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ucc28600 simulation

Other Parts Discussed in Thread: UCC28600, LM431, OPA2330, TLC555, SN7432

dear, I use the model downloaded from TI website to simulate ucc28600, but it can't converge.


the error discription:


**** 03/29/17 10:25:11 ***** PSpice 16.6.0 (October 2012) ***** ID# 0 ********

 ** Profile: "SCHEMATIC1-TAPPED_TRANSFORMER"  [ E:\zhuxuefeng\Pspice\project\ucc28600-pspicefiles\schematic1\tapped_transformer.sim ]


 ****     CIRCUIT DESCRIPTION


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

** Creating circuit file "TAPPED_TRANSFORMER.cir"
** WARNING: THIS AUTOMATICALLY GENERATED FILE MAY BE OVERWRITTEN BY SUBSEQUENT SIMULATIONS

*Libraries:
* Profile Libraries :
* Local Libraries :
* From [PSPICE NETLIST] section of E:\SPB_Data\cdssetup\OrCAD_PSpice/16.6.0/PSpice.ini file:
.lib "E:\zhuxuefeng\Pspice\project\LM431_TRANS.LIB"
.lib "E:\zhuxuefeng\Pspice\project\ucc28600.lib"
.lib "E:\zhuxuefeng\Pspice\xiaomi_singleline\OPA2330_PSPICE_AIO\opa2330.lib"
.lib "E:\zhuxuefeng\Pspice\xiaomi_singleline\TLC555_PSPICE_AIO\tlc555.lib"
.lib "C:\Cadence\SPB_16.6\tools\capture\library\pspice\zhuxuefeng\zhuxuefeng.lib"
.lib "E:\zhuxuefeng\Pspice\BASSOBOOK\OrCAD\Libraries\application.lib"
.lib "nom.lib"

*Analysis directives:
.TRAN  0 50M 0 20n SKIPBP
.OPTIONS PREORDER
.OPTIONS ADVCONV
.OPTIONS ABSTOL= 1E-08
.OPTIONS GMIN= 1.0E-11
.OPTIONS ITL1= 1000
.OPTIONS ITL2= 2000
.OPTIONS ITL4= 1500
.OPTIONS RELTOL= 0.002
.OPTIONS VNTOL= 1E-05
.PROBE64 V(alias(*)) I(alias(*)) W(alias(*)) D(alias(*)) NOISE(alias(*))
.INC "..\SCHEMATIC1.net"


**** INCLUDING SCHEMATIC1.net ****
* source UCC28600
L_L1         N01151 N02817  820u 
L_L2         N03170 N03190  4.85u 
Kn_K1         L_L1 L_L2
+ L_L3    1
R_R4         0 N10440  0.5 TC=0,0
C_C2         N03926 0  12u 
R_R7         N12459 N02981  100 TC=0,0
R_R8         N02981 N02767  82k TC=0,0
C_C3         N02981 N02767  1n  TC=0,0
D_D2         N03170 N03174 1N5820
R_R9         0 N03174  0.3 TC=0,0
R_R10         0 N03863  20k TC=0,0
R_R11         N03863 N11467  110k TC=0,0
X_U2         N05339 0 N05245 LM431_TRANS
R_R14         N05245 N03174  180k TC=0,0
R_R15         0 N05245  47k TC=0,0
C_C5         N05245 N05339  47n  TC=0,0
R_R16         N05339 N03174  20k TC=0,0
R_R18         N02817 N02767  1 TC=0,0
R_R19         N02767 N02746  0.5 TC=0,0
R_R20         0 N03190  1 TC=0,0
Q_Q1         N06585 N05339 N06669 DH3468CN
Q_Q2         N06585 N06585 0 Q40242
Q_Q3         N08836 N06585 0 Q40242
R_R22         N06669 N03174  20k TC=0,0
C_C6         N02767 0  47u 
V_V1         N02746 0 400Vdc
C_C7         N03174 0  2200u 
R_R23         N07812 N10947  100 TC=0,0
R_R24         N10440 N10436  1.1k TC=0,0
L_L3         N14017 0  6u 
D_D3         N11467 N03926 1N5820
R_R25         N03926 N02767  500k TC=0,0
D_D4         N01151 N12459 1N5820
Q_Q4         N01151 N07812 N10440 Q40242
X_U3         N12935 N08836 N10436 0 N10947 N03926 N03863 N12931 UCC28600_0
C_C8         0 N12935  1n  TC=0,0
R_R26         N14017 N11467  1 TC=0,0

