skarthikshines
Member level 5
while i simulating my circuit am getting the error "Convergence problem in transient bias point calculation".. i gave the the net list of my circuit as follws.. pls any body help me for this.,
**** 06/13/11 09:23:51 ******* PSpice 16.3.0 (June 2009) ****** ID# 0 ********
** Profile: "SCHEMATIC1-tran1" [ f:\a18-212l_simulation\200511\a18_212l_1-pspicefiles\schematic1\tran1.sim ]
**** CIRCUIT DESCRIPTION
******************************************************************************
** Creating circuit file "tran1.cir"
** WARNING: THIS AUTOMATICALLY GENERATED FILE MAY BE OVERWRITTEN BY SUBSEQUENT SIMULATIONS
*Libraries:
* Profile Libraries :
* Local Libraries :
* From [PSPICE NETLIST] section of E:\cadence\tools\PSpice\PSpice.ini file:
.lib "E:\cadence\user lib\5KP30A.OLB"
.lib "nom.lib"
.lib "E:\cadence\user lib\OSRAM-IR-METAL CAN(2).lib"
*Analysis directives:
.TRAN 0 100n 0
.OPTIONS ACCT
.OPTIONS EXPAND
.OPTIONS LIBRARY
.OPTIONS LIST
.OPTIONS NODE
.OPTIONS OPTS
.PROBE V(alias(*)) I(alias(*)) W(alias(*)) D(alias(*)) NOISE(alias(*))
.INC "..\SCHEMATIC1.net"
**** INCLUDING SCHEMATIC1.net ****
* source A18_212L_1
R_R1 N17298 N16688 1.2E TC=0,0
Q_T1 0 N17284 N17298 BCX53/INF
C_C2 N16378 N16688 1n TC=0,0
Q_T5 N16622 N16588 N16668 BC858C
R_R6 N17018 N16688 100k TC=0,0
R_R13 N16674 N16688 68k TC=0,0
C_C1 N16622 N16688 3n TC=0,0
Q_T2 N17174 N16956 N17232 BC857B
R_R3 N17232 N17284 1k TC=0,0
X_D2 N17174 N17134 VCC hlmp-1350
Q_T3 N16956 N17018 N16824 BC847B
D_D5 0 N17298 BZX84C33V/PLP
R_R14 N16700 N16674 10k TC=0,0
R_R8 N16626 N16824 15k TC=0,0
Q_T8 N16622 N16674 N16688 BC857B
R_R2 N17284 N16688 4.7k TC=0,0
X_L6 N16378 N17670 0805LS-223 PARAMS: K1=4.01E-07 K2=1.29E+01
V_V2 N27347 0 30Vdc
R_R7 N16626 N17018 150k TC=0,0
Q_T4 N16688 N16622 N16824 BC847B
Q_T7 N16772 N17414 N16688 BC857B
R_R5 N17018 0 470k TC=0,0
C_C3 N16626 N16762 100n TC=0,0
R_R15 N17414 N17298 100E TC=0,0
R_R4 N16626 0 9.6k TC=0,0
R_R11 N16626 N16588 22k TC=0,0
D_ZD1 N16956 N16688 BZX84C6V8/PLP
R_R10 N16668 N17670 35 TC=0,0
D_D1 N27347 N16688 BAS16
Q_T9 N16700 N16762 N16626 BC847B
X_D3 N17134 N16626 VCC2 hlmp-1350
R_R9 N16626 N16622 5.1k TC=0,0
X_L5 N17670 N16688 0603LS-222 PARAMS: K1=7.23E-05 K2=1.31E+00
R_R12 N16762 N16772 100k TC=0,0
D_D6 N16378 N16588 D1N4148
D_D7 N16626 0 D1N4148
**** RESUMING tran1.cir ****
.END
**** FROM LIBRARY phil_diode.lib ****
.MODEL BZX84C33V/PLP D
+ IS=110.88E-18
+ N=.92657
+ RS=.85899
+ IKF=149.75
+ CJO=16.677E-12
+ M=.34957
+ VJ=.66723
+ ISR=100.00E-12
+ BV=33.134
+ IBV=.37878
+ TT=2.2362E-6
.MODEL BZX84C6V8/PLP D
+ IS=110.88E-18
+ N=.92657
+ RS=.85899
+ IKF=149.75
+ CJO=93.867E-12
+ M=.35256
+ VJ=.75339
+ ISR=522.33E-12
+ BV=6.9329
+ IBV=1.0062
+ TT=231.41E-9
**** FROM LIBRARY ediode.lib ****
.model BAS16 D(Is=4.198n N=1.977 Rs=.4599 Ikf=1.408 Xti=3 Eg=1.11 Cjo=2p
+ M=.3333 Vj=.5 Fc=.5 Isr=1.115n Nr=2 Bv=75 Ibv=100u Tt=8.656n)
**** FROM LIBRARY diode.lib ****
.model D1N4148 D(Is=2.682n N=1.836 Rs=.5664 Ikf=44.17m Xti=3 Eg=1.11 Cjo=4p
+ M=.3333 Vj=.5 Fc=.5 Isr=1.565n Nr=2 Bv=100 Ibv=100u Tt=11.54n)
**** FROM LIBRARY infineon.lib ****
.MODEL BCX53/INF PNP(
+ AF= 1.00E+00 BF= 1.85E+02 BR= 4.28E+00 CJC= 8.00E-11
+ CJE= 1.27E-10 CJS= 0.00E+00 EG= 1.11E+00 FC= 5.00E-01
+ IKF= 9.69E-01 IKR= 1.00E+00 IRB= 1.62E-01 IS= 4.60E-12
+ ISC= 9.45E-17 ISE= 1.99E-14 ITF= 4.53E-01 KF= 0.00E+00
+ MJC= 5.07E-01 MJE= 4.94E-01 MJS= 3.30E-01 NC= 2.00E+00
+ NE= 1.23E+00 NF= 1.19E+00 NR= 1.23E+00 PTF= 0.00E+00
+ RB= 4.84E+00 RBM= 1.00E+01 RC= 2.62E-01 RE= 1.00E-02
+ TF= 1.07E-09 TR= 0.00E+00 VAF= 1.44E+02 VAR= 1.97E+01
+ VJC= 3.62E-01 VJE= 5.43E-01 VJS= 7.50E-01 VTF= 9.99E+05
+ XCJC= 1.00E+00 XTB= 0.00E+00 XTF= 6.31E-01 XTI= 3.00E+00)
**** FROM LIBRARY ebipolar.lib ****
.model BC858C PNP(Is=336.7f Xti=3 Eg=1.11 Vaf=29.03 Bf=462.2 Ise=1.648p
+ Ne=2.405 Ikf=.1165 Nk=.5254 Xtb=1.5 Br=7.16 Isc=196p Nc=1.815
+ Ikr=9.677 Rc=2.791 Cjc=11.51p Mjc=.3626 Vjc=.5 Fc=.5 Cje=8.397p
+ Mje=.3865 Vje=.5 Tr=10n Tf=605.4p Itf=3.088 Xtf=41.48 Vtf=10)
.model BC857B PNP(Is=336.7f Xti=3 Eg=1.11 Vaf=62.37 Bf=277.7 Ise=1.966p
+ Ne=2.123 Ikf=.1686 Nk=.545 Xtb=1.5 Br=7.16 Isc=196p Nc=1.815
+ Ikr=9.677 Rc=2.891 Cjc=11.51p Mjc=.3626 Vjc=.5 Fc=.5 Cje=8.397p
+ Mje=.3865 Vje=.5 Tr=10n Tf=605.9p Itf=2.133 Xtf=23.02 Vtf=10)
.model BC847B NPN(Is=7.049f Xti=3 Eg=1.11 Vaf=62.37 Bf=279.1 Ise=59.16f
+ Ne=1.81 Ikf=.2201 Nk=.6305 Xtb=1.5 Br=3.816 Isc=16.17f Nc=2.394
+ Ikr=1.859 Rc=1.508 Cjc=7.287p Mjc=.3333 Vjc=.5 Fc=.5 Cje=9.485p
+ Mje=.3333 Vje=.5 Tr=10n Tf=664p Itf=4.664 Xtf=147 Vtf=10)
**** FROM LIBRARY opto.lib ****
.SUBCKT hlmp-1350 A C P
* hlmp-1350 from agilent * I-Team@Nikkel 01/12/01
