********************************
* Copyright:                   *
* Vishay Intertechnology, Inc. *
********************************
*Jun 16, 2014
*ECN S14-1227, Rev. B
*File Name: Si1469DH_PS_RC.txt and Si1469DH_PS_RC.lib
*This document is intended as a SPICE modeling guideline and does not
*constitute a commercial product data sheet.  Designers should refer to the
*appropriate data sheet of the same number for guaranteed specification
*limits.
.SUBCKT Si1469DH D G S
M1  3  GX S S PMOS W=830000u L=0.25u            
M2  S  GX S D NMOS W=830000u L=0.35u    
RG  G  GX     10
R1  D  3      RTEMP 29E-3
CGS GX S      235E-12
DBD D  S      DBD
***************************************************************  
.MODEL  PMOS        PMOS ( LEVEL  = 3          TOX    = 3E-8
+ RS     = 26E-3           RD     = 0          NSUB   = 4.3E16
+ KP     = 4E-6            UO     = 400             
+ VMAX   = 0               XJ     = 5E-7       KAPPA  = 1E-2
+ ETA    = 1E-4            TPG    = -1  
+ IS     = 0               LD     = 0                        
+ CGSO   = 0               CGDO   = 0          CGBO   = 0 
+ NFS    = 0.8E12          DELTA  = 0.1)
*************************************************************** 
.MODEL  NMOS        NMOS ( LEVEL  = 3          TOX    = 3E-8
+NSUB    = 1E17            IS     = 0  	       TPG    = -1)   
*************************************************************** 
.MODEL DBD D (CJO=90E-12 VJ=0.38 M=0.42
+FC=0.5 TT=8.28E-9 T_MEASURED=25 BV=22
+RS=2.524e-02 N=1.014 IS=8.729e-11 IKF=1.000e-02
+EG=7.525e-01 XTI=8.847 TRS1=-1.516e-03)
*************************************************************** 
.MODEL RTEMP RES (TC1=5E-3 TC2=5.5E-6)
*************************************************************** 
.ENDS

* source GENERARTE-COMP PCH
.SUBCKT Si1469DH_PS_RC D G S PARAMS: C2=1000 R1=1M C3=1000 R2=1M C4=1000 R3=1M
+  C5=1000 R4=1M R5=1M C1=1000
C_CT6         N11708 N11712  1.7629m  TC=0,0 
C_CF2         0 N16364  3.1498m  TC=0,0 
R_RT1         J-A--TEMP-TANK N11404  12.6804 TC=0,0 
C_CF7         0 N18737  122.3759m  TC=0,0 
R_RT7         N11712 N11716  11.0076 TC=0,0 
C_CF4         0 N16388  1.4111  TC=0,0 
G_G7         0 JUNCTION-TEMPERATURE-1RC VALUE {
+  (V(Source)-V(Drain))*I(V_V_Source)+(V(Source)-V(Gate))*(-I(V_V_Gate)) }
C_C10         N94536 N94151  {C4}  TC=0,0 
C_C12         N95722 N95798  {C2}  TC=0,0 
C_C5         N92368 N92773  {C2}  TC=0,0 
V_V_Gate         G GATE 0VDC
R_RT3         N11408 N11412  35.0832 TC=0,0 
C_C8         N94061 N94123  {C2}  TC=0,0 
R_RF3         N16384 N16388  20.6292 TC=0,0 
V_V4         N11732 0 {TEMP}
R_R10         N94536 N94151  {R4} TC=0,0 
R_R5         N92368 N92773  {R2} TC=0,0 
C_C3         N91434 N91125  {C2}  TC=0,0 
R_R12         N95722 N95798  {R2} TC=0,0 
R_R8         N94061 N94123  {R2} TC=0,0 
R_RT8         N11716 N11732  7.5242 TC=0,0 
R_RT6         N11708 N11712  19.9734 TC=0,0 
R_R3         N91434 N91125  {R2} TC=0,0 
G_DissipationPower         0 J-A-TEMP-FILTER VALUE {
+  (V(Source)-V(Drain))*I(V_V_Source)+(V(Source)-V(Gate))*(-I(V_V_Gate)) }
C_CT2         N11404 N11408  65.7997m  TC=0,0 
R_RT5         J-F-TEMP-TANK N11708  6.4948 TC=0,0 
