* Library of Elantec definitions * $Revision: 1.4 $ * $Author: dhh $ * $Date: 30 Oct 1992 15:29:26 $ *----------------------------------------------------------------------------- * This library of macromodels is being supplied to users as an aid to circuit * designs. While it reflects reasonably close similarity to the actual device * in terms of performance, it is not suggested as a replacement for * breadboarding. Simulation should be used as a forerunner or a supplement to * traditional lab testing. * * Users should very carefully note the following factors regarding these * models: * * Model performance in general will reflect typical baseline specs for a * given device, and certain aspects of performance may not be modeled * fully. * * While reasonable care has been taken in their preparation, we cannot * be responsible for correct application on any and all computer * systems. * * Model users are hereby notified that these models are supplied * "as is", with no direct or implied responsibility on the part of * Elantec for their operation within a customer circuit or system. * Funther Elantec reserves the right to change these models without * prior notice. * * * In all cases, the current data sheet information for a given real * device is your final design guideline, and is the only actual * performance guarantee. For further technical information, refer to * individual device data sheets. * * * Elantec (408) 945 1323 * *------------------------------------------------------------------------------ * *EL2020 Macromodel * Revision A, March 1992 * Enhancements include PSRR, CMRR, and Slew Rate Limiting * Connections: +input * | -input * | | +Vsupply * | | | -Vsupply * | | | | output * | | | | | .subckt EL2020/EL 3 2 7 4 6 * * Input Stage * e1 10 0 3 0 1.0 vis 10 9 0V h2 9 12 vxx 1.0 r1 2 11 50 l1 11 12 29nH iinp 3 0 10uA iinm 2 0 5uA * * Slew Rate Limiting * h1 13 0 vis 600 r2 13 14 1K d1 14 0 dclamp d2 0 14 dclamp * * High Frequency Pole * e2 30 0 14 0 0.00166666666 l5 30 17 1.5uH c5 17 0 1pF r5 17 0 500 * * Transimpedance Stage * g1 0 18 17 0 1.0 rol 18 0 1Meg cdp 18 0 5pF * * Output Stage * q1 4 18 19 qp q2 7 18 20 qn q3 7 19 21 qn q4 4 20 22 qp r7 21 6 4 r8 22 6 4 ios1 7 19 2.5mA ios2 20 4 2.5mA * * Supply * ips 7 4 3mA * * Error Terms * ivos 0 23 5mA vxx 23 0 0V e4 24 0 6 0 1.0 e5 25 0 7 0 1.0 e6 26 0 4 0 1.0 r9 24 23 1K r10 25 23 1K r11 26 23 1K * * Models * .model qn npn(is=5e-15 bf=100 tf=0.2nS) .model qp pnp(is=5e-15 bf=100 tf=0.2nS) .model dclamp d(is=1e-30 ibv=0.266 bv=1.67 n=4) .ends *------------------------------------------------------------------------- *EL2030 Macromodel * Revision A, March 1992 * Enhancements include PSRR, CMRR, and Slew Rate Limiting * Connections: +input * | -input * | | +Vsupply * | | | -Vsupply * | | | | output * | | | | | .subckt EL2030/EL 3 2 7 4 6 * * Input Stage * e1 10 0 3 0 1.0 vis 10 9 0V h2 9 12 vxx 1.0 r1 2 11 50 l1 11 12 48nH iinp 3 0 5uA iinm 2 0 10uA * * Slew Rate Limiting * h1 13 0 vis 600 r2 13 14 1K d1 14 0 dclamp d2 0 14 dclamp * * High Frequency Pole * e2 30 0 14 0 0.00166666666 l3 30 17 0.5uH c5 17 0 1pF r5 17 0 500 * * Transimpedance Stage * g1 0 18 17 0 1.0 rol 18 0 150K cdp 18 0 2.8pF * * Output Stage * q1 4 18 19 qp q2 7 18 20 qn q3 7 19 21 qn q4 4 20 22 qp r7 21 6 4 r8 22 6 4 ios1 7 19 2.5mA ios2 20 4 2.5mA * * Supply Current * ips 7 4 9mA * * Error Terms * ivos 0 23 5mA vxx 23 0 0V e4 24 0 6 0 1.0 e5 25 0 7 0 1.0 e6 26 0 4 0 1.0 r9 24 23 3K r10 25 23 1K r11 26 23 1K * * Models * .model qn npn(is=5e-15 bf=100 tf=0.1nS) .model qp pnp(is=5e-15 bf=100 tf=0.1nS) .model dclamp d(is=1e-30 ibv=0.266 bv=3.7 n=4) .ends *------------------------------------------------------------------------- *ELH0002 Model * * Connections input * | V1+ * | | V2+ * | | | V1- * | | | | V2- * | | | | | output * | | | | | | .subckt ELH0002/EL 8 1 2 7 6 4 * Models .model qp pnp (is=10e-14 bf=300 vaf=60 ikf=200mA var=6V br=9 +rb=30 cje=40pF cjc=15pF tf=1nS xtb=2.0) .model qn npn (is=10e-14 bf=200 vaf=200 ikf=200mA var=12V br=8 +rb=30 cje=27pF cjc=10pF tf=1nS xtb=2.0) * * Resistors * r1 1 10 5K r2 11 7 5K r3 3 4 2.0 r4 5 4 2.0 * * Transistors * q1 7 8 10 qp q4 6 11 5 qp q2 1 8 11 qn q3 2 10 3 qn .ends *------------------------------------------------------------------------- *ELH0032 Model * * Connections +input * | -input * | | +Vsupply * | | | -Vsupply * | | | | Comp 3 * | | | | | Comp 4 * | | | | | | Comp 2 * | | | | | | | Output * | | | | | | | | * | | | | | | | | .subckt ELH0032/EL 6 5 12 10 3 4 2 11 * * Models * .model qfa njf (vto=-3V beta=1.11e-3 cgd=2pF cgs=5pF m=0.3744) * .model qp pnp (is=5e-14 bf=150 vaf=100 ikf=100mA tf=.53nS vtf=0 ise=1nA, +cjc=4pF cje=5.7pF tr=170nS rb=3 br=5 mje=.32 mjc=.43 xtb=2.1 ne=4 +isc=1nA nc=4 itf=.4 vtf=4 xtf=6) * .model qn npn (is=5e-14 bf=150 vaf=800 ikf=200mA tf=.53nS vtf=0 +cjc=4pF cje=5pF rb=3 br=5 mje=.42 MJC=.23 tr=200nS xtb=2.1 +ise=4nA ne=4 isc=4nA nc=4 itf=.4 vtf=4 xtf=2) * .model qfb njf (vto=-2.8V beta=4e-3 cgd=7pF cgs=8pF lambda=4e-3) * .model zener d (bv=2.49V ibv=1mA) * * Resistors and Capacitors * r1 12 4 700 r2 12 3 700 r3 12 105 160 r4 103 100 10 r5 108 100 10 r6 12 101 22K r7 113 11 10 r8 11 112 10 r9 102 10 407 cs2 10 116 100pF * * Transistors & Diodes * j1a 4 5 103 qfa j1b 3 6 108 qfa j2 111 10 116 qfb q1 104 4 105 qp q2 2 3 105 qp q3 114 11 104 qp q4 12 2 113 qn q5 10 111 112 qp q6 2 2 110 qn q7 111 111 110 qp q8 100 101 102 qn d1 10 117 zener q9 101 101 117 qn q10 114 114 10 qn q11 116 114 10 qn .ends *------------------------------------------------------------------------- *ELH0033 Model * * Connections input * | V+ * | | Vc+ * | | | V- * | | | | Vc- * | | | | | output * | | | | | | .subckt ELH0033/EL 5 12 1 10 9 11 * * Models * .model qn npn (is=5e-14 bf=150 vaf=100 rc=1 rb=5 re=1 ikf=200mA + cje=5pF cjc=5pF mje=.42 mjc=.23 tf=.3nS tr=200nS br=5 vtf=0) * .model qp pnp (is=5e-14 bf=150 vaf=100 rc=.2 rb=3 re=1 ikf=100mA +cje=5.7pF cjc=4pF tf=.3nS mje=.32 mjc=.43 tr=170nS br=5 vtf=0) * .model qf njf (vto=-3V beta=4.0e-3 cgd=4pF cgs=10pF lambda=671.0e-6) * * Resistors * r1 20 21 58.33 r2 27 10 58.33 r3 22 11 2 r4 11 23 2 * * Transistors * j1 