*A=ANODE
*C=CATHODE
* P=(LIGHT) LUMINOUS INTENSITY IN CANDELAS AS O/P VOLTAGE
VDROP A A1 1
DLED A1 VC dhlmp-1350
.MODEL dhlmp-1350 D
+ IS=23.452E-12
+ N=1.1543
+ RS=20.511
+ IKF=67.112E-3
+ CJO=11.000E-12
+ M=.3333
+ VJ=.75
+ ISR=100.00E-12
+ BV=6
+ IBV=100e-6
+ TT=5.0000E-9
*INPUT RESISTANCE
RIN P 0 1G
*POWER O/P
ELED P 0 TABLE {PWR(I(VLED),1.35624938074234) * EXP(0.989618279101155-3.67725943585378*I(VLED))}
+ (0,0) (100,100)
VLED VC C
.ENDS
**** FROM LIBRARY coilcraft.lib ****
.SUBCKT 0805LS-223 N1 N2
+ PARAMS: K1=4.01e-07 K2=1.29e+01
R_R1 $N_0002 N2 156
R_R2 N1 $N_0001 7.69
R_R3 N1 N2 10meg
R_Rsim 0 $N_0003 10meg
L_L1 $N_0003 N2 21.6uH
G_Rvar1 $N_0001 $N_0003 LAPLACE { V($N_0001, $N_0003) } {
+ 1/(k1*sqrt(S/(2*3.14159265))) }
G_Rvar2 $N_0001 N2 LAPLACE { V($N_0001, N2) } {
+ 1/(k2*sqrt(S/(2*3.14159265))) }
C_C $N_0001 $N_0002 4.41pF
.ENDS
.SUBCKT 0603LS-222 N1 N2
+ PARAMS: K1=7.23e-05 K2=1.31e+00
R_R1 $N_0002 N2 33.5
R_R2 N1 $N_0001 1.10
R_R3 N1 N2 10meg
R_Rsim 0 $N_0003 10meg
L_L1 $N_0003 N2 2140nH
G_Rvar1 $N_0001 $N_0003 LAPLACE { V($N_0001, $N_0003) } {
+ 1/(k1*sqrt(S/(2*3.14159265))) }
G_Rvar2 $N_0001 N2 LAPLACE { V($N_0001, N2) } {
+ 1/(k2*sqrt(S/(2*3.14159265))) }
C_C $N_0001 $N_0002 1.73pF
.ENDS
**** EXPANSION OF SUBCIRCUIT X_D2 ****
X_D2.VDROP N17174 X_D2.A1 1
X_D2.DLED X_D2.A1 X_D2.VC X_D2.dhlmp-1350
.MODEL X_D2.dhlmp-1350 D IS 23.452E-12 N 1.1543 RS 20.511 IKF
+ 67.112E-3 CJO 11.000E-12 M .3333 VJ .75 ISR 100.00E-12 BV 6 IBV
+ 100e-6 TT 5.0000E-9
X_D2.RIN VCC 0 1G
X_D2.ELED VCC 0 TABLE {PWR(I(VLED),1.35624938074234) * EXP(0.989618279101155-3.67725943585378*I(
+ VLED))} 0 0 100 100
X_D2.VLED X_D2.VC N17134
**** EXPANSION OF SUBCIRCUIT X_L6 ****
X_L6.R_R1 X_L6.$N_0002 N17670 156
X_L6.R_R2 N16378 X_L6.$N_0001 7.69
X_L6.R_R3 N16378 N17670 10meg
X_L6.R_Rsim 0 X_L6.$N_0003 10meg
X_L6.L_L1 X_L6.$N_0003 N17670 21.6uH
X_L6.G_Rvar1 X_L6.$N_0001 X_L6.$N_0003 LAPLACE { V($N_0001, $N_0003) }
+ { 1/(k1*sqrt(S/(2*3.14159265))) }
X_L6.G_Rvar2 X_L6.$N_0001 N17670 LAPLACE { V($N_0001, 1#) } { 1/(k2*sqrt(
+ S/(2*3.14159265))) }
X_L6.C_C X_L6.$N_0001 X_L6.$N_0002 4.41pF
**** EXPANSION OF SUBCIRCUIT X_D3 ****
X_D3.VDROP N17134 X_D3.A1 1
X_D3.DLED X_D3.A1 X_D3.VC X_D3.dhlmp-1350
.MODEL X_D3.dhlmp-1350 D IS 23.452E-12 N 1.1543 RS 20.511 IKF
+ 67.112E-3 CJO 11.000E-12 M .3333 VJ .75 ISR 100.00E-12 BV 6 IBV
+ 100e-6 TT 5.0000E-9
X_D3.RIN VCC2 0 1G
X_D3.ELED VCC2 0 TABLE {PWR(I(VLED),1.35624938074234) * EXP(0.989618279101155-3.67725943585378*I(
+ VLED))} 0 0 100 100
X_D3.VLED X_D3.VC N16626
**** EXPANSION OF SUBCIRCUIT X_L5 ****
X_L5.R_R1 X_L5.$N_0002 N16688 33.5
X_L5.R_R2 N17670 X_L5.$N_0001 1.10
X_L5.R_R3 N17670 N16688 10meg
X_L5.R_Rsim 0 X_L5.$N_0003 10meg
X_L5.L_L1 X_L5.$N_0003 N16688 2140nH
X_L5.G_Rvar1 X_L5.$N_0001 X_L5.$N_0003 LAPLACE { V($N_0001, $N_0003) }
+ { 1/(k1*sqrt(S/(2*3.14159265))) }
X_L5.G_Rvar2 X_L5.$N_0001 N16688 LAPLACE { V($N_0001, 1#) } { 1/(k2*sqrt(
+ S/(2*3.14159265))) }
X_L5.C_C X_L5.$N_0001 X_L5.$N_0002 1.73pF
**** 06/13/11 09:23:51 ******* PSpice 16.3.0 (June 2009) ****** ID# 0 ********
** Profile: "SCHEMATIC1-tran1" [ f:\a18-212l_simulation\200511\a18_212l_1-pspicefiles\schematic1\tran1.sim ]
**** ELEMENT NODE TABLE
******************************************************************************
0 D_D5 D_D7 Q_T1 Q_T2 R_R4
R_R5 V_V2 X_D2.RIN X_D3.RIN X_D2.ELED
X_D3.ELED X_L5.R_Rsim
X_L6.R_Rsim
VCC X_D2.RIN X_D2.ELED
VCC2 X_D3.RIN X_D3.ELED
N16378 C_C2 D_D6 X_L6.R_R2 X_L6.R_R3
N16588 D_D6 Q_T5 R_R11
N16622 C_C1 Q_T4 Q_T5 Q_T8 R_R9
N16626 C_C3 D_D7 Q_T9 R_R4 R_R7
R_R8 R_R9 R_R11 X_D3.VLED
N16668 Q_T5 R_R10
N16674 Q_T8 R_R13 R_R14
N16688 C_C1 C_C2 D_D1 Q_T4 Q_T7
Q_T8 R_R1 R_R2 R_R6 D_ZD1
R_R13 X_L5.L_L1 X_L5.R_R1 X_L5.R_R3
X_L5.G_Rvar2
N16700 Q_T9 R_R14
N16762 C_C3 Q_T9 R_R12
N16772 Q_T7 R_R12
N16824 Q_T3 Q_T4 R_R8
N16956 Q_T2 Q_T3 D_ZD1
N17018 Q_T3 R_R5 R_R6 R_R7
N17134 X_D2.VLED X_D3.VDROP
N17174 Q_T2 X_D2.VDROP
N17232 Q_T2 R_R3
N17284 Q_T1 R_R2 R_R3
N17298 D_D5 Q_T1 R_R1 R_R15
N17414 Q_T7 R_R15
N17670 R_R10 X_L5.R_R2 X_L5.R_R3 X_L6.L_L1 X_L6.R_R1
X_L6.R_R3 X_L6.G_Rvar2
N27347 D_D1 V_V2
X_D2.A1 X_D2.DLED X_D2.VDROP
X_D2.VC X_D2.DLED X_D2.VLED
X_D3.A1 X_D3.DLED X_D3.VDROP
X_D3.VC X_D3.DLED X_D3.VLED
X_L5.$N_0001 X_L5.C_C X_L5.R_R2 X_L5.G_Rvar1
X_L5.G_Rvar2
X_L5.$N_0002 X_L5.C_C X_L5.R_R1
X_L5.$N_0003 X_L5.L_L1 X_L5.R_Rsim
X_L5.G_Rvar1
X_L6.$N_0001 X_L6.C_C X_L6.R_R2 X_L6.G_Rvar1
X_L6.G_Rvar2
X_L6.$N_0002 X_L6.C_C X_L6.R_R1
X_L6.$N_0003 X_L6.L_L1 X_L6.R_Rsim
X_L6.G_Rvar1
WARNING -- Minimum base resistance (RBM) is greater than total (RB)
for model BCX53/INF. RBM set to RB
