Hallo, ich wollte gerade den IR2184 in LTSpice verwenden, stolpere aber über eine von mir nicht deutbare Fehlermeldung:
Singular matrix: check node u1:md6_inv_1 Iteration No.7
Was kann man da machen? Hier die erzeugten Files:
****************************** meine.lib: ***************************** ********************************************************************** *- Copyright (c) International Rectifier
- IR2184: High and Low Side Driver
- Ports
- IN: Logic Input for High and Low Side Gate Driver Outputs (HO and LO),
- in phase with HO
- SD: Logic Input for Shutdown, active low
- VB: High Side Floating Supply
- HO: High Side Gate Driver Output
- VS: High Side Floating Supply Return
- VCC: Low Side and Logic Fixed Supply
- LO: Low Side Gate Driver Output
- COM: Low Side Return
- IR2184
- Created by Pspice Version 8
- Date Created: 04/2003
- This behavioral model was developed in compliance with Data Sheet
- No. PD60174-D except noted below:
- (1) There is no frequency effect on temperature.
- (2) The power dissipation is different.
- (3) The values of output high/low short circuit current are adjusted
- for the proper modeling of turn-on rise/turn-off fall time.
- (4) The "Low side return (COM)" pin must be grounded.
.SUBCKT IR2184 VCC IN SD com VB HO VS LO
+PARAMS:- Cdelay=50n Rdelay=50
- T1=-40 T2=25 T3=125
- V1=10 V2=15 V3=20
- toffT1=270n toffT2=270n toffT3=270n
- toffV1=270n toffV2=270n toffV3=270n
- tonT1=210n tonT2=210n tonT3=210n
- tonV1=210n tonV2=210n tonV3=210n
.MODEL diode25 d
+IS=1.0e-14 RS=0.01 N=1 EG=1.11 +XTI=3 BV=25 IBV=0.0001 CJO=0 +VJ=0.75 M=0.333 FC=0.5 TT=0 +KF=0 AF=1.MODEL diode625 d
+IS=1.0e-14 RS=0.01 N=1 EG=1.11 +XTI=3 BV=625 IBV=0.0001 CJO=0 +VJ=0.75 M=0.333 FC=0.5 TT=0 +KF=0 AF=1D_MD1_D2 SD VCC DIODE25 D_MD1_D1 IN VCC DIODE25 D_MD1_D4 com IN DIODE25 D_MD1_D5 com VCC DIODE25 D_MD1_D3 com SD DIODE25 R_MD1_R3 SD VCC 3Meg TC=0, 0 S_MD1_Nand2_P1 MD1_Nand2_5 MD1_Inv3_1 MD1_Trig2_6 com _MD1_Nand2_P1 RS_MD1_Nand2_P1 MD1_Trig2_6 com 1G .MODEL _MD1_Nand2_P1 VSWITCH Roff=1e6 Ron=1 Voff=5V Von=0V S_MD1_Nand2_N1 MD1_Inv3_1 MD1_Nand2_4 MD1_Inv1_3 com _MD1_Nand2_N1 RS_MD1_Nand2_N1 MD1_Inv1_3 com 1G .MODEL _MD1_Nand2_N1 VSWITCH Roff=1e6 Ron=1 Voff=0V Von=5V S_MD1_Nand2_N2 MD1_Nand2_4 com MD1_Trig2_6 com _MD1_Nand2_N2 RS_MD1_Nand2_N2 MD1_Trig2_6 com 1G .MODEL _MD1_Nand2_N2 VSWITCH Roff=1e6 Ron=1 Voff=0V Von=5V S_MD1_Nand2_P2 MD1_Nand2_5 MD1_Inv3_1 MD1_Inv1_3 com _MD1_Nand2_P2 RS_MD1_Nand2_P2 MD1_Inv1_3 com 1G .MODEL _MD1_Nand2_P2 VSWITCH Roff=1e6 Ron=1 Voff=5V Von=0V V_MD1_Nand2_V MD1_Nand2_5 com 5V S_MD1_Nand1_P1 MD1_Nand1_5 MD1_Inv2_1 MD1_Trig2_6 com _MD1_Nand1_P1 RS_MD1_Nand1_P1 MD1_Trig2_6 com 1G .MODEL _MD1_Nand1_P1 VSWITCH Roff=1e6 Ron=1 Voff=5V Von=0V S_MD1_Nand1_N1 MD1_Inv2_1 MD1_Nand1_4 MD1_Inv1_1 com _MD1_Nand1_N1 RS_MD1_Nand1_N1 MD1_Inv1_1 com 1G .MODEL _MD1_Nand1_N1 VSWITCH Roff=1e6 Ron=1 Voff=0V Von=5V S_MD1_Nand1_N2 MD1_Nand1_4 com MD1_Trig2_6 com _MD1_Nand1_N2 RS_MD1_Nand1_N2 MD1_Trig2_6 