_L1 drain gate source PARAMS: dVth=0 dRdson=0
.PARAM Rs=3.53E-03 Rg=1 Rdp=3.76E-04 Ls=4.29E-09 Ld=2.56E-09
.PARAM Lg=6.36E-09 act=7.16 Inn={1.0*7.16} Unn=10.0 Rmax=450.0m
X1 dd g s Tj Tj cool_tech PARAMS: a={act} dVth={dVth} dR={dRdson} Inn={Inn} Unn={Unn}
+Rmax={Rmax} Rs={Rs} Rdp={Rdp} heat=0
L_Ld drain ldrd {Ld}
R_Ld drain ldrd 10
R_Rd dd ldrd {Rdp}
L_Ls source lsrs {Ls}
R_Ls source lsrs 10
R_Rs s lsrs {Rs}
L_Lg gate lgrg {Lg}
R_Lg gate lgrg 10
R_Rg lgrg g {Rg}
E1 Tj w VALUE={TEMP}
R1 w 0 1u
.ENDS
********************************************************************************
.SUBCKT IPB95R450PFD7_L3 drain gate source Tj Tcase PARAMS: dVth=0 dRdson=0 Zthtype=0
.PARAM Rs=3.53E-03 Rg=1 Rdp=3.76E-04 Ls=4.29E-09 Ld=2.56E-09
.PARAM Lg=6.36E-09 act=7.16 Inn={1.0*7.16} Unn=10.0 Rmax=450.0m
.PARAM lzth={limit(Zthtype,0,1)}
X1 dd g s Tj 1 cool_tech PARAMS: a={act} dVth={dVth} dR={dRdson} Inn={Inn} Unn={Unn}
+Rmax={Rmax} Rs={Rs} Rdp={Rdp} heat=1
L_Ld drain ldrd {Ld}
R_Ld drain ldrd 10
R_Rd dd ldrd {Rdp}
L_Ls source lsrs {Ls}
R_Ls source lsrs 10
R_Rs s lsrs {Rs}
L_Lg gate lgrg {Lg}
R_Lg gate lgrg 10
R_Rg lgrg g {Rg}
C_Czth1 Tj 0 68.879u
C_Czth2 0 1 704.908u
C_Czth3 0 2 627.667u
C_Czth4 0 3 3.343m
C_Czth5 0 4 7.728m
C_Czth6 0 Tcase 140.0m
C_Czth7 0 6 220.0m
C_Czth8 0 7 500.0m
R_Rth1 Tj 1 {33.0m+lzth*8.56m}
R_Rth2 1 2 {46.92m+lzth*12.16m}
R_Rth3 2 3 {177.31m+lzth*45.97m}
R_Rth4 3 4 {242.69m+lzth*199.13m}
R_Rth5 4 Tcase {239.42m+lzth*194.85m}
R_Rth6 Tcase 6 400.0m
R_Rth7 6 7 30.0
.ENDS
********************************************************************************
.SUBCKT IPD95R450PFD7_L0 drain gate source
.PARAM act=7.16
X1 dd g s cool_tech0a PARAMS: a={act}
Lg gate g1 4.06E-09
Ld drain dd 8.24E-11
Ls source s1 3.34E-09
Rs s1 s 2.31E-03
Rg g1 g 1
.ENDS IPD95R450PFD7_L0
********************************************************************************
.SUBCKT IPD95R450PFD7_L1 drain gate source PARAMS: dVth=0 dRdson=0
.PARAM Rs=2.31E-03 Rg=1 Rdp=2.38E-06 Ls=3.34E-09 Ld=8.24E-11
.PARAM Lg=4.06E-09 act=7.16 Inn={1.0*7.16} Unn=10.0 Rmax=450.0m
X1 dd g s Tj Tj cool_tech PARAMS: a={act} dVth={dVth} dR={dRdson} Inn={Inn} Unn={Unn}
+Rmax={Rmax} Rs={Rs} Rdp={Rdp} heat=0
L_Ld drain ldrd {Ld}
R_Ld drain ldrd 10
R_Rd dd ldrd {Rdp}
L_Ls source lsrs {Ls}
R_Ls source lsrs 10
R_Rs s lsrs {Rs}
L_Lg gate lgrg {Lg}
R_Lg gate lgrg 10
R_Rg lgrg g {Rg}
E1 Tj w VALUE={TEMP}
R1 w 0 1u
.ENDS
********************************************************************************
.SUBCKT IPD95R450PFD7_L3 drain gate source Tj Tcase PARAMS: dVth=0 dRdson=0 Zthtype=0
.PARAM Rs=2.31E-03 Rg=1 Rdp=2.38E-06 Ls=3.34E-09 Ld=8.24E-11
.PARAM Lg=4.06E-09 act=7.16 Inn={1.0*7.16} Unn=10.0 Rmax=450.0m
.PARAM lzth={limit(Zthtype,0,1)}
X1 dd g s Tj 1 cool_tech PARAMS: a={act} dVth={dVth} dR={dRdson} Inn={Inn} Unn={Unn}
+Rmax={Rmax} Rs={Rs} Rdp={Rdp} heat=1
L_Ld drain ldrd {Ld}
R_Ld drain ldrd 10
R_Rd dd ldrd {Rdp}
L_Ls source lsrs {Ls}
R_Ls source lsrs 10
R_Rs s lsrs {Rs}
L_Lg gate lgrg {Lg}
R_Lg gate lgrg 10
R_Rg lgrg g {Rg}
C_Czth1 Tj 0 68.879u
C_Czth2 0 1 704.908u
C_Czth3 0 2 627.667u
C_Czth4 0 3 3.343m
C_Czth5 0 4 4.726m
C_Czth6 0 Tcase 42.5m
C_Czth7 0 6 65.0m
C_Czth8 0 7 90.0m
R_Rth1 Tj 1 {33.0m+lzth*8.56m}
R_Rth2 1 2 {46.92m+lzth*12.16m}
R_Rth3 2 3 {177.31m+lzth*45.97m}
R_Rth4 3 4 {242.69m+lzth*231.24m}
R_Rth5 4 Tcase {175.21m+lzth*226.95m}
R_Rth6 Tcase 6 500.0m
R_Rth7 6 7 50.0
.ENDS
********************************************************************************
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