opis komend: https://drive.google.com/drive/folders/0B58E1r6Ge8ltNm9IWUpjVlRxZEU *********************************************************** .subckt wzmop 1 2 3 E1 4 0 1 2 {wzmac} Rwej 1 2 1meg Rwyj 3 4 100 .ends V1 1 0 ac 1 R1 0 2 1k .param opor=1meg .param wzmac=1meg R2 2 3 {opor} X1 1 2 3 wzmop Robc 3 0 100 .ac dec 100 1 1G .step param opor list 10k 100k 1meg .probe .end ************************************************************ cwiczenie22 (p-positive n-negative) .model bc107 npn BF=350 .model bc107a npn BF=350 VAF=200 IS=0.049f .param opor 3.3k Q1 c1 b1 e bc107 Q2 c2 0 e bc107 VZP p 0 15 VZN n 0 -15 V1 b1 0 ac 1 dc 1 Rc1 c1 p {opor} Rc2 c2 p 3.3k *Re e n 6.8k i1 e n 2.1m .op .ac dec 100 1 10meg .step lin param opor 5k 15k .1k .dc lin v1 -100m 100m .1m *.temp 27 90 .probe .end ******************************************************* lab 3 // 3.1 ldi R16, HIGH(RAMEND) out SPH, R16 ldi R16, LOW(RAMEND) out SPL, R16 ldi R16, 0xFF out DDRA, R16 ldi R16, 0x00 out PORTA, R16 start: call wait inc R16 out PORTA, R16 rjmp start wait: push R16 ldi R16, 250 loop1: ldi R17, 250 loop2: ldi R18, 5 loop3: dec R18 brne loop3 nop dec R17 brne loop2 nop dec R16 brne loop1 nop pop R16 ret // 3.2 .cseg .org 0 .dseg .org 0x60 count1: .byte 1 .cseg ldi R16, HIGH(RAMEND) out SPH, R16 ldi R16, LOW(RAMEND) out SPL, R16 ldi R16, 0xFF out DDRA, R16 ldi R16, 0x00 out PORTA, R16 ldi R17, 4 // po ilu sekundach ma nastapic zmiana liczby sts count1, R17 start: call wait inc R16 out PORTA, R16 jmp start wait: push R16 push R17 lds R16, count1 loop1: ldi R17, 250 loop2: ldi R18, 250 loop3: ldi R19, 5 loop4: dec R19 brne loop4 nop dec R18 brne loop3 nop dec R17 brne loop2 nop dec R16 brne loop1 pop R17 pop R16 ret ********************************************************* zad 1 WO opamp .subckt opamp 1 2 3 * open-loop amplifier configuration * connections: 1 2 3 * | | | * in+ | | * in- | * out * first stage Rid 1 2 1MegOhm Gm1 4 0 1 2 5m R1 4 0 16k C1 4 0 100pF * second stage Gm2 5 0 4 0 40m R2 5 0 32k C2 5 0 5pF * output buffer stage E3 6 0 5 0 1 Ro 6 3 100 Co 3 0 160pF .ends opamp V1 1 0 ac 1 X1 1 0 3 opamp .ac dec 100 1 1G .probe .end zad2 opamp .subckt opamp 1 2 3 * open-loop amplifier configuration * connections: 1 2 3 * | | | * in+ | | * in- | * out * first stage Rid 1 2 1MegOhm Gm1 4 0 1 2 5m R1 4 0 16k C1 4 0 100pF * second stage Gm2 5 0 4 0 40m R2 5 0 32k C2 5 0 5pF * output buffer stage E3 6 0 5 0 1 Ro 6 3 100 Co 3 0 160pF .ends opamp V1 1 0 ac 1 X1 1 2 3 opamp .PARAM opor = 100 R1 0 2 {opor} R2 2 3 10 .STEP PARAM opor LIST 1k 10k 100k .TRAN 10p 1000n .ac dec 100 1 1G .probe .end zad3 opamp .subckt opamp 1 2 3 * open-loop amplifier configuration * connections: 1 2 3 * | | | * in+ | | * in- | * out * first stage Rid 1 2 1MegOhm Gm1 4 0 1 2 