C_C1         JUNCTION-TEMPERATURE-1RC N89014  {C1}  TC=0,0 
C_C13         N95798 N95860  {C3}  TC=0,0 
R_RF2         N16364 N16384  36.7018 TC=0,0 
V_V3         N11450 0 {TEMP}
C_C9         N94123 N94536  {C3}  TC=0,0 
R_R13         N95798 N95860  {R3} TC=0,0 
R_RF8         N18741 N18767  4.4987 TC=0,0 
C_CT1         J-A--TEMP-TANK N11404  331.6698u  TC=0,0 
R_RF1         J-A-TEMP-FILTER N16364  16.0369 TC=0,0 
R_RT2         N11404 N11408  22.4830 TC=0,0 
R_R9         N94123 N94536  {R3} TC=0,0 
C_CT4         N11412 N11450  1.3907  TC=0,0 
R_RF5         J-F-TEMP-FILTER N18733  8.8277 TC=0,0 
V_V5         N16436 0 {TEMP}
C_CT3         N11408 N11412  3.2601m  TC=0,0 
G_G5         0 J-A--TEMP-TANK VALUE {
+  (V(Source)-V(Drain))*I(V_V_Source)+(V(Source)-V(Gate))*(-I(V_V_Gate)) }
C_C4         JUNCTION-TEMPERATURE-3RC N92368  {C1}  TC=0,0 
R_RF7         N18737 N18741  2.1524 TC=0,0 
C_C14         N95860 N96370  {C4}  TC=0,0 
C_C11         JUNCTION-TEMPERATURE-5RC N95722  {C1}  TC=0,0 
R_RT4         N11412 N11450  54.7534 TC=0,0 
C_CF8         0 N18741  657.6034u  TC=0,0 
C_C7         JUNCTION-TEMPERATURE-4RC N94061  {C1}  TC=0,0 
R_R1         JUNCTION-TEMPERATURE-1RC N89014  {R1} TC=0,0 
C_C2         JUNCTION-TEMPERATURE-2RC N91434  {C1}  TC=0,0 
R_R4         JUNCTION-TEMPERATURE-3RC N92368  {R1} TC=0,0 
R_R14         N95860 N96370  {R4} TC=0,0 
R_R11         JUNCTION-TEMPERATURE-5RC N95722  {R1} TC=0,0 
C_CF5         0 J-F-TEMP-FILTER  154.9639u  TC=0,0 
C_CF1         0 J-A-TEMP-FILTER  313.7956u  TC=0,0 
R_R7         JUNCTION-TEMPERATURE-4RC N94061  {R1} TC=0,0 
R_R2         JUNCTION-TEMPERATURE-2RC N91434  {R1} TC=0,0 
C_CT5         J-F-TEMP-TANK N11708  146.2618m  TC=0,0 
C_C15         N96370 N95888  {C5}  TC=0,0 
V_V9         N92392 0 {TEMP}
X_U1         DRAIN GATE SOURCE SI1469DH 
V_V_Source         S SOURCE 0VDC
V_V11         N95888 0 {TEMP}
R_RF4         N16388 N16436  51.6321 TC=0,0 
C_CT8         N11716 N11732  204.0468u  TC=0,0 
V_V10         N94151 0 {TEMP}
R_R15         N96370 N95888  {R5} TC=0,0 
G_G4         0 J-F-TEMP-FILTER VALUE {
+  (V(Source)-V(Drain))*I(V_V_Source)+(V(Source)-V(Gate))*(-I(V_V_Gate)) }
V_V8         N91125 0 {TEMP}
C_C6         N92773 N92392  {C3}  TC=0,0 
C_CT7         N11712 N11716  6.0938m  TC=0,0 
G_G9         0 JUNCTION-TEMPERATURE-3RC VALUE {
+  (V(Source)-V(Drain))*I(V_V_Source)+(V(Source)-V(Gate))*(-I(V_V_Gate)) }
C_CF6         0 N18733  1.2167m  TC=0,0 
R_R6         N92773 N92392  {R3} TC=0,0 
G_G11         0 JUNCTION-TEMPERATURE-5RC VALUE {
+  (V(Source)-V(Drain))*I(V_V_Source)+(V(Source)-V(Gate))*(-I(V_V_Gate)) }
V_V7         N89014 0 {TEMP}
C_CF3         0 N16384  83.2244m  TC=0,0 
G_G10         0 JUNCTION-TEMPERATURE-4RC VALUE {
+  (V(Source)-V(Drain))*I(V_V_Source)+(V(Source)-V(Gate))*(-I(V_V_Gate)) }
G_G8         0 JUNCTION-TEMPERATURE-2RC VALUE {
+  (V(Source)-V(Drain))*I(V_V_Source)+(V(Source)-V(Gate))*(-I(V_V_Gate)) }
R_RF6         N18733 N18737  29.5212 TC=0,0 
V_V_Drain         DRAIN D 0VDC
G_G6         0 J-F-TEMP-TANK VALUE {
+  (V(Source)-V(Drain))*I(V_V_Source)+(V(Source)-V(Gate))*(-I(V_V_Gate)) }
V_V6         N18767 0 {TEMP}
.ENDS
