line endings LF (Linux)

examples/optran/F5TurboV2thermal-optran.cir

@@ -1,79 +1,79 @@
-.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-Pad3_ 10
-R6 Net-_P2-Pad1_ -32 1k
-R7 out Net-_P3-Pad1_ 220
-R8 out Net-_P3-Pad1_ 220
-R9 out Net-_P3-Pad3_ 220
-R10 out Net-_P3-Pad3_ 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
-Ra2 Net-_Ra1-Pad2_ 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-Pad3_ RPOT value=200 ratio={rp3}
-XP1 Net-_P1-Pad1_ +32 +32 RPOT value=5k ratio={rp1}
-XP2 Net-_P2-Pad1_ -32 -32 RPOT value=5k ratio={rp2}
-V3 in 0 dc 0 ac 1 sin(0 2 1k 5m)
-JQ1 Net-_P1-Pad1_ Net-_Q1-Pad2_ Net-_P3-Pad1_ 2SK170
-JQ2 Net-_P2-Pad1_ Net-_Q1-Pad2_ Net-_P3-Pad3_ 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_ {hs}
-Rc4 Q4hs Net-_Rc2-Pad2_ {hs}
-Rc6 Q5hs Net-_Rc2-Pad2_ {hs}
-Rc8 Q6hs Net-_Rc2-Pad2_ {hs}
-Rc1 Q3tc Q3hs {chs}
-Rc3 Q4tc Q4hs {chs}
-Rc5 Q5tc Q5hs {chs}
-Rc7 Q6tc Q6hs {chs}
-Vt1 Net-_Rc2-Pad2_ 0 {envtemp}
-Cc1 Q3hs 0 {hscc}
-Cc3 Q5hs 0 {hscc}
-Cc4 Q6hs 0 {hscc}
-V1 +32 0 dc 32 ; pulse(0 32 0.4m 2m 2m 100 200)
-V2 -32 0 dc -32 ; pulse(0 -32 0.4m 2m 2m 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
-Vs1 Net-_S1-Pad3_ 0 dc 0 pulse(0 5 6 1m 1m 20 20)
-XS1 Net-_Ra1-Pad2_ 0 Net-_S1-Pad3_ 0 genrelay
-Cc2 Q4hs 0 {hscc}
-Ra1 out Net-_Ra1-Pad2_ 4
-.tran 20u 5
-.param envtemp=40
-.param chs=1
-.param hs=1.2
-.param hscc=1
-.param rp2=0.21
-.param rp1=0.36
-.param rp3=0.505
-.end
+.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-Pad3_ 10
+R6 Net-_P2-Pad1_ -32 1k
+R7 out Net-_P3-Pad1_ 220
+R8 out Net-_P3-Pad1_ 220
+R9 out Net-_P3-Pad3_ 220
+R10 out Net-_P3-Pad3_ 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
+Ra2 Net-_Ra1-Pad2_ 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-Pad3_ RPOT value=200 ratio={rp3}
+XP1 Net-_P1-Pad1_ +32 +32 RPOT value=5k ratio={rp1}
+XP2 Net-_P2-Pad1_ -32 -32 RPOT value=5k ratio={rp2}
+V3 in 0 dc 0 ac 1 sin(0 2 1k 5m)
+JQ1 Net-_P1-Pad1_ Net-_Q1-Pad2_ Net-_P3-Pad1_ 2SK170
+JQ2 Net-_P2-Pad1_ Net-_Q1-Pad2_ Net-_P3-Pad3_ 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_ {hs}
+Rc4 Q4hs Net-_Rc2-Pad2_ {hs}
+Rc6 Q5hs Net-_Rc2-Pad2_ {hs}
+Rc8 Q6hs Net-_Rc2-Pad2_ {hs}
+Rc1 Q3tc Q3hs {chs}
+Rc3 Q4tc Q4hs {chs}
+Rc5 Q5tc Q5hs {chs}
+Rc7 Q6tc Q6hs {chs}
+Vt1 Net-_Rc2-Pad2_ 0 {envtemp}
+Cc1 Q3hs 0 {hscc}
+Cc3 Q5hs 0 {hscc}
+Cc4 Q6hs 0 {hscc}
+V1 +32 0 dc 32 ; pulse(0 32 0.4m 2m 2m 100 200)
+V2 -32 0 dc -32 ; pulse(0 -32 0.4m 2m 2m 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
+Vs1 Net-_S1-Pad3_ 0 dc 0 pulse(0 5 6 1m 1m 20 20)
+XS1 Net-_Ra1-Pad2_ 0 Net-_S1-Pad3_ 0 genrelay
+Cc2 Q4hs 0 {hscc}
+Ra1 out Net-_Ra1-Pad2_ 4
+.tran 20u 5
+.param envtemp=40
+.param chs=1
+.param hs=1.2
+.param hscc=1
+.param rp2=0.21
+.param rp1=0.36
+.param rp3=0.505
+.end

examples/optran/script-optran.txt

@@ -1,55 +1,55 @@
-.temp {envtemp}
-.param envtemp=40
-.option savecurrents
-.control
-set controlswait
-if $?sharedmode
-* script for shared ngspice
-version
-rusage
-else
-*** script for standard ngspice
-* Start optran without first iteration,
-* without gmin stepping and without src stepping
-* optran step size 10 ms, duration 40s,
-optran 1 0 0 10m 40 0
-* check the first 10 ms, input is switched on after 5 ms
-tran 1u 10m
-echo
-* output power
-let po = @ra1[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 q3tj q3tc q3hs ylimit 40 140
-set xbrushwidth=2
-* 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 @ra1[i]
-*plot @ra1[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
-
-ac dec 10 1 1Meg
-plot db(out)
-plot cph(out)
-
-tran 1u 100m
-fft out
-set xbrushwidth=4
-set color0=white
-plot mag(out) xlimit 0 10k
-* to see the harmonics
-plot mag(out) xlimit 0 10k ylimit 0 30m
-end
+.temp {envtemp}
+.param envtemp=40
+.option savecurrents
+.control
+set controlswait
+if $?sharedmode
+* script for shared ngspice
+version
+rusage
+else
+*** script for standard ngspice
+* Start optran without first iteration,
+* without gmin stepping and without src stepping
+* optran step size 10 ms, duration 40s,
+optran 1 0 0 10m 40 0
+* check the first 10 ms, input is switched on after 5 ms
+tran 1u 10m
+echo
+* output power
+let po = @ra1[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 q3tj q3tc q3hs ylimit 40 140
+set xbrushwidth=2
+* 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 @ra1[i]
+*plot @ra1[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
+
+ac dec 10 1 1Meg
+plot db(out)
+plot cph(out)
+
+tran 1u 100m
+fft out
+set xbrushwidth=4
+set color0=white
+plot mag(out) xlimit 0 10k
+* to see the harmonics
+plot mag(out) xlimit 0 10k ylimit 0 30m
+end
 .endc