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vbic model example files

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dwarning 2019-09-05 18:58:44 +02:00 committed by Holger Vogt
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55
examples/vbic/DFF_Y_ECL.sp Normal file
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ECL DFF VBIC test case
*
V6 D GND PULSE(-.25 0 0 1P 1P .25N .50N)
V5 D_BAR GND PULSE(0 -.25 0 1P 1P .25N .50N)
V4 CLK GND PULSE(-0.9 -1.2 0 1P 1P .125N .25N)
V3 CLK_BAR GND PULSE(-1.2 -0.9 0 1P 1P .125N .25N)
VVCS NET2 GND DC -0.8
R6 GND NET6 800
R5 GND NET11 800
R4 NET12 VEE 350
VVEE VEE GND DC -2.0
R3 GND NET10 800
R2 NET13 VEE 350
R1 GND Q 800
QVLGNPN16 NET7 CLK_BAR NET4 VEE NPN_VBIC_VLG
QVLGNPN15 NET5 CLK NET3 VEE NPN_VBIC_VLG
QVLGNPN14 NET10 Q NET7 VEE NPN_VBIC_VLG
QVLGNPN13 Q NET6 NET9 VEE NPN_VBIC_VLG
QVLGNPN12 NET6 NET11 NET5 VEE NPN_VBIC_VLG
QVLGNPN11 NET11 D_BAR NET8 VEE NPN_VBIC_VLG
QVLGNPN10 NET4 NET2 NET13 VEE NPN_VBIC_VLG
QVLGNPN9 NET3 NET2 NET12 VEE NPN_VBIC_VLG
QVLGNPN8 NET8 CLK_BAR NET3 VEE NPN_VBIC_VLG
QVLGNPN7 NET9 CLK NET4 VEE NPN_VBIC_VLG
QVLGNPN6 Q NET10 NET7 VEE NPN_VBIC_VLG
QVLGNPN5 NET10 NET11 NET9 VEE NPN_VBIC_VLG
QVLGNPN4 NET11 NET6 NET5 VEE NPN_VBIC_VLG
QVLGNPN3 NET6 D NET8 VEE NPN_VBIC_VLG
*
.MODEL NPN_VBIC_VLG NPN LEVEL=4
+TNOM = 27 RCI = 1E3 RCX = 50
+VO = 1.5 GAMM = 3.402097E-11 HRCF = 1
+RBX = 243 RBI = 20 RE = 30
+RS = 0 RBP = 0 IS = 8.084033E-18
+NF = 1 NR = 1.005 FC = 0.5
+CJE = 2.083234E-15 PE = 0.8793669 ME = 0.3108762
+CJC = 1.803275E-15 PC = 0.5512188 MC = 0.4454263
+CJCP = 8E-15 PS = 0.66956 MS = 0.2243
+IBEI = 4.542609E-20 WBE = 1 NEI = 1
+IBEN = 3.275162E-16 NEN = 1.5543186 IBCI = 3.594252E-19
+NCI = 0.996 IBCN = 1.717776E-17 NCN = 1.202521
+AVC1 = 3E-4 AVC2 = 1E-5 ISP = 1.332E-19
+WSP = 1 NFP = 1 IBEIP = 0
+IBENP = 0 IBCIP = 0 NCIP = 1
+IBCNP = 0 NCNP = 2 VEF = 109.6523
+VER = 2.2052435 IKF = 6.03524E-3 IKR = 1.807895E-4
+IKP = 2.908576E-5 TF = 1.1E-12 XTF = 21.5423
+VTF = 12.4758677 ITF = 0.0175231 TR = 2.23542E-9
.SAVE V(D) V(CLK) V(Q)
.control
TRAN 0.25p 10n
plot V(D) V(CLK) V(Q)
.endc
.END

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examples/vbic/Infineon_VBIC.lib Normal file
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***************************************************************
* Comments for the user:
* The VBIC Model includes the self heating effect and the user can switch selfheating on or off.
