***0.13um Mixed Signal 1P8M with MIM Salicide 1.2V/2.5V Process***
*** For SPECTRE only ***
Files:
ms013_rf_readme_v1p4_spe.txt .... This file!
ms013_rf_v1p4_spe.lib .... Corner values for resistors and MIM
ms013_rf_mos_v1p4_spe.ckt .... Subcircuit model of RF MOS
ms013_rf_spir_ind_v1p4_spe.ckt .... Subcircuit model of spiral inductor
ms013_rf_diff_ind_v1p4_spe.ckt .... Subcircuit model of differential inductor
ms013_rf_mim_v1p4_spe.ckt .... Subcircuit model of MIM
ms013_rf_var_v1p4_spe.ckt .... Subcircuit model of varactor
ms013_rf_res_v1p4_spe.ckt .... Subcircuit model of sab resistor
res_rf.va .... Resistor modules
ms013_rf_interconnect_struct_1.txt .... Interconnect tables for structure-1 (Parallel lines above a bottom plate)
ms013_rf_interconnect_struct_2.txt .... Interconnect tables for structure-2 (Parallel lines between two plates)
ms013_rf_layer.map .... GDSII layers definition file
N12_W2d5Ld13N32.gds .... GDSII file for 1.2V NMOS W/L/N=2.5/0.13/32
P12_W2d5Ld13N32.gds .... GDSII file for 1.2V PMOS W/L/N=2.5/0.13/32
N25_W2d5Ld285N32.gds .... GDSII file for 2.5V NMOS W/L/N=2.5/0.28/32
P25_W2d5Ld280N32.gds .... GDSII file for 2.5V PMOS W/L/N=2.5/0.28/32
SPIR_IND_W8S1d5R60N3d5.gds .... GDSII file for Spiral Inductor W/S/R/N=8/1.5/60/3.5
DIFF_IND_W8S1D5R60N3.gds .... GDSII file for Differential Inductor W/S/R/N=8/1.5/60/3
VAR12_MOS_W10L1N8.gds .... GDSII file for MOS Varactor W/L/N=10/1/8
VAR25_MOS_W10L1N8.gds .... GDSII file for MOS Varactor W/L/N=10/1/8
VAR12_JUN_W1L20N20.gds .... GDSII file for Varactor Junction Diode W/L/N=1/20/20
VAR25_JUN_W1L20N20.gds .... GDSII file for Varactor Junction Diode W/L/N=1/20/20
MIM_10x10.gds .... GDSII file for MIM Area=10*10
RNDIFSAB_W2L40.gds .... GDSII file for Non-silicide N+ Diffusion Resistor W/L=2/40
RPDIFSAB_W2L40.gds .... GDSII file for Non-silicide P+ Diffusion Resistor W/L=2/40
RNPOSAB_W2L40.gds .... GDSII file for Non-silicide N+ Poly Resistor W/L=2/40
RPPOSAB_W2L40.gds .... GDSII file for Non-silicide P+ Poly Resistor W/L=2/40
SUB_PP_100.gds .... GDSII file for P+AA within floating P+ guard ring in Pwell for spacing=100um substrate coupling noise
SUB_PP_FGR_100.gds .... GDSII file for P+AA within floating P+ guard ring in Pwell for spacing=100um substrate coupling noise
SUB_PDNWP_100.gds .... GDSII file for P+AA in floating Deep Nwell to P+AA in Pwell with spacing=100um substrate coupling noise
SUB_NNMOSDNW_100.gds .... GDSII file for NMOS in floating Deep Nwell to NMOS in floating Deep Nwell with spacing=100um substrate coupling noise
SUB_NFGRP_100.gds .... GDSII file for N+AA within P+ guard ring to P+AA in Pwell with spacing=100um substrate coupling noise
How to use SMIC SPICE models in SPECTRE :
** Load model cards and select corner
include "ms013_rf_v1p4_spe.lib" section=mos_tt
include "ms013_rf_v1p4_spe.lib" section=mim_tt
include "ms013_rf_v1p4_spe.lib" section=res_tt
include "ms013_rf_spir_ind_v1p4_spe.ckt"
include "ms013_rf_diff_ind_v1p4_spe.ckt"
include "ms013_rf_var_v1p4_spe.ckt"
** Call the models
XM (1 2 0 0) n12_ckt_rf lr=0.13u wr=2.5u nf=16
X1 (1 2) ind_rf r=60u n=3.5
X2 (1 2) diff_ind_rf r=60u n=3
X3 (1 2) mim1_rf lr=10u wr=10u
X4 (1 2) pvar25_ckt_rf wr=10u lr=1u nf=16
X5 (1 2) pvardio12_ckt_rf wr=1u lr=20u nf=20
X6 (1 2) rpdifsab_ckt_rf l=40u w=2u
Corner Model:
----------------------------------------------------
MOS name : corner
----------------------------------------------------
mos_tt : Typical case
mos_ff : Fast case
mos_ss : Slow case
mos_fnsp : Fast N Slow P case
mos_snfp : Slow N Fast P case
----------------------------------------------------
Resistor name : corner
----------------------------------------------------
res_tt : Typical case
res_ff : Fast case
res_ss : Slow case
----------------------------------------------------
MIM name : corner
----------------------------------------------------
mim_tt : Typical case
mim_ff : Fast case
mim_ss : Slow case
----------------------------------------------------
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发表于 2011-4-12 09:39:52