**** CIRCUIT DESCRIPTION ****************************************************************************** ** Creating circuit file "Test.cir" ** WARNING: THIS AUTOMATICALLY GENERATED FILE MAY BE OVERWRITTEN BY SUBSEQUENT SIMULATIONS *Libraries: * Profile Libraries : * Local Libraries : .LIB "../../../versuch treiber-pspicefiles/versuch treiber!.lib" * From [PSPICE NETLIST] section of C:\Cadence\SPB_16.3\tools\PSpice\PSpice.ini file: .lib "C:\Cadence\SPB_16.3\tools\capture\library\pspice\pwrmos.olb" " .lib "C:\Cadence\SPB_16.3\tools\capture\library\Libary IRF\IR2117.lib" .lib "C:\Cadence\SPB_16.3\tools\capture\library\pspice\infineon.olb" .lib "nom.lib" .lib "C:\Cadence\SPB_16.3\tools\capture\library\Libary IRF\IR2127.lib" *Analysis directives: .TRAN 0 0.09 0 0.001 .PROBE V(alias(*)) I(alias(*)) W(alias(*)) D(alias(*)) NOISE(alias(*)) .INC "..\SCHEMATIC1.net" **** INCLUDING SCHEMATIC1.net **** * source VERSUCH TREIBER X_U1 N14482 N14391 N15282 0 N14733 N15103 0 0 IR2127 PARAMS: T1=-40 + T2=25 T3=125 V1=10 V2=15 V3=20 TONT1=140N TONT2=200N TONT3=290N TONV1=235N + TONV2=200N TONV3=160N TOFFT1=110N TOFFT2=150N TOFFT3=215N TOFFV1=170N + TOFFV2=150N TOFFV3=125N RRISE=15 RFALL=15 TFLTONT1=265N TFLTONT2=340N + TFLTONT3=460N TFLTONV1=360N TFLTONV2=340N TFLTONV3=325N TFLTOFFT1=265N + TFLTOFFT2=340N TFLTOFFT3=460N TFLTOFFV1=360N TFLTOFFV2=340N TFLTOFFV3=325N + RTFLTRISE=15 RTFLTFALL=15 TBLONT1=520N TBLONT2=700N TBLONT3=920N TBLONV1=760N + TBLONV2=700N TBLONV3=620N TBLOFFT1=520N TBLOFFT2=700N TBLOFFT3=920N + TBLOFFV1=760N TBLOFFV2=700N TBLOFFV3=620N RTBLRISE=30 RTBLFALL=30 RTCSFALL=15 + RTCSRISE=15 TCSONT1=215N TCSONT2=240N TCSONT3=280N TCSONV1=250N TCSONV2=240N + TCSONV3=230N TCSOFFT1=215N TCSOFFT2=240N TCSOFFT3=280N TCSOFFV1=250N + TCSOFFV2=240N TCSOFFV3=230N V_V1 N14391 0 +SIN 6 6 50 0 0 0 V_V2 N14482 0 12 C_C1 0 N14482 2u TC=0,0 C_C2 N14482 0 220u TC=0,0 R_R1 N14482 N15026 2.2 TC=0,0 R_R2 N14733 N16994 100 TC=0,0 C_C3 N14733 0 330n TC=0,0 D_D2 N15026 N14733 D1N4007 R_R3 N15103 N15146 20 TC=0,0 R_R4 N15103 N15150 20 TC=0,0 D_D3 N15146 N15150 D1N4007 C_C4 N15282 0 100n TC=0,0 X_M1 N16994 N15150 0 IRF530N **** RESUMING Test.cir **** .END WARNING -- LAMBDA for MOSFET model X_M1.MM is unusually large and might cause nonconvergence **** 03/08/12 19:01:12 ******* PSpice 16.3.0 (June 2009) ****** ID# 0 ******** ** Profile: "SCHEMATIC1-Test" **** Diode MODEL PARAMETERS ****************************************************************************** D1N4007 D1N4001 X_U1.diode25 X_U1.diode625 IS 14.110000E-09 14.110000E-09 10.000000E-15 10.000000E-15 N 1.984 1.984 IKF 94.81 94.81 BV 1.500000E+03 75 25 625 IBV 10.000000E-06 10.000000E-06 100.000000E-06 100.000000E-06 RS .03389 .03389 .01 .01 TT 5.700000E-06 5.700000E-06 CJO 25.890000E-12 25.890000E-12 VJ .3245 .3245 .75 .75 M .44 .44 .333 .333 X_M1.MD X_M1.MD1 X_M1.MD2 X_M1.MD3 IS 9.061120E-12 0 100.000000E-12 100.000000E-12 N 1.13042 50 .400249 .400249 BV 100 IBV 250.000000E-06 RS 9.823240E-03 3.000000E-06 TT 100.000000E-06 CJO 740.000000E-12 944.672000E-12 VJ 1.52632 .5 M .693198 .9 FC 10.000000E-09 EG 1.2 XTI 3.54513 **** MOSFET MODEL PARAMETERS ****************************************************************************** X_M1.MM NMOS LEVEL 1 L 100.000000E-06 W 100.000000E-06 VTO 3.79209 KP 81.097 GAMMA 0 PHI .6 LAMBDA 3.64034 IS 0 JS 0 PB .8 PBSW .8 CJ 0 CJSW 0 CGSO 8.900000E-06 CGDO 10.000000E-12 CGBO 0 TOX 0 XJ 0 UCRIT 10.000000E+03 DIOMOD 1 VFB 0 LETA 0 WETA 0 U0 0 TEMP 0 VDD 5 XPART 0 **** Voltage Controlled Switch MODEL PARAMETERS ****************************************************************************** X_U1._MD3_Uvbs_P RON 1 ROFF 1.000000E+06 VON 0 VOFF 5 X_U1._MD3_Uvbs_N RON 1 ROFF 1.000000E+06 VON 5 VOFF 0 X_U1._MD3_Inv3_P RON 1 ROFF 1.000000E+06 VON 0 VOFF 1 X_U1._MD3_Inv3_N RON 1 ROFF 1.000000E+06 VON 1 VOFF 0 X_U1._MD3_Inv1_P RON 1 ROFF 1.000000E+06 VON 0 VOFF 1 X_U1._MD3_Inv1_N RON 1 ROFF 1.000000E+06 VON 1 VOFF 0 X_U1._MD3_Nor_P1 RON 1 ROFF 1.000000E+06 VON 0 VOFF 5 X_U1._MD3_Nor_P2 RON 1 ROFF 1.000000E+06 VON 0 VOFF 5 X_U1._MD3_Nor_N1 RON 1 ROFF 1.000000E+06 VON 5 VOFF 0 X_U1._MD3_Nor_N2 RON 1 ROFF 1.000000E+06 VON 5 VOFF 0 X_U1._MD3_Inv2_P RON 1 ROFF 1.000000E+06 VON 0 VOFF 1 X_U1._MD3_Inv2_N RON 1 ROFF 1.000000E+06 VON 1 VOFF 0 X_U1._MD3_RSb_P1 RON 1 ROFF 1.000000E+06 VON 0 VOFF 5 X_U1._MD3_RSb_P2 RON 1 ROFF 1.000000E+06 VON 0 VOFF 5 X_U1._MD3_RSb_N1 RON 1 ROFF 1.000000E+06 VON 5 VOFF 0 X_U1._MD3_RSb_P3 RON 1 ROFF 1.000000E+06 VON 0 VOFF 5 X_U1._MD3_RSb_P4 RON 1 ROFF 