12 5 20 qf j4 24 10 26 qf q2 21 21 25 qn q3 24 24 25 qp q5 1 21 22 qn q6 9 24 23 qp q7 26 26 27 qn .ends *------------------------------------------------------------------------- *ELH0101 Macromodel * Connections +Input * | -Input * | | V+ * | | | Isc+ * | | | | Feedback * | | | | | V- * | | | | | | Isc- * | | | | | | | Output * | | | | | | | | .subckt ELH0101/EL 6 5 2 1 3 7 8 4 x1 21 2 1 3 4 8 4 buffer/EL x2 6 5 2 7 21 lf156/EL .ends *------------------------------------------------------------------------- * support circuit for the ELH0101 .subckt buffer/el 21 2 1 3 7 8 4 * * Resistors * r1 3 27 10 r2 26 3 10 r3 30 7 50 r4 2 23 50 r5 29 7 2K r6 2 22 2K r7 27 28 10 r8 24 26 10 * * Transistors * q1 4 30 8 qnd d1 8 4 dclamp q2 4 23 1 qpd d2 4 1 dclamp q3 7 21 22 qp q4 23 22 24 qn q5 21 21 26 qn q6 23 1 2 qp q7 2 21 29 qn q8 27 27 21 qn q9 30 29 28 qp q10 30 8 7 qn * * Models * .model qpd pnp (is=88.013e-12 ikf=5A tf=32nS vaf=50V cje=45pF cjc=60pF +xtb=2.1 bf=12000 ne=4 ise=1e-10) .model qnd npn (is=88.013e-12 ikf=5A tf=32nS vaf=50V cje=45pF cjc=60pF +xtb=2.1 bf=12000 ne=4 ise=1e-10) .model dclamp d (is=10e-28 tt=100nS) .model qp pnp (is=10e-15 xti=3 eg=1.11V vaf=91V bf=200 ne=2.321 ise=6.2fA +ikf=500mA xtb=2.1 br=3.3 nc=2 cjc=14.6pF vjc=0.75V mjc=0.3333 fc=0.5 cje=20pF +vje=0.75V mje=0.3333 tr=29nS tf=0.4nS itf=0.4 vtf=10 xtf=2 rb=10 .model qn npn (is=3e-15 xti=3 eg=1.11V vaf=151V bf=220 ne=1.541 ise=14fA +ikf=500mA xtb=2.1 br=6 nc=2 cjc=14.6pF vjc=0.75V mjc=0.3333 fc=0.5 cje=26pF +vje=0.75V mje=0.3333 tr=51nS tf=0.4nS itf=0.6 vtf=1.7 xtf=2 rb=10 .ends buffer/EL *------------------------------------------------------------------------- * lf156 Subcircuit * * Connections: +Input * | -Input * | | V+ * | | | V- * | | | | Output * | | | | | .subckt lf156/EL 6 5 2 7 21 * * Input Stage * vcm2 40 7 2 rd1 40 80 1.06K rd2 40 90 1.06K j1 80 102 12 jm1 j2 90 103 12 jm2 cin 5 6 4pF rg1 5 102 2 rg2 6 103 2 * * CM Clamp * dcm1 107 103 dm4 dcm2 105 107 dm4 vcmc 105 7 4V ecmp 106 7 103 7 1 rcmp 107 106 10K dcm3 109 102 dm4 dcm4 105 109 dm4 ecmn 108 2 102 2 1 rcmn 109 108 10K * c1 80 90 15pF iss 2 12 0.48mA gosit 2 12 90 80 2.4e-4 * * Intermediate Stage * gcm 0 88 12 0 9.425e-9 ga 88 0 80 90 9.425e-4 r2 88 0 100K c2 91 88 30pF gb 91 0 88 0 28.6 ro2 91 0 74 * * Output Stage * rso 91 21 1 ecl 18 0 91 21 20.69 gcl 0 88 20 0 1 rcl 20 0 1K d1 18 20 dm1 d2 20 18 dm1 d3a 131 70 dm3 d3b 13 131 dm3 gpl 0 88 70 2 1 vc 13 21 3.1552V rpla 2 70 10K rplb 2 131 100K d4a 60 141 dm3 d4b 141 14 dm3 gnl 0 88 60 7 1 ve 21 14 3.1552V rnla 60 7 10K rnlb 141 7 100K ip 2 7 4.52mA dsub 7 2 dm2 * * Models * .model jm1 pjf (is=3.15e-11 beta=9.2528e-4 vto=-1.0) .model jm2 pjf (is=2.85e-11 beta=9.2528e-4 vto=-0.999) .model dm1 d (is=1.0e-15) .model dm2 d (is=8.0e-16 bv=52.8) .model dm3 d (is=1.0e-16) .model dm4 d (is=1.0e-9) .ends * lf156 model courtesy of Linear Technology Corp. *------------------------------------------------------------------------- *EL2001 Macromodel * Connections: +input * | +Vsupply * | | -Vsupply * | | | output * | | | | .subckt EL2001/EL 2 1 4 7 * * Input Stage * e1 10 0 2 0 1.0 r1 10 0 1K rh 10 11 150 ch 11 0 9pF rc 11 12 100 cc 12 0 4pF e2 13 0 12 0 1.0 * * Output Stage * q1 4 13 14 qp q2 1 13 15 qn q3 1 14 16 qn q4 4 15 19 qp r2 16 7 1 r3 19 7 1 i1 1 14 0.9mA i2 15 4 0.9mA * * Bias Current * iin+ 2 0 1uA * * Models * .model qn npn(is=5e-15 bf=150 rb=200 ptf=45 tf=0.1nS) .model qp pnp(is=5e-15 bf=150 rb=200 ptf=45 tf=0.1nS) * .ends *------------------------------------------------------------------------- *EL2002 Macromodel * Connections: +input * | +Vsupply * | | -Vsupply * | | | output * | | | | .subckt EL2002/EL 2 1 4 7 * * Input Stage * e1 10 0 2 0 1.0 r1 10 0 1K rh 10 11 150 ch 11 0 2pF rc 11 12 100 cc 12 0 3pF e2 13 0 12 0 1.0 * * Output Stage * q1 4 13 14 qp q2 1 13 15 qn q3 1 14 16 qn q4 4 15 19 qp r2 16 7 1 r3 19 7 1 i1 1 14 2mA i2 15 4 2mA * * Bias Current * iin+ 2 0 3uA * * Models * .model qn npn(is=5e-15 bf=150 rb=200 ptf=45 tf=0.1nS) .model qp pnp(is=5e-15 bf=150 rb=200 ptf=45 tf=0.1nS) * .ends *------------------------------------------------------------------------- *EL2003 Macromodel * Connections: +input * | +Vsupply * | | -Vsupply * | | | output * | | | | .subckt EL2003/EL 2 1 4 7 * * Input Stage * e1 10 0 2 0 1.0 r1 10 0 1K rh 10 11 150 ch 11 0 10pF rc 11 12 100 cc 12 0 3pF e2 13 0 12 0 1.0 * * Output Stage * q1 4 13 14 qp q2 1 13 15 qn q3 1 14 16 qn q4 4 15 19 qp r2 16 7 5 r3 19 7 5 c1 14 0 3pF c2 15 0 3pF i1 1 14 3mA i2 15 4 3mA * * Bias Current * iin+ 2 0 5uA * * Models * .model qn npn(is=5e-15 bf=150 rb=350 ptf=45 cjc=2pF tf=0.3nS) .model qp pnp(is=5e-15 bf=150 rb=350 ptf=45 cjc=2pF tf=0.3nS) * .ends *------------------------------------------------------------------------- *EL2004 Model * * Connections input * | V+ * | | Vc+ * | | | V- * | | | | Vc- * | | | | | output * | | | | | | .subckt EL2004/EL 5 12 1 10 9 11 * * Models * .model qn npn (is=5e-14 bf=150 vaf=100 rc=1 rb=5 re=1 ikf=200mA + cje=5pF cjc=5pF mje=.42 mjc=.23 tf=.3nS tr=200nS br=5 vtf=0) * .model qp pnp (is=5e-14 bf=150 vaf=100 rc=.2 rb=3 re=1 ikf=100mA +cje=5.7pF cjc=4pF tf=.3nS mje=.32 mjc=.43 tr=170nS br=5 vtf=0) * .model qf njf (vto=-3V beta=4.0e-3 cgd=4pF cgs=10pF lambda=671.0e-6) * * Resistors * r1 20 21 58.33 r2 27 10 58.33 r3 22 11 2 r4 11 23 2 * * Transistors * j1 12 5 20 qf j4 24 10 26 qf q2 21 21 25 qn q3 24 24 25 qp q5 1 21 22 qn q6 9 24 23 qp q7 26 26 27 qn .ends *------------------------------------------------------------------------- *EL2005 Model * * Connections Input * | V+ * | | Vc+ * | | | V- * | | | | Vc- * | | | | | Output * | | | | | | .subckt EL2005/EL 5 12 1 10 9 11 * * Models * .model qn npn (is=5e-14 bf=150 vaf=100 rc=1 rb=5 re=1 ikf=200mA + cje=5pF cjc=5pF mje=.42 mjc=.23 tf=.3nS tr=200nS br=5 vtf=0) * .model qp pnp (is=5e-14 bf=150 vaf=100 rc=.2 rb=3 re=1 ikf=100mA +cje=5.7pF cjc=4pF tf=.3nS mje=.32 mjc=.43 tr=170nS br=5 vtf=0) * .model qfa njf (vto=-8V beta=2.344e-3 cgd=10pF cgs=7pF lambda=671e-6) * .model qfb njf(vto=-4V beta=1.06e-3 cgd=3pF cgd=3pF) * * Resistors * r1 21 22 30 r2 7 10 30 r3 25 11 3 r4 11 26 3 * * Transistors * j1a 20 