**** 06/13/11 09:23:51 ******* PSpice 16.3.0 (June 2009) ****** ID# 0 ********
** Profile: "SCHEMATIC1-tran1" [ f:\a18-212l_simulation\200511\a18_212l_1-pspicefiles\schematic1\tran1.sim ]
**** Diode MODEL PARAMETERS
******************************************************************************
BZX84C33V/PLP BZX84C6V8/PLP BAS16 D1N4148
IS 110.880000E-18 110.880000E-18 4.198000E-09 2.682000E-09
N .92657 .92657 1.977 1.836
ISR 100.000000E-12 522.330000E-12 1.115000E-09 1.565000E-09
IKF 149.75 149.75 1.408 .04417
BV 33.134 6.9329 75 100
IBV .37878 1.0062 100.000000E-06 100.000000E-06
RS .85899 .85899 .4599 .5664
TT 2.236200E-06 231.410000E-09 8.656000E-09 11.540000E-09
CJO 16.677000E-12 93.867000E-12 2.000000E-12 4.000000E-12
VJ .66723 .75339 .5 .5
M .34957 .35256 .3333 .3333
X_D2.dhlmp-1350 X_D3.dhlmp-1350
IS 23.452000E-12 23.452000E-12
N 1.1543 1.1543
ISR 100.000000E-12 100.000000E-12
IKF .067112 .067112
BV 6 6
IBV 100.000000E-06 100.000000E-06
RS 20.511 20.511
TT 5.000000E-09 5.000000E-09
CJO 11.000000E-12 11.000000E-12
VJ .75 .75
M .3333 .3333
**** 06/13/11 09:23:51 ******* PSpice 16.3.0 (June 2009) ****** ID# 0 ********
** Profile: "SCHEMATIC1-tran1" [ f:\a18-212l_simulation\200511\a18_212l_1-pspicefiles\schematic1\tran1.sim ]
**** BJT MODEL PARAMETERS
******************************************************************************
BCX53/INF BC858C BC857B BC847B
PNP PNP PNP NPN
LEVEL 1 1 1 1
IS 4.600000E-12 336.700000E-15 336.700000E-15 7.049000E-15
BF 185 462.2 277.7 279.1
NF 1.19 1 1 1
VAF 144 29.03 62.37 62.37
IKF .969 .1165 .1686 .2201
ISE 19.900000E-15 1.648000E-12 1.966000E-12 59.160000E-15
NE 1.23 2.405 2.123 1.81
BR 4.28 7.16 7.16 3.816
NR 1.23 1 1 1
VAR 19.7
IKR 1 9.677 9.677 1.859
ISC 94.500000E-18 196.000000E-12 196.000000E-12 16.170000E-15
NC 1.815 1.815 2.394
NK .5254 .545 .6305
ISS 0 0 0 0
RB 4.84
RBM 10
IRB .162
RE .01 0 0 0
RC .262 2.791 2.891 1.508
CJE 127.000000E-12 8.397000E-12 8.397000E-12 9.485000E-12
VJE .543 .5 .5 .5
MJE .494 .3865 .3865 .3333
CJC 80.000000E-12 11.510000E-12 11.510000E-12 7.287000E-12
VJC .362 .5 .5 .5
MJC .507 .3626 .3626 .3333
XCJC 1 1 1 1
CJS 0 0 0 0
VJS .75 .75 .75 .75
MJS .33
TF 1.070000E-09 605.400000E-12 605.900000E-12 664.000000E-12
XTF .631 41.48 23.02 147
VTF 999.000000E+03 10 10 10
ITF .453 3.088 2.133 4.664
TR 10.000000E-09 10.000000E-09 10.000000E-09
XTB 1.5 1.5 1.5
KF 0 0 0 0
AF 1 1 1 1
CN 2.2 2.2 2.2 2.42
D .52 .52 .52 .87
WARNING -- 0.640971 percent of X_L6.G_Rvar1 impulse response is non-causal.
WARNING -- It should be delayed by at least 4.98047e-011 sec.
WARNING -- 0.640971 percent of X_L6.G_Rvar2 impulse response is non-causal.
WARNING -- It should be delayed by at least 4.98047e-011 sec.
WARNING -- 0.640971 percent of X_L5.G_Rvar1 impulse response is non-causal.
WARNING -- It should be delayed by at least 4.98047e-011 sec.
WARNING -- 0.640971 percent of X_L5.G_Rvar2 impulse response is non-causal.
WARNING -- It should be delayed by at least 4.98047e-011 sec.
**** 06/13/11 09:23:51 ******* PSpice 16.3.0 (June 2009) ****** ID# 0 ********
** Profile: "SCHEMATIC1-tran1" [ f:\a18-212l_simulation\200511\a18_212l_1-pspicefiles\schematic1\tran1.sim ]
**** CIRCUIT ELEMENT SUMMARY
******************************************************************************
**** RESISTORS
NAME NODES MODEL VALUE TC1 TC2 TCE
R_R1 N17298 N16688 1.20E+00
R_R6 N17018 N16688 1.00E+05
R_R13 N16674 N16688 6.80E+04
R_R3 N17232 N17284 1.00E+03
R_R14 N16700 N16674 1.00E+04
R_R8 N16626 N16824 1.50E+04
R_R2 N17284 N16688 4.70E+03
R_R7 N16626 N17018 1.50E+05
R_R5 N17018 0 4.70E+05
R_R15 N17414 N17298 1.00E+02
R_R4 N16626 0 9.60E+03
R_R11 N16626 N16588 2.20E+04
R_R10 N16668 N17670 3.50E+01
R_R9 N16626 N16622 5.10E+03
R_R12 N16762 N16772 1.00E+05
X_D2.RIN VCC 0 1.00E+09
X_L6.R_R1 X_L6.$N_0002 N17670
1.56E+02
X_L6.R_R2 N16378 X_L6.$N_0001
7.69E+00
X_L6.R_R3 N16378 N17670 1.00E+07
X_L6.R_Rsim
0 X_L6.$N_0003 1.00E+07
X_D3.RIN VCC2 0 1.00E+09
X_L5.R_R1 X_L5.$N_0002 N16688
3.35E+01
X_L5.R_R2 N17670 X_L5.$N_0001
1.10E+00
X_L5.R_R3 N17670 N16688 1.00E+07
X_L5.R_Rsim
0 X_L5.$N_0003 1.00E+07
**** CAPACITORS
NAME NODES MODEL VALUE In. Cond. TC1 TC2
C_C2 N16378 N16688 1.00E-09
C_C1 N16622 N16688 3.00E-09
C_C3 N16626 N16762 1.00E-07
X_L6.C_C X_L6.$N_0001 X_L6.$N_0002
4.41E-12
X_L5.C_C X_L5.$N_0001 X_L5.$N_0002
1.73E-12
**** VOLTAGE-CONTROLLED VOLTAGE SOURCES
NAME + - FUNCTION GAIN CONTROLLING NODES
X_D2.ELED VCC 0 TABLE (0, 0)
X_D3.ELED VCC2 0 TABLE (0, 0)
**** VOLTAGE-CONTROLLED CURRENT SOURCES
NAME + - FUNCTION GAIN CONTROLLING NODES
X_L6.G_Rvar1
X_L6.$N_0001 X_L6.$N_0003
LAPLACE (X_L6.$N_0001)
Maximum frequency = 2.00784e+010, Frequency resolution = 4.90196e+006
X_L6.G_Rvar2