com 1G .MODEL _MD1_Nand1_N2 VSWITCH Roff=1e6 Ron=1 Voff=0V Von=5V S_MD1_Nand1_P2 MD1_Nand1_5 MD1_Inv2_1 MD1_Inv1_1 com _MD1_Nand1_P2 RS_MD1_Nand1_P2 MD1_Inv1_1 com 1G .MODEL _MD1_Nand1_P2 VSWITCH Roff=1e6 Ron=1 Voff=5V Von=0V V_MD1_Nand1_V MD1_Nand1_5 com 5V S_MD1_Inv3_P MD1_Inv3_2 MD1_Inv3_3 MD1_Inv3_1 com _MD1_Inv3_P RS_MD1_Inv3_P MD1_Inv3_1 com 1G .MODEL _MD1_Inv3_P VSWITCH Roff=1e8 Ron=1 Voff=5V Von=0V S_MD1_Inv3_N MD1_Inv3_3 com MD1_Inv3_1 com _MD1_Inv3_N RS_MD1_Inv3_N MD1_Inv3_1 com 1G .MODEL _MD1_Inv3_N VSWITCH Roff=1e8 Ron=1 Voff=0V Von=5V C_MD1_Inv3_C com MD1_Inv3_3 1p V_MD1_Inv3_V MD1_Inv3_2 com 5V S_MD1_Inv2_P MD1_Inv2_2 MD1_Inv2_3 MD1_Inv2_1 com _MD1_Inv2_P RS_MD1_Inv2_P MD1_Inv2_1 com 1G .MODEL _MD1_Inv2_P VSWITCH Roff=1e8 Ron=1 Voff=5V Von=0V S_MD1_Inv2_N MD1_Inv2_3 com MD1_Inv2_1 com _MD1_Inv2_N RS_MD1_Inv2_N MD1_Inv2_1 com 1G .MODEL _MD1_Inv2_N VSWITCH Roff=1e8 Ron=1 Voff=0V Von=5V C_MD1_Inv2_C com MD1_Inv2_3 1p V_MD1_Inv2_V MD1_Inv2_2 com 5V R_MD1_R2 com IN 1Meg TC=0, 0 R_MD1_R1 com VCC 15K TC=0, 0
X_MD1_Trig1_Comp1 IN MD1_Trig1_3 MD1_Inv1_1 com COMP C_MD1_Trig1_C com MD1_Inv1_1 10p S_MD1_Trig1_P MD1_Trig1_4 com MD1_Inv1_1 com _MD1_Trig1_P RS_MD1_Trig1_P MD1_Inv1_1 com 1G .MODEL _MD1_Trig1_P VSWITCH Roff=5e9 Ron=1 Voff=0.01 Von=4.99 R_MD1_Trig1_R2 MD1_Trig1_4 MD1_Trig1_3 5.63Meg R_MD1_Trig1_R3 com MD1_Trig1_4 16.3Meg R_MD1_Trig1_R1 MD1_Trig1_3 MD1_Trig1_7 100Meg E_MD1_Trig1_ABM18 MD1_Trig1_7 0 VALUE { V(VCC) * 0.0+15V+V(com) } X_MD1_Trig2_Comp1 SD MD1_Trig2_3 MD1_Trig2_6 com COMP C_MD1_Trig2_C com MD1_Trig2_6 10p S_MD1_Trig2_P MD1_Trig2_4 com MD1_Trig2_6 com _MD1_Trig2_P RS_MD1_Trig2_P MD1_Trig2_6 com 1G .MODEL _MD1_Trig2_P VSWITCH Roff=5e9 Ron=1 Voff=0.01 Von=4.99 R_MD1_Trig2_R2 MD1_Trig2_4 MD1_Trig2_3 5.63Meg R_MD1_Trig2_R3 com MD1_Trig2_4 16.3Meg R_MD1_Trig2_R1 MD1_Trig2_3 MD1_Trig2_7 100Meg E_MD1_Trig2_ABM18 MD1_Trig2_7 0 VALUE { V(VCC) * 0.0+15V+V(com) }
S_MD1_Inv1_P MD1_Inv1_2 MD1_Inv1_3 MD1_Inv1_1 com _MD1_Inv1_P RS_MD1_Inv1_P MD1_Inv1_1 com 1G .MODEL _MD1_Inv1_P VSWITCH Roff=1e8 Ron=1 Voff=5V Von=0V S_MD1_Inv1_N MD1_Inv1_3 com MD1_Inv1_1 com _MD1_Inv1_N RS_MD1_Inv1_N MD1_Inv1_1 com 1G .MODEL _MD1_Inv1_N VSWITCH Roff=1e8 Ron=1 Voff=0V Von=5V C_MD1_Inv1_C com MD1_Inv1_3 1p V_MD1_Inv1_V MD1_Inv1_2 com 5V
S_MD2_Inv1_P MD2_Inv1_2 MD2_Nor1_1 MD1_Inv2_3 com _MD2_Inv1_P RS_MD2_Inv1_P MD1_Inv2_3 com 1G .MODEL _MD2_Inv1_P VSWITCH Roff=1e8 Ron=1 Voff=5V Von=0V S_MD2_Inv1_N MD2_Nor1_1 com MD1_Inv2_3 com _MD2_Inv1_N RS_MD2_Inv1_N MD1_Inv2_3 com 1G .MODEL _MD2_Inv1_N VSWITCH Roff=1e8 Ron=1 Voff=0V Von=5V C_MD2_Inv1_C com MD2_Nor1_1 1p V_MD2_Inv1_V MD2_Inv1_2 com 5V S_MD2_Nor2_P1 MD2_Nor2_3 MD2_Nor2_4 MD2_Fall1_7 com _MD2_Nor2_P1 RS_MD2_Nor2_P1 MD2_Fall1_7 com 1G .MODEL _MD2_Nor2_P1 VSWITCH Roff=1e6 Ron=1 Voff=5V Von=0V S_MD2_Nor2_P2 MD2_Nor2_4 MD3_Nand2_2 MD2_Inv2_3 com _MD2_Nor2_P2 RS_MD2_Nor2_P2 MD2_Inv2_3 com 1G .MODEL _MD2_Nor2_P2 VSWITCH Roff=1e6 Ron=1 Voff=5V Von=0V S_MD2_Nor2_N1 MD3_Nand2_2 com