5m R1 4 0 16k C1 4 0 100pF * second stage Gm2 5 0 4 0 40m R2 5 0 32k C2 5 0 5pF * output buffer stage E3 6 0 5 0 1 Ro 6 3 100 Co 3 0 160pF .ends opamp V1 1 0 ac 1 pulse 1p 10M 0 10p 10p X1 1 2 3 opamp .PARAM opor = 100 R1 0 2 {opor} R2 2 3 10k .STEP PARAM opor LIST 1k 10k 100k .TRAN 10p 1000n .ac dec 100 1 1G .probe .end ******************************************* Efekt Millera na wzmacniacz operacyjny Układ to RC pionowo nad WO uklad 1 vin 1 0 ac 1 r 1 2 1k c 2 0 1n .ac dec 10 1 100meg .probe .end ******************************* Wzmacniacz operacyjny laboratorium4 vcc vcc 0 15 vee vee 0 -15 V1 1 0 ac 1 R1 2 0 10g R2 2 3 {r2} .param r2=1k *.step param r2 1k 100k 10k X1 1 2 vcc vee 3 ua741moj .subckt ua741moj inp inn vplus vminus out e out 0 laplace {v(inp,inn)}={100k/(1+s/25)} .ends .ac dec 100 1 1T .probe .end laboratorium4 vcc vcc 0 15 vee vee 0 -15 V1 1 0 ac 1 R1 1 2 1k R2 2 3 {r2} .param r2=1k *.step param r2 1k 100k 10k X1 0 2 vcc vee 3 ua741moj .subckt ua741moj inp inn vplus vminus out e out 0 laplace {v(inp,inn)}={100k/(1+s/25)} .ends .ac dec 100 1 1T .probe .end WZMACNIACZ ODWRACAJĄCY laboratorium4 vcc vcc 0 15 vee vee 0 -15 V1 1 0 ac 1 R1 2 0 1k R2 2 3 {r2} .param r2=1k .step param r2 1k 100k 1k X1 1 2 vcc vee 3 ua741moj .subckt ua741moj inp inn vplus vminus out e out 0 laplace {v(inp,inn)}={100k/(1+s/25)} .ends .ac dec 100 1 1T .probe .end WZMACNIACZ NIEODWRACAJĄCY laboratorium4 vcc vcc 0 15 vee vee 0 -15 V1 1 0 ac 1 R1 1 2 1k R2 2 3 {r2} .param r2=1k .step param r2 1k 100k 1k X1 0 2 vcc vee 3 ua741moj .subckt ua741moj inp inn vplus vminus out e out 0 laplace {v(inp,inn)}={100k/(1+s/25)} .ends .ac dec 100 1 1T .probe .end ******************************************************* Stabilizator cha-ki na poczatek vcc vcc 0 15 rb1 vcc b 82k; {100k*suwak} rb2 b 0 27k ;{100k*(1-suwak)} q1 c b e bc107 rc c vcc {rc} re e 0 750 .param suwak=0.857 *.dc vcc 0 15 10m ib 5u 50u 5u *.dc param suwak 0.01 0.99 0.01 .dc temp 0 100 1 *.dc npn bc107(bf) 200 400 10 .op .param rc=1.5k *.dc param rc 100 10k 100 .probe .model BC107 NPN(Is=40.72f Bf=407 Vaf=21.03 Ikf=1 Ise=40.72f Ne=1.305 Ikr=3.726 + Isc=594.8p Nc=2.033 Rc=1.393 Cje=12.5p Vje=.5391 Mje=.4869 Tf=441.1p Cjc=6p + Mjc=.3821 Tr=114n Xtb=1.5 ) .end cha-ki na poczatek vcc vcc 0 15 rb1 vcc b {100k*suwak} rb2 b 0 {100k*(1-suwak)} q1 c b e bc107 rc c vcc {rc} re e 0 750n .param suwak=0.953 *.dc vcc 0 15 10m ib 5u 50u 5u *.dc param suwak 0.01 0.99 0.01 .dc temp 0 100 1 *.dc npn bc107(bf) 200 400 10 .op .param rc=1.5k *.dc param rc 100 10k 100 .probe .model BC107 NPN(Is=40.72f Bf=407 Vaf=21.03 Ikf=1 Ise=40.72f Ne=1.305 Ikr=3.726 + Isc=594.8p Nc=2.033 Rc=1.393 Cje=12.5p Vje=.5391 Mje=.4869 Tf=441.1p Cjc=6p + Mjc=.3821 Tr=114n Xtb=1.5 ) .end ******************************************************** miller ;miller vin 2 0 ac 1 r1 2 1 100 r2 1 3 10k c1 1 3 15p e3 3 0 1 0 -100 c3 3 0 10p r3 3 0 10k .ac dec 10 10hz 100000khz .probe .end vin 2 0 ac 1 r1 2 1 100 r2 1 0 99 c1 1 0 1515p e3 3 0 1 0 -100 c3 3 0 10p r3 3 0 10k .ac dec 10 10hz 100000khz .probe .end vin 1 0 ac 1 rgen 2 1 2k rwe 2 0 2k cwe 2 0 10p cf 3 2 1p G 0 3 2 0 10m robc 3 0 10k .ac dec 10 10hz 100000khz .probe .end ******************************************************* monte carlo dolnoprzepustowy RC filtr dolnoprzedpustowy RC vin 1 0 ac 1 sin(0 1 2kHz) r1 1 2 1k c1 2 0 1n .mc .AC DEC 5 10 10MEG .probe .end zad 2.1 Wzmacniacz (Rg=200) vcc vcc 0 15 rb1 vcc b 82k rb2 b 0 27k q1 c b e bc107 rc c vcc {rc} .param rc=1.5k .step param rc 500 5k 100 *.dc param rc 500 5k 10 re e 0 750 .op vin in1 0 ac 1 sin 0 10m 10k rgen in1 in 200 cin in b 1u ce e 0 100u cout c out 1u rload out 0 100k .ac dec 20 10 100meg .tran 1u 1m 0 1u .probe .model BC107 NPN(Is=40.72f Bf=407 Vaf=21.03 Ikf=1 Ise=40.72f Ne=1.305 Ikr=3.726 + Isc=594.8p Nc=2.033 Rc=1.393 Cje=12.5p Vje=.5391 Mje=.4869 Tf=441.1p Cjc=6p + Mjc=.3821 Tr=114n Xtb=1.5 ) .end ************************************************************ ---------------------------------------------------------------------------- tutaj cos, co zawiera model tranzystora BC107 ---------------------------------------------------------------------------- .model BC107 NPN(Is=40.72f Bf=407 Vaf=21.03 Ikf=1 Ise=40.72f Ne=1.305 Ikr=3.726 + Isc=594.8p Nc=2.033 Rc=1.393 Cje=12.5p Vje=.5391 Mje=.4869 Tf=441.1p Cjc=6p + Mjc=.3821 Tr=114n Xtb=1.5 ) ;.model BC107A NPN Ib 0 1 dc 10u ; niezalezne zrodlo pradowe Q1 2 1 0 BC107 Vce 2 0 dc 15 .dc Vce 0 10 0.1 .probe .end | | | | | | | | | | --------------------------------------------------------------------------- opis - plik opamp --------------------------------------------------------------------------- .subckt opamp 1 2 3 * open-loop amplifier configuration * connections: 1 2 3 * | | | * in+ | | * in- | * out * first stage Rid 1 2 1MegOhm Gm1 4 0 1 2 5m R1 4 0 16k C1 4 0 100pF * second stage Gm2 5 0 4 0 40m R2 5 0 32k C2 5 0 5pF * output buffer stage E3 6 0 5 0 1 Ro 6 3 100 Co 3 0 160pF .ends opamp *vid 1 0 ac 1 pv1 0 0 10n 10m X1 1 0 2 opamp R1 2 3 {(100k)*kry} R2 3 0 {(100k)*(1-kry)} .param kry=0.5 *.step param kry 0.001 0.999 0.0001 .step param kry list 0.994 0.9991 vid 1 0 ac 1 pwl 0 0 10n 10m .ac dec 100 1 1g .tran 10n 100u 0 10n .probe | | | | | | | | | | --------------------------------------------------------------------------- podobwod --------------------------------------------------------------------------- .subckt opamp 1 2 3 * open-loop amplifier configuration * connections: 1 2 3 * | | | * in+ | | * in- | * out * first stage Rid 1 2 1MegOhm Gm1 4 0 1 2 5m R1 4 0 16k C1 4 