X_L6.$N_0001 N17670
LAPLACE (X_L6.$N_0001)
Maximum frequency = 2.00784e+010, Frequency resolution = 4.90196e+006
X_L5.G_Rvar1
X_L5.$N_0001 X_L5.$N_0003
LAPLACE (X_L5.$N_0001)
Maximum frequency = 2.00784e+010, Frequency resolution = 4.90196e+006
X_L5.G_Rvar2
X_L5.$N_0001 N16688
LAPLACE (X_L5.$N_0001)
Maximum frequency = 2.00784e+010, Frequency resolution = 4.90196e+006
**** INDUCTORS
NAME NODES MODEL VALUE In. Cond. TC1 TC2
X_L6.L_L1 X_L6.$N_0003 N17670
2.16E-05
X_L5.L_L1 X_L5.$N_0003 N16688
2.14E-06
**** INDEPENDENT SOURCES
NAME NODES DC VALUE AC VALUE AC PHASE
V_V2 N27347 0 3.00E+01 0.00E+00 0.00E+00 degrees
X_D2.VDROP N17174 X_D2.A1 1.00E+00 0.00E+00 0.00E+00 degrees
X_D2.VLED X_D2.VC N17134 0.00E+00 0.00E+00 0.00E+00 degrees
X_D3.VDROP N17134 X_D3.A1 1.00E+00 0.00E+00 0.00E+00 degrees
X_D3.VLED X_D3.VC N16626 0.00E+00 0.00E+00 0.00E+00 degrees
**** DIODES
NAME + - MODEL AREA
D_D5 0 N17298 BZX84C33V/PLP
1.00E+00
D_ZD1 N16956 N16688 BZX84C6V8/PLP
1.00E+00
D_D1 N27347 N16688 BAS16 1.00E+00
D_D6 N16378 N16588 D1N4148 1.00E+00
D_D7 N16626 0 D1N4148 1.00E+00
X_D2.DLED X_D2.A1 X_D2.VC X_D2.dhlmp-1350
1.00E+00
X_D3.DLED X_D3.A1 X_D3.VC X_D3.dhlmp-1350
1.00E+00
**** BIPOLAR JUNCTION TRANSISTORS
NAME C B E S MODEL AREA
Q_T1 0 N17284 N17298 0 BCX53/INF 1.00E+00
Q_T5 N16622 N16588 N16668 0 BC858C 1.00E+00
Q_T2 N17174 N16956 N17232 0 BC857B 1.00E+00
Q_T3 N16956 N17018 N16824 0 BC847B 1.00E+00
Q_T8 N16622 N16674 N16688 0 BC857B 1.00E+00
Q_T4 N16688 N16622 N16824 0 BC847B 1.00E+00
Q_T7 N16772 N17414 N16688 0 BC857B 1.00E+00
Q_T9 N16700 N16762 N16626 0 BC847B 1.00E+00
**** 06/13/11 09:23:51 ******* PSpice 16.3.0 (June 2009) ****** ID# 0 ********
** Profile: "SCHEMATIC1-tran1" [ f:\a18-212l_simulation\200511\a18_212l_1-pspicefiles\schematic1\tran1.sim ]
**** OPTION SUMMARY
******************************************************************************
NODE LIST OPTS ACCT
DC ANALYSIS -
ITL1 = 150
ITL2 = 20
RELTOL = 1.0000E-03
ABSTOL = 1.0000E-12
VNTOL = 1.0000E-06
GMIN = 1.0000E-12
VLTEXPLIMIT = .5
TRANSIENT ANALYSIS -
ITL4 = 10
TSTEPDIVFACTOR = 8
CHGTOL = 10.0000E-15
DMFACTOR = 1
FSTDELFACTOR = 1
MISCELLANEOUS -
NUMDGT = 4
WIDTH = 80
DEFL = 100.0000E-06
DEFW = 100.0000E-06
DEFAD = 0
DEFAS = 0
TNOM = 27
DIGITAL -
DIGMNTYMX = 2
DIGIOLVL = 1
DIGINITSTATE = 2
DIGERRLIMIT = 0
DIGERRDEFAULT = 20
DIGFREQ = 10.0000E+09
DIGDRVF = 2
DIGDRVZ = 20.0000E+03
DIGOVRDRV = 2.5
DIGMNTYSCALE = .4
DIGTYMXSCALE = 1.6
WARNING -- Minimum base resistance (RBM) is greater than total (RB)
for model BCX53/INF. RBM set to RB
ERROR -- Convergence problem in transient bias point calculation
Last node voltages tried were:
NODE VOLTAGE NODE VOLTAGE NODE VOLTAGE NODE VOLTAGE
( VCC) 317.7E-18 ( VCC2) 317.7E-18 (N16378) .0811 (N16588) .0032
(N16622) .0028 (N16626) .0028 (N16668) .0811 (N16674) .0811
(N16688) .0811 (N16700) .0811 (N16762) .0810 (N16772) .0810
(N16824) .0028 (N16956) .0750 (N17018) .0442 (N17134) .0306
(N17174) .0584 (N17232) .0811 (N17284) .0811 (N17298) .0811
(N17414) .0811 (N17670) .0811 (N27347) .3099 (X_D2.A1) .0481
(X_D2.VC) .0306 (X_D3.A1) .0203
(X_D3.VC) .0028 (X_L5.$N_0001) .0811
(X_L5.$N_0002) .0811 (X_L5.$N_0003) .0811
(X_L6.$N_0001) .0811 (X_L6.$N_0002) .0811
(X_L6.$N_0003) .0811
These voltages failed to converge:
V(N17298) = -42.08mV \ 81.11mV
V(N16688) = -42.08mV \ 81.11mV
V(N17284) = -42.08mV \ 81.11mV
V(N16378) = -42.08mV \ 81.11mV
V(N16622) = -1.676mV \ 2.804mV
V(N16588) = -2.394mV \ 3.163mV
V(N16668) = -42.08mV \ 81.11mV
V(N17018) = -22.98mV \ 44.15mV
V(N16674) = -42.08mV \ 81.10mV
V(N17174) = -7.955mV \ 58.44mV
V(N16956) = -34.28mV \ 75.02mV
V(N17232) = -42.08mV \ 81.11mV
V(N16824) = -1.676mV \ 2.803mV
V(N16700) = -42.08mV \ 81.10mV
V(N16626) = -1.676mV \ 2.803mV
V(N16772) = -41.95mV \ 81.05mV
V(N17414) = -42.08mV \ 81.11mV
V(N16762) = -41.95mV \ 81.05mV
V(N17670) = -42.08mV \ 81.11mV
V(X_D2.A1) = -18.29mV \ 48.11mV
V(X_D2.VC) = -4.816mV \ 30.62mV
V(N17134) = -4.816mV \ 30.62mV
V(X_L6.$N_0002) = -42.08mV \ 81.11mV
V(X_L6.$N_0001) = -42.08mV \ 81.11mV
V(X_L6.$N_0003) = -42.08mV \ 81.11mV
V(X_D3.A1) = -15.15mV \ 20.29mV
V(X_D3.VC) = -1.676mV \ 2.803mV
V(X_L5.$N_0002) = -42.08mV \ 81.11mV
V(X_L5.$N_0001) = -42.08mV \ 81.11mV
V(X_L5.$N_0003) = -42.08mV \ 81.11mV
These supply currents failed to converge:
I(X_L6.L_L1) = -638.71nA \ -28.93nA
I(X_L5.L_L1) = -889.02nA \ -27.51nA
I(V_V2) = -1.497uA \ -439.25nA
I(X_D2.VDROP) = -67.84pA \ 58.62pA
I(X_D2.VLED) = -67.84pA \ 58.62pA
I(X_D3.VDROP) = -67.84pA \ 58.62pA
I(X_D3.VLED) = -67.84pA \ 58.62pA
These devices failed to converge:
D_D5 D_ZD1 D_D1 D_D6 D_D7 X_D2.DLED X_D3.DLED
X_L6.G_Rvar1 X_L6.G_Rvar2 X_L5.G_Rvar1 X_L5.G_Rvar2 Q_T1 Q_T5