MD2_Inv2_3 com _MD2_Nor2_N1 RS_MD2_Nor2_N1 MD2_Inv2_3 com 1G .MODEL _MD2_Nor2_N1 VSWITCH Roff=1e6 Ron=1 Voff=0V Von=5V S_MD2_Nor2_N2 MD3_Nand2_2 com MD2_Fall1_7 com _MD2_Nor2_N2 RS_MD2_Nor2_N2 MD2_Fall1_7 com 1G .MODEL _MD2_Nor2_N2 VSWITCH Roff=1e6 Ron=1 Voff=0V Von=5V V_MD2_Nor2_V MD2_Nor2_3 com 5V S_MD2_Nor1_P1 MD2_Nor1_3 MD2_Nor1_4 MD2_Nor1_1 com _MD2_Nor1_P1 RS_MD2_Nor1_P1 MD2_Nor1_1 com 1G .MODEL _MD2_Nor1_P1 VSWITCH Roff=1e6 Ron=1 Voff=5V Von=0V S_MD2_Nor1_P2 MD2_Nor1_4 MD3_Nand1_2 MD2_Fall2_7 com _MD2_Nor1_P2 RS_MD2_Nor1_P2 MD2_Fall2_7 com 1G .MODEL _MD2_Nor1_P2 VSWITCH Roff=1e6 Ron=1 Voff=5V Von=0V S_MD2_Nor1_N1 MD3_Nand1_2 com MD2_Fall2_7 com _MD2_Nor1_N1 RS_MD2_Nor1_N1 MD2_Fall2_7 com 1G .MODEL _MD2_Nor1_N1 VSWITCH Roff=1e6 Ron=1 Voff=0V Von=5V S_MD2_Nor1_N2 MD3_Nand1_2 com MD2_Nor1_1 com _MD2_Nor1_N2 RS_MD2_Nor1_N2 MD2_Nor1_1 com 1G .MODEL _MD2_Nor1_N2 VSWITCH Roff=1e6 Ron=1 Voff=0V Von=5V V_MD2_Nor1_V MD2_Nor1_3 com 5V V_MD2_Fall1_V MD2_Fall1_2 com 5V E_MD2_Fall1_ABM12 MD2_Fall1_6 com VALUE { (5-5*EXP(-V(MD2_Fall1_5)/
- {Rdelay}/{Cdelay})) } C_MD2_Fall1_C6 com MD2_Fall1_7 100p E_MD2_Fall1_ABM13 MD2_Fall1_5 com VALUE { (V(MD2_Fall2_4))*1.4866u+0.54u
- } X_MD2_Fall1_U9 MD2_Fall1_6 MD2_Fall1_3 MD2_Fall1_7 com COMP S_MD2_Fall1_P MD2_Fall1_2 MD2_Fall1_3 MD1_Inv2_3 com _MD2_Fall1_P RS_MD2_Fall1_P MD1_Inv2_3 com 1G .MODEL _MD2_Fall1_P VSWITCH Roff=1e6 Ron={Rdelay} Voff=4.99 Von=0.01 S_MD2_Fall1_N MD2_Fall1_3 com MD1_Inv2_3 com _MD2_Fall1_N RS_MD2_Fall1_N MD1_Inv2_3 com 1G .MODEL _MD2_Fall1_N VSWITCH Roff=1e8 Ron=1m Voff=0.01 Von=4.99 C_MD2_Fall1_C com MD2_Fall1_3 {Cdelay} V_MD2_Fall2_V MD2_Fall2_2 com 5V E_MD2_Fall2_ABM12 MD2_Fall2_6 com VALUE { (5-5*EXP(-V(MD2_Fall2_5)/
- {Rdelay}/{Cdelay})) } C_MD2_Fall2_C6 com MD2_Fall2_7 100p E_MD2_Fall2_ABM13 MD2_Fall2_5 com VALUE { (V(MD2_Fall2_4))*1.4866u+0.54u
- } X_MD2_Fall2_U9 MD2_Fall2_6 MD2_Fall2_3 MD2_Fall2_7 com COMP S_MD2_Fall2_P MD2_Fall2_2 MD2_Fall2_3 MD1_Inv3_3 com _MD2_Fall2_P RS_MD2_Fall2_P MD1_Inv3_3 com 1G .MODEL _MD2_Fall2_P VSWITCH Roff=1e6 Ron={Rdelay} Voff=4.99 Von=0.01 S_MD2_Fall2_N MD2_Fall2_3 com MD1_Inv3_3 com _MD2_Fall2_N RS_MD2_Fall2_N MD1_Inv3_3 com 1G .MODEL _MD2_Fall2_N VSWITCH Roff=1e8 Ron=1m Voff=0.01 Von=4.99 C_MD2_Fall2_C com MD2_Fall2_3 {Cdelay} S_MD2_Inv2_P MD2_Inv2_2 MD2_Inv2_3 MD1_Inv3_3 com _MD2_Inv2_P RS_MD2_Inv2_P MD1_Inv3_3 com 1G .MODEL _MD2_Inv2_P VSWITCH Roff=1e8 Ron=1 Voff=5V Von=0V S_MD2_Inv2_N MD2_Inv2_3 com MD1_Inv3_3 com _MD2_Inv2_N RS_MD2_Inv2_N MD1_Inv3_3 com 1G .MODEL _MD2_Inv2_N VSWITCH Roff=1e8 Ron=1 Voff=0V Von=5V C_MD2_Inv2_C com MD2_Inv2_3 1p V_MD2_Inv2_V MD2_Inv2_2 com 5V