1.000000E+06 VON 0 VOFF 5 X_U1._MD3_RSb_N3 RON 1 ROFF 1.000000E+06 VON 5 VOFF 0 X_U1._MD3_RSb_N4 RON 1 ROFF 1.000000E+06 VON 5 VOFF 0 X_U1._MD3_RSb_N2 RON 1 ROFF 1.000000E+06 VON 5 VOFF 0 X_U1._MD1_Trig_P RON 1 ROFF 10.000000E+09 VON 5 VOFF 0 X_U1._MD2_Switch RON 1 ROFF 1.000000E+06 VON 5 VOFF 0 X_U1._MD2_Dly1_N2 RON 3 ROFF 100.000000E+06 VON 1 VOFF 0 X_U1._MD2_Dly1_MP1 RON 10 ROFF 1.000000E+06 VON 0 VOFF 1 X_U1._MD2_Dly1_P1 RON 10 ROFF 1.000000E+06 VON 0 VOFF 1 X_U1._MD2_Dly1_P2 RON 10 ROFF 1.000000E+06 VON 0 VOFF 1 X_U1._MD2_Dly1_N1 RON 3 ROFF 100.000000E+06 VON 1 VOFF 0 X_U1._MD2_Dly1_MN1 RON 3 ROFF 100.000000E+06 VON 1 VOFF 0 X_U1._MD2_Dly1_MP2 RON 10 ROFF 1.000000E+06 VON 0 VOFF 1 X_U1._MD2_Dly1_MN2 RON 3 ROFF 100.000000E+06 VON 1 VOFF 0 X_U1._MD2_Dly1_delay_P RON 15 ROFF 1.000000E+06 VON 0 VOFF 1 X_U1._MD2_Dly1_delay_N X_U1._MD2_RS_P1 X_U1._MD2_RS_P2 RON 15 1 1 ROFF 100.000000E+06 1.000000E+06 1.000000E+06 VON 1 0 0 VOFF 0 5 5 X_U1._MD2_RS_N1 X_U1._MD2_RS_P3 X_U1._MD2_RS_P4 X_U1._MD2_RS_N3 RON 1 1 1 1 ROFF 1.000000E+06 1.000000E+06 1.000000E+06 1.000000E+06 VON 5 0 0 5 VOFF 0 5 5 0 X_U1._MD2_RS_N4 X_U1._MD2_RS_N2 RON 1 1 ROFF 1.000000E+06 1.000000E+06 VON 5 5 VOFF 0 0 X_U1._MD2_Dly2_N2 RON 3 ROFF 100.000000E+06 VON 1 VOFF 0 X_U1._MD2_Dly2_MP1 RON 10 ROFF 1.000000E+06 VON 0 VOFF 1 X_U1._MD2_Dly2_P1 RON 10 ROFF 1.000000E+06 VON 0 VOFF 1 X_U1._MD2_Dly2_P2 RON 10 ROFF 1.000000E+06 VON 0 VOFF 1 X_U1._MD2_Dly2_N1 RON 3 ROFF 100.000000E+06 VON 1 VOFF 0 X_U1._MD2_Dly2_MN1 RON 3 ROFF 100.000000E+06 VON 1 VOFF 0 X_U1._MD2_Dly2_MP2 RON 10 ROFF 1.000000E+06 VON 0 VOFF 1 X_U1._MD2_Dly2_MN2 RON 3 ROFF 100.000000E+06 VON 1 VOFF 0 X_U1._MD2_Dly2_delay_P RON 15 ROFF 1.000000E+06 VON 0 VOFF 5 X_U1._MD2_Dly2_delay_N X_U1._MD2_Inv_P X_U1._MD2_Inv_N RON 15 1 1 ROFF 100.000000E+06 1.000000E+06 1.000000E+06 VON 5 0 1 VOFF 0 1 0 X_U1._MD4_Inv_P X_U1._MD4_Inv_N RON 1 1 ROFF 1.000000E+06 1.000000E+06 VON 0 1 VOFF 1 0 X_U1._MD4_Dly_N2 RON 3 ROFF 100.000000E+06 VON 1 VOFF 0 X_U1._MD4_Dly_MP1 RON 10 ROFF 1.000000E+06 VON 0 VOFF 1 X_U1._MD4_Dly_P1 RON 10 ROFF 1.000000E+06 VON 0 VOFF 1 X_U1._MD4_Dly_P2 RON 10 ROFF 1.000000E+06 VON 0 VOFF 1 X_U1._MD4_Dly_N1 RON 3 ROFF 100.000000E+06 VON 1 VOFF 0 X_U1._MD4_Dly_MN1 RON 3 ROFF 100.000000E+06 VON 