Q_T2 Q_T8
ERROR -- Discontinuing simulation due to convergence problem
**** Interrupt ****
**** 06/13/11 09:23:51 ******* PSpice 16.3.0 (June 2009) ****** ID# 0 ********
** Profile: "SCHEMATIC1-tran1" [ f:\a18-212l_simulation\200511\a18_212l_1-pspicefiles\schematic1\tran1.sim ]
**** CIRCUIT DESCRIPTION
******************************************************************************
** Creating circuit file "tran1.cir"
** WARNING: THIS AUTOMATICALLY GENERATED FILE MAY BE OVERWRITTEN BY SUBSEQUENT SIMULATIONS
*Libraries:
* Profile Libraries :
* Local Libraries :
* From [PSPICE NETLIST] section of E:\cadence\tools\PSpice\PSpice.ini file:
.lib "E:\cadence\user lib\5KP30A.OLB"
.lib "nom.lib"
.lib "E:\cadence\user lib\OSRAM-IR-METAL CAN(2).lib"
*Analysis directives:
.TRAN 0 100n 0
.OPTIONS ACCT
.OPTIONS EXPAND
.OPTIONS LIBRARY
.OPTIONS LIST
.OPTIONS NODE
.OPTIONS OPTS
.PROBE V(alias(*)) I(alias(*)) W(alias(*)) D(alias(*)) NOISE(alias(*))
.INC "..\SCHEMATIC1.net"
**** INCLUDING SCHEMATIC1.net ****
* source A18_212L_1
R_R1 N17298 N16688 1.2E TC=0,0
Q_T1 0 N17284 N17298 BCX53/INF
C_C2 N16378 N16688 1n TC=0,0
Q_T5 N16622 N16588 N16668 BC858C
R_R6 N17018 N16688 100k TC=0,0
R_R13 N16674 N16688 68k TC=0,0
C_C1 N16622 N16688 3n TC=0,0
Q_T2 N17174 N16956 N17232 BC857B
R_R3 N17232 N17284 1k TC=0,0
X_D2 N17174 N17134 VCC hlmp-1350
Q_T3 N16956 N17018 N16824 BC847B
D_D5 0 N17298 BZX84C33V/PLP
R_R14 N16700 N16674 10k TC=0,0
R_R8 N16626 N16824 15k TC=0,0
Q_T8 N16622 N16674 N16688 BC857B
R_R2 N17284 N16688 4.7k TC=0,0
X_L6 N16378 N17670 0805LS-223 PARAMS: K1=4.01E-07 K2=1.29E+01
V_V2 N27347 0 30Vdc
R_R7 N16626 N17018 150k TC=0,0
Q_T4 N16688 N16622 N16824 BC847B
Q_T7 N16772 N17414 N16688 BC857B
R_R5 N17018 0 470k TC=0,0
C_C3 N16626 N16762 100n TC=0,0
R_R15 N17414 N17298 100E TC=0,0
R_R4 N16626 0 9.6k TC=0,0
R_R11 N16626 N16588 22k TC=0,0
D_ZD1 N16956 N16688 BZX84C6V8/PLP
R_R10 N16668 N17670 35 TC=0,0
D_D1 N27347 N16688 BAS16
Q_T9 N16700 N16762 N16626 BC847B
X_D3 N17134 N16626 VCC2 hlmp-1350
R_R9 N16626 N16622 5.1k TC=0,0
X_L5 N17670 N16688 0603LS-222 PARAMS: K1=7.23E-05 K2=1.31E+00
R_R12 N16762 N16772 100k TC=0,0
D_D6 N16378 N16588 D1N4148
D_D7 N16626 0 D1N4148
**** RESUMING tran1.cir ****
.END
**** FROM LIBRARY phil_diode.lib ****
.MODEL BZX84C33V/PLP D
+ IS=110.88E-18
+ N=.92657
+ RS=.85899
+ IKF=149.75
+ CJO=16.677E-12
+ M=.34957
+ VJ=.66723
+ ISR=100.00E-12
+ BV=33.134
+ IBV=.37878
+ TT=2.2362E-6
.MODEL BZX84C6V8/PLP D
+ IS=110.88E-18
+ N=.92657
+ RS=.85899
+ IKF=149.75
+ CJO=93.867E-12
+ M=.35256
+ VJ=.75339
+ ISR=522.33E-12
+ BV=6.9329
+ IBV=1.0062
+ TT=231.41E-9
**** FROM LIBRARY ediode.lib ****
.model BAS16 D(Is=4.198n N=1.977 Rs=.4599 Ikf=1.408 Xti=3 Eg=1.11 Cjo=2p
+ M=.3333 Vj=.5 Fc=.5 Isr=1.115n Nr=2 Bv=75 Ibv=100u Tt=8.656n)
**** FROM LIBRARY diode.lib ****
.model D1N4148 D(Is=2.682n N=1.836 Rs=.5664 Ikf=44.17m Xti=3 Eg=1.11 Cjo=4p
+ M=.3333 Vj=.5 Fc=.5 Isr=1.565n Nr=2 Bv=100 Ibv=100u Tt=11.54n)
**** FROM LIBRARY infineon.lib ****
.MODEL BCX53/INF PNP(
+ AF= 1.00E+00 BF= 1.85E+02 BR= 4.28E+00 CJC= 8.00E-11
+ CJE= 1.27E-10 CJS= 0.00E+00 EG= 1.11E+00 FC= 5.00E-01
+ IKF= 9.69E-01 IKR= 1.00E+00 IRB= 1.62E-01 IS= 4.60E-12
+ ISC= 9.45E-17 ISE= 1.99E-14 ITF= 4.53E-01 KF= 0.00E+00
+ MJC= 5.07E-01 MJE= 4.94E-01 MJS= 3.30E-01 NC= 2.00E+00
+ NE= 1.23E+00 NF= 1.19E+00 NR= 1.23E+00 PTF= 0.00E+00
+ RB= 4.84E+00 RBM= 1.00E+01 RC= 2.62E-01 RE= 1.00E-02
+ TF= 1.07E-09 TR= 0.00E+00 VAF= 1.44E+02 VAR= 1.97E+01
+ VJC= 3.62E-01 VJE= 5.43E-01 VJS= 7.50E-01 VTF= 9.99E+05
+ XCJC= 1.00E+00 XTB= 0.00E+00 XTF= 6.31E-01 XTI= 3.00E+00)
**** FROM LIBRARY ebipolar.lib ****
.model BC858C PNP(Is=336.7f Xti=3 Eg=1.11 Vaf=29.03 Bf=462.2 Ise=1.648p
+ Ne=2.405 Ikf=.1165 Nk=.5254 Xtb=1.5 Br=7.16 Isc=196p Nc=1.815
+ Ikr=9.677 Rc=2.791 Cjc=11.51p Mjc=.3626 Vjc=.5 Fc=.5 Cje=8.397p
+ Mje=.3865 Vje=.5 Tr=10n Tf=605.4p Itf=3.088 Xtf=41.48 Vtf=10)
.model BC857B PNP(Is=336.7f Xti=3 Eg=1.11 Vaf=62.37 Bf=277.7 Ise=1.966p
+ Ne=2.123 Ikf=.1686 Nk=.545 Xtb=1.5 Br=7.16 Isc=196p Nc=1.815
+ Ikr=9.677 Rc=2.891 Cjc=11.51p Mjc=.3626 Vjc=.5 Fc=.5 Cje=8.397p
+ Mje=.3865 Vje=.5 Tr=10n Tf=605.9p Itf=2.133 Xtf=23.02 Vtf=10)
.model BC847B NPN(Is=7.049f Xti=3 Eg=1.11 Vaf=62.37 Bf=279.1 Ise=59.16f
+ Ne=1.81 Ikf=.2201 Nk=.6305 Xtb=1.5 Br=3.816 Isc=16.17f Nc=2.394
+ Ikr=1.859 Rc=1.508 Cjc=7.287p Mjc=.3333 Vjc=.5 Fc=.5 Cje=9.485p
+ Mje=.3333 Vje=.5 Tr=10n Tf=664p Itf=4.664 Xtf=147 Vtf=10)
**** FROM LIBRARY opto.lib ****
.SUBCKT hlmp-1350 A C P
* hlmp-1350 from agilent * I-Team@Nikkel 01/12/01
*A=ANODE
*C=CATHODE
* P=(LIGHT) LUMINOUS INTENSITY IN CANDELAS AS O/P VOLTAGE
VDROP A A1 1
DLED A1 VC dhlmp-1350
