Pass Labs F5 Turbo

example for optran
6 years ago · 29dfa23465
4 changed files with 191 additions and 0 deletions
--- a/examples/optran/F5TurboV2thermal-optran.cir
+++ b/examples/optran/F5TurboV2thermal-optran.cir
@ -0,0 +1,69 @@
 .title KiCad schematic
 .include "F5models.lib"
 .include "script-optran.txt"
 R2 in 0 47.5k
 R1 Net-_Q1-Pad2_ in 1k
 R5 +32 Net-_P1-Pad1_ 1k
 R3 Net-_P3-Pad1_ 0 10
 R4 0 Net-_P3-Pad1_ 10
 R6 Net-_P2-Pad1_ -32 1k
 R7 out Net-_P3-Pad1_ 220
 R8 out Net-_P3-Pad1_ 220
 R9 out Net-_P3-Pad1_ 220
 R10 out Net-_P3-Pad1_ 220
 R11 Net-_R11-Pad1_ Net-_P1-Pad1_ 2.2k
 R13 Net-_Q3-Pad2_ Net-_P1-Pad1_ 47.5
 R15 Net-_Q5-Pad2_ Net-_P2-Pad1_ 47.5
 R12 Net-_R12-Pad1_ Net-_P2-Pad1_ 2.2k
 R17 +32 Net-_D3a1-Pad1_ 1
 R21 Net-_D1a1-Pad2_ -32 1
 R18 +32 Net-_D3a1-Pad1_ 1
 R22 Net-_D1a1-Pad2_ -32 1
 R16 Net-_Q6-Pad2_ Net-_P2-Pad1_ 47.5
 R14 Net-_Q4-Pad2_ Net-_P1-Pad1_ 47.5
 R19 +32 Net-_D4a1-Pad1_ 1
 R23 Net-_D2a1-Pad2_ -32 1
 R20 +32 Net-_D4a1-Pad1_ 1
 R24 Net-_D2a1-Pad2_ -32 1
 Rl1 out 0 4
 D3a1 +32 Net-_D3a1-Pad1_ DMOD
 D1a1 Net-_D1a1-Pad2_ -32 DMOD
 D3b1 +32 Net-_D3a1-Pad1_ DMOD
 D1b1 Net-_D1a1-Pad2_ -32 DMOD
 D4a1 +32 Net-_D4a1-Pad1_ DMOD
 D2a1 Net-_D2a1-Pad2_ -32 DMOD
 D4b1 +32 Net-_D4a1-Pad1_ DMOD
 D2b1 Net-_D2a1-Pad2_ -32 DMOD
 XP3 Net-_P3-Pad1_ 0 Net-_P3-Pad1_ RPOT value=200 ratio=0.85
 XP1 Net-_P1-Pad1_ +32 +32 RPOT value=5k ratio=0.18
 XP2 Net-_P2-Pad1_ -32 -32 RPOT value=5k ratio=0.18
 V3 in 0 sin(0 2 1k)
 JQ1 Net-_P1-Pad1_ Net-_Q1-Pad2_ Net-_P3-Pad1_ 2SK170
 JQ2 Net-_P2-Pad1_ Net-_Q1-Pad2_ Net-_P3-Pad1_ 2SJ74
 MQ5 out Net-_Q5-Pad2_ Net-_D1a1-Pad2_ Q5tj Q5tc IRFP240 thermal
 MQ4 out Net-_Q4-Pad2_ Net-_D4a1-Pad1_ Q4tj Q4tc IRFP9240 thermal
 MQ6 out Net-_Q6-Pad2_ Net-_D2a1-Pad2_ Q6tj Q6tc IRFP240 thermal
 Rj1 Q3tj 0 1G
 Rj2 Q4tj 0 1G
 Rj3 Q5tj 0 1G
 Rj4 Q6tj 0 1G
 Rc2 Q3hs Net-_Rc2-Pad2_ 0.7
 Rc4 Q4hs Net-_Rc2-Pad2_ 0.7
 Rc6 Q5hs Net-_Rc2-Pad2_ 0.7
 Rc8 Q6hs Net-_Rc2-Pad2_ 0.7
 Rc1 Q3tc Q3hs 0.1
 Rc3 Q4tc Q4hs 0.1
 Rc5 Q5tc Q5hs 0.1
 Rc7 Q6tc Q6hs 0.1
 Vt1 Net-_Rc2-Pad2_ 0 40
 Cc1 Q3hs 0 1
 Cc2 Q4hs 0 1
 Cc3 Q5hs 0 1
 Cc4 Q6hs 0 1
 V1 +32 0 32 ; pulse(0 32 1m 1m 1m 100 200)
 V2 -32 0 -32 ; pulse(0 -32 1m 1m 1m 100 200)
 XTH2 Net-_D1a1-Pad2_ Q5hs Net-_R12-Pad1_ th R25=4.7k
 XTH1 Net-_D3a1-Pad1_ Q3hs Net-_R11-Pad1_ th R25=4.7k
 MQ3 out Net-_Q3-Pad2_ Net-_D3a1-Pad1_ Q3tj Q3tc IRFP9240 thermal
 *.tran 20u 5 
 .end
--- a/examples/optran/F5models.lib
+++ b/examples/optran/F5models.lib
@ -0,0 +1,78 @@
 * from https://www.diyaudio.com/forums/solid-state/252973-2sk170-2sj74-spice-model-pass-0-4ma.html
 *2SJ74
 *Toshiba Dep-Mode 20mA 400mW LowNoise pkg:TO-92B 2,1,3
 .MODEL 2SJ74 PJF(Beta=92.12m Rs=7.748 Rd=7.748 Lambda=4.464m
 +Vto=-.5428 Cgd=85.67p Pb=.3905 Fc=.5
 +Cgs=78.27p Is=12.98p
 +Kf=26.64E-18 Af=1)
 *2SK170
 * 20mA 400mW LowNoise Dep-Mode pkg:TO-92B 3,1,2
 .MODEL 2SK170 NJF(Beta=59.86m Rs=4.151 Rd=4.151 Lambda=1.923m