1 VOFF 0 X_U1._MD4_Dly_MP2 RON 10 ROFF 1.000000E+06 VON 0 VOFF 1 X_U1._MD4_Dly_MN2 RON 3 ROFF 100.000000E+06 VON 1 VOFF 0 X_U1._MD4_Dly_delay_P RON 30 ROFF 1.000000E+06 VON 0 VOFF 1 X_U1._MD4_Dly_delay_N RON 30 ROFF 1.000000E+06 VON 1 VOFF 0 X_U1._MD4_Switch X_U1._MD4_RS_P1 X_U1._MD4_RS_P2 RON 1 1 1 ROFF 1.000000E+09 1.000000E+06 1.000000E+06 VON 5 0 0 VOFF 0 5 5 X_U1._MD4_RS_N1 X_U1._MD4_RS_P3 X_U1._MD4_RS_P4 X_U1._MD4_RS_N3 RON 1 1 1 1 ROFF 1.000000E+06 1.000000E+06 1.000000E+06 1.000000E+06 VON 5 0 0 5 VOFF 0 5 5 0 X_U1._MD4_RS_N4 X_U1._MD4_RS_N2 RON 1 1 ROFF 1.000000E+06 1.000000E+06 VON 5 5 VOFF 0 0 X_U1._MD4_TcsDly_N2 RON 3 ROFF 100.000000E+06 VON 1 VOFF 0 X_U1._MD4_TcsDly_MP1 RON 10 ROFF 1.000000E+06 VON 0 VOFF 1 X_U1._MD4_TcsDly_P1 RON 10 ROFF 1.000000E+06 VON 0 VOFF 1 X_U1._MD4_TcsDly_P2 RON 10 ROFF 1.000000E+06 VON 0 VOFF 1 X_U1._MD4_TcsDly_N1 RON 3 ROFF 100.000000E+06 VON 1 VOFF 0 X_U1._MD4_TcsDly_MN1 RON 3 ROFF 100.000000E+06 VON 1 VOFF 0 X_U1._MD4_TcsDly_MP2 RON 10 ROFF 1.000000E+06 VON 0 VOFF 1 X_U1._MD4_TcsDly_MN2 RON 3 ROFF 100.000000E+06 VON 1 VOFF 0 X_U1._MD4_TcsDly_P RON 15 ROFF 1.000000E+06 VON 0 VOFF 1 X_U1._MD4_TcsDly_N RON 15 ROFF 1.000000E+06 VON 1 VOFF 0 X_U1._MD4_Nor_P1 RON 1 ROFF 1.000000E+06 VON 0 VOFF 5 X_U1._MD4_Nor_P2 RON 1 ROFF 1.000000E+06 VON 0 VOFF 5 X_U1._MD4_Nor_N1 RON 1 ROFF 1.000000E+06 VON 5 VOFF 0 X_U1._MD4_Nor_N2 X_U1._MD4_OHS_P X_U1._MD4_OHS_N RON 1 1.000000E-03 1.000000E-03 ROFF 1.000000E+06 10.000000E+06 10.000000E+06 VON 5 0 5 VOFF 0 5 0 WARNING -- LAMBDA for MOSFET model X_M1.MM is unusually large and might cause nonconvergence ERROR -- Convergence problem in transient bias point calculation Last node voltages tried were: NODE VOLTAGE NODE VOLTAGE NODE VOLTAGE NODE VOLTAGE (N14391) 2.2069 (N14482) 4.4138 (N14733) 3.7942 (N15026) 4.4089 (N15103) 3.7942 (N15146) 3.7942 (N15150) 3.7942 (N15282) 4.424E-06 (N16994) 3.5748 (X_M1.4) 0.0000 (X_M1.5) -.0807 (X_M1.6) -.0807 (X_M1.7) 3.7942 (X_M1.8) 123.1E-06 (X_M1.9) 3.5747 (X_M1.10) -.0807 (X_M1.11) -.0807 (X_U1.MD2_9) 548.6E-12 (X_U1.MD4_12) 0.0000 (X_U1.MD4_13) .0736 (X_U1.MD2_RS_4) 52.64E-06 (X_U1.MD2_RS_5) 1.8391 (X_U1.MD2_RS_6) 1.8391 (X_U1.MD2_RS_7) 1.8128 (X_U1.MD2_RS_8) 1.8391 (X_U1.MD4_RS_2) 0.0000 (X_U1.MD4_RS_5) 