******************************************************************************* * 1N34 Germanium Diode Model * Jim Hagerman (www.hagamps.com), 05/07/21 .model _1n34 d +( + is = 0.55u + rs = 6.6 + cj0 = 1p +) ******************************************************************************* * AC128 Germanium Transistor Model * Jim Hagerman (www.hagamps.com), 01/15/20 .model _ac128 pnp +( + bf = 90 + is = 20u + re = 200m + br = 100m + vaf = 30 + ise = 200n + cjc = 100p + tf = 100n + tr = 10u +) ******************************************************************************* * Jim Hagerman, 2/3/20 .model _bc108c npn +( + bf = 320 + is = 60f + rb = 180 + vaf = 30 + ikf = 100m + ise = 0.1f + tf = 500n + tr = 1u + cjc = 3p +) ******************************************************************************* * Jim Hagerman, 2/10/20 .model _2n5088 npn +( + bf = 350 + is = 70f + rb = 110 + rc = 1 + br = 5 + vaf = 50 + ikf = 100m + ise = 0.2f + tf = 3n + tr = 100p + cjc = 10p +) ******************************************************************************* * Jim Hagerman, 11/26/91 .model _2n3904 npn +( + bf = 100 + nf = 1.00 + is = 13.5e-15 + rb = 11.1 + rc = 2.35 + nr = 1.00 + br = 1.87 + vaf = 90 + ikf = 30e-3 + ne = 1.36 + ise = 122e-15 + xcjc = 0.8 + cje = 4.3e-12 + vje = 0.53 + mje = 0.25 + cjc = 3.5e-12 + vjc = 0.18 + mjc = 0.41 + tf = 531e-12 + xtf = 8 + vtf = 10 + itf = 50e-3 + tr = 176e-9 +) ******************************************************************************* * Jim Hagerman, 11/19/91 .model _2n3906 pnp +( + bf = 100 + nf = 1.17 + is = 192e-15 + rb = 6.5 + rc = 2.3 + nr = 1.17 + br = 0.58 + vaf = 57 + ikf = 25e-3 + ne = 1.26 + ise = 260e-15 + xcjc = 0.8 + cje = 9e-12 + vje = 0.090 + mje = 0.19 + cjc = 8e-12 + vjc = 0.22 + mjc = 0.18 + tf = 640e-12 + xtf = 8 + vtf = 5 + itf = 25e-3 + tr = 650e-9 +) ******************************************************************************* * 2N5485 N channel JFET, Jim Hagerman, 1/22/91 .model _2n5485 njf +( + vto = -2.0 + beta = 1.8e-3 + lambda = 8.6e-3 + cgs = 5e-12 + cgd = 1e-12 +) ******************************************************************************* * LSK389, Jim Hagerman, 2007 .model _2sk389 njf(vto=-0.7 beta=0.02 lambda=11m rs=8 rd=8 cgs=25p cgd=5.5p) ******************************************************************************* * Jim Hagerman, 11/7/94 .model _1n4004 d +( + n = 1.57 + is = 6.1e-10 + rs = 0.044 + tt = 5.1e-6 + cjo = 50e-12 + m = 0.25 + vj = 0.31 + eg = 1.11 + xti = 3.0 + bv = 1000 + ibv = 1e-6 +) ******************************************************************************* * 1N4148, Jim Hagerman, 2020 .model _1n4148 d +( + is = 70f + rs = 1.5 + bv = 100 + ibv = 100n + tt = 8n + cjo = 4p +) ******************************************************************************* * LED red, Jim Hagerman, 2020 .model _led d +( + is = 1.5e-36 + rs = 7 + bv = 5 + ibv = 10u + cjo = 55p +) ******************************************************************************* * 