.MODEL dhlmp-1350 D
+ IS=23.452E-12
+ N=1.1543
+ RS=20.511
+ IKF=67.112E-3
+ CJO=11.000E-12
+ M=.3333
+ VJ=.75
+ ISR=100.00E-12
+ BV=6
+ IBV=100e-6
+ TT=5.0000E-9
*INPUT RESISTANCE
RIN P 0 1G
*POWER O/P
ELED P 0 TABLE {PWR(I(VLED),1.35624938074234) * EXP(0.989618279101155-3.67725943585378*I(VLED))}
+ (0,0) (100,100)
VLED VC C
.ENDS
**** FROM LIBRARY coilcraft.lib ****
.SUBCKT 0805LS-223 N1 N2
+ PARAMS: K1=4.01e-07 K2=1.29e+01
R_R1 $N_0002 N2 156
R_R2 N1 $N_0001 7.69
R_R3 N1 N2 10meg
R_Rsim 0 $N_0003 10meg
L_L1 $N_0003 N2 21.6uH
G_Rvar1 $N_0001 $N_0003 LAPLACE { V($N_0001, $N_0003) } {
+ 1/(k1*sqrt(S/(2*3.14159265))) }
G_Rvar2 $N_0001 N2 LAPLACE { V($N_0001, N2) } {
+ 1/(k2*sqrt(S/(2*3.14159265))) }
C_C $N_0001 $N_0002 4.41pF
.ENDS
.SUBCKT 0603LS-222 N1 N2
+ PARAMS: K1=7.23e-05 K2=1.31e+00
R_R1 $N_0002 N2 33.5
R_R2 N1 $N_0001 1.10
R_R3 N1 N2 10meg
R_Rsim 0 $N_0003 10meg
L_L1 $N_0003 N2 2140nH
G_Rvar1 $N_0001 $N_0003 LAPLACE { V($N_0001, $N_0003) } {
+ 1/(k1*sqrt(S/(2*3.14159265))) }
G_Rvar2 $N_0001 N2 LAPLACE { V($N_0001, N2) } {
+ 1/(k2*sqrt(S/(2*3.14159265))) }
C_C $N_0001 $N_0002 1.73pF
.ENDS
**** EXPANSION OF SUBCIRCUIT X_D2 ****
X_D2.VDROP N17174 X_D2.A1 1
X_D2.DLED X_D2.A1 X_D2.VC X_D2.dhlmp-1350
.MODEL X_D2.dhlmp-1350 D IS 23.452E-12 N 1.1543 RS 20.511 IKF
+ 67.112E-3 CJO 11.000E-12 M .3333 VJ .75 ISR 100.00E-12 BV 6 IBV
+ 100e-6 TT 5.0000E-9
X_D2.RIN VCC 0 1G
X_D2.ELED VCC 0 TABLE {PWR(I(VLED),1.35624938074234) * EXP(0.989618279101155-3.67725943585378*I(
+ VLED))} 0 0 100 100
X_D2.VLED X_D2.VC N17134
**** EXPANSION OF SUBCIRCUIT X_L6 ****
X_L6.R_R1 X_L6.$N_0002 N17670 156
X_L6.R_R2 N16378 X_L6.$N_0001 7.69
X_L6.R_R3 N16378 N17670 10meg
X_L6.R_Rsim 0 X_L6.$N_0003 10meg
X_L6.L_L1 X_L6.$N_0003 N17670 21.6uH
X_L6.G_Rvar1 X_L6.$N_0001 X_L6.$N_0003 LAPLACE { V($N_0001, $N_0003) }
+ { 1/(k1*sqrt(S/(2*3.14159265))) }
X_L6.G_Rvar2 X_L6.$N_0001 N17670 LAPLACE { V($N_0001, 1#) } { 1/(k2*sqrt(
+ S/(2*3.14159265))) }
X_L6.C_C X_L6.$N_0001 X_L6.$N_0002 4.41pF
**** EXPANSION OF SUBCIRCUIT X_D3 ****
X_D3.VDROP N17134 X_D3.A1 1
X_D3.DLED X_D3.A1 X_D3.VC X_D3.dhlmp-1350
.MODEL X_D3.dhlmp-1350 D IS 23.452E-12 N 1.1543 RS 20.511 IKF
+ 67.112E-3 CJO 11.000E-12 M .3333 VJ .75 ISR 100.00E-12 BV 6 IBV
+ 100e-6 TT 5.0000E-9
X_D3.RIN VCC2 0 1G
X_D3.ELED VCC2 0 TABLE {PWR(I(VLED),1.35624938074234) * EXP(0.989618279101155-3.67725943585378*I(
+ VLED))} 0 0 100 100
X_D3.VLED X_D3.VC N16626
**** EXPANSION OF SUBCIRCUIT X_L5 ****
X_L5.R_R1 X_L5.$N_0002 N16688 33.5
X_L5.R_R2 N17670 X_L5.$N_0001 1.10
X_L5.R_R3 N17670 N16688 10meg
X_L5.R_Rsim 0 X_L5.$N_0003 10meg
X_L5.L_L1 X_L5.$N_0003 N16688 2140nH
X_L5.G_Rvar1 X_L5.$N_0001 X_L5.$N_0003 LAPLACE { V($N_0001, $N_0003) }
+ { 1/(k1*sqrt(S/(2*3.14159265))) }
X_L5.G_Rvar2 X_L5.$N_0001 N16688 LAPLACE { V($N_0001, 1#) } { 1/(k2*sqrt(
+ S/(2*3.14159265))) }
X_L5.C_C X_L5.$N_0001 X_L5.$N_0002 1.73pF
**** 06/13/11 09:23:51 ******* PSpice 16.3.0 (June 2009) ****** ID# 0 ********
** Profile: "SCHEMATIC1-tran1" [ f:\a18-212l_simulation\200511\a18_212l_1-pspicefiles\schematic1\tran1.sim ]
**** ELEMENT NODE TABLE
******************************************************************************
0 D_D5 D_D7 Q_T1 Q_T2 R_R4
R_R5 V_V2 X_D2.RIN X_D3.RIN X_D2.ELED
X_D3.ELED X_L5.R_Rsim
X_L6.R_Rsim
VCC X_D2.RIN X_D2.ELED
VCC2 X_D3.RIN X_D3.ELED
N16378 C_C2 D_D6 X_L6.R_R2 X_L6.R_R3
N16588 D_D6 Q_T5 R_R11
N16622 C_C1 Q_T4 Q_T5 Q_T8 R_R9
N16626 C_C3 D_D7 Q_T9 R_R4 R_R7
R_R8 R_R9 R_R11 X_D3.VLED
N16668 Q_T5 R_R10
N16674 Q_T8 R_R13 R_R14
N16688 C_C1 C_C2 D_D1 Q_T4 Q_T7
Q_T8 R_R1 R_R2 R_R6 D_ZD1
R_R13 X_L5.L_L1 X_L5.R_R1 X_L5.R_R3
X_L5.G_Rvar2
N16700 Q_T9 R_R14
N16762 C_C3 Q_T9 R_R12
N16772 Q_T7 R_R12
N16824 Q_T3 Q_T4 R_R8
N16956 Q_T2 Q_T3 D_ZD1
N17018 Q_T3 R_R5 R_R6 R_R7
N17134 X_D2.VLED X_D3.VDROP
N17174 Q_T2 X_D2.VDROP
N17232 Q_T2 R_R3
N17284 Q_T1 R_R2 R_R3
N17298 D_D5 Q_T1 R_R1 R_R15
N17414 Q_T7 R_R15
N17670 R_R10 X_L5.R_R2 X_L5.R_R3 X_L6.L_L1 X_L6.R_R1
X_L6.R_R3 X_L6.G_Rvar2
N27347 D_D1 V_V2
X_D2.A1 X_D2.DLED X_D2.VDROP
X_D2.VC X_D2.DLED X_D2.VLED
X_D3.A1 X_D3.DLED X_D3.VDROP
X_D3.VC X_D3.DLED X_D3.VLED
X_L5.$N_0001 X_L5.C_C X_L5.R_R2 X_L5.G_Rvar1
X_L5.G_Rvar2
X_L5.$N_0002 X_L5.C_C X_L5.R_R1
X_L5.$N_0003 X_L5.L_L1 X_L5.R_Rsim
X_L5.G_Rvar1
X_L6.$N_0001 X_L6.C_C X_L6.R_R2 X_L6.G_Rvar1
X_L6.G_Rvar2
X_L6.$N_0002 X_L6.C_C X_L6.R_R1
X_L6.$N_0003 X_L6.L_L1 X_L6.R_Rsim
X_L6.G_Rvar1
WARNING -- Minimum base resistance (RBM) is greater than total (RB)
for model BCX53/INF. RBM set to RB