1.8391 (X_U1.MD4_RS_6) 1.8391 (X_U1.MD4_RS_7) .9195 (X_U1.MD4_RS_8) 1.8391 (X_U1.MD2_Inv_1) 1.8391 (X_U1.MD2_Inv_2) 1.8391 (X_U1.MD2_Inv_3) 1.839E-06 (X_U1.MD3_Nor_1) 1.8391 (X_U1.MD3_Nor_2) 1.839E-06 (X_U1.MD3_Nor_3) 1.8391 (X_U1.MD3_Nor_4) 1.8303 (X_U1.MD3_RSb_1) 1.839E-06 (X_U1.MD3_RSb_4) 1.8302 (X_U1.MD3_RSb_5) 1.8391 (X_U1.MD3_RSb_6) 1.8390 (X_U1.MD3_RSb_7) 1.8391 (X_U1.MD4_Dly_3) .1071 (X_U1.MD4_Dly_4) 1.8391 (X_U1.MD4_Dly_5) 55.17E-06 (X_U1.MD4_Dly_6) 1.7361 (X_U1.MD4_Dly_7) 1.8391 (X_U1.MD4_Dly_8) 1.8379 (X_U1.MD4_Dly_9) 3.676E-09 (X_U1.MD4_Inv_2) 1.8391 (X_U1.MD4_Nor_1) 1.8391 (X_U1.MD4_Nor_2) 1.837E-09 (X_U1.MD4_Nor_3) 1.8391 (X_U1.MD4_Nor_4) 1.8303 (X_U1.MD4_Nor_5) 1.8302 (X_U1.MD4_OHS_1) 1.839E-06 (X_U1.MD4_OHS_2) 3.7942 (X_U1.MD4_OHS_3) 3.7942 (X_U1.MD1_Trig_3) .5737 (X_U1.MD1_Trig_4) .2954 (X_U1.MD1_Trig_7) 5.5173 (X_U1.MD2_Dly1_3) .2821 (X_U1.MD2_Dly1_4) 1.8391 (X_U1.MD2_Dly1_5) 27.59E-06 (X_U1.MD2_Dly1_6) 1.3581 (X_U1.MD2_Dly1_7) 1.8391 (X_U1.MD2_Dly1_8) 0.0000 (X_U1.MD2_Dly1_9) 1.8379 (X_U1.MD2_Dly2_3) .1466 (X_U1.MD2_Dly2_4) 1.8391 (X_U1.MD2_Dly2_5) 1.8391 (X_U1.MD2_Dly2_6) 1.6924 (X_U1.MD2_Dly2_7) 0.0000 (X_U1.MD2_Dly2_8) 1.8391 (X_U1.MD2_Dly2_9) 1.8391 (X_U1.MD3_Inv1_2) 1.8391 (X_U1.MD3_Inv2_1) 1.8302 (X_U1.MD3_Inv2_2) 1.8391 (X_U1.MD3_Inv3_1) 1.8391 (X_U1.MD3_Inv3_2) 1.8391 (X_U1.MD3_Uvbs_3) 3.7942 (X_U1.MD3_Uvbs_5) 3.7966 (X_U1.MD3_Uvbs_6) 3.2965 (X_U1.MD4_Dly_10) 1.8391 (X_U1.MD4_Dly_11) 1.8379 (X_U1.MD4_Dly_12) 1.8391 (X_U1.MD4_Dly_13) 18.39E-06 (X_U1.MD4_Dly_14) 0.0000 (X_U1.X_MD4_U1.4) 0.0000 (X_U1.MD2_Dly1_10) 3.676E-09 (X_U1.MD2_Dly1_11) 1.8391 (X_U1.MD2_Dly1_12) 1.8379 (X_U1.MD2_Dly1_13) 1.8391 (X_U1.MD2_Dly1_14) 18.39E-06 (X_U1.MD2_Dly2_10) 1.837E-09 (X_U1.MD2_Dly2_11) 1.8391 (X_U1.MD2_Dly2_12) 1.8391 (X_U1.MD2_Dly2_13) 1.8391 (X_U1.MD2_Dly2_14) .9195 (X_U1.MD4_TcsDly_2) 26.70E-06 (X_U1.MD4_TcsDly_3) .3207 (X_U1.MD4_TcsDly_4) 1.8391 (X_U1.MD4_TcsDly_5) 1.8391 (X_U1.MD4_TcsDly_6) 1.5187 (X_U1.MD4_TcsDly_7) 0.0000 (X_U1.MD4_TcsDly_8) 1.8391 (X_U1.MD4_TcsDly_10) 1.8391 (X_U1.MD4_TcsDly_11) 1.8391 (X_U1.MD4_TcsDly_12) 1.8391 (X_U1.MD4_TcsDly_13) .9195 (X_U1.MD4_TcsDly_14) 1.8391 (X_U1.X_MD1_Trig_Comp.4) 1.8391 (X_U1.X_MD3_Uvbs_Comp.4) 1.8391 These voltages failed to converge: V(X_U1.MD3_Uvbs_5) = 