R_MD2_R1 MD2_Fall2_4 VCC 600k R_MD2_R2 com MD2_Fall2_4 600k C_MD2_C1 com MD3_Nand1_2 10p C_MD2_C2 com MD3_Nand2_2 10p E_ABM11 MD4_DlyHS_2 com VALUE { V(MD3_Inv1_3) } E_ABM12 MD4_DlyLS_2 com VALUE { V(MD3_Inv2_3) } C_MD3_c4 com MD3_Inv2_3 10p C_MD3_Uvcc_c1 MD3_Uvcc_2 MD3_Uvcc_3 10n C_MD3_Uvcc_c2 MD3_Uvcc_4 MD3_Uvcc_2 10n S_MD3_Uvcc_P MD3_Uvcc_3 MD3_Uvcc_2 MD3_Nand2_1 com _MD3_Uvcc_P RS_MD3_Uvcc_P MD3_Nand2_1 com 1G .MODEL _MD3_Uvcc_P VSWITCH Roff=1e6 Ron=1 Voff=5V Von=0V S_MD3_Uvcc_N MD3_Uvcc_2 MD3_Uvcc_4 MD3_Nand2_1 com _MD3_Uvcc_N RS_MD3_Uvcc_N MD3_Nand2_1 com 1G .MODEL _MD3_Uvcc_N VSWITCH Roff=1e6 Ron=1 Voff=0V Von=5V X_MD3_Uvcc_Comp VCC MD3_Uvcc_2 MD3_Nand2_1 com COMP E_MD3_Uvcc_ABM2 MD3_Uvcc_3 com VALUE { 8.9 } E_MD3_Uvcc_ABM3 MD3_Uvcc_4 com VALUE { 8.2 } C_MD3_Uvcc_c3 com MD3_Nand2_1 10p S_MD3_Nand1_P1 MD3_Nand1_5 MD3_Inv1_1 MD3_Nand1_2 com _MD3_Nand1_P1 RS_MD3_Nand1_P1 MD3_Nand1_2 com 1G .MODEL _MD3_Nand1_P1 VSWITCH Roff=1e6 Ron=1 Voff=5V Von=0V S_MD3_Nand1_N1 MD3_Inv1_1 MD3_Nand1_4 MD3_Nand2_1 com _MD3_Nand1_N1 RS_MD3_Nand1_N1 MD3_Nand2_1 com 1G .MODEL _MD3_Nand1_N1 VSWITCH Roff=1e6 Ron=1 Voff=0V Von=5V S_MD3_Nand1_N2 MD3_Nand1_4 com MD3_Nand1_2 com _MD3_Nand1_N2 RS_MD3_Nand1_N2 MD3_Nand1_2 com 1G .MODEL _MD3_Nand1_N2 VSWITCH Roff=1e6 Ron=1 Voff=0V Von=5V S_MD3_Nand1_P2 MD3_Nand1_5 MD3_Inv1_1 MD3_Nand2_1 com _MD3_Nand1_P2 RS_MD3_Nand1_P2 MD3_Nand2_1 com 1G .MODEL _MD3_Nand1_P2 VSWITCH Roff=1e6 Ron=1 Voff=5V Von=0V V_MD3_Nand1_V MD3_Nand1_5 com 5V S_MD3_Nand2_P1 MD3_Nand2_5 MD3_Inv2_1 MD3_Nand2_2 com _MD3_Nand2_P1 RS_MD3_Nand2_P1 MD3_Nand2_2 com 1G .MODEL _MD3_Nand2_P1 VSWITCH Roff=1e6 Ron=1 Voff=5V Von=0V S_MD3_Nand2_N1 MD3_Inv2_1 MD3_Nand2_4 MD3_Nand2_1 com _MD3_Nand2_N1 RS_MD3_Nand2_N1 MD3_Nand2_1 com 1G .MODEL _MD3_Nand2_N1 VSWITCH Roff=1e6 Ron=1 Voff=0V Von=5V S_MD3_Nand2_N2 MD3_Nand2_4 com MD3_Nand2_2 com _MD3_Nand2_N2 RS_MD3_Nand2_N2 MD3_Nand2_2 com 1G .MODEL _MD3_Nand2_N2 VSWITCH Roff=1e6 Ron=1 Voff=0V Von=5V S_MD3_Nand2_P2 MD3_Nand2_5 MD3_Inv2_1 MD3_Nand2_1 com _MD3_Nand2_P2 RS_MD3_Nand2_P2 MD3_Nand2_1 com 1G .MODEL _MD3_Nand2_P2 VSWITCH Roff=1e6 Ron=1 Voff=5V Von=0V V_MD3_Nand2_V MD3_Nand2_5 com 5V S_MD3_Inv1_P MD3_Inv1_2 MD3_Inv1_3 MD3_Inv1_1 com _MD3_Inv1_P RS_MD3_Inv1_P MD3_Inv1_1 com 1G .MODEL _MD3_Inv1_P VSWITCH Roff=1e8 Ron=1 Voff=5V Von=0V S_MD3_Inv1_N MD3_Inv1_3 com MD3_Inv1_1 com _MD3_Inv1_N RS_MD3_Inv1_N MD3_Inv1_1 com 1G .MODEL _MD3_Inv1_N VSWITCH Roff=1e8 Ron=1 Voff=0V Von=5V C_MD3_Inv1_C com MD3_Inv1_3 1p V_MD3_Inv1_V MD3_Inv1_2 com 5V S_MD3_Inv2_P MD3_Inv2_2 MD3_Inv2_3 MD3_Inv2_1 com _MD3_Inv2_P RS_MD3_Inv2_P MD3_Inv2_1 com 1G .MODEL _MD3_Inv2_P VSWITCH Roff=1e8 Ron=1 Voff=5V Von=0V S_MD3_Inv2_N MD3_Inv2_3 com MD3_Inv2_1 com _MD3_Inv2_N RS_MD3_Inv2_N MD3_Inv2_1 com 1G .MODEL _MD3_Inv2_N VSWITCH Roff=1e8 Ron=1 Voff=0V Von=5V C_MD3_Inv2_C com MD3_Inv2_3 1p V_MD3_Inv2_V MD3_Inv2_2 com 5V C_MD3_c1 com MD3_Inv1_1 10p C_MD3_c2 com MD3_Inv1_3 10p C_MD3_c3 com MD3_Inv2_1 10p C_MD4_C1 com MD5_RS_2 10p C_MD4_C2 com MD6_Inv_1 10p E_MD4_DlyHS_Turn_On_Vth MD4_DlyHS_3 com VALUE { (5* EXP(-( {tonT1}+(
- {tonT3}-{tonT1})/({T3}-{T1})*(TEMP-{T1})) /10/ 10n))/(5* EXP(-( {tonT1}+(
- {tonT3}-{tonT1})/({T3}-{T1})*({T2}-{T1})) /10/
- (EXP(-({tonV1}+({tonV3}-{tonV1})/({V3}-{V1})*(V(VCC)-{V1}))/10/10n))/((EXP(-(