5 21 qfb j1b 28 10 27 qfb j2 12 11 20 qfa j4 24 10 28 qfa q3 22 22 23 qn q4 1 22 25 qn q5 24 24 23 qp q6 9 24 26 qp q7 27 27 7 qn .ends *------------------------------------------------------------------------- *EL2006 Model * * Connections +input * | -input * | | +Vsupply * | | | -Vsupply * | | | | Comp 3 * | | | | | Comp 4 * | | | | | | Comp 2 * | | | | | | | Output * | | | | | | | | * | | | | | | | | .subckt EL2006/EL 6 5 12 10 3 4 2 11 * * Models * .model qfa njf (vto=-3V beta=1.11e-3 cgd=2pF cgs=5pF m=0.3744) * .model qp pnp (is=5e-14 bf=150 vaf=100 ikf=100mA tf=.53nS vtf=0 ise=1nA, +cjc=4pF cje=5.7pF tr=170nS rb=3 br=5 mje=.32 mjc=.43 xtb=2.1 ne=4 +isc=1nA nc=4 itf=.4 vtf=4 xtf=6) * .model qn npn (is=5e-14 bf=150 vaf=800 ikf=200mA tf=.53nS vtf=0 +cjc=4pF cje=5pF rb=3 br=5 mje=.42 MJC=.23 tr=200nS xtb=2.1 +ise=4nA ne=4 isc=4nA nc=4 itf=.4 vtf=4 xtf=2) * .model qfb njf (vto=-2.8V beta=4e-3 cgd=7pF cgs=8pF lambda=4e-3) * .model zener d (bv=2.49V ibv=1mA) * * Resistors and Capacitors * r1 12 4 700 r2 12 3 700 r3 12 105 160 r4 103 100 10 r5 108 100 10 r6 12 101 22K r7 113 11 10 r8 11 112 10 r9 102 10 407 cs2 10 116 100pF * * Transistors & Diodes * j1a 4 5 103 qfa j1b 3 6 108 qfa j2 111 10 116 qfb q1 104 4 105 qp q2 2 3 105 qp q3 114 11 104 qp q4 12 2 113 qn q5 10 111 112 qp q6 2 2 110 qn q7 111 111 110 qp q8 100 101 102 qn d1 10 117 zener q9 101 101 117 qn q10 114 114 10 qn q11 116 114 10 qn .ends *------------------------------------------------------------------------- *EL2008 Macromodel * Connections: +input * | +Vsupply * | | -Vsupply * | | | output * | | | | .subckt EL2008/EL 4 5 1 2 * * Input Stage * e1 10 0 4 0 1.0 r1 10 0 1K rh 10 11 1K ch 11 0 2.65pF rc 11 12 10K cc 12 0 0.159pF e2 13 0 12 0 1.0 * * Output Stage * q1 1 13 14 qp q2 5 13 15 qn q3 5 14 16 qn 15 q4 1 15 19 qp 15 r2 16 2 0.4 r3 19 2 0.4 c1 14 0 0.6pF c2 15 0 0.6pF i1 5 14 1.2mA i2 15 1 1.2mA * * Bias Current * iin+ 4 0 5uA * * Models * .model qn npn(is=5e-15 bf=1500) .model qp pnp(is=5e-15 bf=1500) .ends *------------------------------------------------------------------------- *EL2009 Macromodel * Connections: +input * | +Vsupply * | | -Vsupply * | | | output * | | | | .subckt EL2009/EL 4 5 1 2 * * Input Stage * e1 10 0 4 0 1.0 r1 10 0 1K rh 10 11 1K ch 11 0 1pF rc 11 12 6.3K cc 12 0 0.159pF e2 13 0 12 0 1.0 * * Output Stage * q1 1 13 14 qp q2 5 13 15 qn q3 5 14 16 qn 10 q4 1 15 19 qp 10 r2 16 2 0.2 r3 19 2 0.2 c1 14 0 1.7pF c2 15 0 1.7pF i1 5 14 5mA i2 15 1 5mA * * Bias Current * iin+ 4 0 5uA * * Models * .model qn npn(is=5e-15 bf=500) .model qp pnp(is=5e-15 bf=500) * .ends *------------------------------------------------------------------------- *EL2012 Macromodel * Macromodel * Connections: +input * | +Vsupply * | | -Vsupply * | | | output * | | | | .subckt EL2012/EL 4 5 1 2 * *Input Stage * q1 5 4 10 qn q2 13 2 11 qn r1 10 12 200 r2 11 12 200 i1 12 1 2.6mA i2 5 13 1.3mA c1 5 13 6pF * * Output Stage * i3 5 14 3mA i4 15 1 3mA q3 1 13 14 qp q4 5 13 15 qn q5 5 14 16 qn q6 1 15 17 qp r3 16 2 0.1 r4 2 17 0.1 * * Power Supply Current * ips 5 1 5mA * * Models * .model qn npn(is=800e-18 bf=500 tf=0.2nS ptf=45 rb=250) .model qp pnp(is=800e-18 bf=500 tf=0.2nS ptf=45 rb=250) .ends *------------------------------------------------------------------------- *EP2015 Model * * Connections q1c * | q1b * | | q1e * | | | q2c * | | | | q2b * | | | | | q2e * | | | | | | q3c * | | | | | | | q3b * | | | | | | | | q3e * | | | | | | | | | q4c * | | | | | | | | | | q4b * | | | | | | | | | | | q4e * | | | | | | | | | | | | .subckt EP2015/EL 1 2 3 7 6 5 8 9 10 14 13 12 * * Models * .model ep2015 pnp (is=8e-15 bf=300 va=47 ikf=30mA xtb=1.3 br=4.5 tf=0.3nS +tr=280nS rb=230 rc=170 ise=1e-15 ne=1.24 ccs=2pF cjc=3.7pF pc=0.5 +mc=0.45 cje=5.4pF pe=0.6 me=0.33 ptf=15) * * Transistors * q1 1 2 3 ep2015 q2 7 6 5 ep2015 q3 8 9 10 ep2015 q4 14 13 12 ep2015 * .ends *------------------------------------------------------------------------- *EN2016 Model * * Connections q1c * | q1b * | | q1e * | | | q2c * | | | | q2b * | | | | | q2e * | | | | | | q3c * | | | | | | | q3b * | | | | | | | | q3e * | | | | | | | | | q4c * | | | | | | | | | | q4b * | | | | | | | | | | | q4e * | | | | | | | | | | | | .subckt EN2016/EL 1 2 3 7 6 5 8 9 10 14 13 12 * * Models * .model en2016 npn (is=4e-15 bf=250 va=80 ikf=120mA xtb=1.1 br=10 tf=0.35nS +tr=80nS rb=200 rc=150 ise=3e-14 ne=2 ccs=0.7pF cjc=2.4pF xcjc=0.3 pc=0.32 +mc=0.19 cje=6pF pe=0.63 me=0.30 ptf=15) * * Transistors * q1 1 2 3 en2016 q2 7 6 5 en2016 q3 8 9 10 en2016 q4 14 13 12 en2016 * .ends *------------------------------------------------------------------------- *EL2018 Macromodel * Connections: +input * | -input * | | +V * | | | -V ___ * | | | | LE __ * | | | | | CS * | | | | I | output * | | | | | | | * | | | | | | | .subckt EL2018/EL 2 3 8 4 6 5 7 * *Input Stage * i1 8 10 700uA r1 13 4 1K r2 14 4 1K q1 8 3 11 qn q2 8 2 12 qn q3 13 11 10 qp q4 14 12 10 qp i2 11 4 200uA i3 12 4 200uA * * 2nd Stage & Flip Flop * *i4 8 24 700uA i4 8 24 1mA q9 22 6 24 qp q10 18 17 24 qp v1 17 0 2.5V q5 15 14 22 qp q6 16 13 22 qp r3 15 4 1K r4 16 4 1K q7 16 15 18 qp q8 15 16 18 qp * * Output Stage * i7 8 35 2mA s1 35 20 5 0 sw d2 35 8 ds i6 26 34 5mA s2 34 4 5 0 sw d3 34 26 ds q19 8 20 21 qn 2 q20 4 19 7 qp 2 r8 21 7 60 r7 20 19 4K q17 19 16 26 qn 5 q18 0 15 26 qn 5 q22 20 20 30 qn 5 q23 19 19 30 qp 8 d1 0 19 ds q21 0 17 19 qp * * Power Supply Current * ips 8 4 4mA * * Models * .model qn npn(is=2e-15 bf=400 tf=0.05nS cje=0.3pF cjc=0.2pF ccs=0.2pF) .model qp pnp(is=0.6e-15 bf=60 tf=0.3nS cje=0.5pF cjc=0.5pF ccs=0.4pF) .model ds d(is=2e-12 tt=0.05nS eg=0.62V vj=0.58) .model sw vswitch(von=0.4v voff=2.5v) .ends *------------------------------------------------------------------------- *EL2019 Marcromodel * Connections: +input * | -input * | | +V * | | | -V * | | | | Cpin __ * | | | | | CS * | | | | I | output * | | | | | | | * | | | | | | | .subckt EL2019/EL 2 3 8 4 6 5 7 * *Input Stage * i1 8 10 700uA r1 13 4 1K r2 14 4 1K q1 8 3 11 qn q2 8 2 12 qn q3 13 11 10 qp q4 14 12 10 qp i2 11 4 200uA i3 12 4 200uA * * 2nd Stage & Flip Flop * *i4 8 24 700uA i4 8 24 1mA q9 22 6 24 qp q10 18 