10.32V \ 3.797V V(X_U1.MD3_Uvbs_6) = 8.962V \ 3.297V V(X_U1.MD3_Inv3_1) = 361.98V \ 1.839V V(X_U1.MD4_Nor_1) = 5.000V \ 1.839V V(X_U1.MD3_RSb_4) = 1.617V \ 1.830V V(X_U1.MD3_RSb_7) = 1.886V \ 1.839V V(X_U1.MD1_Trig_3) = -2.157V \ 573.71mV V(X_U1.MD1_Trig_7) = 15.00V \ 5.517V V(X_U1.MD1_Trig_4) = -3.123V \ 295.39mV V(X_U1.MD2_Inv_1) = 5.000V \ 1.839V V(X_U1.MD2_Dly1_9) = 4.997V \ 1.838V V(X_U1.MD2_Dly1_7) = 5.000V \ 1.839V V(X_U1.MD2_Dly1_12) = 4.997V \ 1.838V V(X_U1.MD2_Dly1_6) = 3.692V \ 1.358V V(X_U1.MD2_Dly1_3) = 766.96mV \ 282.10mV V(X_U1.MD2_Dly2_9) = 5.000V \ 1.839V V(X_U1.MD2_Dly2_12) = 3.419V \ 1.839V V(X_U1.MD2_Dly2_8) = 5.000V \ 1.839V V(X_U1.MD4_TcsDly_2) = -135.97uV \ 26.70uV V(X_U1.MD2_Dly2_3) = 398.52mV \ 146.58mV V(X_U1.MD2_Dly2_6) = 4.601V \ 1.692V V(X_U1.MD4_Nor_5) = 1.617V \ 1.830V V(X_U1.MD4_Dly_8) = 4.997V \ 1.838V V(X_U1.MD4_Dly_7) = 5.000V \ 1.839V V(X_U1.MD4_Dly_11) = 4.997V \ 1.838V V(X_U1.MD4_Dly_3) = 291.10mV \ 107.07mV V(X_U1.MD4_Dly_6) = 4.720V \ 1.736V V(X_U1.MD4_RS_7) = -4.683V \ 919.55mV V(X_U1.MD4_TcsDly_8) = 5.000V \ 1.839V V(X_U1.MD4_TcsDly_11) = 3.419V \ 1.839V V(X_U1.MD4_TcsDly_14) = 5.000V \ 1.839V V(X_U1.MD4_TcsDly_3) = 872.00mV \ 320.74mV V(X_U1.MD4_TcsDly_6) = 4.129V \ 1.519V V(X_U1.MD4_Nor_4) = 1.618V \ 1.830V V(X_U1.X_MD3_Uvbs_Comp.4) = 361.98V \ 1.839V V(X_U1.X_MD1_Trig_Comp.4) = 5.000V \ 1.839V These supply currents failed to converge: I(X_U1.E_MD3_Uvbs_ABM18) = -47.23mA \ -34.28uA I(X_U1.E_MD3_Uvbs_ABM19) = 47.23mA \ 34.28uA I(X_U1.E_MD1_Trig_ABM18) = -171.57nA \ -49.44nA I(X_U1.E_MD2_Dly1_Amp) = -10.01nA \ -3.682nA I(X_U1.E_MD2_Dly2_U8) = -10.01nA \ -3.682nA I(X_U1.E_MD4_Dly_Amp1) = -10.01nA \ -3.682nA I(X_U1.E_MD4_TcsDly_Amp2) = -10.01nA \ -3.682nA I(X_U1.X_MD3_Uvbs_Comp.E1) = -1.449uA \ -7.364nA I(X_U1.X_MD1_Trig_Comp.E1) = -25.03nA \ -9.205nA I(X_U1.V_MD3_RSb_V1) = 45.15mA \ -127.89uA I(X_U1.V_MD2_Dly1_VCC1) = 3.158uA \ -1.225nA I(X_U1.V_MD2_Dly2_V1) = 158.03mA \ -4.046pA I(X_U1.V_MD4_Dly_V1) = 3.158uA \ -1.225nA I(X_U1.V_MD4_RS_V1) = 67.98mA \ -13.35mA I(X_U1.V_MD4_TcsDly_V1) = 158.03mA \ -4.046pA I(X_U1.V_MD4_Nor_V) = -1.649mA \ -127.89uA These devices failed to converge: X_U1.E_MD2_Dly2_U8 X_U1.E_MD4_TcsDly_Amp2 X_U1.X_MD3_Uvbs_Comp.E1 **** Interrupt ****