* a) no self heating: set Rth = 0
* b) with self heating: set Rth=80K/W + Rth_PCB (customer)
* Note: Rth = 80 K/W includes only the thermal resistance of die and package and
* the thermal resistance of the customer PCB must be added (Rth=80K/W + Rth_PCB)
* Infineon Technologies AG
* VBIC MODEL IN SPICE 2G6 SYNTAX
* VALID UP TO 10 GHZ
* >>> BFP780 <<<
* (C) 2015 Infineon Technologies AG
* Version 1.1 October 2015
***************************************************************
*.OPTION TNOM=25, GMIN= 1.00e-12
*BFP780 C B E1 E2
.SUBCKT BFP780 1 2 3 4
*
CCEPAR 11 33 800E-015
*
LEx 30 35 3E-011
LBx 20 2 3E-011
LCx 10 1 3E-011
*
CBPAD 22 44 30E-015
CCPAD 11 44 30E-015
CEPAD 33 44 30E-015
*
LB 22 20 777E-12
LC 10 11 777E-12
*
CBEPCK 20 30 5.703E-015
CBCPCK 10 20 1.497E-014
CCEPCK 10 30 6.032E-014
*
RE1 35 3 1E-03
RE2 35 4 1E-03
*
Rsub1 44 30 0.2144
Rps 44 33 0.07306
*
D1 33 22 Diode_fb
D2 44 22 Diode_fbd
*
.MODEL Diode_fb D(
+ IS=3.5E-015
+ N=1
+ CJO=10e-15
+ RS=6.1
+ Tnom=25)
*
.MODEL Diode_fbd D(
+ IS=1E-015
+ N=1
+ CJO=10E-15
+ RS=1
+ Tnom=25)
*
Q1 11 22 33 44 M_BFP780
*
.ENDS BFP780
.MODEL M_BFP780 NPN (Level=4
+ Tnom=25
+ Cbeo=2.47E-012
+ Cje=561.3E-015
+ Pe=0.7
+ Me=0.333
+ Aje=-1
+ Wbe=1
+ Cbco=10E-015
+ Cjc=668.6E-015
+ Pc=0.54
+ Mc=0.333
+ Ajc=-1
+ Cjep=2.616E-015
+ Cjcp=900E-015
+ Ps=0.6
+ Ms=0.3
+ Ajs=-0.5
+ Fc=0.94
+ Vef=545.4
+ Ver=3.291
+ Is=2.3E-015
+ Nf=0.9855
+ Ibei=1.893E-018
+ Nei=0.9399
+ Iben=4.77E-015
+ Nen=1.361
+ Ikf=1
+ Nr=0.9912
+ Ibci=157.5E-018
+ Nci=1.1
+ Ibcn=4.929E-015
+ Ncn=1.463
+ Ikr=0.01178
+ Wsp=1
+ Isp=1E-015
+ Nfp=1
+ Ibcip=1E-015
+ Ncip=1.029
+ Ibcnp=1E-015
+ Ncnp=1
+ Ikp=1E-3
+ Ibeip=1E-015
+ Ibenp=1E-015
+ Re=0.15
+ Rcx=0.01
+ Rci=2.665
+ Qco=1E-015
+ Vo=0.0005022
+ Gamm=5.659E-012
+ Hrcf=0.21
+ Rbx=5
+ Rbi=1.964
+ Rbp=265.5
+ Rs=26.56
+ Avc1=3.97
+ Avc2=29.52
+ Tf=1.6E-012
+ Qtf=50E-3
+ Xtf=30
+ Vtf=0.7
+ Itf=1
+ Tr=1E-015
+ Td=500E-015
+ Cth=0
+ Rth=80
+ Ea=1.12
+ Eaie=1.12
+ Eaic=1.12
+ Eais=1
+ Eane=1.12
+ Eanc=1.12
+ Eans=1
+ Xre=0
+ Xrb=0
+ Xrc=0
+ Xrs=0
+ Xvo=0
+ Xis=-1.631
+ Xii=0
+ Xin=0
+ Tnf=0
+ Tavc=0.002613
+ Kfn=0
+ Afn=1
+ Bfn=1 )
***************************************************************
*
*.ENDS BFP780
***************************************************************
* Comments for the user:
* The VBIC Model includes the self heating effect and the user can switch selfheating on or off.