17 24 qp v1 17 0 2.5V q5 15 14 22 qp q6 16 13 22 qp r3 15 4 1K r4 16 4 1K q7 16 15 18 qp q8 15 16 18 qp i5 8 40 500uA q11 41 17 40 qp q12 42 6 40 qp q13 43 16 41 qp q14 44 15 41 qp q15 44 43 42 qp q16 43 44 42 qp r5 43 4 1K r6 44 4 1K * * Output Stage * i7 8 35 2mA s1 35 20 5 0 sw d2 35 8 ds i6 26 34 5mA s2 34 4 5 0 sw d3 34 26 ds q19 8 20 21 qn 2 q20 4 19 7 qp 2 r8 21 7 60 r7 20 19 4K q17 19 44 26 qn 5 q18 0 43 26 qn 5 q22 20 20 30 qn 5 q23 19 19 30 qp 8 d1 0 19 ds q21 0 17 19 qp * * Power Supply Current * ips 8 4 4mA * * Models * .model qn npn(is=2e-15 bf=400 tf=0.05nS cje=0.3pF cjc=0.2pF ccs=0.2pF) .model qp pnp(is=0.6e-15 bf=60 tf=0.3nS cje=0.5pF cjc=0.5pF ccs=0.4pF) .model ds d(is=2e-12 tt=0.05nS eg=0.62V vj=0.58) .model sw vswitch(von=0.4v voff=2.5v) .ends *------------------------------------------------------------------------- *EL2022 Macromodel * Connections: +input * | -input * | | +Vcc * | | | Vcc coll - * | | | | -Vcc * | | | | | -Vcc coll * | | | | | | output * | | | | | | | .subckt EL2022/EL 6 5 1 12 9 10 11 * * Input Stage * e1 30 0 6 0 1.0 r1 5 43 25 l1 43 42 29nH vis 30 41 0V h4 41 42 v1 1.0 h1 31 0 vis 1.0 r2 31 0 1K v1 40 0 0v r4 40 0 1K ivos 0 40 5mA * * High Frequency Pole * e2 32 0 31 0 1.0 r5 32 0 1K r6 32 33 1K l2 33 34 0.1uH c1 34 0 0.2pF * * Transimpedance Stage * gm 0 35 34 0 1.0 rol 35 0 130K c2 35 0 4pF * * Output Stage * q1 9 35 36 qp q2 1 35 39 qn q3 12 36 37 qn q4 10 39 38 qp r7 37 11 2 r8 38 11 2 ios1 1 36 2.5mA ios2 39 9 2.5mA * * Supply & Bias Current * ips 1 9 14mA iin- 6 0 5uA iin+ 0 5 10uA * * Models * .model qn npn(is=5e-15 bf=100 tf=0.1nS) .model qp pnp(is=5e-15 bf=100 tf=0.1nS) * .ends *------------------------------------------------------------------------- *EL2028 Macromodel * Connections: +input * | -input * | | +Vsupply * | | | -Vsupply * | | | | output * | | | | | .subckt EL2028/EL 5 4 11 6 10 * *Input Stage * i1 37 6 2mA r1 36 37 2K r2 38 37 2K r3 11 30 2K r4 11 39 2K q1 30 5 36 qn q2 39 4 38 qna e1 33 0 39 30 1 r5 33 0 1Meg * * Compensation Section * ga 0 34 33 0 1m rh 34 0 80Meg ch 34 0 5pF rc 34 40 100 cc 40 0 1pF * * Poles * ep 41 0 40 0 1 r6 41 42 150 c1 42 0 10pF r7 42 43 150 c2 43 0 10pF * * Output Stage * i2 11 50 1.25mA i3 51 6 1.25mA q3 6 43 50 qp q4 11 43 51 qn q5 11 50 52 qn q6 6 51 53 qp r8 52 10 5 r9 10 53 5 * * Power Supply Current * ips 11 6 9mA * * Models * .model qn npn(is=800e-18 bf=2000 tf=0.1nS) .model qna npn(is=824e-18 bf=2700 tf=0.1nS) .model qp pnp(is=800e-18 bf=260 tf=0.1nS) .ends *------------------------------------------------------------------------- *EL2029 Macromodel * Connections: +input * | -input * | | +Vsupply * | | | -Vsupply * | | | | output * | | | | | .subckt EL2029/EL 5 4 11 6 10 * *Input Stage * i1 37 6 2mA r1 36 37 800 r2 38 37 800 r3 11 30 800 r4 11 39 800 q1 30 5 36 qn q2 39 4 38 qna e1 33 0 39 30 1 r5 33 0 1Meg * * Compensation Section * ga 0 34 33 0 2m rh 34 0 80Meg ch 34 0 2pF rc 34 40 100 cc 40 0 1pF * * Poles * ep 41 0 40 0 1 r6 41 42 150 c1 42 0 10pF r7 42 43 150 c2 43 0 10pF * * Output Stage * i2 11 50 1.25mA i3 51 6 1.25mA q3 6 43 50 qp q4 11 43 51 qn q5 11 50 52 qn q6 6 51 53 qp r8 52 10 5 r9 10 53 5 * * Power Supply Current * ips 11 6 9mA * * Models * .model qn npn(is=800e-18 bf=2000 tf=0.1nS) .model qna npn(is=824e-18 bf=2700 tf=0.1nS) .model qp pnp(is=800e-18 bf=260 tf=0.1nS) .ends *------------------------------------------------------------------------- *EL2038 Macromodel * Connections: +input * | -input * | | +Vsupply * | | | -Vsupply * | | | | output * | | | | | .subckt EL2038/EL 1 14 10 3 8 * *Input Stage * ie 37 3 2mA r6 36 37 65 r7 38 37 65 rc1 10 30 75 rc2 10 39 75 q1 30 1 36 qn q2 39 14 38 qna ediff 33 0 39 30 7.25 rdiff 33 0 1Meg * * Compensation Section * ga 0 34 33 0 5.2m rh 34 0 .525Meg ch 34 0 0.5pF rc 34 40 600 cc 40 0 4pF * * Poles * ep 41 0 40 0 1 rpa 41 42 75 cpa 42 0 17pF rpb 42 43 50 cpb 43 0 10pF * * Output Stage * ios1 10 50 1.25mA ios2 51 3 1.25mA q3 3 43 50 qp q4 10 43 51 qn q5 10 50 52 qn q6 3 51 53 qp ros1 52 8 25 ros2 8 53 25 * * Power Supply Current * ips 10 3 9.2mA * * Models * .model qn npn(is=800e-18 bf=200 tf=0.2nS) .model qna npn(is=864e-18 bf=250 tf=0.2nS) .model qp pnp(is=800e-18 bf=60 tf=0.2nS) .ends *------------------------------------------------------------------------- *EL2039 Macromodel * Macromodel * Connections: +input * | -input * | | +Vsupply * | | | -Vsupply * | | | | output * | | | | | .subckt EL2039/EL 1 14 10 3 8 * *Input Stage * ie 37 3 1.7mA r6 36 37 60 r7 38 37 60 rc1 10 30 75 rc2 10 39 75 q1 30 1 36 qn q2 39 14 38 qna ediff 33 0 39 30 7.25 rdiff 33 0 1Meg * * Compensation Section * ga 0 34 33 0 5.2m rh 34 0 .525Meg ch 34 0 1.5pF rc 34 40 600 cc 40 0 7pF * * Poles * ep 41 0 40 0 1 rpa 41 42 75 cpa 42 0 7pF rpb 42 43 50 cpb 43 0 3pF * * Output Stage * ios1 10 50 1.25mA ios2 51 3 1.25mA q3 3 43 50 qp q4 10 43 51 qn q5 10 50 52 qn q6 3 51 53 qp ros1 52 8 25 ros2 8 53 25 * * Power Supply Current * ips 10 3 9.5mA * * Models * .model qn npn(is=800e-18 bf=170 tf=0.2nS) .model qna npn(is=864e-18 bf=200 tf=0.2nS) .model qp pnp(is=800e-18 bf=60 tf=0.2nS) .ends *------------------------------------------------------------------------- *EL2040 Macromodel * Connections: +input * | -input * | | +Vsupply * | | | -Vsupply * | | | | output * | | | | | .subckt EL2040/EL 5 4 11 6 10 * *Input Stage * ie 37 6 1.3mA r6 36 37 60 r7 38 37 60 rc1 11 30 75 rc2 11 39 75 q1 30 5 36 qn q2 39 4 38 qna ediff 33 0 39 30 7.25 rdiff 33 0 1Meg * * Compensation Section * ga 0 34 33 0 5.2m rh 34 0 .525Meg ch 34 0 1.5pF rc 34 40 600 cc 40 0 7pF * * Poles * ep 41 0 40 0 1 rpa 41 42 75 cpa 42 0 7pF rpb 42 43 50 cpb 43 0 3pF * * Output Stage * ios1 11 50 1.25mA ios2 51 6 1.25mA q3 6 43 50 qp q4 11 43 51 qn q5 11 50 52 qn q6 6 51 53 qp ros1 52 10 25 ros2 10 53 25 * * Power Supply Current * ips 11 6 9.5mA * * Models * .model qn npn(is=800e-18 bf=130 tf=0.2nS) .model qna npn(is=864e-18 bf=150 tf=0.2nS) .model qp pnp(is=800e-18 bf=60 tf=0.2nS) .ends *------------------------------------------------------------------------- *EL2041 Model * connections: +input * | -input * | | +Vsupply * | | | -Vsupply * | | | | output * | | | | | .subckt EL2041/EL 5 4 11 6 10 * * Input stage * ie 37 6 3.7mA r6 36 37 75 r7 38 37 75 rc1 11 30 75 rc2 11 39 75 q1 30 5 36 qn q2 39 4 38 qna ediff 33 0 39 30 3 rdiff 33 0 1Meg * * Compensation Section * ga 0 34 33 0 5.2m rh 34 0 1Meg ch 34 0 16pF rc 34 40 300 cc 40 0 1.5pF * * Poles * ep 41 0 40 0 1 rpa 41 42 75 cpa 42 0 2pF rpb 42 43 50 cpb 43 0 3pF * * Output Stage * ios1 11 50 1.25mA ios2 51 6 1.25mA q3 6 43 50 qp q4 11 43 51 qn q5 11 50 52 qn q6 6 51 53 qp ros1 52 10 25 ros2 10 53 25 * * Power Supply Current * ips 11 6 6.5mA * * Models * .model qn npn(is=800e-18 bf=340 tf=0.2nS) .model qna npn(is=864e-18 bf=400 tf=0.2nS) .model qp pnp(is=800e-18 bf=60 tf=0.2nS) .ends *------------------------------------------------------------------------- *EL2044 Model * connections: +input * | -input * | | +Vsupply * | | | -Vsupply * | | | | output * | | | | | .subckt EL2044/EL 3 2 7 4 6 * * Input stage * ie 7 37 1mA r6 36 37 800 r7 38 37 800 rc1 4 30 850 rc2 4 39 850 q1 30 3 36 qp q2 39 2 38 qpa ediff 33 0 39 30 1.0 rdiff 33 0 1Meg * * Compensation Section * ga 0 34 33 0 1m rh 34 0 2Meg ch 34 0 1.3pF rc 34 40 1K cc 40 0 1pF * * Poles * ep 41 0 40 0 1 rpa 41 42 200 cpa 42 0 3.5pF rpb 42 43 1K cpb 43 0 0.5pF * * Output Stage * ios1 7 50 1.0mA ios2 51 4 1.0mA q3 4 43 50 qp q4 7 43 51 qn q5 7 50 52 qn q6 4 51 53 qp ros1 52 6 25 ros2 6 53 25 * * Power Supply Current * ips 7 4 2.7mA * * Models * .model qn npn(is=800e-18 bf=200 tf=0.2nS) .model qpa pnp(is=864e-18 bf=100 tf=0.2nS) .model qp pnp(is=800e-18 bf=125 tf=0.2nS) .ends *------------------------------------------------------------------------- *EL2045 Model * connections: +input * | -input * | | +Vsupply * | | | -Vsupply * | | | | output * | | | | | .subckt EL2045/EL 3 2 7 4 6 * * Input stage * ie 7 37 0.9mA r6 36 37 400 r7 38 37 400 rc1 4 30 850 rc2 4 39 850 q1 30 3 36 qp q2 39 2 38 qpa ediff 33 0 39 30 1.0 rdiff 33 0 1Meg * * Compensation Section * ga 0 34 33 0 1m rh 34 0 2Meg ch 34 0 1.5pF rc 34 40 1K cc 40 0 1pF * * Poles * ep 41 0 40 0 1 rpa 41 42 200 cpa 42 0 2pF rpb 42 43 200 cpb 43 0 2pF * * Output Stage * ios1 7 50 1.0mA ios2 51 4 1.0mA q3 4 43 50 qp q4 7 43 51 qn q5 7 50 52 qn q6 4 51 53 qp ros1 52 6 25 ros2 6 53 25 * * Power Supply Current * ips 7 4 2.7mA * * Models * .model qn npn(is=800E-18 bf=200 tf=0.2nS) .model qpa pnp(is=864E-18 bf=100 tf=0.2nS) .model qp pnp(is=800E-18 bf=125 tf=0.2nS) .ends *------------------------------------------------------------------------- *EL2070 Macromodel * Revision A, March 1992 * Enhancements include PSRR, CMRR, and Slew Rate Limiting * Connections: +input * | -input * | | +Vsupply * | | | -Vsupply * | | | | output * | | | | | .subckt EL2070/EL 3 2 7 4 6 * * Input Stage * e1 10 0 3 0 1.0 vis 10 9 0V h2 9 12 vxx 1.0 r1 2 11 50 l1 11 12 48nH iinp 3 0 8uA iinm 2 0 8uA * * Slew Rate Limiting * h1 13 0 vis 600 r2 13 14 1K d1 14 0 dclamp d2 0 14 dclamp * * High Frequency Pole * e2 30 0 14 0 0.00166666666 l3 30 17 0.1uH c5 17 0 0.1pF r5 17 0 500 * * Transimpedance Stage * g1 0 18 17 0 1.0 rol 18 0 150K cdp 18 0 2.8pF * * Output Stage * q1 4 18 19 qp q2 7 18 20 qn q3 7 19 21 qn q4 4 20 22 qp r7 21 6 2 r8 22 6 2 ios1 7 19 2.5mA ios2 20 4 2.5mA * * Supply Current * ips 7 4 9mA * * Error Terms * ivos 0 23 5mA vxx 23 0 0V e4 24 0 6 0 1.0 e5 25 0 7 0 1.0 e6 26 0 4 0 1.0 r9 24 23 3K r10 25 23 1K r11 26 23 1K * * Models * .model qn npn(is=5e-15 bf=200 tf=0.05nS) .model qp pnp(is=5e-15 bf=200 tf=0.05nS) .model dclamp d(is=1e-30 ibv=0.266 bv=1.3 n=4) .ends *------------------------------------------------------------------------- *EL2073 Macromodel * * Connections: +input * | -input * | | +Vsupply * | | | -Vsupply * | | | | output * | | | | | .subckt EL2073/EL 3 2 7 4 6 * *Input Stage * ie 37 4 1mA r6 36 37 125 r7 38 37 125 rc1 7 30 200 rc2 7 39 200 q1 30 3 36 qn q2 39 2 38 qna ediff 33 0 39 30 1 rdiff 33 0 1Meg * * Compensation Section * ga 0 34 33 0 2m rh 34 0 500K ch 34 0 1.2pF rc 34 40 400 cc 40 0 0.3pF * * Poles * ep 41 0 40 0 1 rpa 41 42 75 cpa 42 0 0.5pF rpb 42 43 50 cpb 43 0 0.5pF * * Output Stage * ios1 7 50 3.0mA ios2 51 4 3.0mA q3 4 43 50 qp q4 7 43 51 qn q5 7 50 52 qn q6 4 51 53 qp ros1 52 6 2 ros2 6 53 2 * * Power Supply Current * ips 7 4 11.4mA * * Models * .model qna npn(is=800e-18 bf=170 tf=0.2nS) .model qn npn(is=810e-18 bf=200 tf=0.2nS) .model qp pnp(is=800e-18 bf=200 tf=0.2nS) .ends *------------------------------------------------------------------------- *EL2074 Macromodel * Connections: +input * | -input * | | +Vsupply * | | | -Vsupply * | | | | output * | | | | | .subckt EL2074/EL 3 2 7 4 6 * *Input Stage * ie 37 4 1mA r6 36 37 125 r7 38 37 125 rc1 7 30 200 rc2 7 39 200 q1 30 3 36 qn q2 39 2 38 qna ediff 33 0 39 30 1 rdiff 33 0 1Meg * * Compensation Section * ga 0 34 33 0 2m rh 34 0 500K ch 34 0 0.8pF rc 34 40 50 cc 40 0 0.05pF * * Poles * ep 41 0 40 0 1 rpa 41 42 150 cpa 42 0 0.5pF rpb 42 43 50 cpb 43 0 0.5pF * * Output Stage * ios1 7 50 3.0mA ios2 51 4 3.0mA q3 4 43 50 qp q4 7 43 51 qn q5 7 50 52 qn q6 4 51 53 qp ros1 52 6 2 ros2 6 53 2 * * Power Supply Current * ips 7 4 11.4mA * * Models * .model qna npn(is=800e-18 bf=170 tf=0.2nS) .model qn npn(is=810e-18 bf=200 tf=0.2nS) .model qp pnp(is=800e-18 bf=200 tf=0.2nS) .ends *------------------------------------------------------------------------- *EL2075 Macromodel * Connections: +input * | -input * | | +Vsupply * | | | -Vsupply * | | | | output * | | | | | .subckt EL2075/EL 3 2 7 4 6 * *Input Stage * ie 37 4 1mA r6 36 37 15 r7 38 37 15 rc1 7 30 200 rc2 7 39 200 q1 30 3 36 qn q2 39 2 38 qna ediff 33 0 39 30 1 rdiff 33 0 1Meg * * Compensation Section * ga 0 34 33 0 2m rh 34 0 500K ch 34 0 0.4pF rc 34 40 50 cc 40 0 0.05pF * * Poles * ep 41 0 40 0 1 rpa 41 42 250 cpa 42 0 0.8pF rpb 42 43 50 cpb 43 0 0.5pF * * Output Stage * ios1 7 50 3.0mA ios2 51 4 3.0mA q3 4 43 50 qp q4 7 43 51 qn q5 7 50 52 qn q6 4 51 53 qp ros1 52 6 2 ros2 6 53 2 * * Power Supply Current * ips 7 4 11.4mA * * Models * .model qna npn(is=800e-18 bf=170 tf=0.2nS) .model qn npn(is=810e-18 bf=200 tf=0.2nS) .model qp pnp(is=800e-18 bf=200 tf=0.2nS) .ends *------------------------------------------------------------------------- *EL2082 