**** RESUMING TAPPED_TRANSFORMER.cir ****
.END


**** Generated AtoD and DtoA Interfaces ****

*
* Analog/Digital interface for node X_U3.7
*
* Moving X_U3.XU1.U14:OUT1 from analog node X_U3.7 to new digital node X_U3.7$DtoA
X$X_U3.7_DtoA1
+ X_U3.7$DtoA
+ X_U3.7
+ X_U3.REF
+ 0
+ DtoA_STD
+       PARAMS: DRVH=  96.4   DRVL= 104    CAPACITANCE=   0    
*
* Analog/Digital interface for node X_U3.REF
*
* Moving X_U3.XU1.U10:D1 from analog node X_U3.REF to new digital node X_U3.REF$AtoD
X$X_U3.REF_AtoD1
+ X_U3.REF
+ X_U3.REF$AtoD
+ X_U3.REF
+ 0
+ AtoD_STD
+       PARAMS: CAPACITANCE=   0    
* Moving X_U3.XU1.U10:PREBAR from analog node X_U3.REF to new digital node X_U3.REF$AtoD2
X$X_U3.REF_AtoD2
+ X_U3.REF
+ X_U3.REF$AtoD2
+ X_U3.REF
+ 0
+ AtoD_STD
+       PARAMS: CAPACITANCE=   0    
* Moving X_U3.XU1.U15:IN1 from analog node X_U3.REF to new digital node X_U3.REF$AtoD3
X$X_U3.REF_AtoD3
+ X_U3.REF
+ X_U3.REF$AtoD3
+ X_U3.REF
+ 0
+ AtoD_STD
+       PARAMS: CAPACITANCE=   0    
* Moving X_U3.XU1.U16:IN1 from analog node X_U3.REF to new digital node X_U3.REF$AtoD4
X$X_U3.REF_AtoD4
+ X_U3.REF
+ X_U3.REF$AtoD4
+ X_U3.REF
+ 0
+ AtoD_LS
+       PARAMS: CAPACITANCE=   0    
* Moving X_U3.XU14.U5:CLRBAR from analog node X_U3.REF to new digital node X_U3.REF$AtoD5
X$X_U3.REF_AtoD5
+ X_U3.REF
+ X_U3.REF$AtoD5
+ X_U3.REF
+ 0
+ AtoD_S
+       PARAMS: CAPACITANCE=   0    
* Moving X_U3.XU14.U10:PREBAR from analog node X_U3.REF to new digital node X_U3.REF$AtoD6
X$X_U3.REF_AtoD6
+ X_U3.REF
+ X_U3.REF$AtoD6
+ X_U3.REF
+ 0
+ AtoD_S
+       PARAMS: CAPACITANCE=   0    
* Moving X_U3.XU14.U11:PREBAR from analog node X_U3.REF to new digital node X_U3.REF$AtoD7
X$X_U3.REF_AtoD7
+ X_U3.REF
+ X_U3.REF$AtoD7
+ X_U3.REF
+ 0
+ AtoD_STD
+       PARAMS: CAPACITANCE=   0    
* Moving X_U3.U4:IN1 from analog node X_U3.REF to new digital node X_U3.REF$AtoD8
X$X_U3.REF_AtoD8
+ X_U3.REF
+ X_U3.REF$AtoD8
+ X_U3.REF
+ 0
+ AtoD_STD
+       PARAMS: CAPACITANCE=   0    
* Moving X_U3.U10:D1 from analog node X_U3.REF to new digital node X_U3.REF$AtoD9
X$X_U3.REF_AtoD9
+ X_U3.REF
+ X_U3.REF$AtoD9
+ X_U3.REF
+ 0
+ AtoD_S
+       PARAMS: CAPACITANCE=   0    
* Moving X_U3.U10:PREBAR from analog node X_U3.REF to new digital node X_U3.REF$AtoD10
X$X_U3.REF_AtoD10
+ X_U3.REF
+ X_U3.REF$AtoD10
+ X_U3.REF
+ 0
+ AtoD_S
+       PARAMS: CAPACITANCE=   0    
*
* Analog/Digital interface for node X_U3.OUT_
*
* Moving X_U3.XU14.U1:IN2 from analog node X_U3.OUT_ to new digital node X_U3.OUT_$AtoD
X$X_U3.OUT__AtoD1
+ X_U3.OUT_
+ X_U3.OUT_$AtoD
+ X_U3.REF
+ 0
+ AtoD_STD
+       PARAMS: CAPACITANCE=   0    
* Moving X_U3.U10:QBAR1 from analog node X_U3.OUT_ to new digital node X_U3.OUT_$DtoA
X$X_U3.OUT__DtoA1
+ X_U3.OUT_$DtoA
+ X_U3.OUT_
+ X_U3.REF
+ 0
+ DtoA_S
+       PARAMS: DRVH=  72.7   DRVL=  60.6   CAPACITANCE=   0    
*
* Analog/Digital interface for node X_U3.9
*
* Moving X_U3.U10:Q1 from analog node X_U3.9 to new digital node X_U3.9$DtoA
X$X_U3.9_DtoA1
+ X_U3.9$DtoA
+ X_U3.9
+ X_U3.REF
+ 0
+ DtoA_S
+       PARAMS: DRVH=  72.7   DRVL=  60.6   CAPACITANCE=   0    
*
* Analog/Digital interface for node X_U3.10
*
* Moving X_U3.U12:IN1 from analog node X_U3.10 to new digital node X_U3.10$AtoD
X$X_U3.10_AtoD1
+ X_U3.10
+ X_U3.10$AtoD
+ X_U3.REF
+ 0
+ AtoD_4000A
+       PARAMS: CAPACITANCE=   0    
*
* Analog/Digital interface for node X_U3.11
*
* Moving X_U3.U12:IN2 from analog node X_U3.11 to new digital node X_U3.11$AtoD
X$X_U3.11_AtoD1
+ X_U3.11
+ X_U3.11$AtoD
+ X_U3.REF
+ 0
+ AtoD_4000A
+       PARAMS: CAPACITANCE=   0    
*
* Analog/Digital interface for node X_U3.12
*
* Moving X_U3.U12:IN3 from analog node X_U3.12 to new digital node X_U3.12$AtoD
X$X_U3.12_AtoD1
+ X_U3.12
+ X_U3.12$AtoD
+ X_U3.REF
+ 0
+ AtoD_4000A
+       PARAMS: CAPACITANCE=   0    
*
* Analog/Digital interface for node X_U3.SS_OVR
*
* Moving X_U3.XU1.U2:IN2 from analog node X_U3.SS_OVR to new digital node X_U3.SS_OVR$AtoD
X$X_U3.SS_OVR_AtoD1
+ X_U3.SS_OVR
+ X_U3.SS_OVR$AtoD
+ X_U3.REF
+ 0
+ AtoD_STD
+       PARAMS: CAPACITANCE=   0    
* Moving X_U3.XU2.U11:IN1 from analog node X_U3.SS_OVR to new digital node X_U3.SS_OVR$AtoD2
X$X_U3.SS_OVR_AtoD2
+ X_U3.SS_OVR
+ X_U3.SS_OVR$AtoD2
+ X_U3.XU2.PWR
+ 0
+ AtoD_STD
+       PARAMS: CAPACITANCE=   0    
*
* Analog/Digital interface for node X_U3.35
*
* Moving X_U3.U3:IN1 from analog node X_U3.35 to new digital node X_U3.35$AtoD
X$X_U3.35_AtoD1
+ X_U3.35
+ X_U3.35$AtoD
+ X_U3.REF
+ 0
+ AtoD_STD
+       PARAMS: CAPACITANCE=   0    
*
* Analog/Digital interface for node X_U3.BURST
*
* Moving X_U3.XU1.U2:IN1 from analog node X_U3.BURST to new digital node X_U3.BURST$AtoD
X$X_U3.BURST_AtoD1
+ X_U3.BURST
+ X_U3.BURST$AtoD
+ X_U3.REF
+ 0
+ AtoD_STD
+       PARAMS: CAPACITANCE=   0    
*
* Analog/Digital interface for node X_U3.XU14.60
*
* Moving X_U3.XU14.U19:IN1 from analog node X_U3.XU14.60 to new digital node X_U3.XU14.60$AtoD
X$X_U3.XU14.60_AtoD1
+ X_U3.XU14.60
+ X_U3.XU14.60$AtoD
+ X_U3.REF
+ 0
+ AtoD_STD
+       PARAMS: CAPACITANCE=   0    
*