* a) no self heating: set Rth = 0
* b) with self heating: set Rth=20K/W + Rth_PCB (customer)
* Note: Rth = 20 K/W includes only the thermal resistance of die and package and
* the thermal resistance of the customer PCB must be added (Rth=20K/W + Rth_PCB)
* Infineon Technologies AG
* VBIC MODEL
* VALID UP TO 6 GHZ
* >>> BFQ790 <<<
* (C) 2015 Infineon Technologies AG
* Version 1.0 Juni 2015
***************************************************************
*.OPTION TNOM=25, GMIN= 1.00e-12
*BFQ790 C B E
* without access to the external thermal node (Rth to be adjusted by the customer in the model parameter list for the transistor
.SUBCKT BFQ790 1 2 3
*
* with access to external thermal node
*.SUBCKT BFQ790 1 2 3 55
*
CCSPAR 11 44 1.375E-012
LEx 30 3 4.36882E-011
LBx 20 2 2.77681E-011
LCx 10 1 4.265E-011
CBEPCK 20 30 1.105E-013
CBCPCK 10 20 1E-014
CCEPCK 10 30 1E-015
LB 222 20 1.02449E-009
LC 10 11 1.89901E-009
*
RBL 222 22 45
CBL 222 22 3E-011
*
Rsub1 44 30 0.000500184
Rps 44 33 0.102733
*
*
* without access to the external thermal node
Q1 11 22 33 44 M_BFQ790
*
* with access to the thermal node
* Q1 11 22 33 44 55 M_BFQ790
*
.MODEL M_BFQ790 NPN Level=4(
+ Tnom=25
+ Cbeo=9.31E-012
+ Cje=7.693E-013
+ Pe=0.5892
+ Me=0.3115
+ Aje=-0.5
+ Wbe=1
+ Cbco=1.966E-013
+ Cjc=1E-015
+ Pc=0.5095
+ Mc=0.2797
+ Ajc=-0.5
+ Cjep=1.875E-012
+ Cjcp=2.067E-012
+ Ps=0.5086
+ Ms=0.2865
+ Ajs=-0.5
+ Fc=0.93
+ Vef=615.1
+ Ver=5.61838
+ Is=9.704E-015
+ Nf=1.001
+ Ibei=5E-017
+ Nei=1.013
+ Iben=3.609E-014
+ Nen=1.46
+ Ikf=2
+ Nr=0.9958
+ Ibci=1.001E-017
+ Nci=1.015
+ Ibcn=2.918E-014
+ Ncn=1.399
+ Ikr=0.2301
+ Wsp=1
+ Isp=1E-015
+ Nfp=1
+ Ibcip=2E-017
+ Ncip=1
+ Ibcnp=1.7E-015
+ Ncnp=1.67
+ Ikp=0.0002
+ Ibeip=7E-017
+ Ibenp=2.4E-014
+ Re=0.2
+ Rcx=0.02559
+ Rci=1.168
+ Qco=4E-015
+ Vo=0.4234
+ Gamm=2.199E-012
+ Hrcf=0.1907
+ Rbx=0.2825
+ Rbi=1.868
+ Rbp=0.001
+ Rs=10
+ Avc1=1
+ Avc2=25.84
+ Tf=3E-012
+ Qtf=0.6758
+ Xtf=0.01293
+ Vtf=0.5
+ Itf=0.1948
+ Tr=1E-015
+ Td=1E-015
+ Cth=0
+ Rth=20.05
+ Ea=1.12
+ Eaie=1.12
+ Eaic=1.12
+ Eais=1.12
+ Eane=1.12
+ Eanc=1.12
+ Eans=1.12
+ Xre=0
+ Xrb=0
+ Xrc=0
+ Xrs=0
+ Xvo=0
+ Xis=1.907
+ Xii=4.963
+ Xin=-2.837
+ Tnf=1E-006
+ Tavc=0.006705
+ Kfn=0
+ Afn=1
+ Bfn=1 )
***************************************************************
*
.ENDS BFQ790

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BJT ft Test
.include Infineon_VBIC.lib
vce 1 0 dc 3.0