Marcromodel * Connections : Vgain * | Iin * | | Vin * | | | * | | | Iout * | | | | .subckt EL2082/EL 1 2 3 6 * * Capacitors & Inductors * cini 2 0 2pF c500 502 0 0.9845pF c501 505 0 1000pF cout 6 0 5pF l501 503 504 0.1uH * * Resistors * rsilly1 1 0 1e9 rsilly2 505 0 1e9 rini 2 500 95 rinv 3 0 2Meg rout 6 0 1Meg r500 501 502 1K r501 504 505 5 r502 506 507 50 r503 508 0 50 * * Active Elements * e500 500 0 3 0 1.0 e501 501 0 poly(1) (2,500) 0 2 0 -0.8 e502 503 0 poly(1) (1,0) 0 1.05 -0.05 e503 506 0 poly(2) (505,0) (502,0) 0 0 0 0 1 g500 6 0 508 0 -0.0105 t500 508 0 507 0 zo=50 td=1.95nS * .ends *------------------------------------------------------------------------- *EL2099 Macromodel * Revision A, July 1992 * Connections: +input * | -input * | | +Vsupply * | | | -Vsupply * | | | | output * | | | | | .subckt EL2099/EL 4 5 1 3 2 * * Input Stage * e1 10 0 4 0 1.0 vis 10 9 0V h2 9 12 vxx 1.0 r1 5 11 50 l1 11 12 48nH iinp 4 0 5uA iinm 5 0 -8uA * * Slew Rate Limiting * h1 13 0 vis 600 r2 13 14 1K d1 14 0 dclamp d2 0 14 dclamp * * High Frequency Pole * e2 30 0 14 0 0.00166666666 l3 30 17 1.5uH c5 17 0 1pF r5 17 0 500 ** * Transimpedance Stage * g1 0 18 17 0 1.0 rol 18 0 150K cdp 18 0 8pF * * Output Stage * q1 3 18 19 qp q2 1 18 20 qn q3 1 19 21 qn q4 3 20 22 qp r7 21 2 1 r8 22 2 1 ios1 1 19 5mA ios2 20 3 5mA * * Supply Current * ips 1 3 19mA * * Error Terms * ivos 0 23 5mA vxx 23 0 0V e4 24 0 2 0 1.0 e5 25 0 1 0 1.0 e6 26 0 3 0 1.0 r9 24 23 3K r10 25 23 1K r11 26 23 1K * * Models * .model qn npn(is=5e-15 bf=200 tf=0.1nS) .model qp pnp(is=5e-15 bf=200 tf=0.1nS) .model dclamp d(is=1e-30 ibv=0.266 bv=5 n=4) .ends *------------------------------------------------------------------------- *EL2120 Macromodel * Revision A, March 1992 * Enhancements include PSRR, CMRR, and Slew Rate Limiting * Connections: +input * | -input * | | +Vsupply * | | | -Vsupply * | | | | output * | | | | | .subckt EL2120/EL 3 2 7 4 6 * * Input Stage * e1 10 0 3 0 1.0 vis 10 9 0V h2 9 12 vxx 1.0 r1 2 11 25 l1 11 12 20nH iinp 3 0 10uA iinm 2 0 5uA r12 3 0 2Meg * * Slew Rate Limiting * h1 13 0 vis 600 r2 13 14 1K d1 14 0 dclamp d2 0 14 dclamp * * High Frequency Pole * e2 30 0 14 0 0.00166666666 l5 30 17 1uH c5 17 0 0.5pF r5 17 0 600 * * Transimpedance Stage * g1 0 18 17 0 1.0 rol 18 0 140K cdp 18 0 7.9pF * * Output Stage * q1 4 18 19 qp q2 7 18 20 qn q3 7 19 21 qn q4 4 20 22 qp r7 21 6 4 r8 22 6 4 ios1 7 19 2.5mA ios2 20 4 2.5mA * * Supply * ips 7 4 10mA * * Error Terms * ivos 0 23 5mA vxx 23 0 0V e4 24 0 6 0 1.0 e5 25 0 7 0 1.0 e6 26 0 4 0 1.0 r9 24 23 562 r10 25 23 10K r11 26 23 10K * * Models * .model qn npn(is=5e-15 bf=500 tf=0.1nS) .model qp pnp(is=5e-15 bf=500 tf=0.1nS) .model dclamp d(is=1e-30 ibv=0.02 bv=4 n=4) .ends *------------------------------------------------------------------------- *EL2190 Macromodel * Connections: +input * | -input * | | +Vsupply * | | | -Vsupply * | | | | output * | | | | | .subckt EL2190/EL 5 4 11 6 10 * *Input Stage * ie 37 6 2mA r6 36 37 60 r7 38 37 60 rc1 11 30 75 rc2 11 39 75 q1 30 5 36 qn q2 39 4 38 qna ediff 33 0 39 30 7.25 rdiff 33 0 1Meg * * Compensation Section * ga 0 34 33 0 2.6m rh 34 0 1.5Meg ch 34 0 3.5pF rc 34 40 600 cc 40 0 7pF * * Poles * ep 41 0 40 0 1 rpa 41 42 75 cpa 42 0 5pF rpb 42 43 50 cpb 43 0 5pF * * Output Stage * ios1 11 50 1.25mA ios2 51 6 1.25mA q3 6 43 50 qp q4 11 43 51 qn q5 11 50 52 qn q6 6 51 53 qp ros1 52 10 25 ros2 10 53 25 * * Power Supply Current * ips 11 6 8.5mA * * Models * .model qn npn(is=800e-18 bf= 200 tf=0.2nS) .model qna npn(is=864e-18 bf=250 tf=0.2nS) .model qp pnp(is=800e-18 bf=60 tf=0.2nS) .ends *------------------------------------------------------------------------- *EL2223 Macromodel * Connections: +input * | -input * | | +Vsupply * | | | -Vsupply * | | | | output * | | | | | .subckt EL2223/EL 3 2 7 4 6 * *Input stage * ie 37 4 2mA r6 36 37 60 r7 38 37 60 rc1 7 30 75 rc2 7 39 75 q1 30 3 36 qn q2 39 2 38 qna ediff 33 0 39 30 7.25 rdiff 33 0 1Meg * * Compensation Section * ga 0 34 33 0 2.6m rh 34 0 3Meg ch 34 0 1.5pF rc 34 40 600 cc 40 0 7pF * * Poles * ep 41 0 40 0 1 rpa 41 42 75 cpa 42 0 25pF rpb 42 43 50 cpb 43 0 15pF * * Output Stage * ios1 7 50 1.25mA ios2 51 4 1.25mA q3 4 43 50 qp q4 7 43 51 qn q5 7 50 52 qn q6 4 51 53 qp ros1 52 6 25 ros2 6 53 25 * * Models * .model qn npn(is=800e-18 bf= 250 tf=0.2nS) .model qna npn(is=864e-18 bf=300 tf=0.2nS) .model qp pnp(is=800e-18 bf=60 tf=0.2nS) .ends *------------------------------------------------------------------------- *EL2224 Model * connections: +input * | -input * | | +Vsupply * | | | -Vsupply * | | | | output * | | | | | .subckt EL2224/EL 3 2 7 4 6 * *Input stage * ie 37 4 4.5mA r6 36 37 75 r7 38 37 75 rc1 7 30 75 rc2 7 39 75 q1 30 3 36 qn q2 39 2 38 qna ediff 33 0 39 30 2.6 rdiff 33 0 1Meg * * Compensation Section * ga 0 34 33 0 3m rh 34 0 1Meg ch 34 0 15pF rc 34 40 300 cc 40 0 1pF * * Poles * ep 41 0 40 0 1 rpa 41 42 75 cpa 42 0 3pF rpb 42 43 50 cpb 43 0 3pF * * Output Stage * ios1 7 50 0.5mA ios2 51 4 0.5mA q3 4 43 50 qp q4 7 43 51 qn q5 7 50 52 qn q6 4 51 53 qp ros1 52 6 25 ros2 6 53 25 * * Models .model qn npn(is=800e-18 bf=350 tf=0.2nS) .model qna npn(is=864e-18 bf=400 tf=0.2nS) .model qp pnp(is=800e-18 bf=60 tf=0.2nS) .ends *------------------------------------------------------------------------- *EL2232 Macromodel * Revision A, March 1992 * Enhancements include PSRR, CMRR, and Slew Rate Limiting * Connections: +input * | -input * | | +Vsupply * | | | -Vsupply * | | | | output * | | | | | .subckt EL2232/EL 3 2 8 4 1 * * Input Stage * e1 10 0 3 0 1.0 vis 10 9 0V h2 9 12 vxx 1.0 r1 2 11 50 l1 11 12 29nH iinp 3 0 1.2uA iinm 2 0 5uA * * Slew Rate Limiting * h1 13 0 vis 600 r2 13 14 10 d1 14 0 dclamp d2 0 14 dclamp * * High Frequency Pole * *e2 30 0 14 0 0.00166666666 e2 30 0 14 0 0.001 l5 30 17 1.5uH c5 17 0 1pF r5 17 0 500 * * Transimpedance Stage * g1 0 18 17 0 1.0 rol 18 0 2Meg cdp 18 0 2.5pF * * Output Stage * q1 4 18 19 qp q2 8 18 20 qn q3 8 19 21 qn q4 4 20 22 qp r7 21 1 5 r8 22 1 5 ios1 8 19 1mA ios2 20 4 1mA * * Supply * ips 8 4 2mA * * Error Terms * ivos 0 23 2mA vxx 23 0 0V e4 24 0 1 0 1.0 e5 25 0 8 0 1.0 e6 26 0 