- {tonV1}+({tonV3}-{tonV1})/({V3}-{V1})*({V2}-{V1}))/10/10n))) } E_MD4_DlyHS_Turn_Off_Vth MD4_DlyHS_5 com VALUE { (5-5* EXP(-( {toffT1}+(
- {toffT3}-{toffT1})/({T3}-{T1})*(TEMP-{T1}))/10/10n))/(5-5* EXP(-( {toffT1}+(
- {toffT3}-{toffT1})/({T3}-{T1})*({T2}-{T1}))/10/10n))*(5-5*EXP(-
- {toffT2}/10/10n))*(1-EXP(-( {toffV1}+({toffV3}-{toffV1})/({V3}-{V1})*(V(VCC)-
- {V1})) /10/ 10n))/(1-EXP(-( {toffV1}+({toffV3}-{toffV1})/({V3}-{V1})*({V2}-
- {V1})) /10/ 10n)) } C_MD4_DlyHS_C com MD4_DlyHS_4 10n S_MD4_DlyHS_P1 MD4_DlyHS_11 MD4_DlyHS_12 MD4_DlyHS_7 com _MD4_DlyHS_P1 RS_MD4_DlyHS_P1 MD4_DlyHS_7 com 1G .MODEL _MD4_DlyHS_P1 VSWITCH Roff=1e6 Ron=1 Voff=5V Von=0V S_MD4_DlyHS_P2 MD4_DlyHS_12 MD4_DlyHS_10 MD5_RS_2 com _MD4_DlyHS_P2 RS_MD4_DlyHS_P2 MD5_RS_2 com 1G .MODEL _MD4_DlyHS_P2 VSWITCH Roff=1e6 Ron=1 Voff=5V Von=0V S_MD4_DlyHS_N1 MD4_DlyHS_10 com MD5_RS_2 com _MD4_DlyHS_N1 RS_MD4_DlyHS_N1 MD5_RS_2 com 1G .MODEL _MD4_DlyHS_N1 VSWITCH Roff=1e6 Ron=1 Voff=0V Von=5V S_MD4_DlyHS_MN1 MD5_RS_2 com MD4_DlyHS_8 com _MD4_DlyHS_MN1 RS_MD4_DlyHS_MN1 MD4_DlyHS_8 com 1G .MODEL _MD4_DlyHS_MN1 VSWITCH Roff=1e6 Ron=1 Voff=0V Von=5V S_MD4_DlyHS_MP2 MD4_DlyHS_14 MD5_RS_2 MD4_DlyHS_8 com _MD4_DlyHS_MP2 RS_MD4_DlyHS_MP2 MD4_DlyHS_8 com 1G .MODEL _MD4_DlyHS_MP2 VSWITCH Roff=1e6 Ron=1 Voff=5V Von=0V S_MD4_DlyHS_MP1 MD4_DlyHS_13 MD4_DlyHS_14 MD4_DlyHS_10 com
- _MD4_DlyHS_MP1 RS_MD4_DlyHS_MP1 MD4_DlyHS_10 com 1G .MODEL _MD4_DlyHS_MP1 VSWITCH Roff=1e6 Ron=1 Voff=5V Von=0V S_MD4_DlyHS_delay_P MD4_DlyHS_6 MD4_DlyHS_4 MD4_DlyHS_2 com
- _MD4_DlyHS_delay_P RS_MD4_DlyHS_delay_P MD4_DlyHS_2 com 1G .MODEL _MD4_DlyHS_delay_P VSWITCH Roff=1e6 Ron=10 Voff=5V Von=0V S_MD4_DlyHS_delay_N MD4_DlyHS_4 com MD4_DlyHS_2 com _MD4_DlyHS_delay_N RS_MD4_DlyHS_delay_N MD4_DlyHS_2 com 1G .MODEL _MD4_DlyHS_delay_N VSWITCH Roff=1e6 Ron=10 Voff=0V Von=5V X_MD4_DlyHS_Comp2 MD4_DlyHS_4 MD4_DlyHS_5 MD4_DlyHS_8 com COMP X_MD4_DlyHS_Comp1 MD4_DlyHS_3 MD4_DlyHS_4 MD4_DlyHS_7 com COMP S_MD4_DlyHS_N2 MD4_DlyHS_10 com MD4_DlyHS_7 com _MD4_DlyHS_N2 RS_MD4_DlyHS_N2 MD4_DlyHS_7 com 1G .MODEL _MD4_DlyHS_N2 VSWITCH Roff=1e6 Ron=1 Voff=0V Von=5V S_MD4_DlyHS_MN2 MD5_RS_2 com MD4_DlyHS_10 com _MD4_DlyHS_MN2 RS_MD4_DlyHS_MN2 MD4_DlyHS_10 com 1G .MODEL _MD4_DlyHS_MN2 VSWITCH Roff=1e6 Ron=1 Voff=0V Von=5V V_MD4_DlyHS_V0 MD4_DlyHS_6 com 5V C_MD4_DlyHS_C3 com MD4_DlyHS_7 10p V_MD4_DlyHS_V1 MD4_DlyHS_11 com 5V C_MD4_DlyHS_C6 com MD4_DlyHS_10 10p IC=-5V V_MD4_DlyHS_V2 MD4_DlyHS_13 com 5V C_MD4_DlyHS_C4 com MD4_DlyHS_8 10p C_MD4_DlyHS_C5 com MD5_RS_2 10p IC=0V E_MD4_DlyLS_Turn_On_Vth MD4_DlyLS_3 com VALUE { (5* EXP(-( {tonT1}+(
- {tonT3}-{tonT1})/({T3}-{T1})*(TEMP-{T1})) /10/ 10n))/(5* EXP(-( {tonT1}+(
- {tonT3}-{tonT1})/({T3}-{T1})*({T2}-{T1})) /10/
- (EXP(-({tonV1}+({tonV3}-{tonV1})/({V3}-{V1})*(V(VCC)-{V1}))/10/10n))/((EXP(-(
- {tonV1}+({tonV3}-{tonV1})/({V3}-{V1})*({V2}-{V1}))/10/10n))) } E_MD4_DlyLS_Turn_Off_Vth MD4_DlyLS_5 com VALUE { (5-5* EXP(-( {toffT1}+(
- {toffT3}-{toffT1})/({T3}-{T1})*(TEMP-{T1}))/10/10n))/(5-5* EXP(-( {toffT1}+(