* Analog/Digital interface for node X_U3.XU14.61
*
* Moving X_U3.XU14.U18:OUT1 from analog node X_U3.XU14.61 to new digital node X_U3.XU14.61$DtoA
X$X_U3.XU14.61_DtoA1
+ X_U3.XU14.61$DtoA
+ X_U3.XU14.61
+ X_U3.REF
+ 0
+ DtoA_STD
+       PARAMS: DRVH=  96.4   DRVL= 104    CAPACITANCE=   0    
*
* Analog/Digital interface for node X_U3.XU14.56
*
* Moving X_U3.XU14.U17:IN1 from analog node X_U3.XU14.56 to new digital node X_U3.XU14.56$AtoD
X$X_U3.XU14.56_AtoD1
+ X_U3.XU14.56
+ X_U3.XU14.56$AtoD
+ X_U3.REF
+ 0
+ AtoD_S
+       PARAMS: CAPACITANCE=   0    
* Moving X_U3.XU14.U18:IN1 from analog node X_U3.XU14.56 to new digital node X_U3.XU14.56$AtoD2
X$X_U3.XU14.56_AtoD2
+ X_U3.XU14.56
+ X_U3.XU14.56$AtoD2
+ X_U3.REF
+ 0
+ AtoD_STD
+       PARAMS: CAPACITANCE=   0    
* Moving X_U3.XU14.U20:IN2 from analog node X_U3.XU14.56 to new digital node X_U3.XU14.56$AtoD3
X$X_U3.XU14.56_AtoD3
+ X_U3.XU14.56
+ X_U3.XU14.56$AtoD3
+ X_U3.REF
+ 0
+ AtoD_S
+       PARAMS: CAPACITANCE=   0    
* Moving X_U3.XU14.U10:CLRBAR from analog node X_U3.XU14.56 to new digital node X_U3.XU14.56$AtoD4
X$X_U3.XU14.56_AtoD4
+ X_U3.XU14.56
+ X_U3.XU14.56$AtoD4
+ X_U3.REF
+ 0
+ AtoD_S
+       PARAMS: CAPACITANCE=   0    
* Moving X_U3.XU14.U11:CLRBAR from analog node X_U3.XU14.56 to new digital node X_U3.XU14.56$AtoD5
X$X_U3.XU14.56_AtoD5
+ X_U3.XU14.56
+ X_U3.XU14.56$AtoD5
+ X_U3.REF
+ 0
+ AtoD_STD
+       PARAMS: CAPACITANCE=   0    
*
* Analog/Digital interface for node X_U3.Q
*
* Moving X_U3.XU2.U1:IN2 from analog node X_U3.Q to new digital node X_U3.Q$AtoD
X$X_U3.Q_AtoD1
+ X_U3.Q
+ X_U3.Q$AtoD
+ X_U3.XU2.PWR
+ 0
+ AtoD_S
+       PARAMS: CAPACITANCE=   0    
* Moving X_U3.U10:CLK from analog node X_U3.Q to new digital node X_U3.Q$AtoD2
X$X_U3.Q_AtoD2
+ X_U3.Q
+ X_U3.Q$AtoD2
+ X_U3.REF
+ 0
+ AtoD_S
+       PARAMS: CAPACITANCE=   0    
* Moving X_U3.XU2.U3:OUT1 from analog node X_U3.Q to new digital node X_U3.Q$DtoA
X$X_U3.Q_DtoA1
+ X_U3.Q$DtoA
+ X_U3.Q
+ X_U3.XU2.PWR
+ 0
+ DtoA_S
+       PARAMS: DRVH=  72.7   DRVL=  60.6   CAPACITANCE=   0    
*
* Analog/Digital interface for node X_U3.XU14.42
*
* Moving X_U3.XU14.U7:IN1 from analog node X_U3.XU14.42 to new digital node X_U3.XU14.42$AtoD
X$X_U3.XU14.42_AtoD1
+ X_U3.XU14.42
+ X_U3.XU14.42$AtoD
+ X_U3.REF
+ 0
+ AtoD_S
+       PARAMS: CAPACITANCE=   0    
*
* Analog/Digital interface for node X_U3.LINE_OVP
*
* Moving X_U3.XU1.U4:IN2 from analog node X_U3.LINE_OVP to new digital node X_U3.LINE_OVP$AtoD
X$X_U3.LINE_OVP_AtoD1
+ X_U3.LINE_OVP
+ X_U3.LINE_OVP$AtoD
+ X_U3.REF
+ 0
+ AtoD_STD
+       PARAMS: CAPACITANCE=   0    
*
* Analog/Digital interface for node X_U3.LOAD_OVP
*
* Moving X_U3.XU1.U3:IN1 from analog node X_U3.LOAD_OVP to new digital node X_U3.LOAD_OVP$AtoD
X$X_U3.LOAD_OVP_AtoD1
+ X_U3.LOAD_OVP
+ X_U3.LOAD_OVP$AtoD
+ X_U3.REF
+ 0
+ AtoD_STD
+       PARAMS: CAPACITANCE=   0    
*
* Analog/Digital interface for node X_U3.XU2.80
*
* Moving X_U3.XU2.U2:IN1 from analog node X_U3.XU2.80 to new digital node X_U3.XU2.80$AtoD
X$X_U3.XU2.80_AtoD1
+ X_U3.XU2.80
+ X_U3.XU2.80$AtoD
+ X_U3.XU2.PWR
+ 0
+ AtoD_STD
+       PARAMS: CAPACITANCE=   0    
*
* Analog/Digital interface for node X_U3.CLK_130K
*
* Moving X_U3.XU2.U5:IN3 from analog node X_U3.CLK_130K to new digital node X_U3.CLK_130K$AtoD
X$X_U3.CLK_130K_AtoD1
+ X_U3.CLK_130K
+ X_U3.CLK_130K$AtoD
+ X_U3.XU2.PWR
+ 0
+ AtoD_STD
+       PARAMS: CAPACITANCE=   0    
* Moving X_U3.XU14.U12:IN1 from analog node X_U3.CLK_130K to new digital node X_U3.CLK_130K$AtoD2
X$X_U3.CLK_130K_AtoD2
+ X_U3.CLK_130K
+ X_U3.CLK_130K$AtoD2
+ X_U3.REF
+ 0
+ AtoD_S
+       PARAMS: CAPACITANCE=   0    
*
* Analog/Digital interface for node X_U3.XU2.82
*
* Moving X_U3.XU2.U10:IN2 from analog node X_U3.XU2.82 to new digital node X_U3.XU2.82$AtoD
X$X_U3.XU2.82_AtoD1
+ X_U3.XU2.82
+ X_U3.XU2.82$AtoD
+ X_U3.XU2.PWR
+ 0
+ AtoD_S
+       PARAMS: CAPACITANCE=   0    
*
* Analog/Digital interface for node X_U3.XU1.92
*
* Moving X_U3.XU1.U3:IN2 from analog node X_U3.XU1.92 to new digital node X_U3.XU1.92$AtoD
X$X_U3.XU1.92_AtoD1
+ X_U3.XU1.92
+ X_U3.XU1.92$AtoD
+ X_U3.REF
+ 0
+ AtoD_STD
+       PARAMS: CAPACITANCE=   0    
*
* Analog/Digital interface for node X_U3.XU1.95
*
* Moving X_U3.XU1.U17:IN2 from analog node X_U3.XU1.95 to new digital node X_U3.XU1.95$AtoD
X$X_U3.XU1.95_AtoD1
+ X_U3.XU1.95
+ X_U3.XU1.95$AtoD
+ X_U3.REF
+ 0
+ AtoD_STD
+       PARAMS: CAPACITANCE=   0    
* Moving X_U3.XU1.U12:IN1 from analog node X_U3.XU1.95 to new digital node X_U3.XU1.95$AtoD2
X$X_U3.XU1.95_AtoD2
+ X_U3.XU1.95
+ X_U3.XU1.95$AtoD2
+ X_U3.REF
+ 0
+ AtoD_STD
+       PARAMS: CAPACITANCE=   0    
*
* Analog/Digital interface for node X_U3.XU1.97
*
* Moving X_U3.XU1.U2:OUT1 from analog node X_U3.XU1.97 to new digital node X_U3.XU1.97$DtoA
X$X_U3.XU1.97_DtoA1
+ X_U3.XU1.97$DtoA
+ X_U3.XU1.97
+ X_U3.REF
+ 0
+ DtoA_STD
+       PARAMS: DRVH=  96.4   DRVL= 104    CAPACITANCE=   0    
*
* Analog/Digital interface power supply subcircuits
*
X$CD4000_PWR 0 CD4000_PWR
X$DIGIFPWR 0 DIGIFPWR