4 0 1.0 r9 24 23 1.4K r10 25 23 10K r11 26 23 10K * * Models * .model qn npn(is=5e-15 bf=250 tf=0.1nS) .model qp pnp(is=5e-15 bf=250 tf=0.1nS) .model dclamp d(is=1e-30 ibv=10pA bv=0.8 n=4) .ends *------------------------------------------------------------------------- *EL2242 Model * connections: +input * | -input * | | +Vsupply * | | | -Vsupply * | | | | output * | | | | | .subckt EL2242/EL 3 2 7 4 6 * * Input stage * ie 7 37 84uA r6 36 37 2.1K r7 38 37 2.1K rc1 4 30 6K rc2 4 39 6K q1 30 3 36 qp q2 39 2 38 qpa ediff 33 0 39 30 1.0 rdiff 33 0 1Meg * * Compensation Section * ga 0 34 33 0 1m rh 34 0 175Meg ch 34 0 5pF rc 34 40 1K cc 40 0 7pF * * Poles * ep 41 0 40 0 1 rpa 41 42 200 cpa 42 0 4pF rpb 42 43 1K cpb 43 0 2pF * * Output Stage * ios1 7 50 1.0mA ios2 51 4 1.0mA q3 4 43 50 qp q4 7 43 51 qn q5 7 50 52 qn q6 4 51 53 qp ros1 52 6 25 ros2 6 53 25 * * Power Supply Current * ips 7 4 1.8mA * * Models * .model qn npn(is=800e-18 bf=100 tf=0.2nS) .model qpa pnp(is=864e-18 bf=120 tf=0.2nS) .model qp pnp(is=800e-18 bf=50 tf=0.2nS) .ends *------------------------------------------------------------------------- *EL2243 Model Bode Plot * connections: +input * | -input * | | +Vsupply * | | | -Vsupply * | | | | output * | | | | | .subckt EL2243/EL 3 2 7 4 6 * * Input stage * ie 7 37 200uA r6 36 37 1K r7 38 37 1K rc1 4 30 3K rc2 4 39 3K q1 30 3 36 qp q2 39 2 38 qpa ediff 33 0 39 30 1.0 rdiff 33 0 1Meg * * Compensation Section * ga 0 34 33 0 1m rh 34 0 175Meg ch 34 0 4pF rc 34 40 1K cc 40 0 4pF * * Poles * ep 41 0 40 0 1 rpa 41 42 1K cpa 42 0 4pF rpb 42 43 1K cpb 43 0 2pF * * Output Stage * ios1 7 50 1.0mA ios2 51 4 1.0mA q3 4 43 50 qp q4 7 43 51 qn q5 7 50 52 qn q6 4 51 53 qp ros1 52 6 25 ros2 6 53 25 * * Power Supply Current * ips 7 4 1.5mA * * Models * .model qn npn(is=800e-18 bf=100 tf=0.2nS) .model qpa pnp(is=864e-18 bf=150 tf=0.2nS) .model qp pnp(is=800e-18 bf=125 tf=0.2nS) .ends *------------------------------------------------------------------------- *EL2252 Marcromodel * Connections: +input * | -input * | | +V * | | | -V * | | | | HYS * | | | | | TTL * | | | | I | output * | | | | | | | * | | | | | | | .subckt EL2252/EL 2 3 14 7 4 5 13 * * Application Hints: * * Connect pin 4 to ground through 1000 Megohm resistor to inhibit * Hysteresis; to invoke Hysteresis, connect pin 4 to V-. * * Connect pin 5 to ground to invoke TTL Voh; pin 5 may left open * for CMOS Voh. * * To faciltate .OP, set itl1 = 200, itl2 = 200, set node 27 to 13.8 * volts, and node 30 to -12 volts. * *Input Stage * i1 22 7 1.7mA r1 14 20 300 r2 14 21 300 q1 20 2 22 qn q2 21 3 22 qn q3 20 26 23 qn q4 21 25 23 qn q13 25 27 20 qp q14 26 27 21 qp v1 14 27 1.2v r3 23 24 1.4K d1 24 4 ds r4 25 33 700 r5 26 33 700 q16 33 33 34 qn q17 34 34 37 qn v4 37 7 1.2v * * 2nd Stage * i2 30 7 3mA i3 14 28 1.5mA q7 0 35 28 qp v2 44 0 1.2V s1 44 35 5 0 swa s2 45 35 5 0 swb rsw 14 5 10K v3 45 0 2.5v q5 0 26 30 qn q6 28 25 30 qn d3 0 28 ds * * Output Stage * i4 14 38 1mA q8 38 38 39 qn q9 32 32 39 qp q10 7 28 32 qp q11 14 38 40 qn 2 q12 7 28 13 qp 2 r6 40 13 50 c1 28 0 3pF * * Models * .model qn npn(is=2e-15 bf=120 tf=0.2nS cje=0.2pF cjc=0.2pF ccs=0.2pF) .model qp pnp(is=0.6e-15 bf=60 tf=0.2nS cje=0.5pF cjc=0.3pF ccs=0.2pF) .model ds d(is=3e-12 tt=0.05nS eg=0.72V vj=0.58) .model swa vswitch(von=0v voff=2.5v) .model swb vswitch(von=2.5 voff= 0v) .ends *------------------------------------------------------------------------- *EL2423 Macromodel * Connections: +input * | -input * | | +Vsupply * | | | -Vsupply * | | | | output * | | | | | .subckt EL2423/EL 3 2 7 4 6 * *Input stage * ie 37 4 2mA r6 36 37 60 r7 38 37 60 rc1 7 30 75 rc2 7 39 75 q1 30 3 36 qn q2 39 2 38 qna ediff 33 0 39 30 7.25 rdiff 33 0 1Meg * * Compensation Section * ga 0 34 33 0 2.6m rh 34 0 3Meg ch 34 0 1.5pF rc 34 40 600 cc 40 0 7pF * * Poles * ep 41 0 40 0 1 rpa 41 42 75 cpa 42 0 25pF rpb 42 43 50 cpb 43 0 15pF * * Output Stage * ios1 7 50 1.25mA ios2 51 4 1.25mA q3 4 43 50 qp q4 7 43 51 qn q5 7 50 52 qn q6 4 51 53 qp ros1 52 6 25 ros2 6 53 25 * * Models * .model qn npn(is=800e-18 bf=250 tf=0.2nS) .model qna npn(is=864e-18 bf=300 tf=0.2nS) .model qp pnp(is=800e-18 bf=60 tf=0.2nS) .ends *------------------------------------------------------------------------- *EL2424 Model * connections: +input * | -input * | | +Vsupply * | | | -Vsupply * | | | | output * | | | | | .subckt EL2424/EL 3 2 7 4 6 * *Input stage * ie 37 4 4.5mA r6 36 37 75 r7 38 37 75 rc1 7 30 75 rc2 7 39 75 q1 30 3 36 qn q2 39 2 38 qna ediff 33 0 39 30 2.6 rdiff 33 0 1Meg * * Compensation Section * ga 0 34 33 0 3m rh 34 0 1Meg ch 34 0 15pF rc 34 40 300 cc 40 0 1pF * * Poles * ep 41 0 40 0 1 rpa 41 42 75 cpa 42 0 3pF rpb 42 43 50 cpb 43 0 3pF * * Output Stage * ios1 7 50 0.5mA ios2 51 4 0.5mA q3 4 43 50 qp q4 7 43 51 qn q5 7 50 52 qn q6 4 51 53 qp ros1 52 6 25 ros2 6 53 25 * * Models .model qn npn(is=800e-18 bf=350 tf=0.2nS) .model qna npn(is=864e-18 bf=400 tf=0.2nS) .model qp pnp(is=800e-18 bf=60 tf=0.2nS) .ends *------------------------------------------------------------------------- *EHA2500 Macromodel * Connections: +input * | -input * | | +Vsupply * | | | -Vsupply * | | | | output * | | | | | comp * | | | | | | .subckt EHA2500/EL 3 2 7 4 6 8 * *Input Stage * ie 37 4 425uA r6 36 37 1.6K r7 38 37 1.6K rc1 7 30 1.7K rc2 7 39 1.7K q1 30 3 36 qn q2 39 2 38 qna ediff 33 0 39 30 1.00 rdiff 33 0 1Meg * * Compensation Section * ga 0 8 33 0 0.5m rh 8 0 79.6Meg ch 8 0 9pF rc 8 40 1K cc 40 0 1pF * * Poles * ep 41 0 40 0 1 rpa 41 42 1K cpa 42 0 2pF rpb 42 43 1K cpb 43 0 4pF * * Output Stage * ios1 7 50 1.0mA ios2 51 4 1.0mA q3 4 43 50 qp q4 7 43 51 qn q5 7 50 52 qn q6 4 51 53 qp ros1 52 6 25 ros2 6 53 25 * * Power Supply Current * ips 7 4 1mA * * Models * .model qn npn(is=800e-18 bf=2e3 tf=0.2nS) .model qna npn(is=864e-18 bf=2.5e3 tf=0.2nS) .model qp pnp(is=800e-18 bf=2e3 tf=0.2nS) .ends *------------------------------------------------------------------------- *EHA2520 Macromodel * Connections: +input * | -input * | | +Vsupply * | | | -Vsupply * | | | | output * | | | | | comp * | | | | | | .subckt EHA2520/EL 3 2 7 4 6 8 * *Input Stage * ie 37 4 425uA r6 36 37 1.6K r7 38 