- {toffT3}-{toffT1})/({T3}-{T1})*({T2}-{T1}))/10/10n))*(5-5*EXP(-
- {toffT2}/10/10n))*(1-EXP(-( {toffV1}+({toffV3}-{toffV1})/({V3}-{V1})*(V(VCC)-
- {V1})) /10/ 10n))/(1-EXP(-( {toffV1}+({toffV3}-{toffV1})/({V3}-{V1})*({V2}-
- {V1})) /10/ 10n)) } C_MD4_DlyLS_C com MD4_DlyLS_4 10n S_MD4_DlyLS_P1 MD4_DlyLS_11 MD4_DlyLS_12 MD4_DlyLS_7 com _MD4_DlyLS_P1 RS_MD4_DlyLS_P1 MD4_DlyLS_7 com 1G .MODEL _MD4_DlyLS_P1 VSWITCH Roff=1e6 Ron=1 Voff=5V Von=0V S_MD4_DlyLS_P2 MD4_DlyLS_12 MD4_DlyLS_10 MD6_Inv_1 com _MD4_DlyLS_P2 RS_MD4_DlyLS_P2 MD6_Inv_1 com 1G .MODEL _MD4_DlyLS_P2 VSWITCH Roff=1e6 Ron=1 Voff=5V Von=0V S_MD4_DlyLS_N1 MD4_DlyLS_10 com MD6_Inv_1 com _MD4_DlyLS_N1 RS_MD4_DlyLS_N1 MD6_Inv_1 com 1G .MODEL _MD4_DlyLS_N1 VSWITCH Roff=1e6 Ron=1 Voff=0V Von=5V S_MD4_DlyLS_MN1 MD6_Inv_1 com MD4_DlyLS_8 com _MD4_DlyLS_MN1 RS_MD4_DlyLS_MN1 MD4_DlyLS_8 com 1G .MODEL _MD4_DlyLS_MN1 VSWITCH Roff=1e6 Ron=1 Voff=0V Von=5V S_MD4_DlyLS_MP2 MD4_DlyLS_14 MD6_Inv_1 MD4_DlyLS_8 com _MD4_DlyLS_MP2 RS_MD4_DlyLS_MP2 MD4_DlyLS_8 com 1G .MODEL _MD4_DlyLS_MP2 VSWITCH Roff=1e6 Ron=1 Voff=5V Von=0V S_MD4_DlyLS_MP1 MD4_DlyLS_13 MD4_DlyLS_14 MD4_DlyLS_10 com
- _MD4_DlyLS_MP1 RS_MD4_DlyLS_MP1 MD4_DlyLS_10 com 1G .MODEL _MD4_DlyLS_MP1 VSWITCH Roff=1e6 Ron=1 Voff=5V Von=0V S_MD4_DlyLS_delay_P MD4_DlyLS_6 MD4_DlyLS_4 MD4_DlyLS_2 com
- _MD4_DlyLS_delay_P RS_MD4_DlyLS_delay_P MD4_DlyLS_2 com 1G .MODEL _MD4_DlyLS_delay_P VSWITCH Roff=1e6 Ron=10 Voff=5V Von=0V S_MD4_DlyLS_delay_N MD4_DlyLS_4 com MD4_DlyLS_2 com _MD4_DlyLS_delay_N RS_MD4_DlyLS_delay_N MD4_DlyLS_2 com 1G .MODEL _MD4_DlyLS_delay_N VSWITCH Roff=1e6 Ron=10 Voff=0V Von=5V X_MD4_DlyLS_Comp2 MD4_DlyLS_4 MD4_DlyLS_5 MD4_DlyLS_8 com COMP X_MD4_DlyLS_Comp1 MD4_DlyLS_3 MD4_DlyLS_4 MD4_DlyLS_7 com COMP S_MD4_DlyLS_N2 MD4_DlyLS_10 com MD4_DlyLS_7 com _MD4_DlyLS_N2 RS_MD4_DlyLS_N2 MD4_DlyLS_7 com 1G .MODEL _MD4_DlyLS_N2 VSWITCH Roff=1e6 Ron=1 Voff=0V Von=5V S_MD4_DlyLS_MN2 MD6_Inv_1 com MD4_DlyLS_10 com _MD4_DlyLS_MN2 RS_MD4_DlyLS_MN2 MD4_DlyLS_10 com 1G .MODEL _MD4_DlyLS_MN2 VSWITCH Roff=1e6 Ron=1 Voff=0V Von=5V V_MD4_DlyLS_V0 MD4_DlyLS_6 com 5V C_MD4_DlyLS_C3 com MD4_DlyLS_7 10p V_MD4_DlyLS_V1 MD4_DlyLS_11 com 5V C_MD4_DlyLS_C6 com MD4_DlyLS_10 10p IC=-5V V_MD4_DlyLS_V2 MD4_DlyLS_13 com 5V C_MD4_DlyLS_C4 com MD4_DlyLS_8 10p C_MD4_DlyLS_C5 com MD6_Inv_1 10p IC=0V R_MD5_R VS VB 250k TC=0, 0 C_MD5_C3 VS HO 10p IC=0 D_MD5_D1 VS HO DIODE25 D_MD5_D5 com VS DIODE625 D_MD5_D4 com VB DIODE625 D_MD5_D2 HO VB DIODE25 D_MD5_D3 VS VB DIODE25 S_MD5_Inv1_P MD5_Inv1_2 MD5_Nor_1 MD5_RS_2 com _MD5_Inv1_P RS_MD5_Inv1_P MD5_RS_2 com 1G .MODEL _MD5_Inv1_P VSWITCH Roff=1e8 Ron=1 Voff=5V Von=0V S_MD5_Inv1_N MD5_Nor_1 com MD5_RS_2 com _MD5_Inv1_N RS_MD5_Inv1_N MD5_RS_2 com 1G .MODEL _MD5_Inv1_N VSWITCH Roff=1e8 Ron=1 Voff=0V Von=5V C_MD5_Inv1_C com MD5_Nor_1 1p V_MD5_Inv1_V MD5_Inv1_2 com 5V S_MD5_Inv2_P MD5_Inv2_2 MD5_Nor_2 MD5_Uvbs_3 com _MD5_Inv2_P RS_MD5_Inv2_P MD5_Uvbs_3 com 1G .MODEL _MD5_Inv2_P VSWITCH Roff=1e8 