* THAT CORPORATION SPICE models * document #660852 * * REV. 00 1/24/96 * 01 1/9/98 * 02 11/9/98 * 03 8/16/99 - Added NPN and PNP Transistors from 100-series arrays * 04 9/28/04 - Added THAT124x and THAT120x series spice models * - Deleted NPN and PNP Transistors from 100-series arrays * - Added NPN and PNP Transistors from 300-series arrays * - Models names were changed for more consistency as follows: * 4301VCA to 4301VCA_THAT * 4301OA1 to 4301OA1_THAT * 4301OA2 to 4301OA2_THAT * 4301OA3 to 4301OA3_THAT * 4301RMS to 4301RMS_THAT * T2180A to 2180A_THAT * T2180B to 2180B_THAT * T2180C to 2180C_THAT * T2181A to 2181A_THAT * T2181B to 2181B_THAT * T2181C to 2181C_THAT * * This information is protected under the United States copyright * laws. THAT Corporation ("THAT") hereby grants users of this * macromodel (the "User"), a nonexclusive, nontransferable * license to use this macromodel as long as the licensee abides * by the terms of this agreement. Before using the macromodel, * the User should read this license. If the User does not accept * these terms, the macromodel contained herein should be erased, * destroyed or returned to THAT within 30 days. * * The User may copy and distribute, at no charge, verbatim copies * of the Macromodel as contained herein, in any medium, provided * that the User conspicuously publishes on each copy this copyright * notice and disclaimer of warranty. The User may modify this * macromodel to suit his or her specific applications, and the User * may make copies of the modified macromodel for use within his or * her company only, and provided the modified files carry prominent * notices stating that the files have been changed, and the date of * any changes. * * This macromodel is provided "AS IS, WHERE IS, AND WITH NO WARRANTY * OF ANY KIND EITHER EXPRESSED OR IMPLIED, INCLUDING BUT NOT LIMITED * TO ANY IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A * PARTICULAR PURPOSE." In no event will THAT be liable for special, * collateral, incidental, or consequential damages in connection * with or arising out of the use of this macromodel. THAT reserves * the right to make changes to the products and macromodel without * prior notice. * *$ * ======================================================================== *THAT4301 VCA MACROMODEL *CONNECTIONS: * Iin - Current Input * | Ec+ - Positive Control Port * | | Ec- - Negative Control Port * | | | Sym - Symmetry Adjust Terminal * | | | | Vcc - Positive Supply Voltage * | | | | | Vee - Negative Supply Voltage * | | | | | | Iout - Current Output * | | | | | | | GND * | | | | | | | | .SUBCKT 4301VCA_THAT P17 P15 P16 P14 P11 P10 P13 P9 * J1 3 P17 1 FET 4 J2 4 P9 2 FET 4 CIN P17 P10 50pF RS1 1 7 2.4K RS2 2 7 2.4K I1 P11 7 120uA C2 3 4 20pF RD1 3 P10 1K RD2 4 P10 1K GA P11 8 4 3 .001 RC1 8 0 12.6MEG CC 8 5 55pF RC2 5 P10 3K EA P11 9 8 0 1 RA 9 10 820 CZ 9 10 300pF Q1 10 10 11 QNPN Q2 10 10 12 QNPN RE1 11 13 1 RE2 12 14 0.9 Q3 P17 P15 13 QPNP Q4 P13 P16 14 QPNP Q5 P17 P16 15 QNPN Q6 P13 P14 16 QNPN RE3 15 17 1 RE4 16 18 0.9 Q7 19 19 17 QPNP Q8 19 19 18 QPNP COUT P13 0 35pF I2 19 P10 6mA IBIAS 0 6 30uA Q9 6 6 20 QNPN Q10 0 0 20 QPNP EBIAS 10 19 6 0 2 .MODEL FET PJF(VTO=-1.46 BETA=1.67E-4 IS=10E-14) .MODEL QNPN NPN(IS=6E-15 BF=250 VAF=95 CJE=7.5pF CJC=2.7pF) .MODEL QPNP PNP(IS=4.7E-14 BF=125 VAF=50 CJE=20pF CJC=33pF) .ENDS * * ======================================================================== * THAT4301 OA1 Macromodel * REV 01 1/9/98 * Note that this model corresponds to the opamp accessed through pins * 18, 19, and 20 of the 4301P (DIP package). Power supply connections * must be added as indicated below. * * connections: non-inverting input * | inverting input * | | positive power supply * | | | negative power supply * | | | | output * | | | | | .subckt 4301OA1_THAT 1 2 3 4 5 * c1 11 12 14.5E-12 c2 6 7 25.00E-12 dc 5 53 dx de 54 5 dx dlp 90 91 dx dln 92 90 dx dp 4 3 dx egnd 99 0 