.model nenh nmos +Level=2 Ld=0.0u Tox=225.000e-10 +Nsub=1.066e+16 Vto=0.622490 Kp=6.326640E-05 +Gamma=.639243 Phi=.31 Uo=1215.74 +Uexp=4.612355e-2 Ucrit=174667 Delta=0.0 +Vmax=177269 Xj=.9u Lambda=0.0 +Nfs=4.55168e+12 Neff=4.68830 Nss=3.000000E+10 +Tpg=1.00000 Rsh=60 Cgso=2.89e-10 +Cgdo=2.89e-10 Cj=3.27e-04 Mj=1.067 +Cjsw=1.74e-10 Mjsw=.195 .model penh pmos +Level=2 Ld=.03000000u Tox=225.000e-10 +Nsub=6.575441e+16 Vto=-0.63025 Kp=2.635440E-05 +Gamma=0.618101 Phi=.541111 Uo=361.941 +Uexp=8.886957e-02 Ucrit=637449 Delta=0.0 +Vmax=63253.3 Xj=0.112799u Lambda=0. +Nfs=1.668437e+11 Neff=0.64354 Nss=3.000000E+10 +Tpg=-1.00000 Rsh=150 Cgso=3.35e-10 +Cgdo=3.35e-10 Cj=4.75e-04 Mj=.341 +Cjsw=2.23e-10 Mjsw=.307 *AMPLIFIER OPEN LOOP GAIN * * CLASS AB OPAMP * NON-INVERTING INPUT node 2 * INVERTING INPUT node 3 * AB OUTPUT node 18 * * ************************************************************************** ** ** ** ( MODEL M125CN ) ** ** ** ** SPICE PARAMETERS ** ** MCNC 1.25 CMOS PROCESS ** ** ( NOMINAL ) ** ** ** ** NOTE: IV data was obtained with PISCES and fit to SPICE ** ** models with the curve fitting program SUXES. ** ** ** ** Scott Goodwin-Johansson, Gary Nifong 02/26/87 ** ** ** ************************************************************************** * * VDD 1 0 5.0 VBIAS 2 0 2.5 * m1 23 3 9 1 penh l=2.0u w=34u ad=136p as=136p m2 24 2 10 1 penh l=2.0u w=34u ad=136p as=136p m3 7 7 5 1 penh l=2.0u w=34u ad=136p as=136p m4 8 8 6 1 penh l=2.0u w=34u ad=136p as=136p m5 21 7 44 1 penh l=2.0u w=68u ad=272p as=272p m6 12 8 4 1 penh l=2.0u w=68u ad=136p as=136p * m7 9 9 5 0 nenh l=2.0u w=34u ad=136p as=136p m8 10 10 6 0 nenh l=2.0u w=34u ad=136p as=136p m9 22 9 4 0 nenh l=2.0u w=68u ad=136p as=136p m10 11 10 44 0 nenh l=2.0u w=68u ad=136p as=136p * m11 12 12 0 0 nenh l=2.4u w=80u ad=320p as=320p m12 11 11 1 1 penh l=2.4u w=80u ad=136p as=136p * m13 7 23 0 0 nenh l=2.8u w=60u ad=240p as=240p m14 8 24 0 0 nenh l=2.8u w=60u ad=136p as=136p m15 9 13 1 1 penh l=2.8u w=60u ad=136p as=136p m16 10 13 1 1 penh l=2.8u w=60u ad=136p as=136p * m17 17 21 0 0 nenh l=2.4u w=40u ad=160p as=160p m18 17 17 16 16 penh l=2.8u w=42u ad=168p as=168p m19 16 16 1 1 penh l=2.4u w=40u ad=136p as=136p * m20 14 14 0 0 nenh l=2.4u w=40u ad=136p as=136p m21 15 15 14 0 nenh l=2.8u w=42u ad=136p as=136p m22 15 22 1 1 penh l=2.4u w=40u ad=136p as=136p * m23 20 12 0 0 nenh l=2.4u w=80u ad=136p as=136p m24 18 15 20 0 nenh l=2.8u w=84u ad=336p as=336p m25 18 17 19 1 penh l=2.8u w=84u ad=136p as=136p m26 19 11 1 1 penh l=2.4u w=80u ad=136p as=136p * m27 13 13 1 1 penh l=2.8u w=6u ad=24p as=24p * m28 21 21 0 0 nenh l=2.4u w=80u ad=136p as=136p m29 22 22 1 1 penh l=2.4u w=80u ad=136p as=136p m30 23 23 0 0 nenh l=2.8u w=60u ad=136p as=136p m31 24 24 0 0 nenh l=2.8u w=60u ad=136p as=136p * c4 4 0 0.03p c5 5 0 0.03p c6 6 0 0.03p c7 7 0 0.03p c8 8 0 0.03p c9 9 0 0.03p c10 10 0 0.03p c11 11 0 0.03p c12 12 0 0.03p c13 13 0 0.03p c14 14 0 0.03p c15 15 0 0.03p c16 16 0 0.03p c17 17 0 0.03p c18 18 0 0.03p c19 19 0 0.03p c20 20 0 0.03p c21 21 0 0.03p c22 22 0 0.03p c23 23 0 0.03p c24 24 0 0.03p c44 44 0 0.03p * RREF 13 0 450k * * * * INPUTS VOFFSET 3 0 2.497 AC 1.00 * * *.end