Commit 9b18fc98 authored by natsfr's avatar natsfr

matching the BFP420 amplifier

parent 2a1594a4
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This diff is collapsed.
This diff is collapsed.
Version 4
SymbolType BLOCK
LINE Normal -48 0 -16 0
LINE Normal 0 -15 -16 -6
LINE Normal 0 -48 0 -15
LINE Normal -16 16 -16 -17
LINE Normal 0 13 -16 6
LINE Normal 0 48 0 13
LINE Normal -4 8 -2 12
LINE Normal -6 13 -4 8
LINE Normal -2 12 -6 13
LINE Normal 16 32 0 32
LINE Normal 16 48 16 32
PIN -48 0 TOP 8
PINATTR PinName B
PINATTR SpiceOrder 2
PIN 0 -48 RIGHT 8
PINATTR PinName C
PINATTR SpiceOrder 1
PIN 0 48 RIGHT 8
PINATTR PinName E1
PINATTR SpiceOrder 3
PIN 16 48 LEFT 8
PINATTR PinName E2
PINATTR SpiceOrder 4
***************************************************************
* Infineon Technologies AG
* GUMMEL-POON MODEL IN SPICE 2G6 SYNTAX
* VALID UP TO 10 GHZ
* >>> BFP420 <<<
* (C) 2012 Infineon Technologies AG
* Version 2.1 January 2012
***************************************************************
* - Please use the global SPICE GP parameter TEMP to specify the
* junction temperature of the device in your application to get
* correct simulation results. This procedure is necessary because
* the GP model does not consider the self heating of the device.
* - TEMP is calculated by TEMP=TA+Pdc*(RthJS+RthSA). The junction
* temperature TEMP is the sum of the ambient temperature TA and
* the increment of temperature caused by the dissipated DC power Pdc.
* - RthJS is the thermal resistance between the junction and the
* soldering point. RthJS for this device is 260 K/W. RthSA is the
* thermal resistance of the PCB, from the soldering point to the
* ambient. For determination of RthSA please refer to Infineon's
* Application Note "Thermal Resistance Calculation" AN077.
* - The model has been verified in the junction temperature range
* -25°C to +125°C.
* - TNOM=25 °C is the nominal ambient temperature during measurement
* for the parameter extraction. Please do not change this value.
****************************************************************
*.OPTION TNOM=25, GMIN= 1.00e-12
*BFP420 C B E1 E2
.SUBCKT BFP420 1 2 3 4
*
CBEPAR 22 33 5.592E-014
CBCPAR 22 11 1.143E-013
CCEPAR 11 33 1.596E-013
LB 22 20 7.42E-010
LE 33 30 1.656E-010
LC 11 10 7.7E-010
CBEPCK 20 30 4.741E-014
CBCPCK 20 10 1.135E-015
CCEPCK 10 30 4.48E-014
LBX 20 2 2.339E-010
LEX 30 35 4.189E-011
LCX 10 1 2.243E-010
*
RE1 35 3 1E-03
RE2 35 4 1E-03
RSub 55 33 176.4
*
Diode_sub 55 11 M_Diode_sub
*
Q1 11 22 33 55 M_BFP420
*
.MODEL M_Diode_sub D(
+ IS = 4.356E-015
+ N = 1.02
+ RS = 0.1
+ CJO = 4E-014
+ TNOM = 25)
*
.MODEL M_BFP420 NPN(
+ TNOM = 25
+ IS = 3.753E-017
+ BF = 140.8
+ NF = 0.9996
+ VAF = 59.18
+ IKF = 0.6604
+ ISE = 1E-014
+ NE = 2
+ BR = 13.61
+ NR = 0.9938
+ VAR = 2.685
+ IKR = 0.007013
+ ISC = 3.49E-016
+ NC = 1.5
+ RB = 11.99
+ IRB = 0
+ RBM = 1.521
+ RE = 0.3062
+ RC = 2.152
+ XTB = 0.1187
+ EG = 1.11
+ XTI = 4.162
+ CJE = 5.621E-013
+ VJE = 0.4892
+ MJE = 0.2565
+ TF = 4.83855E-012
+ XTF = 6.245
+ VTF = 10.66
+ ITF = 0.5436
+ PTF = 0
+ CJC = 1.227E-013
+ VJC = 0.8453
+ MJC = 0.6803
+ XCJC = 0.7
+ TR = 4.7E-009
+ CJS = 4.757E-013
+ MJS = 1
+ VJS = 0.5323
+ FC = 0.4148
+ KF = 65.9E-12
+ AF = 2.0)
***************************************************************
*
.ENDS BFP420
\ No newline at end of file
Version 4
SHEET 1 880 784
WIRE 240 -112 240 -144
WIRE 240 16 240 -32
WIRE 128 32 128 0
WIRE 128 112 128 96
WIRE 240 112 240 96
WIRE 240 112 128 112
WIRE 128 144 128 112
WIRE 240 144 240 112
WIRE 240 256 240 224
WIRE 336 256 240 256
WIRE 400 256 336 256
WIRE 240 272 240 256
WIRE 400 288 400 256
WIRE -176 320 -272 320
WIRE -64 320 -112 320
WIRE -16 320 -64 320
WIRE 128 320 128 224
WIRE 128 320 64 320
WIRE 192 320 128 320
WIRE -64 336 -64 320
WIRE -272 352 -272 320
WIRE 240 400 240 368
WIRE 256 400 256 368
WIRE 256 400 240 400
WIRE -64 416 -64 400
WIRE 240 416 240 400
WIRE 400 416 400 368
WIRE -272 448 -272 432
FLAG 240 -144 0
FLAG 128 0 0
FLAG -64 416 0
FLAG -272 448 0
FLAG 240 416 0
FLAG 400 416 0
FLAG 336 256 output
SYMBOL res 224 0 R0
SYMATTR InstName R1
SYMATTR Value 100
SYMBOL res 112 128 R0
SYMATTR InstName R2
SYMATTR Value 16.5k
SYMBOL ind 224 128 R0
SYMATTR InstName L1
SYMATTR Value 80n
SYMBOL voltage 240 -16 R180
WINDOW 0 24 96 Left 2
WINDOW 3 24 16 Left 2
WINDOW 123 0 0 Left 2
WINDOW 39 0 0 Left 2
SYMATTR InstName V1
SYMATTR Value 6
SYMBOL ind -32 336 R270
WINDOW 0 32 56 VTop 2
WINDOW 3 5 56 VBottom 2
SYMATTR InstName L2
SYMATTR Value 80n
SYMBOL cap 112 32 R0
SYMATTR InstName C1
SYMATTR Value 0.1
SYMBOL cap -80 336 R0
SYMATTR InstName C2
SYMATTR Value 10p
SYMBOL cap -112 304 R90
WINDOW 0 0 32 VBottom 2
WINDOW 3 32 32 VTop 2
SYMATTR InstName C3
SYMATTR Value 0.1
SYMBOL voltage -272 336 R0
WINDOW 3 -63 -122 VRight 2
WINDOW 123 24 44 Left 2
WINDOW 39 24 124 Left 2
SYMATTR Value PULSE(0 3.3 0 200p 200p 3n 50n)
SYMATTR Value2 AC 1
SYMATTR SpiceLine Rser=50
SYMATTR InstName V2
SYMBOL bfp420 240 320 R0
SYMATTR InstName Q1
SYMATTR Prefix X
SYMATTR Value BFP420
SYMBOL res 384 272 R0
SYMATTR InstName R3
SYMATTR Value 25
TEXT -896 744 Left 2 !.include bfp420.lib
TEXT -896 768 Left 2 !.ac oct 1000 1 20g
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