**** 06/13/11 09:23:51 ******* PSpice 16.3.0 (June 2009) ****** ID# 0 ********
** Profile: "SCHEMATIC1-tran1" [ f:\a18-212l_simulation\200511\a18_212l_1-pspicefiles\schematic1\tran1.sim ]
**** Diode MODEL PARAMETERS
******************************************************************************
BZX84C33V/PLP BZX84C6V8/PLP BAS16 D1N4148
IS 110.880000E-18 110.880000E-18 4.198000E-09 2.682000E-09
N .92657 .92657 1.977 1.836
ISR 100.000000E-12 522.330000E-12 1.115000E-09 1.565000E-09
IKF 149.75 149.75 1.408 .04417
BV 33.134 6.9329 75 100
IBV .37878 1.0062 100.000000E-06 100.000000E-06
RS .85899 .85899 .4599 .5664
TT 2.236200E-06 231.410000E-09 8.656000E-09 11.540000E-09
CJO 16.677000E-12 93.867000E-12 2.000000E-12 4.000000E-12
VJ .66723 .75339 .5 .5
M .34957 .35256 .3333 .3333
X_D2.dhlmp-1350 X_D3.dhlmp-1350
IS 23.452000E-12 23.452000E-12
N 1.1543 1.1543
ISR 100.000000E-12 100.000000E-12
IKF .067112 .067112
BV 6 6
IBV 100.000000E-06 100.000000E-06
RS 20.511 20.511
TT 5.000000E-09 5.000000E-09
CJO 11.000000E-12 11.000000E-12
VJ .75 .75
M .3333 .3333
**** 06/13/11 09:23:51 ******* PSpice 16.3.0 (June 2009) ****** ID# 0 ********
** Profile: "SCHEMATIC1-tran1" [ f:\a18-212l_simulation\200511\a18_212l_1-pspicefiles\schematic1\tran1.sim ]
**** BJT MODEL PARAMETERS
******************************************************************************
BCX53/INF BC858C BC857B BC847B
PNP PNP PNP NPN
LEVEL 1 1 1 1
IS 4.600000E-12 336.700000E-15 336.700000E-15 7.049000E-15
BF 185 462.2 277.7 279.1
NF 1.19 1 1 1
VAF 144 29.03 62.37 62.37
IKF .969 .1165 .1686 .2201
ISE 19.900000E-15 1.648000E-12 1.966000E-12 59.160000E-15
NE 1.23 2.405 2.123 1.81
BR 4.28 7.16 7.16 3.816
NR 1.23 1 1 1
VAR 19.7
IKR 1 9.677 9.677 1.859
ISC 94.500000E-18 196.000000E-12 196.000000E-12 16.170000E-15
NC 1.815 1.815 2.394
NK .5254 .545 .6305
ISS 0 0 0 0
RB 4.84
RBM 10
IRB .162
RE .01 0 0 0
RC .262 2.791 2.891 1.508
CJE 127.000000E-12 8.397000E-12 8.397000E-12 9.485000E-12
VJE .543 .5 .5 .5
MJE .494 .3865 .3865 .3333
CJC 80.000000E-12 11.510000E-12 11.510000E-12 7.287000E-12
VJC .362 .5 .5 .5
MJC .507 .3626 .3626 .3333
XCJC 1 1 1 1
CJS 0 0 0 0
VJS .75 .75 .75 .75
MJS .33
TF 1.070000E-09 605.400000E-12 605.900000E-12 664.000000E-12
XTF .631 41.48 23.02 147
VTF 999.000000E+03 10 10 10
ITF .453 3.088 2.133 4.664
TR 10.000000E-09 10.000000E-09 10.000000E-09
XTB 1.5 1.5 1.5
KF 0 0 0 0
AF 1 1 1 1
CN 2.2 2.2 2.2 2.42
D .52 .52 .52 .87
WARNING -- 0.640971 percent of X_L6.G_Rvar1 impulse response is non-causal.
WARNING -- It should be delayed by at least 4.98047e-011 sec.
WARNING -- 0.640971 percent of X_L6.G_Rvar2 impulse response is non-causal.
WARNING -- It should be delayed by at least 4.98047e-011 sec.
WARNING -- 0.640971 percent of X_L5.G_Rvar1 impulse response is non-causal.
WARNING -- It should be delayed by at least 4.98047e-011 sec.
WARNING -- 0.640971 percent of X_L5.G_Rvar2 impulse response is non-causal.
WARNING -- It should be delayed by at least 4.98047e-011 sec.
**** 06/13/11 09:23:51 ******* PSpice 16.3.0 (June 2009) ****** ID# 0 ********
** Profile: "SCHEMATIC1-tran1" [ f:\a18-212l_simulation\200511\a18_212l_1-pspicefiles\schematic1\tran1.sim ]
**** CIRCUIT ELEMENT SUMMARY
******************************************************************************
**** RESISTORS
NAME NODES MODEL VALUE TC1 TC2 TCE
R_R1 N17298 N16688 1.20E+00
R_R6 N17018 N16688 1.00E+05
R_R13 N16674 N16688 6.80E+04
R_R3 N17232 N17284 1.00E+03
R_R14 N16700 N16674 1.00E+04
R_R8 N16626 N16824 1.50E+04
R_R2 N17284 N16688 4.70E+03
R_R7 N16626 N17018 1.50E+05
R_R5 N17018 0 4.70E+05
R_R15 N17414 N17298 1.00E+02
R_R4 N16626 0 9.60E+03
R_R11 N16626 N16588 2.20E+04
R_R10 N16668 N17670 3.50E+01
R_R9 N16626 N16622 5.10E+03
R_R12 N16762 N16772 1.00E+05
X_D2.RIN VCC 0 1.00E+09
X_L6.R_R1 X_L6.$N_0002 N17670
1.56E+02
X_L6.R_R2 N16378 X_L6.$N_0001
7.69E+00
X_L6.R_R3 N16378 N17670 1.00E+07
X_L6.R_Rsim
0 X_L6.$N_0003 1.00E+07
X_D3.RIN VCC2 0 1.00E+09
X_L5.R_R1 X_L5.$N_0002 N16688
3.35E+01
X_L5.R_R2 N17670 X_L5.$N_0001
1.10E+00
X_L5.R_R3 N17670 N16688 1.00E+07
X_L5.R_Rsim
0 X_L5.$N_0003 1.00E+07
**** CAPACITORS
NAME NODES MODEL VALUE In. Cond. TC1 TC2
C_C2 N16378 N16688 1.00E-09
C_C1 N16622 N16688 3.00E-09
C_C3 N16626 N16762 1.00E-07
X_L6.C_C X_L6.$N_0001 X_L6.$N_0002
4.41E-12
X_L5.C_C X_L5.$N_0001 X_L5.$N_0002
1.73E-12
**** VOLTAGE-CONTROLLED VOLTAGE SOURCES
NAME + - FUNCTION GAIN CONTROLLING NODES
X_D2.ELED VCC 0 TABLE (0, 0)
X_D3.ELED VCC2 0 TABLE (0, 0)
**** VOLTAGE-CONTROLLED CURRENT SOURCES
NAME + - FUNCTION GAIN CONTROLLING NODES
X_L6.G_Rvar1
X_L6.$N_0001 X_L6.$N_0003
LAPLACE (X_L6.$N_0001)
Maximum frequency = 2.00784e+010, Frequency resolution = 4.90196e+006
X_L6.G_Rvar2
X_L6.$N_0001 N17670
LAPLACE (X_L6.$N_0001)
Maximum frequency = 2.00784e+010, Frequency resolution = 4.90196e+006