**** 03/29/17 10:25:11 ***** PSpice 16.6.0 (October 2012) ***** ID# 0 ********

 ** Profile: "SCHEMATIC1-TAPPED_TRANSFORMER"  [ E:\zhuxuefeng\Pspice\project\ucc28600-pspicefiles\schematic1\tapped_transformer.sim ]


 ****     Diode MODEL PARAMETERS


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

               1N5820          D74CLMP         D74             D74SCLMP       
          IS    1.000000E-03    1.000000E-15  100.000000E-18   10.000000E-12
           N    2.34208                                                     
          BV   20                                                           
         IBV    2.000000E-03                                                
          RS     .027467        2              25               2           
         CJO  636.939000E-12    2.000000E-12    2.000000E-12    2.000000E-12
          VJ    1.5                                              .7         
           M     .364419                                                    
          EG     .550905                                                    
         XTI    3.02706                                                    


               D74S           
          IS    1.000000E-12
          RS   25           
         CJO    2.000000E-12
          VJ     .7        


**** 03/29/17 10:25:11 ***** PSpice 16.6.0 (October 2012) ***** ID# 0 ********

 ** Profile: "SCHEMATIC1-TAPPED_TRANSFORMER"  [ E:\zhuxuefeng\Pspice\project\ucc28600-pspicefiles\schematic1\tapped_transformer.sim ]


 ****     BJT MODEL PARAMETERS


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

               DH3468CN        Q40242          Q74             Q74S           
               PNP             NPN             NPN             NPN            
       LEVEL    1               1               1               1           
          IS  336.700000E-15   69.280000E-18  100.000000E-18  100.000000E-18
          BF   73.94          285.6            49              49           
          NF    1               1               1               1           
         VAF  100             100                                           
         IKF     .6              .02229                                     
         ISE                   69.280000E-18  100.000000E-18  100.000000E-18
          NE                    1.183                                       
          BR     .3082          1.153            .03             .33        
          NR    1               1               1               1           
         ISC                                  400.000000E-18  400.000000E-18
         ISS    0               0               0               0           
          RB   10              10              50              50           
          RE    0               0               0               0           
          RC     .5             4              20              20           
         CJE   87.820000E-12  939.800000E-15    1.000000E-12    1.000000E-12
         VJE     .75             .75             .9              .9         
         MJE     .3551           .3453           .5              .5         
         CJC   39.630000E-12  893.100000E-15  500.000000E-15  500.000000E-15
         VJC     .75             .75             .8              .8         
         MJC     .3357           .3017           .33             .33        
        XCJC    1               1               1               1           
         CJS    0               0               3.000000E-12    3.000000E-12
         VJS     .75             .75             .7              .7         
         MJS                                     .33             .33        
          TF  800.000000E-12  141.100000E-12  200.000000E-12  200.000000E-12
         XTF                   30                                           
         VTF                   10                                           
         ITF                     .27                                        
          TR  256.900000E-09    1.578000E-09   10.000000E-09   10.000000E-09
         XTB    1.5             1.5                                         
          KF    0               0               0               0           
          AF    1               1               1               1           
          CN    2.2             2.42            2.42            2.42        
           D     .52             .87             .87             .87       


**** 03/29/17 10:25:11 ***** PSpice 16.6.0 (October 2012) ***** ID# 0 ********

 ** Profile: "SCHEMATIC1-TAPPED_TRANSFORMER"  [ E:\zhuxuefeng\Pspice\project\ucc28600-pspicefiles\schematic1\tapped_transformer.sim ]


 ****     Digital Input MODEL PARAMETERS


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

               DIN74           DIN74S         
      S0NAME 0               0              
       S0TSW    3.500000E-09    1.500000E-09
       S0RLO    7.13           12           
       S0RHI  389             389           
      S1NAME 1               1              
       S1TSW    5.500000E-09    1.500000E-09
       S1RLO  467             224           
       S1RHI  200              74.7         
      S2NAME X               X              
       S2TSW    3.500000E-09    1.500000E-09
       S2RLO   42.9            34.6         
       S2RHI  116              98.4         
      S3NAME R               R              
       S3TSW    3.500000E-09    1.500000E-09
       S3RLO   42.9            34.6         
       S3RHI  116              98.4         
      S4NAME F               F              
       S4TSW    3.500000E-09    1.500000E-09
       S4RLO   42.9            34.6         
       S4RHI  116              98.4         
      S5NAME Z               Z              
       S5TSW    3.500000E-09    1.500000E-09
       S5RLO  200.000000E+03  200.000000E+03
       S5RHI  200.000000E+03  200.000000E+03


**** 03/29/17 10:25:11 ***** PSpice 16.6.0 (October 2012) ***** ID# 0 ********

 ** Profile: "SCHEMATIC1-TAPPED_TRANSFORMER"  [ E:\zhuxuefeng\Pspice\project\ucc28600-pspicefiles\schematic1\tapped_transformer.sim ]


