template ntgd4167c g1 s2 g2 d2 s1 d1 #****************************************** # Model Generated by ON Discrete Eval Lab * # Copyright(c) ON Semiconductor * # All Rights Reserved * # UNPUBLISHED LICENSED SOFTWARE * # Contains Proprietary Information * # * # Commercial Use or Resale Restricted * ******************************************* # Model generated on Apr 8, 08 # MODEL FORMAT: Saber # Symmetry POWER MOS Model (Version 1.0) # External Node Designations # Node 1 -> N-Gate # Node 2 -> P-Source # Node 3 -> P-Gate # Node 4 -> P-Drain # Node 5 -> N-Source # Node 6 -> N-Drain electrical g1,s2,g2,d2,s1,d1 { # BODY_BEGIN spt.t1 d1 g1 s1 =template=ntgd4167c-n spt.t1 d2 g2 s2 =template=ntgd4167c-p } # template ntgd4167c-n d g s #************************************* # Model Generated by MODPEX * #Copyright(c) Symmetry Design Systems* # All Rights Reserved * # UNPUBLISHED LICENSED SOFTWARE * # Contains Proprietary Information * # Which is The Property of * # SYMMETRY OR ITS LICENSORS * #Commercial Use or Resale Restricted * # by Symmetry License Agreement * #************************************* # Model generated on Apr 8, 08 # MODEL FORMAT: Saber # Symmetry POWER MOS Model (Version 1.0) # External Node Designations # Node d -> Drain # Node g -> Gate # Node s -> Source electrical d,g,s { # BODY_BEGIN # Default values used in MM: # The voltage-dependent capacitances are # not included. Other default values are: # LD=0 CBD=0 CBS=0 CGBO=0 spm..model mm=(type=_n, level=1,is=1e-32,rd=1e-6, vto=1.27274,lambda=0,kp=64.1137,rs=0.0422987, cgso=2.69006e-06,cgdo=2.30519e-07) spd..model md=(is=8.16695e-07,rs=0.0226012,n=1.91277,bv=30, ibv=0.00025,eg=1.00871,xti=0.646492,tt=2.5e-09, cjo=6.59416e-11,vj=3.22293,m=0.638826,FC=0.5) # Default values used in MD1: # RS=0 EG=1.11 XTI=3.0 TT=0 # BV=infinite IBV=1mA spd..model md1=(is=1e-32,n=50, cjo=9.34155e-11,vj=0.623557,m=0.9,fc=1e-08) # Default values used in MD2: # EG=1.11 XTI=3.0 TT=0 CJO=0 # BV=infinite IBV=1mA spd..model md2=(is=1e-10,n=0.401325,rs=3.00005e-06) # Default values used in MD3: # EG=1.11 XTI=3.0 TT=0 CJO=0 # RS=0 BV=infinite IBV=1mA spd..model md3=(is=1e-10,n=0.401325) spm.M1 n9 n7 s s =model=mm,l=100u,w=100u spd.d1 s d =model=md spr.rds s d =3e+08 spr.rd n9 d =0.0103794 spr.rg g n7 =10.0165 spd.d2 n4 n5 =model=md1 spd.d3 0 n5 =model=md2 spr.rl n5 n10 =1 spf.fi2 n7 n9 i(spv.vfi2) =-1 spv.vfi2 n4 0 =0 spe.ev16 n10 0 n9 n7 =1 spc.cap n11 n10 =4.37016e-10 spf.fi1 n7 n9 i(spv.vfi1) =-1 spv.vfi1 n11 n6 =0 spr.rcap n6 n10 =1 spd.d4 0 n6 =model=md3 } template ntgd4167c-p d g s #************************************* # Model Generated by MODPEX * #Copyright(c) Symmetry Design Systems* # All Rights Reserved * # UNPUBLISHED LICENSED SOFTWARE * # Contains Proprietary Information * # Which is The Property of * # SYMMETRY OR ITS LICENSORS * #Commercial Use or Resale Restricted * # by Symmetry License Agreement * #************************************* # Model generated on Apr 8, 08 # MODEL FORMAT: Saber # Symmetry POWER MOS Model (Version 1.0) # External Node Designations # Node d -> Drain # Node g -> Gate # Node s -> Source electrical d,g,s { # BODY_BEGIN # Default values used in MM: # The voltage-dependent capacitances are # not included. Other default values are: # LD=0 CBD=0 CBS=0 CGBO=0 spm..model mm=(type=_p, level=1,is=1e-32,rd=1e-6, vto=-1.46991,lambda=0,kp=18.2289,rs=0.076879, cgso=3.91812e-06,cgdo=1.00142e-11) spd..model md=(is=3.8386e-09,rs=0.0310025,n=1.5,bv=30, ibv=0.00025,eg=1.01717,xti=4,tt=2.5e-09, cjo=1.13647e-10,vj=0.5,m=0.449128,FC=0.5) # Default values used in MD1: # RS=0 EG=1.11 XTI=3.0 TT=0 # BV=infinite IBV=1mA spd..model md1=(is=1e-32,n=50, cjo=7.49904e-11,vj=0.595519,m=0.3,fc=1e-08) # Default values used in MD2: # EG=1.11 XTI=3.0 TT=0 CJO=0 # BV=infinite IBV=1mA spd..model md2=(is=1e-10,n=0.400006,rs=3e-06) # Default values used in MD3: # EG=1.11 XTI=3.0 TT=0 CJO=0 # RS=0 BV=infinite IBV=1mA spd..model md3=(is=1e-10,n=0.400006) spm.M1 n9 n7 s s =model=mm,l=100u,w=100u spd.d1 d s =model=md spr.rds s d =3e+09 spr.rd n9 d =0.038391 spr.rg g n7 =7.48098 spd.d2 n5 n4 =model=md1 spd.d3 n5 0 =model=md2 spr.rl n5 n10 =1 spf.fi2 n7 n9 i(spv.vfi2) =-1 spv.vfi2 n4 0 =0 spe.ev16 n10 0 n9 n7 =1 spc.cap n11 n10 =3.91886e-10 spf.fi1 n7 n9 i(spv.vfi1) =-1 spv.vfi1 n11 n6 =0 spr.rcap n6 n10 =1 spd.d4 n6 0 =model=md3 }