X_L5.G_Rvar1
X_L5.$N_0001 X_L5.$N_0003
LAPLACE (X_L5.$N_0001)
Maximum frequency = 2.00784e+010, Frequency resolution = 4.90196e+006
X_L5.G_Rvar2
X_L5.$N_0001 N16688
LAPLACE (X_L5.$N_0001)
Maximum frequency = 2.00784e+010, Frequency resolution = 4.90196e+006
**** INDUCTORS
NAME NODES MODEL VALUE In. Cond. TC1 TC2
X_L6.L_L1 X_L6.$N_0003 N17670
2.16E-05
X_L5.L_L1 X_L5.$N_0003 N16688
2.14E-06
**** INDEPENDENT SOURCES
NAME NODES DC VALUE AC VALUE AC PHASE
V_V2 N27347 0 3.00E+01 0.00E+00 0.00E+00 degrees
X_D2.VDROP N17174 X_D2.A1 1.00E+00 0.00E+00 0.00E+00 degrees
X_D2.VLED X_D2.VC N17134 0.00E+00 0.00E+00 0.00E+00 degrees
X_D3.VDROP N17134 X_D3.A1 1.00E+00 0.00E+00 0.00E+00 degrees
X_D3.VLED X_D3.VC N16626 0.00E+00 0.00E+00 0.00E+00 degrees
**** DIODES
NAME + - MODEL AREA
D_D5 0 N17298 BZX84C33V/PLP
1.00E+00
D_ZD1 N16956 N16688 BZX84C6V8/PLP
1.00E+00
D_D1 N27347 N16688 BAS16 1.00E+00
D_D6 N16378 N16588 D1N4148 1.00E+00
D_D7 N16626 0 D1N4148 1.00E+00
X_D2.DLED X_D2.A1 X_D2.VC X_D2.dhlmp-1350
1.00E+00
X_D3.DLED X_D3.A1 X_D3.VC X_D3.dhlmp-1350
1.00E+00
**** BIPOLAR JUNCTION TRANSISTORS
NAME C B E S MODEL AREA
Q_T1 0 N17284 N17298 0 BCX53/INF 1.00E+00
Q_T5 N16622 N16588 N16668 0 BC858C 1.00E+00
Q_T2 N17174 N16956 N17232 0 BC857B 1.00E+00
Q_T3 N16956 N17018 N16824 0 BC847B 1.00E+00
Q_T8 N16622 N16674 N16688 0 BC857B 1.00E+00
Q_T4 N16688 N16622 N16824 0 BC847B 1.00E+00
Q_T7 N16772 N17414 N16688 0 BC857B 1.00E+00
Q_T9 N16700 N16762 N16626 0 BC847B 1.00E+00
**** 06/13/11 09:23:51 ******* PSpice 16.3.0 (June 2009) ****** ID# 0 ********
** Profile: "SCHEMATIC1-tran1" [ f:\a18-212l_simulation\200511\a18_212l_1-pspicefiles\schematic1\tran1.sim ]
**** OPTION SUMMARY
******************************************************************************
NODE LIST OPTS ACCT
DC ANALYSIS -
ITL1 = 150
ITL2 = 20
RELTOL = 1.0000E-03
ABSTOL = 1.0000E-12
VNTOL = 1.0000E-06
GMIN = 1.0000E-12
VLTEXPLIMIT = .5
TRANSIENT ANALYSIS -
ITL4 = 10
TSTEPDIVFACTOR = 8
CHGTOL = 10.0000E-15
DMFACTOR = 1
FSTDELFACTOR = 1
MISCELLANEOUS -
NUMDGT = 4
WIDTH = 80
DEFL = 100.0000E-06
DEFW = 100.0000E-06
DEFAD = 0
DEFAS = 0
TNOM = 27
DIGITAL -
DIGMNTYMX = 2
DIGIOLVL = 1
DIGINITSTATE = 2
DIGERRLIMIT = 0
DIGERRDEFAULT = 20
DIGFREQ = 10.0000E+09
DIGDRVF = 2
DIGDRVZ = 20.0000E+03
DIGOVRDRV = 2.5
DIGMNTYSCALE = .4
DIGTYMXSCALE = 1.6
WARNING -- Minimum base resistance (RBM) is greater than total (RB)
for model BCX53/INF. RBM set to RB
ERROR -- Convergence problem in transient bias point calculation
Last node voltages tried were:
NODE VOLTAGE NODE VOLTAGE NODE VOLTAGE NODE VOLTAGE
( VCC) 317.7E-18 ( VCC2) 317.7E-18 (N16378) .0811 (N16588) .0032
(N16622) .0028 (N16626) .0028 (N16668) .0811 (N16674) .0811
(N16688) .0811 (N16700) .0811 (N16762) .0810 (N16772) .0810
(N16824) .0028 (N16956) .0750 (N17018) .0442 (N17134) .0306
(N17174) .0584 (N17232) .0811 (N17284) .0811 (N17298) .0811
(N17414) .0811 (N17670) .0811 (N27347) .3099 (X_D2.A1) .0481
(X_D2.VC) .0306 (X_D3.A1) .0203
(X_D3.VC) .0028 (X_L5.$N_0001) .0811
(X_L5.$N_0002) .0811 (X_L5.$N_0003) .0811
(X_L6.$N_0001) .0811 (X_L6.$N_0002) .0811
(X_L6.$N_0003) .0811
These voltages failed to converge:
V(N17298) = -42.08mV \ 81.11mV
V(N16688) = -42.08mV \ 81.11mV
V(N17284) = -42.08mV \ 81.11mV
V(N16378) = -42.08mV \ 81.11mV
V(N16622) = -1.676mV \ 2.804mV
V(N16588) = -2.394mV \ 3.163mV
V(N16668) = -42.08mV \ 81.11mV
V(N17018) = -22.98mV \ 44.15mV
V(N16674) = -42.08mV \ 81.10mV
V(N17174) = -7.955mV \ 58.44mV
V(N16956) = -34.28mV \ 75.02mV
V(N17232) = -42.08mV \ 81.11mV
V(N16824) = -1.676mV \ 2.803mV
V(N16700) = -42.08mV \ 81.10mV
V(N16626) = -1.676mV \ 2.803mV
V(N16772) = -41.95mV \ 81.05mV
V(N17414) = -42.08mV \ 81.11mV
V(N16762) = -41.95mV \ 81.05mV
V(N17670) = -42.08mV \ 81.11mV
V(X_D2.A1) = -18.29mV \ 48.11mV
V(X_D2.VC) = -4.816mV \ 30.62mV
V(N17134) = -4.816mV \ 30.62mV
V(X_L6.$N_0002) = -42.08mV \ 81.11mV
V(X_L6.$N_0001) = -42.08mV \ 81.11mV
V(X_L6.$N_0003) = -42.08mV \ 81.11mV
V(X_D3.A1) = -15.15mV \ 20.29mV
V(X_D3.VC) = -1.676mV \ 2.803mV
V(X_L5.$N_0002) = -42.08mV \ 81.11mV
V(X_L5.$N_0001) = -42.08mV \ 81.11mV
V(X_L5.$N_0003) = -42.08mV \ 81.11mV
These supply currents failed to converge:
I(X_L6.L_L1) = -638.71nA \ -28.93nA
I(X_L5.L_L1) = -889.02nA \ -27.51nA
I(V_V2) = -1.497uA \ -439.25nA
I(X_D2.VDROP) = -67.84pA \ 58.62pA
I(X_D2.VLED) = -67.84pA \ 58.62pA
I(X_D3.VDROP) = -67.84pA \ 58.62pA
I(X_D3.VLED) = -67.84pA \ 58.62pA
These devices failed to converge:
D_D5 D_ZD1 D_D1 D_D6 D_D7 X_D2.DLED X_D3.DLED
X_L6.G_Rvar1 X_L6.G_Rvar2 X_L5.G_Rvar1 X_L5.G_Rvar2 Q_T1 Q_T5
Q_T2 Q_T8
ERROR -- Discontinuing simulation due to convergence problem
**** Interrupt ****