 ****     Digital Output MODEL PARAMETERS


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

               DO74            DO74LS          DO74S           DO4000A        
    TIMESTEP  100.000000E-12  100.000000E-12  100.000000E-12  100.000000E-12
      S0NAME X               X               X               X              
       S0VHI    2               2               2                .5         
       S0VLO     .8              .8              .8             -.5         
      S1NAME 0               0               0               0              
       S1VHI     .8              .8              .8             -.5         
       S1VLO   -1.5            -1.5            -1.5            -3           
      S2NAME R               R               R               R              
       S2VHI    1.4             1.2             1.35             .05        
       S2VLO     .8              .8              .8             -.5         
      S3NAME R               R               R               R              
       S3VHI    2               2               2                .5         
       S3VLO    1.3             1.1             1.25            -.05        
      S4NAME X               X               X               X              
       S4VHI    2               2               2                .5         
       S4VLO     .8              .8              .8             -.5         
      S5NAME 1               1               1               1              
       S5VHI    7               7               7               3           
       S5VLO    2               2               2                .5         
      S6NAME F               F               F               F              
       S6VHI    2               2               2                .5         
       S6VLO    1.3             1.1             1.25            -.05        
      S7NAME F               F               F               F              
       S7VHI    1.4             1.2             1.35             .05        
       S7VLO     .8              .8              .8             -.5        


**** 03/29/17 10:25:11 ***** PSpice 16.6.0 (October 2012) ***** ID# 0 ********

 ** Profile: "SCHEMATIC1-TAPPED_TRANSFORMER"  [ E:\zhuxuefeng\Pspice\project\ucc28600-pspicefiles\schematic1\tapped_transformer.sim ]


 ****     Digital Gate MODEL PARAMETERS


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

               X_U3.XU14.U_SN7432
      TPLHMN    6.000000E-09
      TPLHTY   15.000000E-09
      TPLHMX   24.000000E-09
      TPHLMN    8.800000E-09
      TPHLTY   22.000000E-09
      TPHLMX   35.200000E-09


**** 03/29/17 10:25:11 ***** PSpice 16.6.0 (October 2012) ***** ID# 0 ********

 ** Profile: "SCHEMATIC1-TAPPED_TRANSFORMER"  [ E:\zhuxuefeng\Pspice\project\ucc28600-pspicefiles\schematic1\tapped_transformer.sim ]


 ****     Digital Edge Triggered FF MODEL PARAMETERS


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

               X_U3.U_SN74AS74
  TPCLKQLHMN    2.800000E-09
  TPCLKQLHTY    7.000000E-09
  TPCLKQLHMX   11.200000E-09
  TPCLKQHLMN    3.600000E-09
  TPCLKQHLTY    9.000000E-09
  TPCLKQHLMX   14.400000E-09
   TPPCQLHMN    0           
   TPPCQLHTY    0           
   TPPCQLHMX    0           
   TPPCQHLMN    0           
   TPPCQHLTY    0           
   TPPCQHLMX    0           
    TWCLKLMN    0           
    TWCLKLTY    0           
    TWCLKLMX    0           
    TWCLKHMN    0           
    TWCLKHTY    0           
    TWCLKHMX    0           
     TWPCLMN    0           
     TWPCLTY    0           
     TWPCLMX    0           
   TSUDCLKMN    0           
   TSUDCLKTY    0           
   TSUDCLKMX    0           
 TSUPCCLKHMN    0           
 TSUPCCLKHTY    0           
 TSUPCCLKHMX    0           
    THDCLKMN    0           
    THDCLKTY    0           
    THDCLKMX    0           
  TSUCECLKMN    0           
  TSUCECLKTY    0           
  TSUCECLKMX    0           
   THCECLKMN    0           
   THCECLKTY    0           
   THCECLKMX    0          


**** 03/29/17 10:25:11 ***** PSpice 16.6.0 (October 2012) ***** ID# 0 ********

 ** Profile: "SCHEMATIC1-TAPPED_TRANSFORMER"  [ E:\zhuxuefeng\Pspice\project\ucc28600-pspicefiles\schematic1\tapped_transformer.sim ]


 ****     Digital IO  MODEL PARAMETERS


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

               IO_4000A        IO_STD          IO_S            IO_LS          
        DRVL    1.649000E+03  104              60.6           157           
        DRVH    1.649000E+03   96.4            72.7           108           
       AtoD1 AtoD_4000A      AtoD_STD        AtoD_S          AtoD_LS        
       AtoD2 AtoD_4000A_NX   AtoD_STD_NX     AtoD_S_NX       AtoD_LS_NX     
       AtoD3 AtoD_4000A      AtoD_STD        AtoD_S          AtoD_LS        
       AtoD4 AtoD_4000A_NX   AtoD_STD_NX     AtoD_S_NX       AtoD_LS_NX     
       DtoA1 DtoA_4000A      DtoA_STD        DtoA_S          DtoA_LS        
       DtoA2 DtoA_4000A      DtoA_STD        DtoA_S          DtoA_LS        
       DtoA3 DtoA_4000A      DtoA_STD        DtoA_S          DtoA_LS        
       DtoA4 DtoA_4000A      DtoA_STD        DtoA_S          DtoA_LS        
    DIGPOWER CD4000_PWR                                                     
      TSWHL1    7.070000E-09    1.511000E-09  788.000000E-12    2.724000E-09
      TSWHL2    6.940000E-09    1.487000E-09  795.000000E-12    2.724000E-09
      TSWHL3    9.330000E-09    1.511000E-09  788.000000E-12    2.724000E-09
      TSWHL4    9.180000E-09    1.487000E-09  795.000000E-12    2.724000E-09
      TSWLH1    8.580000E-09    3.517000E-09  889.000000E-12    2.104000E-09
      TSWLH2    8.370000E-09    3.564000E-09  887.000000E-12    2.104000E-09
      TSWLH3   10.730000E-09    3.517000E-09  889.000000E-12    2.104000E-09
      TSWLH4   10.590000E-09    3.564000E-09  887.000000E-12    2.104000E-09
       TPWRT  100.000000E+03  100.000000E+03  100.000000E+03  100.000000E+03


               IO_STM         
        DRVL    0           
        DRVH    0           
       DtoA1 DtoA_STM       
       DtoA2 DtoA_STM       
       DtoA3 DtoA_STM       
       DtoA4 DtoA_STM       
       TPWRT  100.000000E+03

Reducing minimum delta to make the circuit converge.
Reducing minimum delta to make the circuit converge.
Reducing minimum delta to make the circuit converge.
Reducing minimum delta to make the circuit converge.
Reducing minimum delta to make the circuit converge.