Ron=1 Voff=5V Von=0V S_MD5_Inv2_N MD5_Nor_2 com MD5_Uvbs_3 com _MD5_Inv2_N RS_MD5_Inv2_N MD5_Uvbs_3 com 1G .MODEL _MD5_Inv2_N VSWITCH Roff=1e8 Ron=1 Voff=0V Von=5V C_MD5_Inv2_C com MD5_Nor_2 1p V_MD5_Inv2_V MD5_Inv2_2 com 5V S_MD5_Nor_P1 MD5_Nor_3 MD5_Nor_4 MD5_Nor_1 com _MD5_Nor_P1 RS_MD5_Nor_P1 MD5_Nor_1 com 1G .MODEL _MD5_Nor_P1 VSWITCH Roff=1e6 Ron=1 Voff=5V Von=0V S_MD5_Nor_P2 MD5_Nor_4 MD5_Inv3_1 MD5_Nor_2 com _MD5_Nor_P2 RS_MD5_Nor_P2 MD5_Nor_2 com 1G .MODEL _MD5_Nor_P2 VSWITCH Roff=1e6 Ron=1 Voff=5V Von=0V S_MD5_Nor_N1 MD5_Inv3_1 com MD5_Nor_2 com _MD5_Nor_N1 RS_MD5_Nor_N1 MD5_Nor_2 com 1G .MODEL _MD5_Nor_N1 VSWITCH Roff=1e6 Ron=1 Voff=0V Von=5V S_MD5_Nor_N2 MD5_Inv3_1 com MD5_Nor_1 com _MD5_Nor_N2 RS_MD5_Nor_N2 MD5_Nor_1 com 1G .MODEL _MD5_Nor_N2 VSWITCH Roff=1e6 Ron=1 Voff=0V Von=5V V_MD5_Nor_V MD5_Nor_3 com 5V S_MD5_Inv3_P MD5_Inv3_2 MD5_RS_1 MD5_Inv3_1 com _MD5_Inv3_P RS_MD5_Inv3_P MD5_Inv3_1 com 1G .MODEL _MD5_Inv3_P VSWITCH Roff=1e8 Ron=1 Voff=5V Von=0V S_MD5_Inv3_N MD5_RS_1 com MD5_Inv3_1 com _MD5_Inv3_N RS_MD5_Inv3_N MD5_Inv3_1 com 1G .MODEL _MD5_Inv3_N VSWITCH Roff=1e8 Ron=1 Voff=0V Von=5V C_MD5_Inv3_C com MD5_RS_1 1p V_MD5_Inv3_V MD5_Inv3_2 com 5V C_MD5_Uvbs_c1 MD5_Uvbs_4 MD5_Uvbs_5 10n C_MD5_Uvbs_c2 MD5_Uvbs_6 MD5_Uvbs_4 10n X_MD5_Uvbs_Comp VB MD5_Uvbs_4 MD5_Uvbs_3 com COMP S_MD5_Uvbs_P MD5_Uvbs_5 MD5_Uvbs_4 MD5_Uvbs_3 com _MD5_Uvbs_P RS_MD5_Uvbs_P MD5_Uvbs_3 com 1G .MODEL _MD5_Uvbs_P VSWITCH Roff=1e6 Ron=1 Voff=5V Von=0V S_MD5_Uvbs_N MD5_Uvbs_4 MD5_Uvbs_6 MD5_Uvbs_3 com _MD5_Uvbs_N RS_MD5_Uvbs_N MD5_Uvbs_3 com 1G .MODEL _MD5_Uvbs_N VSWITCH Roff=1e6 Ron=1 Voff=0V Von=5V E_MD5_Uvbs_ABM18 MD5_Uvbs_5 com VALUE { V(VS)+8.9 } E_MD5_Uvbs_ABM19 MD5_Uvbs_6 com VALUE { V(VS)+8.2 } C_MD5_Uvbs_c3 com MD5_Uvbs_3 10p S_MD5_RS_P1 MD5_RS_5 MD5_RS_6 MD5_RS_1 com _MD5_RS_P1 RS_MD5_RS_P1 MD5_RS_1 com 1G .MODEL _MD5_RS_P1 VSWITCH Roff=1e6 Ron=1m Voff=5V Von=0V S_MD5_RS_P2 MD5_RS_6 MD5_Inv4_1 MD5_RS_3 com _MD5_RS_P2 RS_MD5_RS_P2 MD5_RS_3 com 1G .MODEL _MD5_RS_P2 VSWITCH Roff=1e6 Ron=1m Voff=5V Von=0V S_MD5_RS_N1 MD5_Inv4_1 com MD5_RS_3 com _MD5_RS_N1 RS_MD5_RS_N1 MD5_RS_3 com 1G .MODEL _MD5_RS_N1 VSWITCH Roff=1e8 Ron=1m Voff=0V Von=5V S_MD5_RS_N2 MD5_Inv4_1 com MD5_RS_1 com _MD5_RS_N2 RS_MD5_RS_N2 MD5_RS_1 com 1G .MODEL _MD5_RS_N2 VSWITCH Roff=1e8 Ron=1m Voff=0V Von=5V S_MD5_RS_N3 MD5_RS_3 com MD5_RS_2 com _MD5_RS_N3 RS_MD5_RS_N3 MD5_RS_2 com 1G .MODEL _MD5_RS_N3 VSWITCH Roff=1e8 Ron=1m Voff=0V Von=5V S_MD5_RS_N4 MD5_RS_3 com MD5_Inv4_1 com _MD5_RS_N4 RS_MD5_RS_N4 MD5_Inv4_1 com 1G .MODEL _MD5_RS_N4 VSWITCH Roff=1e8 Ron=1m Voff=0V Von=5V C_MD5_RS_C7 MD5_RS_6 MD5_RS_5 10p S_MD5_RS_P4 MD5_RS_7 MD5_RS_3 MD5_Inv4_1 com _MD5_RS_P4 RS_MD5_RS_P4 MD5_Inv4_1 com 1G .MODEL _MD5_RS_P4 VSWITCH Roff=1e6 Ron=1m Voff=5V Von=0V S_MD5_RS_P3 MD5_RS_5 MD5_RS_7 MD5_RS_2 com _MD5_RS_P3 RS_MD5_RS_P3 MD5_RS_2 com 1G .MODEL _MD5_RS_P3 VSWITCH Roff=1e6 Ron=1m Voff=5V Von=0V C_MD5_RS_C2 com MD5_RS_1 10p IC=0 C_MD5_RS_C3 com MD5_RS_2 10p