vgain 1 c dc 0.0
f 0 2 vgain -1000
l 2 b 1g
c 2 0 1g
ib 0 b dc 0.0 ac 1.0
ic 0 c 0.01
xq1 c b 0 0 BFP780
.control
let ft_runs = 13
let run = 0
set curplot=new $ create a new plot
set curplotname=ft_plot
set curplottitle="Infineon BFP780 ft = f(Ic)"
set scratch=$curplot $ store its name to 'scratch'
setplot $scratch $ make 'scratch' the active plot
let ft=unitvec(ft_runs) $ create a vector in plot 'scratch' to store ft data
let ic=unitvec(ft_runs) $ create a vector in plot 'scratch' to store ic data
foreach myic 1m 4m 7m 10m 20m 40m 60m 75m 90m 100m 110m 130m 180m
alter ic = $myic
ac dec 100 100k 50g
*plot vdb(vgain#branch)
meas ac freq_at when vdb(vgain#branch)=0
set run ="$&run" $ create a variable from the vector
set dt = $curplot $ store the current plot to dt
setplot $scratch $ make 'scratch' the active plot
let ic[run] = $myic $ store ic to vector ft in plot 'scratch'
let ft[run] = {$dt}.freq_at $ store ft to vector ft in plot 'scratch'
setplot $dt $ go back to the previous plot
let run = run + 1
end
setplot unknown1
plot ft vs ic xlog
.endc
.end

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examples/vbic/npn_gum.sp Normal file
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BJT Gummel Test Ic=f(Vc,Vb)
.include qnva.mod
VB B 0 0.5
VC C 0 1.0
VS S 0 0.0
XQ1 C B 0 S qnva
.control
options gmin=1e-15
dc vb 0.2 1.2 0.01
plot abs(i(vc)) abs(i(vb)) abs(i(vs)) ylimit 0.1e-12 100e-3 ylog
plot abs(i(vc))/abs(i(vb)) vs abs(-i(vc)) xlog xlimit 10e-12 10e-3 ylimit 0 40
.endc
.end

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examples/vbic/npn_out.sp Normal file
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BJT Output Test Ic=f(Vc,Ib)
.include qnva.mod
IB 0 B 200n
VC C 0 2.0
VS S 0 0.0
XQ1 C B 0 S qnva
.control
dc vc 0.0 5.0 0.05 ib 1u 10u 1u
run
plot abs(i(vc))
.endc
.end

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.param
+qnva_is=1.000e+00
+qnva_re=1.000e+00
+qnva_cje=1.000e+00
+qnva_cjc=1.000e+00
+qnva_vef=1.000e+00
+qnva_rcx=1.000e+00
+qnva_rbx=1.000e+00
+qnva_rci=1.000e+00
+qnva_ibei=1.000e+00
+qnva_iben=0.000e+00
+qnva_cjep=1.000e+00
+qnva_cjcp=1.000e+00
+qnva_ais=0.000e+00
+qnva_aibei=0.000e+00
+qnva_aiben=0.000e+00
.subckt qnva c b e s le=2.02 par1=1
q1 c b e s qnvamod area=1
.model qnvamod npn level=9
+ tref=2.700e+01
+ ebbe=2.111e-05
+ vo=0.000e+00
+ gamm=1.493e-13 hrcf=0.000e+00
+ nf=1.000e+00 nr=1.008e+00
+ fc=8.300e-01 pe=6.500e-01