0 100pF * second stage Gm2 5 0 4 0 40m R2 5 0 32k C2 5 0 5pF * output buffer stage E3 6 0 5 0 1 Ro 6 3 100 Co 3 0 160pF .ends opamp | | | | | | | | | | --------------------------------------------------------------------------- opis - zad1 --------------------------------------------------------------------------- cha-ki na poczatek vcc vcc 0 15 rb1 vcc b 82k; {100k*suwak} rb2 b 0 27k ;{100k*(1-suwak)} q1 c b e bc107 rc c vcc {rc} re e 0 750 .param suwak=0.857 *.dc vcc 0 15 10m ib 5u 50u 5u *.dc param suwak 0.01 0.99 0.01 .dc temp 0 100 1 *.dc npn bc107(bf) 200 400 10 .op .param rc=1.5k *.dc param rc 100 10k 100 .probe .model BC107 NPN(Is=40.72f Bf=407 Vaf=21.03 Ikf=1 Ise=40.72f Ne=1.305 Ikr=3.726 + Isc=594.8p Nc=2.033 Rc=1.393 Cje=12.5p Vje=.5391 Mje=.4869 Tf=441.1p Cjc=6p + Mjc=.3821 Tr=114n Xtb=1.5 ) .end | | | | | | | | | | --------------------------------------------------------------------------- opis zadanie2 --------------------------------------------------------------------------- tranzyst .model BC107 NPN(Is=40.72f Bf=407 Vaf=21.03 Ikf=1 Ise=40.72f Ne=1.305 Ikr=3.726 + Isc=594.8p Nc=2.033 Rc=1.393 Cje=12.5p Vje=.5391 Mje=.4869 Tf=441.1p Cjc=6p + Mjc=.3821 Tr=114n Xtb=1.5 ) ;.model BC107A NPN Vcc Vcc 0 DC 15 Q1 C B E BC107 Rb1 Vcc B 82k Rb2 B 0 27k Rc Vcc C 1.5k Re E 0 750 .op ;.probe | | | | | | | | | | --------------------------------------------------------------------------- opis zadanie3 --------------------------------------------------------------------------- .model BC107 NPN(Is=40.72f Bf=407 Vaf=21.03 Ikf=1 Ise=40.72f Ne=1.305 Ikr=3.726 + Isc=594.8p Nc=2.033 Rc=1.393 Cje=12.5p Vje=.5391 Mje=.4869 Tf=441.1p Cjc=6p + Mjc=.3821 Tr=114n Xtb=1.5 ) ;.model BC107A NPN **Ze sprzężeniem** Vcc Vcc 0 DC 15 Q1 C B E BC107 Rb1 Vcc B 82k Rb2 B 0 27k Rc Vcc C 1.5k Re E 0 750 ;.param suwak=0.9529 ;.step param suwak 0.952 0.953 0.0001 .op ;.dc npn BC107(BF) 200 400 10 .dc TEMP 0 100 1 .probe .end **Bez sprzężenia** .model BC107 NPN(Is=40.72f Bf=407 Vaf=21.03 Ikf=1 Ise=40.72f Ne=1.305 Ikr=3.726 + Isc=594.8p Nc=2.033 Rc=1.393 Cje=12.5p Vje=.5391 Mje=.4869 Tf=441.1p Cjc=6p + Mjc=.3821 Tr=114n Xtb=1.5 ) Vcc Vcc 0 DC 15 Q1 C B E BC107 Rb1 Vcc B {100k*suwak} Rb2 B 0 {100k*(1-suwak)} Rc Vcc C 1.5k Re E 0 750n .param suwak=0.9529 ;.step param suwak 0.01 0.99 0.01 ;.step param suwak 0.952 0.953 0.0001 .op ;.dc param suwak 0.01 0.99 0.01 ;.dc npn BC107(BF) 200 400 10 .dc TEMP 0 100 1 .probe .end | | | | | | | | | | --------------------------------------------------------------------------- opis zadanie4 --------------------------------------------------------------------------- .model BC107 NPN(Is=40.72f Bf=407 Vaf=21.03 Ikf=1 Ise=40.72f Ne=1.305 Ikr=3.726 + Isc=594.8p Nc=2.033 Rc=1.393 Cje=12.5p Vje=.5391 Mje=.4869 Tf=441.1p