1N751 5.1V zener diode, 11/13/91 * Call by using: Xxxxxx _1n751 .subckt _1n751 1 2 Dx 1 3 z$dx Vx 3 2 dc 4.00 Dy 2 1 z$dy .model z$dy d +( + n = 1.17 + is = 3.7e-14 + rs = 1.1 + cjo = 160e-12 + m = 0.66 + vj = 0.78 + bv = 8.2 + ibv = 80e-6 +) .model z$dx d(rs = 17) .ends _1n751 ***************************************************************************** * Typical LM13700, Hagerman Technology, 1993 * * Call by using: * Xxxxx in+ in- diodebias ampbias output bufinput bufoutput Vcc Vee _lm13700 * ^ ^ ^ ^ ^ ^ ^ ^ ^ * 3 4 2 1 5 7 8 11 6 * .subckt _lm13700 3 4 2 1 5 7 8 11 6 q1 1 21 6 _npn q2 20 1 21 _npn qd1 21 21 6 _npn q4 23 4 20 _npn q5 25 3 20 _npn qd2 2 2 4 _npn qd3 2 2 3 _npn q6 23 24 11 _pnp q7 27 23 24 _pnp qd4 24 24 11 _pnp q8 27 28 6 _npn q9 5 27 28 _npn qd5 28 28 6 _npn q10 25 26 11 _pnp q11 5 25 26 _pnp qd6 26 26 11 _pnp q12 11 7 22 _npn q13 11 22 8 _npn .model _npn npn (bf=100 nf=1 is=10e-15 rb=10 rc=3 nr=1 + br=0.2 vaf=40 ikf=25e-3 ne=1.8 ise=8e-12 xcjc=0.8 cje=5e-12 vje=0.5 + mje=0.3 cjc=5e-12 vjc=0.5 mjc=0.3 tf=500e-12 itf=25e-3 tr=1e-6) .model _pnp pnp (bf=100 nf=1 is=10e-15 rb=10 rc=3 nr=1 + br=0.2 vaf=40 ikf=25e-3 ne=1.8 ise=8e-12 xcjc=0.8 cje=5e-12 vje=0.5 + mje=0.3 cjc=5e-12 vjc=0.5 mjc=0.3 tf=500e-12 itf=25e-3 tr=1e-6) .ends _lm13600 ***************************************************************************** * Typical LM3900, Hagerman Technology, 2020 * * Call by using: * Xxxxx in+ in- output Vcc Vee _lm3900 * ^ ^ ^ ^ ^ * 2 3 4 14 7 * .subckt _lm3900 2 3 4 14 7 Qd1 2 2 7 _npn Q1 3 2 7 _npn Q2 20 3 7 _npn C2 20 0 10p Q3 7 20 4 _pnp Q4 4 20 21 _pnp Q5 14 21 4 _npn I4 14 21 200u I5 4 7 1.3m .model _npn npn (bf=100 nf=1 is=10e-15 rb=10 rc=3 nr=1 + br=0.2 vaf=40 ikf=25e-3 ne=1.8 ise=8e-12 xcjc=0.8 cje=5e-12 vje=0.5 + mje=0.3 cjc=5e-12 vjc=0.5 mjc=0.3 tf=500e-12 itf=25e-3 tr=1e-6) .model _pnp pnp (bf=100 nf=1 is=10e-15 rb=10 rc=3 nr=1 + br=0.2 vaf=40 ikf=25e-3 ne=1.8 ise=8e-12 xcjc=0.8 cje=5e-12 vje=0.5 + mje=0.3 cjc=5e-12 vjc=0.5 mjc=0.3 tf=500e-12 itf=25e-3 tr=1e-6) .ends _lm3900 ***************************************************************************** * Typical LM386, Hagerman Technology, 2020 * * Call by using: * Xxxxx in+ in- output vcc vee bypass gain8 gain1 _lm386 * ^ ^ ^ ^ ^ ^ ^ ^ ^ * 3 2 5 6 4 7 8 1 * .subckt _lm386 3 2 5 6 4 7 8 1 R1 2 4 50k R2 3 4 50k Q1 4 2 10 _pnp Q2 4 3 13 _pnp Q3 11 10 18 _pnp Q4 12 13 1 _pnp Q5 11 11 4 _npn Q6 12 11 4 _npn R3 18 8 150 R4 1 8 1.35k R5 7 18 15k R6 6 7 15k R7 5 1 15k Q7 14 12 4 _npn Ibias 6 16 1m Q8 16 16 15 _npn Q9 14 14 15 _pnp Q10 6 16 5 _npn Q11 17 14 5 _pnp Q12 5 17 4 _npn .model _npn npn (bf=100 nf=1 is=10e-15 rb=10 rc=3 nr=1 + br=0.2 vaf=40 ikf=25e-3 ne=1.8 ise=8e-12 xcjc=0.8 cje=5e-12 vje=0.5 + mje=0.3 cjc=5e-12 vjc=0.5 mjc=0.3 tf=500e-12 itf=25e-3 tr=1e-6) .model _pnp pnp (bf=100 nf=1 is=10e-15 rb=10 rc=3 nr=1 + br=0.2 vaf=40 ikf=25e-3 ne=1.8 ise=8e-12 xcjc=0.8 cje=5e-12 vje=0.5 + mje=0.3 cjc=5e-12 vjc=0.5 mjc=0.3 tf=500e-12 itf=25e-3 tr=1e-6) .ends _lm386