+ me=3.500e-01 aje=-5.000e-01
+ qco=0.000e+00 pc=6.500e-01
+ mc=3.200e-01 ajc=-5.000e-01
+ ps=6.000e-01 ms=3.700e-01
+ ajs=-5.000e-01 wbe=4.800e-01
+ nei=1.000e+00 nen=2.000e+00
+ nci=1.000e+00 ncn=2.100e+00
+ avc1=2.258e+00
+ wsp=1.000e+00 nfp=1.000e+00
+ ncip=1.000e+00 ncnp=2.000e+00
+ ver=8.807e+00 qtf=0.000e+00
+ xtf=3.770e+00 vtf=1.667e+00
+ tr=3.500e-10 td=0.000e+00
+ afn=1.000e+00 kfn=5.500e-14
+ bfn=1.000e+00
+ xrbi=0.000e+00 xrci=0.000e+00
+ xre=0.000e+00 xrs=0.000e+00
+ xvo=0.000e+00 ea=1.130e+00
+ eaie=1.130e+00 eaic=1.110e+00
+ eais=1.110e+00 eane=1.110e+00
+ eanc=1.110e+00 eans=1.110e+00
+ xis=4.864e+00 xii=2.952e+00
+ xin=2.952e+00
+ tnf=0.000e+00 tavc=6.580e-04
+ rth='(0.000e+00/le+0.000e+00)'
+ cth='(0.000e+00*le+0.000e+00)'
+ vrt=0.000e+00 art=1.000e-01
+ qbm=1.000e+00 nkf=5.000e-01
+ xikf=1.000e+00 xrcx=0.000e+00
+ xrbx=0.000e+00 xrbp=0.000e+00
+ isrr=1.230e+00 xisr=0.000e+00
+ dear=0.000e+00 eap=1.110e+00
+ vbbe=2.266e+00 nbbe=6.584e+00
+ tvbbe1=2.000e-04 tvbbe2=0.000e+00
+ tnbbe=-1.900e-03
+ vef='qnva_vef*1.500e+01'
+ tf='1.000e+00*4.300e-12'
+ rcx='qnva_rcx*(1/(le/3.800e+02+1/3.000e+02))'
+ rci='qnva_rci*(1/(le/7.200e+02+1/4.800e+02))'
+ rbx='qnva_rbx*(1/(le/2.000e+02+1/1.000e+04))'
+ rbi='1.000e+00*(1/(le/3.000e+01+1/1.000e+04))'
+ rbp='1/(le/3.000e+01+1/1.000e+04)'
+ re='qnva_re*(1.800e+01/le+(2.778e+00))'
+ rs='1/(le/1.500e+01+1/1.000e+04)'
+ is='(1+qnva_ais/sqrt(par1*le))*qnva_is*(le*1.181e-18+(3.202e-19))'
+ cbeo='(le*0.000e+00+(5.000e-15))'
+ cbco='(le*0.000e+00+(3.000e-15))'
+ cje='qnva_cje*(le*2.326e-15+(-4.733e-30))'
+ cjc='qnva_cjc*(le*1.196e-15+(2.381e-15))'
+ cjep='qnva_cjep*(le*1.196e-15+(2.381e-15))'
+ cjcp='qnva_cjcp*(le*1.824e-15+(1.814e-14))'
+ ibei='(1+qnva_aibei/sqrt(par1*le))*qnva_ibei*(le*4.032e-20+(3.890e-21))'
+ iben='exp((qnva_aiben/sqrt(par1*le))+(qnva_iben))*(le*4.125e-16+(-6.420e-20))'
+ ibci='(le*1.220e-20+(1.086e-23))'
+ ibcn='(le*1.636e-15+(1.557e-18))'
+ isp='(le*1.137e-18+(2.280e-18))'
+ ibeip='(le*6.558e-20+(2.802e-19))'
+ ibenp='(le*3.311e-20+(-5.172e-24))'
+ ibcip='(le*4.290e-17+(7.958e-16))'
+ ibcnp='(le*6.212e-16+(-1.632e-19))'
+ ikf='1.000e+00*(le*1.253e-03+(2.165e-07))'
+ ikr='(le*1.540e-04+(-1.077e-07))'
+ ikp='(le*4.007e-05+(4.615e-05))'
+ itf='(le*5.037e-03+(-2.423e-06))'
+ ccso='(le*0.000e+00+(1.000e-18))'
+ ibbe='(le*7.769e-09+(-1.684e-12))'
+ avc2='1/(1.590e-03/le+1/1.892e+01)'