37 1.6K rc1 7 30 1.7K rc2 7 39 1.7K q1 30 3 36 qn q2 39 2 38 qna ediff 33 0 39 30 1.00 rdiff 33 0 1Meg * * Compensation Section * ga 0 8 33 0 0.5m rh 8 0 79.6Meg ch 8 0 1.5pF rc 8 40 1K cc 40 0 1pF * * Poles * ep 41 0 40 0 1 rpa 41 42 1K cpa 42 0 2pF rpb 42 43 1K cpb 43 0 4pF * * Output Stage * ios1 7 50 1.0mA ios2 51 4 1.0mA q3 4 43 50 qp q4 7 43 51 qn q5 7 50 52 qn q6 4 51 53 qp ros1 52 6 25 ros2 6 53 25 * * Power Supply Current * ips 7 4 1mA * * Models * .model qn npn(is=800e-18 bf=2e3 tf=0.2nS) .model qna npn(is=864e-18 bf=2.5e3 tf=0.2nS) .model qp pnp(is=800e-18 bf=2e3 tf=0.2nS) .ends *------------------------------------------------------------------------- *EHA2539 Macromodel * Macromodel * Connections: +input * | -input * | | +Vsupply * | | | -Vsupply * | | | | output * | | | | | .subckt EHA2539/EL 1 14 10 3 8 * *Input Stage * ie 37 3 1.7mA r6 36 37 60 r7 38 37 60 rc1 10 30 75 rc2 10 39 75 q1 30 1 36 qn q2 39 14 38 qna ediff 33 0 39 30 7.25 rdiff 33 0 1Meg * * Compensation Section * ga 0 34 33 0 5.2m rh 34 0 .525Meg ch 34 0 1.5pF rc 34 40 600 cc 40 0 7pF * * Poles * ep 41 0 40 0 1 rpa 41 42 75 cpa 42 0 7pF rpb 42 43 50 cpb 43 0 3pF * * Output Stage * ios1 10 50 1.25mA ios2 51 3 1.25mA q3 3 43 50 qp q4 10 43 51 qn q5 10 50 52 qn q6 3 51 53 qp ros1 52 8 25 ros2 8 53 25 * * Power Supply Current * ips 10 3 9.5mA * * Models * .model qn npn(is=800e-18 bf=170 tf=0.2nS) .model qna npn(is=864e-18 bf=200 tf=0.2nS) .model qp pnp(is=800e-18 bf=60 tf=0.2nS) .ends *------------------------------------------------------------------------- *EHA2540 Macromodel * Connections: +input * | -input * | | +Vsupply * | | | -Vsupply * | | | | output * | | | | | .subckt EHA2540/EL 5 4 11 6 10 * *Input Stage * ie 37 6 1.3mA r6 36 37 60 r7 38 37 60 rc1 11 30 75 rc2 11 39 75 q1 30 5 36 qn q2 39 4 38 qna ediff 33 0 39 30 7.25 rdiff 33 0 1Meg * * Compensation Section * ga 0 34 33 0 5.2m rh 34 0 .525Meg ch 34 0 1.5pF rc 34 40 600 cc 40 0 7pF * * Poles * ep 41 0 40 0 1 rpa 41 42 75 cpa 42 0 7pF rpb 42 43 50 cpb 43 0 3pF * * Output Stage * ios1 11 50 1.25mA ios2 51 6 1.25mA q3 6 43 50 qp q4 11 43 51 qn q5 11 50 52 qn q6 6 51 53 qp ros1 52 10 25 ros2 10 53 25 * * Power Supply Current * ips 11 6 9.5mA * * Models * .model qn npn(is=800e-18 bf=130 tf=0.2nS) .model qna npn(is=864e-18 bf=150 tf=0.2nS) .model qp pnp(is=800e-18 bf=60 tf=0.2nS) .ends *------------------------------------------------------------------------- *EHA2600 Macromodel * Connections: +input * | -input * | | +Vsupply * | | | -Vsupply * | | | | output * | | | | | comp * | | | | | | .subckt EHA2600/EL 3 2 7 4 6 8 * *Input Stage * ie 37 4 26uA r6 36 37 1K r7 38 37 1K rc1 7 30 3K rc2 7 39 3K q1 30 3 36 qn q2 39 2 38 qna ediff 33 0 39 30 1.00 rdiff 33 0 1Meg * * Compensation Section * ga 0 8 33 0 1m rh 8 0 150Meg ch 8 0 6pF rc 8 40 1K cc 40 0 4pF * * Poles * ep 41 0 40 0 1 rpa 41 42 200 cpa 42 0 8pF rpb 42 43 1K cpb 43 0 8pF * * Output Stage * ios1 7 50 1.0mA ios2 51 4 1.0mA q3 4 43 50 qp q4 7 43 51 qn q5 7 50 52 qn q6 4 51 53 qp ros1 52 6 25 ros2 6 53 25 * * Power Supply Current * ips 7 4 0.5mA * * Models * .model qn npn(is=800e-18 bf=5e3 tf=0.2nS) .model qna npn(is=864e-18 bf=6e3 tf=0.2nS) .model qp pnp(is=800e-18 bf=5e3 tf=0.2nS) .ends *------------------------------------------------------------------------- *EHA2620 Macromodel * Connections: +input * | -input * | | +Vsupply * | | | -Vsupply * | | | | output * | | | | | comp * | | | | | | .subckt EHA2620/EL 3 2 7 4 6 8 * *Input Stage * ie 37 4 26uA r6 36 37 1K r7 38 37 1K rc1 7 30 3K rc2 7 39 3K q1 30 3 36 qn q2 39 2 38 qna ediff 33 0 39 30 1.00 rdiff 33 0 1Meg * * Compensation Section * ga 0 8 33 0 1m rh 8 0 150Meg ch 8 0 1.5pF rc 8 40 5K cc 40 0 1pF * * Poles * ep 41 0 40 0 1 rpa 41 42 200 cpa 42 0 8pF rpb 42 43 1K cpb 43 0 8pF * * Output Stage * ios1 7 50 1.0mA ios2 51 4 1.0mA q3 4 43 50 qp q4 7 43 51 qn q5 7 50 52 qn q6 4 51 53 qp ros1 52 6 25 ros2 6 53 25 * * Power Supply Current * ips 7 4 0.5mA * * Models * .model qn npn(is=800e-18 bf=5e3 tf=0.2nS) .model qna npn(is=864e-18 bf=6e3 tf=0.2nS) .model qp pnp(is=800e-18 bf=5e3 tf=0.2nS) .ends *------------------------------------------------------------------------- *EL400 Macromodel * Revision A, March 1992 * Enhancements include PSRR, CMRR, and Slew Rate Limiting * Connections: +input * | -input * | | +Vsupply * | | | -Vsupply * | | | | output * | | | | | .subckt EL400/EL 3 2 7 4 6 * * Input Stage * e1 10 0 3 0 1.0 vis 10 9 0V h2 9 12 vxx 1.0 r1 2 11 50 l1 11 12 48nH iinp 3 0 8uA iinm 2 0 8uA * * Slew Rate Limiting * h1 13 0 vis 600 r2 13 14 1K d1 14 0 dclamp d2 0 14 dclamp * * High Frequency Pole * e2 30 0 14 0 0.00166666666 l3 30 17 0.1uH c5 17 0 0.1pF r5 17 0 500 * * Transimpedance Stage * g1 0 18 17 0 1.0 rol 18 0 150K cdp 18 0 2.8pF * * Output Stage * q1 4 18 19 qp q2 7 18 20 qn q3 7 19 21 qn q4 4 20 22 qp r7 21 6 2 r8 22 6 2 ios1 7 19 2.5mA ios2 20 4 2.5mA * * Supply Current * ips 7 4 9mA * * Error Terms * ivos 0 23 5mA vxx 23 0 0V e4 24 0 6 0 1.0 e5 25 0 7 0 1.0 e6 26 0 4 0 1.0 r9 24 23 3K r10 25 23 1K r11 26 23 1K * * Models * .model qn npn(is=5e-15 bf=200 tf=0.05nS) .model qp pnp(is=5e-15 bf=200 tf=0.05nS) .model dclamp d(is=1e-30 ibv=0.266 bv=1.3 n=4) .ends *------------------------------------------------------------------------- *EHA5190 Macromodel * Connections: +input * | -input * | | +Vsupply * | | | -Vsupply * | | | | output * | | | | | .subckt EHA5190/EL 5 4 11 6 10 * *Input Stage * ie 37 6 2mA r6 36 37 60 r7 38 37 60 rc1 11 30 75 rc2 11 39 75 q1 30 5 36 qn q2 39 4 38 qna ediff 33 0 39 30 7.25 rdiff 33 0 1Meg * * Compensation Section * ga 0 34 33 0 2.6m rh 34 0 1.5Meg ch 34 0 3.5pF rc 34 40 600 cc 40 0 7pF * * Poles * ep 41 0 40 0 1 rpa 41 42 75 cpa 42 0 5pF rpb 42 43 50 cpb 43 0 5pF * * Output Stage * ios1 11 50 1.25mA ios2 51 6 1.25mA q3 6 43 50 qp q4 11 43 51 qn q5 11 50 52 qn q6 6 51 53 qp ros1 52 10 25 ros2 10 53 25 * * Power Supply Current * ips 11 6 8.5mA * * Models * .model qn npn(is=800.0E-18 bf= 200 tf=0.2nS) .model qna npn(is=864E-18 bf=250 tf=0.2nS) .model qp pnp(is=800E-18 bf=60 tf=0.2nS) .ends *-------------------------------------------------------------------------