Cjc=6p + Mjc=.3821 Tr=114n Xtb=1.5 ) .model BC107A NPN **Ze sprzężeniem** ; Zadanie 4 i 5 ;Rg=200 VIN IN1 0 AC 1 SIN 0 {amp} 10K .param amp=10m .step param amp 1m 50m 2m CIN IN B 1U Vcc Vcc 0 DC 15 Rg IN1 IN 200 ; jeszcze jest cin Q1 C B E BC107 Rb1 Vcc B 82k Rb2 B 0 27k Rc Vcc C {Rc} Re E 0 750 ce E 0 100u ; ta pojemność blokująca jest równolegle cout c out 1u rload out 0 100k .param Rc=1.5k ;.step param Rc 500 5k 100 ;.dc param Rc 500 5k 10 .op .four 10k v([in1]) v([out]) ;.dc npn BC107(BF) 200 400 10 ;.dc TEMP 0 100 1 .tran 1u 1m 0.1u 0.1u ; spróbować dla 0.001 .AC DEC 20 10 100MEG .probe .end ;zadanie 7 | | | | | | | | | | --------------------------------------------------------------------------- opis zaliczenie_sue --------------------------------------------------------------------------- INFO OD MAĆKA CYMBALISTY: wygladało to tak ze na poczatek kazął robic te instrukcje do dziisja tzn monte carlo ale to tako no i potem podchodził do kazdego i pytal o zadanie do mowe bo my prawie cała grupa to oddalismy no i zadawał cos do wykonania ja maiłem np wzm OE i z jednym rezystorem polaryzujacym baze i miałe tak dobrać ten rezystor zeby Ic=1mA ztym ze najlepiej to tak zrobić żeby tego tranzystora nie zatkac, tzn zeby ukłąd ogólni wzmacniał kazał mi jakis małosygnałowy schemat napisać coś poopowiadał kazał cos w probe porobić i dał 3.5 aśka miala to samo w sumie paweł jacalski wzmocnienie w srodku pasama w funkcji rezystora Rc ogólnie jak ogarniasz te jego zadania z upela to spoko Wzmacniacz (Rg=0) vcc vcc 0 15 rb1 vcc b 82k rb2 b 0 27k q1 c b e bc107 rc c vcc 1.5k re e 0 750 .op vin in 0 ac 1 sin 0 10m 10k cin in b 1u ce e 0 100u cout c out 1u rload out 0 100k .ac dec 20 10 100meg .tran 1u 1m 0 1u .probe .model BC107 NPN(Is=40.72f Bf=407 Vaf=21.03 Ikf=1 Ise=40.72f Ne=1.305 Ikr=3.726 + Isc=594.8p Nc=2.033 Rc=1.393 Cje=12.5p Vje=.5391 Mje=.4869 Tf=441.1p Cjc=6p + Mjc=.3821 Tr=114n Xtb=1.5 ) .end Wzmacniacz (Rg=200) vcc vcc 0 15 rb1 vcc b 82k rb2 b 0 27k q1 c b e bc107 rc c vcc 1.5k re e 0 750 .op vin in1 0 ac 1 sin 0 10m 10k rgen in1 in 200 cin in b 1u ce e 0 100u cout c out 1u rload out 0 100k .ac dec 20 10 100meg .tran 1u 1m 0 1u .probe .model BC107 NPN(Is=40.72f Bf=407 Vaf=21.03 Ikf=1 Ise=40.72f Ne=1.305 Ikr=3.726 + Isc=594.8p Nc=2.033 Rc=1.393 Cje=12.5p Vje=.5391 Mje=.4869 Tf=441.1p Cjc=6p + Mjc=.3821 Tr=114n Xtb=1.5 ) .end | | | | | | | | | | --------------------------------------------------------------------------- --------------------------------------------------------------------------- LABY WZMACNIACZ ROZNICOWY --------------------------------------------------------------------------- --------------------------------------------------------------------------- zadanie1 --------------------------------------------------------------------------- zad1.1 .MODEL BC107 NPN BF=350 Rc1 1 4 3.3k Rc2 1 5 3.3k Ri 2 3 6.8k Vdd 1 0 15 Vss 2 0 -15 Q1 4 6 3 BC107 Q2 5 7 3 BC107 V1 0 6 ac -1m V2 0 7 ac 1m .op .end --------------------------------------------------------------------------- zadanie2.1 --------------------------------------------------------------------------- zad2.1 .MODEL BC107 NPN BF=340 VAF=180 IS=8.049f .MODEL BC107A NPN BF=350 VAF=200 IS=9.049f Rc1 1 4 3.3k Rc2 1 5 3.3k I 3 2 2.1m Vdd 1 0 15 Vss 2 0 -15 Q1 4 6 3 BC107 Q2 5 7 3 BC107A V1 0 6 ac -1m dc 1m V2 0 7 ac 1m .op .end --------------------------------------------------------------------------- zadanie2.2 --------------------------------------------------------------------------- zad2.1 .MODEL BC107 NPN BF=340 VAF=180 IS=8.049f .MODEL BC107A NPN BF=350 VAF=200 IS=9.049f Rc1 1 4 {opor} Rc2 1 5 3.3k I 3 2 2.1m Vdd 1 0 15 Vss 2 0 -15 Q1 4 6 3 BC107 Q2 5 7 3 BC107A V1 0 6 ac -1m dc 1m V2 0 7 ac 1m .param opor = 5k .step lin param opor 5k 15k 1k .dc lin V1 -100m 100m 0.1m .probe .end --------------------------------------------------------------------------- zadanie2.3 --------------------------------------------------------------------------- zad2.3 .MODEL BC107 NPN BF={beta} VAF=180 IS=8.049f .MODEL BC107A NPN BF=350 VAF=200 IS=9.049f Rc1 1 4 3.3k Rc2 1 5 3.3k I 3 2 2.1m Vdd 1 0 15 Vss 2 0 -15 Q1 4 6 3 BC107 Q2 5 7 3 BC107A V1 0 6 ac -1m dc 1m V2 0 7 ac 1m .param beta = 100 .step lin param beta 100 400 50 .dc lin V1 -100m 100m 0.1m .probe .end --------------------------------------------------------------------------- zadanie2.4 --------------------------------------------------------------------------- zad2.4?? .MODEL BC107 NPN BF=340 VAF=180 IS=8.049f .MODEL BC107A NPN BF=350 VAF=200 IS=9.049f Rc1 1 4 3.3k Rc2 1 5 3.3k Ri 3 2 {opori} Vdd 1 0 15 Vss 2 0 -15 Q1 4 6 3 BC107 Q2 5 7 3 BC107A V1 0 6 ac -1m dc 1m V2 0 7 ac 1m .param opori = 5k .step lin param opori 5k 15k 1k .dc lin V1 -100m 100m 0.1m .probe .end --------------------------------------------------------------------------- zadanie2.5 --------------------------------------------------------------------------- zad2.5 .MODEL BC107 NPN BF=340 VAF=180 IS=8.049f .MODEL BC107A NPN BF=350 VAF=200 IS=9.049f Rc1 1 4 3.3k Rc2 1 5 3.3k Ri 3 2 6.8k Vdd 1 0 15 Vss 2 0 -15 Q1 4 6 3 BC107 Q2 5 7 3 BC107A V1 0 6 sin (0 5m 1k 0 0) V2 0 7 sin (0 5m 1k 0.5m 0) .tran 100p 10m .probe .end --------------------------------------------------------------------------- zadanie2.5b --------------------------------------------------------------------------- zad2.5b .MODEL BC107 NPN BF=340 VAF=180 IS=8.049f .MODEL BC107A NPN BF=350 VAF=200 IS=9.049f Rc1 1 4 3.3k Rc2 1 5 3.3k Ri 3 2 6.8k Vdd 1 0 15 Vss 2 0 -15 Q1 4 6 3 BC107 Q2 5 7 3 BC107A