 +Vto=-.5024 Cgd=20p Pb=.4746 Fc=.5
 +Cgs=25.48p Is=8.477p
 +Kf=111.3E-18 Af=1)
 .subckt RPOT 1 2 3
 R1 1 2 {value*ratio + 1m}
 R2 2 3 {value*(1-ratio)+ 1m}
 * below are default parameters, which are required by some simulators
 .param value=1k
 .param ratio=1
 .ends
 .model IRFP240 VDMOS nchan
 + Vto=4 Kp=5.9 Lambda=.001 Theta=0.015 ksubthres=.27
 + Rd=61m Rs=18m Rg=3 Rds=1e7
 + Cgdmax=2.45n Cgdmin=10p a=0.3 Cgs=1.2n
 + Is=60p N=1.1 Rb=14m XTI=3
 + Cjo=1.5n Vj=0.8 m=0.5
 + tcvth=0.0065 MU=-1.27 texp0=1.5
 + Rthjc=0.4 Cthj=0.1
 + mtriode=0.8
 .model IRFP9240 VDMOS pchan
 + Vto=-4 Kp=8.8 Lambda=.003 Theta=0.08 ksubthres=.35
 + Rd=180m Rs=50m Rg=3 Rds=1e7
 + Cgdmax=1.25n Cgdmin=50p a=0.23 Cgs=1.15n
 + Is=150p N=1.3 Rb=16m XTI=2
 + Cjo=1.3n Vj=0.8 m=0.5
 + tcvth=0.004 MU=-1.27 texp0=1.5
 + Rthjc=0.4 Cthj=0.1
 + mtriode=0.6
 .model DMOD D
 * Thermistor model
 .subckt th n1 nt n2 
 .param B=3977
 .param R25=4700
 *control node
 Ctherm1 n1 0 100p
 Ctherm2 n2 0 100p
 Rtherm n1 n2 R = {R25*exp(B*(1/(v(nt)+273.15)-1/(25+273.15)))}
 .ends
 * generic relay model
 .subckt genrelay out1 out2 in1 in2
 .param ron = 10m
 S1 out1 out2 in1 in2 SW
 .MODEL SW VSWITCH(VON=4V VOFF=1V RON={ron} ROFF=100K)
 .ends
 .MODEL IXTH16N10 VDMOS Nchan Vds=100
 + VTO=-3.2 KP=9
 + Lambda=2m
 + Mtriode=1.8
 + Ksubthres=120m
 + subshift=160m
 + Rs=4m Rd=5m Rds=200e6
 + Cgdmax=9000p Cgdmin=300p A=0.25
 + Cgs=5500p Cjo=11000p
 + Is=10e-6 Rb=8m   
 + BV=200 IBV=250e-6
 + NBV=4
 + TT=250e-9
 + vq=100
 + rq=0.1
 + Rthjc=0.2 Cthj=0.1
--- a/examples/optran/contents.txt
+++ b/examples/optran/contents.txt
@ -0,0 +1,4 @@
 Pass Labs F5 turbo
 thermal simulation
 use optran for 4s and coarse steps to obtain stable temparature
 then simulate transient with high resolution
--- a/examples/optran/script-optran.txt
+++ b/examples/optran/script-optran.txt
@ -0,0 +1,40 @@
 .temp {envtemp}
 .param envtemp=40
 .option savecurrents
 .control
 set controlswait
 if $?sharedmode
 * script for shared ngspice
 version
 rusage
 else
 * script for standard ngspice
 *option noinit
 optran 1 0 0 4 1e-2 0
 tran 1u 10m
 echo
 * output power
 let po = @rl1[i] * v(out)
 meas tran power_rms rms po from=5m to=10m
 echo
 rusage
 * temperature transistor Q6
 set xbrushwidth=4
 settype temperature q6tj q6tc q6hs
 plot q6tj q6tc q6hs ylimit 0 150
 set xbrushwidth=1
 * input and output voltages
 plot in out
 * power supply currents
 plot V1#branch V2#branch ylimit -50 50
 plot V1#branch V2#branch ylimit -10 10
 * output current
 plot @rl1[i] 
 plot @rl1[i] xlimit 0 5m ylimit -0.3 0.3 
 * resistance of thermistor2 TH1, TH2
 let rth1 = (v("net-_d3a1-pad1_") - v("net-_r11-pad1_")) / (@b.xth1.brtherm[i] + 1n)
 let rth2 = (v("net-_d1a1-pad2_") - v("net-_r12-pad1_")) / (@b.xth2.brtherm[i] + 1n)
 settype impedance rth1 rth2
 plot rth1 rth2 ylimit 0 5k
 end
 .endc