ERROR(ORPSIM-15138): Convergence problem in transient analysis at Time =  1.212E-09.
         Time step =  93.13E-21, minimum allowable step size =  1.000E-18

  These supply currents failed to converge:

    I(X_U3.XOP3.EGND)         =   -1.867mA  \   -1.909mA
    I(X_U3.XU14.XIOP1.EO)     =   169.63uA  \   -2.710uA
    I(X_U3.XU8.XOP3.EGND)     =   -1.939mA  \   -1.907mA
    I(X_U3.XU8.XOP2.EGND)     =  -260.51uA  \  -218.90uA
    I(X_U3.XU8.XOP1.EGND)     =  -180.24uA  \  -222.21uA
    I(L_L2)                   =   296.08uA  \   296.80uA
    I(X_U2.V4)                =  -466.11uA  \  -446.15uA

  These devices failed to converge:
    X$X_U3.REF_AtoD1.Q1 X$X_U3.REF_AtoD2.Q1 X$X_U3.REF_AtoD3.Q1
    X$X_U3.REF_AtoD5.Q1 X$X_U3.REF_AtoD6.Q1 X$X_U3.REF_AtoD7.Q1
    X$X_U3.REF_AtoD8.Q1 X$X_U3.REF_AtoD9.Q1 X$X_U3.REF_AtoD10.Q1
    X$X_U3.OUT__AtoD1.Q1 X$X_U3.SS_OVR_AtoD1.Q1 X$X_U3.SS_OVR_AtoD2.Q1
    X$X_U3.35_AtoD1.Q1 X$X_U3.BURST_AtoD1.Q1 X$X_U3.XU14.60_AtoD1.Q1
    X$X_U3.XU14.56_AtoD1.Q1 X$X_U3.XU14.56_AtoD2.Q1 X$X_U3.XU14.56_AtoD3.Q1
    X$X_U3.XU14.56_AtoD4.Q1 X$X_U3.XU14.56_AtoD5.Q1 X$X_U3.Q_AtoD1.Q1
    X$X_U3.Q_AtoD2.Q1 X$X_U3.XU14.42_AtoD1.Q1 X$X_U3.LINE_OVP_AtoD1.Q1
    X$X_U3.LOAD_OVP_AtoD1.Q1 X$X_U3.XU2.80_AtoD1.Q1 X$X_U3.CLK_130K_AtoD1.Q1
    X$X_U3.CLK_130K_AtoD2.Q1 X$X_U3.XU2.82_AtoD1.Q1 X$X_U3.XU1.92_AtoD1.Q1
    X$X_U3.XU1.95_AtoD1.Q1 X$X_U3.XU1.95_AtoD2.Q1


  Last node voltages tried were:

 NODE   VOLTAGE     NODE   VOLTAGE     NODE   VOLTAGE     NODE   VOLTAGE


(N01151)     .0504 (N02746)  400.0000 (N02767)     .0170 (N02817)     .0170   

(N02981)     .0177 (N03170)     .0029 (N03174) 918.6E-12 (N03190) 296.1E-06   

(N03863) 23.53E-06 (N03926) 1.038E-06 (N05245)    1.2649 (N05339)    1.2649   

(N06585)     .7882 (N06669)    1.2607 (N07812)     .8312 (N08836)     .0034   

(N10436)     .5472 (N10440)     .0016 (N10947)    1.1277 (N11467)     .0032   

(N12459)     .0494 (N12931)     .0188 (N12935) 290.6E-06 (N14017)     .0029   

(X_U2.1)    2.4950 (X_U2.2) 237.8E-06 (X_U2.3) 21.63E-06 (X_U2.4) 21.62E-06   

(X_U2.5)    2.0000 (X_U2.8)    1.6784 (X_U3.7)     .0498 (X_U3.9)     .6586   

(X_U3.Q)     .1654 ($G_DGND)    0.0000                   ($G_DPWR)    5.0000  

(X_U3.10)    0.0000                   (X_U3.11)    5.0000                     

(X_U3.12)    0.0000                   (X_U3.15)   20.0000                     

(X_U3.17)    9.8575                   (X_U3.18)     .2255                     

(X_U3.24) 373.9E-06                   (X_U3.31)     .9472                     

(X_U3.32)    1.2000                   (X_U3.33) 116.2E-06                     

(X_U3.34)    3.7866                   (X_U3.35)    2.5000                     

(X_U3.REF)    5.0000                  (X_U3.OUT_)    2.8666                   

(X_U3.BURST)    2.4966                (X_U3.FB_CL)    9.4665                  

(X_U3.OSC_CL)    9.9318               (X_U3.SS_OVR)    5.0000                 

(X_U3.XOP3.7)    9.9950               (X_U3.XOP3.8)   10.0000                 

(X_U3.XOP3.9)    9.9998               (X_U3.XPWR.2)    0.0000                 

(X_U3.XU1.91)    1.2500               (X_U3.XU1.92)    0.0000                 

(X_U3.XU1.95)    2.4943               (X_U3.XU1.97)     .0900                 

(X_U3.XU2.78)  151.7800               (X_U3.XU2.79)    4.0000                 

(X_U3.XU2.80)    5.0000               (X_U3.XU2.81)     .1000                 

(X_U3.XU2.82)    0.0000               (X_U3.XU21.4)     .0895                 

(X_U3.XU21.5)     .6569               (X_U3.XU21.6)    -.0295                 

(X_U3.XU22.4)     .7840               (X_U3.XU22.5)    2.8601                 

(X_U3.XU22.6)     .3359               (X_U3.XU23.4)     .9638                 

(X_U3.XU23.5)    2.8601               (X_U3.XU23.6)     .5547                 

(X_U3.XOP3.10)     .0034              (X_U3.XOP3.11)   18.1430                

(X_U3.XOP3.12)    1.8570              (X_U3.XU14.40) 23.53E-06                

(X_U3.XU14.41)    -.1000              (X_U3.XU14.42) 353.4E-06                

(X_U3.XU14.43) 14.39E-09              (X_U3.XU14.44) 23.53E-06                

(X_U3.XU14.45) 27.64E-06              (X_U3.XU14.46)     .4500                

(X_U3.XU14.47)    3.7500              (X_U3.XU14.56)    4.9995                

(X_U3.XU14.60)     .2589              (X_U3.XU14.61)    3.1025                

(X_U3.XU14.64)    -.0058              (X_U3.XU14.65)    -.0658                

(X_U3.XU14.66)    -.0059              (X_U3.XU14.67)-221.0E-06                

(X_U3.XU14.68)    -.0059              (X_U3.XU14.69)    5.0000                

(X_U3.XU14.70)    0.0000              (X_U3.XU2.PWR)    5.0000                

(X_U3.XU8.108)   20.0000              (X_U3.XU8.109)   20.0000                

(X_U3.XU8.110)   20.0000              (X_U3.XU8.111)    2.0000                

(X_U3.XU8.112)    9.8575              (X_U3.XU8.113)    1.8706                

(X_U3.XU8.114)    1.8113              (X_U3.XU8.115)    9.9841                

(X_U3.XU8.116)    1.3000              (X_U3.XU8.117)    9.9840                

($G_CD4000_VDD)    5.0000             ($G_CD4000_VSS)    0.0000               

(X_U3.CLK_130K)    5.0000             (X_U3.LINE_OVP)    0.0000               

(X_U3.LOAD_OVP)    0.0000             (X_U3.XOP3.VMI)    0.0000               

(X_U3.XOP3.VPI)   20.0000             (X_U3.XPWR.THR)    8.0000               

(X_U3.XU1.XU8.2)     .0900            (X_U3.XU14.XU8.2) 353.1E-06             

(X_U3.XU14.XU9.2)    0.0000           (X_U3.XU8.XOP1.7)    9.9950             

(X_U3.XU8.XOP1.8)   10.0000           (X_U3.XU8.XOP1.9)    9.9998             

(X_U3.XU8.XOP2.7)   10.0010           (X_U3.XU8.XOP2.8)   10.0000             

(X_U3.XU8.XOP2.9)   10.0000           (X_U3.XU8.XOP3.7)    9.9950             

(X_U3.XU8.XOP3.8)   10.0000           (X_U3.XU8.XOP3.9)    9.9998             

(X$X_U3.Q_AtoD1.1)     .2898          (X$X_U3.Q_AtoD1.2)     .1449            

(X$X_U3.Q_AtoD1.3)     .6803          (X$X_U3.Q_AtoD2.1)     .2898            

(X$X_U3.Q_AtoD2.2)     .1449          (X$X_U3.Q_AtoD2.3)     .6803            

(X_U3.XU8.XOP1.10)    1.3000          (X_U3.XU8.XOP1.11)   18.1430            

(X_U3.XU8.XOP1.12)    1.8570          (X_U3.XU8.XOP2.10)    1.8706            

(X_U3.XU8.XOP2.11)   18.1430          (X_U3.XU8.XOP2.12)    1.8570            

(X_U3.XU8.XOP3.10)    2.0000          (X_U3.XU8.XOP3.11)   18.1430            

(X_U3.XU8.XOP3.12)    1.8570          (X$X_U3.35_AtoD1.1)     .5321           

(X$X_U3.35_AtoD1.2)     .2660         (X$X_U3.35_AtoD1.3)    1.2037           

(X_U3.XU1.XBURST.2)    5.0000         (X_U3.XU1.XU13.104)    5.0000           

(X_U3.XU14.XU9.THR)     .0100         (X_U3.XU8.XOP1.VMI)    0.0000           

(X_U3.XU8.XOP1.VPI)   20.0000         (X_U3.XU8.XOP2.VMI)    0.0000           

(X_U3.XU8.XOP2.VPI)   20.0000         (X_U3.XU8.XOP3.VMI)    0.0000           

(X_U3.XU8.XOP3.VPI)   20.0000         (X$X_U3.REF_AtoD1.1)     .8369          

(X$X_U3.REF_AtoD1.2)     .4184        (X$X_U3.REF_AtoD1.3)    1.5685          

(X$X_U3.REF_AtoD2.1)     .8369        (X$X_U3.REF_AtoD2.2)     .4184          

(X$X_U3.REF_AtoD2.3)    1.5685        (X$X_U3.REF_AtoD3.1)     .8369          

(X$X_U3.REF_AtoD3.2)     .4184        (X$X_U3.REF_AtoD3.3)    1.5685          

(X$X_U3.REF_AtoD5.1)     .9606        (X$X_U3.REF_AtoD5.2)     .4803          

(X$X_U3.REF_AtoD5.3)    1.5499        (X$X_U3.REF_AtoD6.1)     .9606          

(X$X_U3.REF_AtoD6.2)     .4803        (X$X_U3.REF_AtoD6.3)    1.5499          

(X$X_U3.REF_AtoD7.1)     .8369        (X$X_U3.REF_AtoD7.2)     .4184          