.ends qnva

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*# VERSION: 99.4
.option absmos=1e-12 relmos=1e-6 relv=1e-6 absv=1e-9 post
vc c 0 0
vb b 0 1
ve e 0 0
vs s 0 0
vc1 c c1 0
vb1 b b1 0
ve1 e e1 0
vs1 s s1 0
.temp 27
Q1 c1 b1 e1 s1 t mod1 area=1
.model mod1 npn Level=4
+ Tnom=27 RCX=10 RCI=60 VO=2 GAMM=2.e-11
+ HRCF=2 RBX=10 RBI=40 RE=2
+ RS=20 RBP=40 IS=1e-16 NF=1.00000e+00
+ NR=1.00000e+00 FC=9.00000e-01 CBEO=0
+ CJE=1.e-13 PE=0.75 ME=0.33
+ AJE=-5.00000e-01 CBCO=0 CJC=2e-14
+ QCO=1e-12 CJEP=1e-13 PC=7.50000e-01
+ MC=3.30000e-01 AJC=-5.00000e-01 CJCP=4e-13
+ PS=7.50000e-01 MS=3.30000e-01 AJS=-5.00000e-01
+ IBEI=1e-18 WBE=1.0000 NEI=1.00000e+00
+ IBEN=5e-15 NEN=2.00000e+00 IBCI=2e-17
+ NCI=1.00000e+00 IBCN=5e-15 NCN=2.00000e+00
+ AVC1=2 AVC2=15 ISP=1e-15
+ WSP=1.000e+00 NFP=1.00000e+00 IBEIP=0
+ IBENP=0 IBCIP=0 NCIP=1.00000e+00
+ IBCNP=0 NCNP=2.00000e+00 VEF=10
+ VER=4 IKF=0.002 IKR=0.0002 IKP=0.0002
+ TF=1.e-11 QTF=0 XTF=20
+ VTF=0 ITF=0.08 TR=1e-10
+ KFN=0 AFN=1.0e+00
+ BFN=1.0000e+00 XRE=0 XRB=0
+ XRC=0 XRS=0 XVO=0
+ EA=1.12000e+00 EAIE=1.12000e+00
+ EANE=1.12000e+00 EANC=1.12000e+00
+ EANS=1.12000e+00 XIS=3.00000e+00
+ XII=3.00000e+00 XIN=3.00000e+00
+ TNF=0 TAVC=0
+ RTH=300 CTH=0
+ TD=0
*+ TD=2.e-11
.control
dc vc 0.0 5.0001 0.05 vb 0.7 1.0001 0.05
altermod @mod1[RTH]=0
dc vc 0.0 5.0001 0.05 vb 0.7 1.0001 0.05
plot dc1.vc1#branch dc2.vc1#branch
.endc
.end

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***** VBIC99 level9 DC test *****
.OPTION gmin=1.0e-15
vbe bx 0 0
vcb cx bx 0
vib bx b 0
vic cx c 0
ve ex 0 0
vie ex e 0
vs sx 0 0
vis sx s 0
q1 c b e s dt vbic99 area=1 m=1
.model vbic npn level=9
+tref = 27.0 rcx = 10.0 rci = 60.0 vo = 2.0
+gamm = 2e-11 hrcf = 2.0 rbx = 10.0 rbi = 40.0
+re = 2.0 rs = 20.0 rbp = 40.0 is = 1.0e-16
+nf = 1.0 nr = 1.0 fc = 0.9 cbeo = 0.0
+cje = 1.0e-13 pe = 0.75 me = 0.33 aje = -0.5
+cbco = 0.0 cjc = 2e-14 qco = 1e-12 cjep = 1e-13
+pc = 0.75 mc = 0.33 ajc = -0.5 cjcp = 4e-13
+ps = 0.75 ms = 0.33 ajs = -0.5 ibei = 1.0e-18
+wbe = 1.0 nei = 1.0 iben = 5.0e-15 nen = 2.0
+ibci = 2.0e-17 nci = 1.0 ibcn = 5.0e-15 ncn = 2.0
+avc1 = 2.0 avc2 = 15.0 isp = 1.0e-15 wsp = 1.0
+nfp = 1.0 ibeip = 0.0 ibenp = 0.0 ibcip = 0.0
+ncip = 1.0 ibcnp = 0.0 ncnp = 2.0 vef = 10.0
+ver = 4.0 ikf = 2e-3 ikr = 2e-4 ikp = 2e-4
+tf = 10e-12 qtf = 0.0 xtf = 20.0 vtf = 0.0
+itf = 8e-2 tr = 100e-12 td = 1e-20 kfn = 0.0
+afn = 1.0 bfn = 1.0 xre = 0 xrbi = 0