V1 0 6 sin (0 200m 1k 0 0) V2 0 7 sin (0 200m 1k 0.5m 0) .tran 100p 10m .probe .end --------------------------------------------------------------------------- zadanie2.5c --------------------------------------------------------------------------- zad2.5c .MODEL BC107 NPN BF=340 VAF=180 IS=8.049f .MODEL BC107A NPN BF=350 VAF=200 IS=9.049f Rc1 1 4 3.3k Rc2 1 5 3.3k Ri 3 2 6.8k Vdd 1 0 15 Vss 2 0 -15 Q1 4 6 3 BC107 Q2 5 7 3 BC107A V1 0 6 sin (100m 5m 1k 0 0) V2 0 7 sin (0 5m 1k 0.5m 0) .tran 100p 10m .probe .end --------------------------------------------------------------------------- zadanie2.5d --------------------------------------------------------------------------- zad2.5d .MODEL BC107 NPN BF=340 VAF=180 IS=8.049f .MODEL BC107A NPN BF=350 VAF=200 IS=9.049f Rc1 1 4 3.3k Rc2 1 5 3.3k Ri 3 2 6.8k Vdd 1 0 15 Vss 2 0 -15 Q1 4 6 3 BC107 Q2 5 7 3 BC107A V1 0 6 sin (10m 5m 1k 0 0) V2 0 7 sin (20m 5m 1k 0.5m 0) .tran 100p 10m .probe .end --------------------------------------------------------------------------- zadanie2.5e --------------------------------------------------------------------------- zad2.5e .MODEL BC107 NPN BF=340 VAF=180 IS=8.049f .MODEL BC107A NPN BF=350 VAF=200 IS=9.049f Rc1 1 4 3.3k Rc2 1 5 3.3k Ri 3 2 6.8k Vdd 1 0 15 Vss 2 0 -15 Q1 4 6 3 BC107 Q2 5 7 3 BC107A V1 0 6 pulse (-5m 5m 0 1p 1p 0.5m 1m) V2 0 7 pulse (-5m 5m 0.5m 1p 1p 0.5m 1m) .tran 100p 10m .probe .end --------------------------------------------------------------------------- zadanie2 --------------------------------------------------------------------------- zad1.2 .MODEL BC107 NPN BF=350 Rc1 1 4 3.3k Rc2 1 5 3.3k I 3 2 2.1m Vdd 1 0 15 Vss 2 0 -15 Q1 4 6 3 BC107 Q2 5 7 3 BC107 V1 0 6 ac -1m V2 0 7 ac 1m .op .end --------------------------------------------------------------------------- zadanie3 --------------------------------------------------------------------------- zad1.3 .MODEL BC107 NPN BF=350 Rc1 1 4 3.3k Rc2 1 5 3.3k I 3 2 2.1m Vdd 1 0 15 Vss 2 0 -15 Q1 4 6 3 BC107 Q2 5 7 3 BC107 V1 0 6 ac -1m V2 0 7 ac 1m .dc lin V1 -100m 100m 0.1m .probe .end --------------------------------------------------------------------------- zadanie4 --------------------------------------------------------------------------- zad1.4 .MODEL BC107 NPN BF=350 Rc1 1 4 3.3k Rc2 1 5 3.3k I 3 2 2.1m Vdd 1 0 15 Vss 2 0 -15 Q1 4 6 3 BC107 Q2 5 7 3 BC107 V1 0 6 ac -1m V2 0 7 ac 1m .dc lin V1 -100m 100m 0.1m .temp 25 90 .probe .end --------------------------------------------------------------------------- zadanie5 --------------------------------------------------------------------------- zad1.5 .MODEL BC107 NPN BF=350 Rc1 1 4 3.3k Rc2 1 5 3.3k I 3 2 2.1m Vdd 1 0 15 Vss 2 0 -15 Q1 4 6 3 BC107 Q2 5 7 3 BC107 V1 0 6 ac -1m V2 0 7 ac 1m .ac dec 100 1 1Meg .probe .end