IC=0 C_MD5_RS_C10 MD5_RS_7 MD5_RS_5 10p C_MD5_RS_C11 MD5_RS_3 MD5_RS_7 10p C_MD5_RS_C12 com MD5_RS_3 10p C_MD5_RS_C9 com MD5_Inv4_1 10p C_MD5_RS_C8 MD5_Inv4_1 MD5_RS_6 10p C_MD5_RS_C1 com MD5_Inv4_1 10p IC=0 V_MD5_RS_V1 MD5_RS_5 com 5V S_MD5_OHS_P VB MD5_OHS_2 MD5_Inv4_3 com _MD5_OHS_P RS_MD5_OHS_P MD5_Inv4_3 com 1G .MODEL _MD5_OHS_P VSWITCH Roff=1e9 Ron=1m Voff=5V Von=0V S_MD5_OHS_N MD5_OHS_3 VS MD5_Inv4_3 com _MD5_OHS_N RS_MD5_OHS_N MD5_Inv4_3 com 1G .MODEL _MD5_OHS_N VSWITCH Roff=1e9 Ron=1m Voff=0V Von=5V R_MD5_OHS_R1 HO MD5_OHS_2 18.3 TC=0, 0 R_MD5_OHS_R2 MD5_OHS_3 HO 9.13 TC=0, 0 S_MD5_Inv4_P MD5_Inv4_2 MD5_Inv4_3 MD5_Inv4_1 com _MD5_Inv4_P RS_MD5_Inv4_P MD5_Inv4_1 com 1G .MODEL _MD5_Inv4_P VSWITCH Roff=1e8 Ron=1 Voff=5V Von=0V S_MD5_Inv4_N MD5_Inv4_3 com MD5_Inv4_1 com _MD5_Inv4_N RS_MD5_Inv4_N MD5_Inv4_1 com 1G .MODEL _MD5_Inv4_N VSWITCH Roff=1e8 Ron=1 Voff=0V Von=5V C_MD5_Inv4_C com MD5_Inv4_3 1p V_MD5_Inv4_V MD5_Inv4_2 com 5V D_MD6_D3 com LO DIODE25 D_MD6_D2 LO VCC DIODE25 D_MD6_D1 com VCC DIODE25 C_MD6_C com LO 10p S_MD6_Inv_P MD6_Inv_2 MD6_OLS_1 MD6_Inv_1 com _MD6_Inv_P RS_MD6_Inv_P MD6_Inv_1 com 1G .MODEL _MD6_Inv_P VSWITCH Roff=1e8 Ron=1 Voff=5V Von=0V S_MD6_Inv_N MD6_OLS_1 com MD6_Inv_1 com _MD6_Inv_N RS_MD6_Inv_N MD6_Inv_1 com 1G .MODEL _MD6_Inv_N VSWITCH Roff=1e8 Ron=1 Voff=0V Von=5V C_MD6_Inv_C com MD6_OLS_1 1p V_MD6_Inv_V MD6_Inv_2 com 5V S_MD6_OLS_P VCC MD6_OLS_2 MD6_OLS_1 com _MD6_OLS_P RS_MD6_OLS_P MD6_OLS_1 com 1G .MODEL _MD6_OLS_P VSWITCH Roff=1e9 Ron=1m Voff=5V Von=0V S_MD6_OLS_N MD6_OLS_3 com MD6_OLS_1 com _MD6_OLS_N RS_MD6_OLS_N MD6_OLS_1 com 1G .MODEL _MD6_OLS_N VSWITCH Roff=1e9 Ron=1m Voff=0V Von=5V R_MD6_OLS_R1 LO MD6_OLS_2 18.3 TC=0, 0 R_MD6_OLS_R2 MD6_OLS_3 LO 9.13 TC=0, 0
.ENDS IR2184
.SUBCKT COMP 1 2 3 4 E1 5 4 VALUE={IF((V(1)>V(2)), V(4)+5V, V(4))} R1 5 3 1 C1 3 4 10P .ENDS
**********************************************************************************************
- IR2184
**************************** ir2184.asc ******************************** Version 4 SHEET 1 880 680 WIRE 256 48 -224 48 WIRE 256 128 256 48 WIRE 256 128 208 128 WIRE -224 144 -224 48 WIRE -64 144 -224 144 WIRE -48 144 -64 144 WIRE -224 192 -224 144 WIRE 288 192 208 192 WIRE -48 208 -144 208 WIRE -144 272 -144 208 WIRE -64 272 -64 144 WIRE -48 272 -64 272 WIRE -48 352 -80 352 WIRE 288 352 208 352 WIRE -224 416 -224 272 WIRE -144 416 -144 352 WIRE -80 416 -80 352 FLAG -80 416 0 FLAG -224 416 0 FLAG -144 416 0 FLAG 208 272 0 FLAG 288 272 0 FLAG 288 432 0 SYMBOL meine\\IR2184 80 240 R0 SYMATTR InstName U1 SYMBOL voltage -224 176 R0 WINDOW 123 0 0 Left 0 WINDOW 39 0 0 Left 0 SYMATTR InstName V1 SYMATTR Value 12 SYMBOL voltage -144 256 R0 WINDOW 3 34 199 Left 0 WINDOW 123 0 0 Left 0 WINDOW 39 0 0 Left 0 SYMATTR Value PULSE(0 5 0 100n 100n 5µ 10µ) SYMATTR InstName V2 SYMBOL res 272 336 R0 SYMATTR InstName R1 SYMATTR Value 10k SYMBOL res 272 176 R0 SYMATTR InstName R2 SYMATTR Value 10k TEXT -256 504 Left 0 !.tran 5m