+xrci = 0 xrs = 0 xvo = 0 ea = 1.12
+eaie = 1.12 eaic = 1.12 eais = 1.12 eane = 1.12
+eanc = 1.12 eans = 1.12 xis = 3.0 xii = 3.0
+xin = 3.0 tnf = 0.0 tavc = 0.0 rth = 300.0
+cth = 0.0 vrt = 0.0 art = 0.1 ccso = 0.0
+qbm = 0.0 nkf = 0.5 xikf = 0 xrcx = 0
+xrbx = 0 xrbp = 0 isrr = 1.0 xisr = 0.0
+dear = 0.0 eap = 1.12 vbbe = 0.0 nbbe = 1.0
+ibbe = 1.0e-6 tvbbe1 = 0.0 tvbbe2 = 0.0 tnbbe = 0.0
+ebbe = 0.0
.temp 27
.control
dc vbe 0.1 1.1 0.02
plot i(vib) i(vic) abs(i(vis)) ylog
plot v(dt)
.endc
.end

54
examples/vbic/vbic99_tran.sp Normal file
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***** VBIC99 level 9 Transient test *****
*
q1 3 2 0 0 t vbic99
v 4 0 dc 5.0
vin 1 0 dc 2.5 pulse (0 5 0 1n 1n 10n 25n)
r1 1 2 100
r2 3 4 10k
*
.control
op
tran 50p 50n
plot v(1) v(2) v(3) v(4)
plot v(t)
.endc
*
.model vbic99 npn
+ LEVEL = 9 TREF = 27.0 RCX = 10.26
+ RCI = 0.001 VO = 0 GAMM = 0
+ HRCF = 0 RBX = 122.23 RBI = 0.001
+ RE = 17.61 RS = 1 RBP = 1
+ IS = 4.70047e-25 NF = 1.09575 NR = 1.02
+ FC = 0.9 CBEO = 0 CJE = 7e-15
+ PE = 0.75 ME = 0.33 AJE = -0.5
+ CBCO = 0 CJC = 1.1e-14 QCO = 0
+ CJEP = 0 PC = 0.75 MC = 0.33
+ AJC = -0.5 CJCP = 3e-15 PS = 0.75
+ MS = 0.33 AJS = -0.5 IBEI = 1.484e-23
+ WBE = 1 NEI = 1.302 IBEN = 6.096e-18
+ NEN = 2.081 IBCI = 5.618e-24 NCI = 1.11
+ IBCN = 3.297e-14 NCN = 2 AVC1 = 0
+ AVC2 = 0 ISP = 0 WSP = 1
+ NFP = 1 IBEIP = 0 IBENP = 0
+ IBCIP = 0 NCIP = 1 IBCNP = 0
+ NCNP = 2 VEF = 800 VER = 700
+ IKF = 0 IKR = 0 IKP = 0
+ TF = 2.3e-12 QTF = 0 XTF = 0
+ VTF = 0 ITF = 0 TR = 0
+ TD = 1e-15 KFN = 0 AFN = 1
+ BFN = 1 XRE = 2 XRBI = 2
+ XRCI = 2 XRS = 2 XVO = 0
+ EA = 1.1095 EAIE = 1.489271 EAIC = 1.489271
+ EAIS = 1.12 EANE = 1.489271 EANC = 1.489271
+ EANS = 1.12 XIS = 3 XII = 3
+ XIN = 3 TNF = 0 TAVC = 0
+ RTH = 159.177 CTH = 0 VRT = 0
+ ART = 0.1 CCSO = 0 QBM = 0
+ NKF = 0.5 XIKF = 0 XRCX = 2
+ XRBX = 2 XRBP = 0 ISRR = 1
+ XISR = 0 DEAR = 0 EAP = 1.12
+ VBBE = 0 NBBE = 1 IBBE = 1e-06
+ TVBBE1 = 0 TVBBE2 = 0 TNBBE = 0
*
.end

20
examples/vbic/vbic_ac_par.sp Normal file
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Ask for smalll signal values
.include Infineon_VBIC.lib
v1 1 0 dc 5.0
*rc 1 c 2k
vb b 0 dc 0.6
q1 1 b 0 M_BFP780
.control
save @q1[gm] @q1[go] @q1[gpi]
save @q1[cbe] @q1[cbc]
save @q1[qbe] @q1[qbc]
dc v1 0.0 5 0.01
plot @q1[gm] @q1[go] @q1[gpi]
plot @q1[cbe] @q1[cbc]
plot @q1[qbe] @q1[qbc]
.endc
.end