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Problem mit PSpice-Modell in LTSpice

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=1

D_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_R3 DT MD2_Fall2_4 1.2 R_MD2_R3 com MD2_Fall2_4 1.2

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/
10n))*5*EXP(-{tonT2}/10/10n)*
  • (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/
10n))*5*EXP(-{tonT2}/10/10n)*
  • (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
.asy *********************************** Version 4 SymbolType CELL RECTANGLE Normal -128 -144 128 144 WINDOW 0 0 -96 Center 0 WINDOW 3 0 88 Center 0 SYMATTR Value IR2184 SYMATTR Prefix X SYMATTR Value2 IR2184 SYMATTR SpiceModel meine.lib SYMATTR Description High Voltage Gate Driver PIN -128 -32 LEFT 8 PINATTR PinName IN PINATTR SpiceOrder 2 PIN -128 -96 LEFT 8 PINATTR PinName Vcc PINATTR SpiceOrder 1 PIN 128 -112 RIGHT 8 PINATTR PinName VB PINATTR SpiceOrder 5 PIN 128 32 RIGHT 8 PINATTR PinName VS PINATTR SpiceOrder 7 PIN -128 112 LEFT 8 PINATTR PinName GND PINATTR SpiceOrder 4 PIN 128 -48 RIGHT 8 PINATTR PinName HO PINATTR SpiceOrder 6 PIN 128 112 RIGHT 8 PINATTR PinName LO PINATTR SpiceOrder 8 PIN -128 32 LEFT 8 PINATTR PinName SD PINATTR SpiceOrder 3

************************************************************************

**************************** 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

Reply to
Michael Rübig
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Hallo Michael,

Ich habe deine Beispiel noch nicht ausprobiert, aber in der LTspice-group hatte ich mal ein Beispiel mit dem IR2184 gemacht. LTspice group: Files > Attached files sorted by message number > msg_13604 > IR2184.zip

Da hat der Alternate-Solver geholfen. Geh ins Control Panel und stelle den Solver um. Control Panel -> SPICE Solver:Alternate

Außerdem hat jemand privat ein Modell gemacht und in die Yahoo group hochgeladen. LTspice group: Files > Lib > IR2184

Ich empfehle jedem LTspice-Benutzer die Yahoo group zu abonnieren. Das ist die Quelle für alles zu LTspice.

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Gruß Helmut

Reply to
Helmut Sennewald

Hallo Helmut, mit dem Alternate Solver gehts.

Danke!

Michael

Helmut Sennewald schrieb:

Reply to
Michael Rübig

Michael Rübig schrieb:

Hallo,

da hat LTSpice offenbar eine singuläre Matrix vorgefunden und kann deshalb ein Gleichungssystem nicht lösen:

formatting link
formatting link

Bye

Reply to
Uwe Hercksen

Klingt gut, mach ich sobald die nntp zugriff haben.

Olaf

Reply to
Olaf Kaluza

Das ist so als wenn du Materie mit Antimaterie verheiraten willst.

- Henry

--
www.ehydra.dyndns.info
Reply to
Henry Kiefer

Da kann man mal sehen wieviel Energie in so einer Verbindung stecken wuerde. :-)

Olaf

Reply to
Olaf Kaluza

So laufen aber viele Ehen. Eine zeitlang jedenfalls ...

--
Gruesse, Joerg

http://www.analogconsultants.com/
Reply to
Joerg

Gegens=E4tzliches zieht sich halt an, bis es knallt ;-)

--=20 mfg hdw

Reply to
Horst-D.Winzler

Schreib das mal den Typen, die immer noch an dem jetzt ja obsoleten Fusionsreaktor forschen.

Halten Homoehen[0] länger? Ich kenne mich damit nicht aus.

Falk [0]Zwei Tanten fragten mich letztens, ob man für eine eingetragene Partnerschaft unbedingt homosexuell sein muß. Die hatten das aus irgendwelchen Gründen in Erwägung gezogen ;-)

Reply to
Falk Willberg

Falk Willberg schrieb:

Ich bin der Meinung, der ist einfach überflüssig.

Wegen der Steuern ist alles möglich ;-)

- Henry

--
www.ehydra.dyndns.info
Reply to
Henry Kiefer

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