(X$X_U3.REF_AtoD7.3)    1.5685        (X$X_U3.REF_AtoD8.1)     .8369          

(X$X_U3.REF_AtoD8.2)     .4184        (X$X_U3.REF_AtoD8.3)    1.5685          

(X$X_U3.REF_AtoD9.1)     .9606        (X$X_U3.REF_AtoD9.2)     .4803          

(X$X_U3.REF_AtoD9.3)    1.5499        (X$X_U3.OUT__AtoD1.1)     .5877         

(X$X_U3.OUT__AtoD1.2)     .2938       (X$X_U3.OUT__AtoD1.3)    1.3386         

(X$X_U3.REF_AtoD10.1)     .9606       (X$X_U3.REF_AtoD10.2)     .4803         

(X$X_U3.REF_AtoD10.3)    1.5499       (X_U3.XU1.XBURST.THR)    -.5000         

(X$X_U3.10_AtoD1.NORM)   -1.2500      (X$X_U3.11_AtoD1.NORM)    1.2500        

(X$X_U3.12_AtoD1.NORM)   -1.2500      (X$X_U3.BURST_AtoD1.1)     .5376        

(X$X_U3.BURST_AtoD1.2)     .2688      (X$X_U3.BURST_AtoD1.3)    1.2949        

(X$X_U3.SS_OVR_AtoD1.1)     .8367     (X$X_U3.SS_OVR_AtoD1.2)     .4184       

(X$X_U3.SS_OVR_AtoD1.3)    1.5683     (X$X_U3.SS_OVR_AtoD2.1)     .8367       

(X$X_U3.SS_OVR_AtoD2.2)     .4184     (X$X_U3.SS_OVR_AtoD2.3)    1.5683       

(X$X_U3.XU1.92_AtoD1.1)     .0825     (X$X_U3.XU1.92_AtoD1.2)     .0412       

(X$X_U3.XU1.92_AtoD1.3)     .6917     (X$X_U3.XU1.95_AtoD1.1)     .5373       

(X$X_U3.XU1.95_AtoD1.2)     .2686     (X$X_U3.XU1.95_AtoD1.3)    1.2946       

(X$X_U3.XU1.95_AtoD2.1)     .5373     (X$X_U3.XU1.95_AtoD2.2)     .2686       

(X$X_U3.XU1.95_AtoD2.3)    1.2946     (X$X_U3.XU2.80_AtoD1.1)     .8367       

(X$X_U3.XU2.80_AtoD1.2)     .4184     (X$X_U3.XU2.80_AtoD1.3)    1.5683       

(X$X_U3.XU2.82_AtoD1.1)     .2569     (X$X_U3.XU2.82_AtoD1.2)     .1285       

(X$X_U3.XU2.82_AtoD1.3)     .6119     (X_U3.XU1.XGREENMODE.2)    5.0000       

(X$X_U3.XU14.42_AtoD1.1)     .2570    (X$X_U3.XU14.42_AtoD1.2)     .1285      

(X$X_U3.XU14.42_AtoD1.3)     .6121    (X$X_U3.XU14.56_AtoD1.1)     .9607      

(X$X_U3.XU14.56_AtoD1.2)     .4804    (X$X_U3.XU14.56_AtoD1.3)    1.5500      

(X$X_U3.XU14.56_AtoD2.1)     .8368    (X$X_U3.XU14.56_AtoD2.2)     .4184      

(X$X_U3.XU14.56_AtoD2.3)    1.5684    (X$X_U3.XU14.56_AtoD3.1)     .9607      

(X$X_U3.XU14.56_AtoD3.2)     .4804    (X$X_U3.XU14.56_AtoD3.3)    1.5500      

(X$X_U3.XU14.56_AtoD4.1)     .9607    (X$X_U3.XU14.56_AtoD4.2)     .4804      

(X$X_U3.XU14.56_AtoD4.3)    1.5500    (X$X_U3.XU14.56_AtoD5.1)     .8368      

(X$X_U3.XU14.56_AtoD5.2)     .4184    (X$X_U3.XU14.56_AtoD5.3)    1.5684      

(X$X_U3.XU14.60_AtoD1.1)     .1247    (X$X_U3.XU14.60_AtoD1.2)     .0624      

(X$X_U3.XU14.60_AtoD1.3)     .8258    (X$X_U3.CLK_130K_AtoD1.1)     .8368     

(X$X_U3.CLK_130K_AtoD1.2)     .4184   (X$X_U3.CLK_130K_AtoD1.3)    1.5684     

(X$X_U3.CLK_130K_AtoD2.1)     .9607   (X$X_U3.CLK_130K_AtoD2.2)     .4804     

(X$X_U3.CLK_130K_AtoD2.3)    1.5500   (X$X_U3.LINE_OVP_AtoD1.1)     .0825     

(X$X_U3.LINE_OVP_AtoD1.2)     .0412   (X$X_U3.LINE_OVP_AtoD1.3)     .6917     

(X$X_U3.LOAD_OVP_AtoD1.1)     .0825   (X$X_U3.LOAD_OVP_AtoD1.2)     .0412     

(X$X_U3.LOAD_OVP_AtoD1.3)     .6917   (X_U3.XU1.XGREENMODE.THR)    -.5500     

(X$X_U3.10_AtoD1.XNORM.THRESHOLD)    1.5000                                   

(X$X_U3.11_AtoD1.XNORM.THRESHOLD)    1.5000                                   

(X$X_U3.12_AtoD1.XNORM.THRESHOLD)    1.5000            


 DGTL NODE : STATE  DGTL NODE : STATE  DGTL NODE : STATE  DGTL NODE : STATE


( X_U3.13) : X     (X_U3.XU1.94) : 0  (X_U3.XU1.102) : 1                      

(X_U3.UVLO) : 1    (X_U3.XU1.Q) : 0   (X_U3.XU14.53) : X                      

(  X_U3.8) : 0     (X_U3.XU1.92$AtoD) : 0                (X_U3.XU14.48) : 1   

(X_U3.XU1.99) : 1  (X_U3.REF$AtoD2) : 1                                       

(X_U3.XU14.60$AtoD) : 0               (X_U3.XU14.61$DtoA) : 1                 

(X_U3.QR_DONE) : 0                    (X_U3.XU2.73) : 1  (X_U3.REF$AtoD7) : 1 

(X_U3.10$AtoD) : 0                    (X_U3.BURST$AtoD) : 1                   

(X_U3.XU1.XU13.105) : 1               (X_U3.XU14.56$AtoD3) : 1                

(X_U3.XU2.74) : 1  (X_U3.REF$AtoD8) : 1                  (X_U3.XU14.59) : 0   

(X_U3.XU1.90) : 0  (X_U3.XU1.XU13.106) : 1                                    

(X_U3.XU14.56$AtoD4) : 1              (X_U3.XU1.89) : X  (X_U3.REF$AtoD) : 1  

(X_U3.XU14.57) : X                    (X_U3.XU2.83) : 0  (X_U3.XU1.96) : 0    

(X_U3.LINE_OVP$AtoD) : 0              (X_U3.XU1.95$AtoD) : 1                  

(X_U3.9$DtoA) : 0  (X_U3.XU14.50) : X                    (X_U3.XU2.84) : 0    

(X_U3.XU2.80$AtoD) : 1                (X_U3.XU14.42$AtoD) : 0                 

(X_U3.XU14.49) : 1                    ( X_U3.23) : 1                          

(X_U3.LOAD_OVP$AtoD) : 0              (X_U3.XU14.56$AtoD) : 1                 

(X_U3.Q$AtoD2) : 0                    (X_U3.35$AtoD) : 1                      

(X_U3.SS_OVR$AtoD2) : 1               (X_U3.REF$AtoD3) : 1                    

(X_U3.REF$AtoD4) : 1                  (X_U3.XU2.75) : X  (X_U3.REF$AtoD9) : 1 

(X_U3.Q$AtoD) : 0  (X_U3.XU1.XU13.107) : 0               (X_U3.XU14.62) : 1   

(X_U3.XU14.56$AtoD5) : 1              (X_U3.XU2.76) : Z  (X_U3.REF$AtoD10) : 1

(X_U3.XU1.100) : X                    (X_U3.12$AtoD) : 0                      

(X_U3.7$DtoA) : 1  (X_U3.XU14.54) : 0                    (X_U3.SS_OVR$AtoD) : 1

(X_U3.RUN) : 0     (X_U3.XU14.51) : 0                    (X_U3.XU2.85) : 1    

(X_U3.XU1.97$DtoA) : 0                (X_U3.OUT_$DtoA) : 1                    

(X_U3.XU14.52) : 1                    (X_U3.XU2.86) : 1                       

(X_U3.XU1.95$AtoD2) : 1               (X_U3.XU2.82$AtoD) : 0                  

(X_U3.XU1.87) : X  (X_U3.REF$AtoD5) : 1                  (X_U3.OUT_$AtoD) : 1 

(X_U3.XU2.72) : X  (X_U3.REF$AtoD6) : 1                  (X_U3.XU1.OVR_T) : Z 

(X_U3.XU14.63) : 1                    (X_U3.CLK_130K$AtoD2) : 1               

(X_U3.XU14.56$AtoD2) : 1              (X_U3.XU2.77) : Z  (X_U3.Q$DtoA) : 0    

(X_U3.11$AtoD) : 1                    (X_U3.XU14.58) : 1                      

(X_U3.XU1.93) : 0  (X_U3.CLK_130K$AtoD) : 1              (X_U3.XU1.101) : X   

(X_U3.XU1.88) : 1  (X_U3.REF_OK_) : 1                    (X_U3.XU14.55) : X   


**** Interrupt ****