poly(2) (3,0) (4,0) 0 .5 .5 fb 7 99 poly(5) vb vc ve vlp vln 0 3.255E6 -3E6 3E6 3E6 -3E6 ga 6 0 11 12 785.4E-6 gcm 0 6 10 99 7.854E-9 iee 3 10 dc 50.30E-6 hlim 90 0 vlim 1K q1 11 2 13 qx q2 12 1 14 qx r2 6 9 100.0E3 rc1 4 11 1.273E3 rc2 4 12 1.273E3 re1 13 10 237.2 re2 14 10 237.2 ree 10 99 3.976E6 ro1 8 5 220 ro2 7 99 220 rp 3 4 48.66E3 vb 9 0 dc 0 vc 3 53 dc 1.600 ve 54 4 dc 1.200 vlim 7 8 dc 0 vlp 91 0 dc 3.40 vln 0 92 dc 5.90 .model dx D(Is=800.0E-18) .model qx PNP(Is=800.0E-18 Bf=166.7) .ends * * ======================================================================== * THAT4301 OA2 Macromodel * REV 01 1/9/98 * Note that this model corresponds to the opamp accessed through pins * 6, 7, and 8 of the 4301P (DIP package). Power supply connections * must be added as indicated below. * * connections: non-inverting input * | inverting input * | | positive power supply * | | | negative power supply * | | | | output * | | | | | .subckt 4301OA2_THAT 1 2 3 4 5 * c1 11 12 13.5E-12 c2 6 7 25.00E-12 dc 5 53 dx de 54 5 dx dlp 90 91 dx dln 92 90 dx dp 4 3 dx egnd 99 0 poly(2) (3,0) (4,0) 0 .5 .5 fb 7 99 poly(5) vb vc ve vlp vln 0 1.830E6 -2E6 2E6 2E6 -2E6 ga 6 0 11 12 785.4E-6 gcm 0 6 10 99 7.854E-9 iee 3 10 dc 50.30E-6 hlim 90 0 vlim 1K q1 11 2 13 qx q2 12 1 14 qx r2 6 9 100.0E3 rc1 4 11 1.273E3 rc2 4 12 1.273E3 re1 13 10 237.2 re2 14 10 237.2 ree 10 99 3.976E6 ro1 8 5 220 ro2 7 99 220 rp 3 4 66.69E3 vb 9 0 dc 0 vc 3 53 dc 1.600 ve 54 4 dc 1.200 vlim 7 8 dc 0 vlp 91 0 dc 3.40 vln 0 92 dc 5.90 .model dx D(Is=800.0E-18) .model qx PNP(Is=800.0E-18 Bf=166.7) .ends * * ======================================================================== * THAT4301 OA3 Macromodel * REV 01 1/9/98 * Note that this model corresponds to the opamp accessed through pins * 12 and 13 of the 4301P (DIP package). The non-inverting input is * internally connected to ground in the 4301. Power supply connections * must be added as indicated below. * * connections: non-inverting input * | inverting input * | | positive power supply * | | | negative power supply * | | | | output * | | | | | .subckt 4301OA3_THAT 1 2 3 4 5 * c1 11 12 14.0E-12 c2 6 7 25.00E-12 dc 5 53 dx de 54 5 dx dlp 90 91 dx dln 92 90 dx dp 4 3 dx egnd 99 0 poly(2) (3,0) (4,0) 0 .5 .5 fb 7 99 poly(5) vb vc ve vlp vln 0 50.32E6 -50E6 50E6 50E6 -50E6 ga 6 0 11 12 785.4E-6 gcm 0 6 10 99 7.854E-9 iee 3 10 dc 50.30E-6 hlim 90 0 vlim 1K q1 11 2 13 qx q2 12 1 14 qx r2 6 9 100.0E3 rc1 4 11 1.273E3 rc2 4 12 1.273E3 re1 13 10 237.2 re2 14 10 237.2 ree 10 99 3.976E6 ro1 8 5 45 ro2 7 99 45 rp 3 4 31.58E3 vb 9 0 dc 0 vc 3 53 dc 1.500 ve 54 4 dc 1.400 vlim 7 8 dc 0 vlp 91 0 dc 11.40 vln 0 92 dc 18 .model dx D(Is=800.0E-18) .model qx PNP(Is=800.0E-18 Bf=166.7) .ends * * ======================================================================== * THAT4301 RMS Macromodel * REV 01 1/9/98 * REV 02 6/9/98 * REV 03 11/9/98 * connections: input current * | timing current * | | timing capacitor * | | | output current * | | | | negative power supply * | | | | | positive power supply * | | | | | | ground * | | | | | | | .SUBCKT 4301RMS_THAT IN IT CT OUT V- V+ GND * I_bias V+ IN 100p I_I1 V+ 1 DC .000120 AC 0 V_V2 2 3 DC .61 AC 0 V_V3 4 GND DC .65 AC 0 E_E1 5 GND GND gmout 1 G_G1 GND gmout 6 7 .001 R_R1 5 2 100 R_R2 In 8 500 R_R3 In 9 500 J_J1 7 In 10 jp4301rm J_J2 6 GND 11 jp4301rm R_R4 V- 7 1k R_R5 V- 6 1k R_R6 10 1 400 R_R7 11 1 400 C_C1 7 6 10p R_R8 GND gmout 100000k C_C2 V- gmout 11p F_F1 Ct V- VF_F1 1.1 VF_F1 GND It 0V F_F2 GND 13 VF_F2 1 VF_F2 4 12 0V Q_Q11 14 14 Ct qn4301rm E_E2 14 GND 13 GND 1 E_E3 out GND Ct 15 1 Q_Q19 12 12 16 qn4301rm Q_Q20 16 9 3 qn4301rm Q_Q21 In 8 3 qn4301rm Q_Q22 12 2 In qn4301rm Q_Q26 gmout gmout V+ qn4301rm Q_Q27 V- V- gmout qn4301rm Q_Q23 13 13 17 qn4301rm Q_Q24 17 17 GND qn4301rm Q_Q25 15 15 GND qn4301rm I_I2 V+ 15 DC 8.2u AC 0 .model qn4301rm npn(bf=250 vaf=95 re=4) .MODEL jp4301rm PJF(VTO=-1.46 BETA=1.67E-4 IS=10E-14) .ENDS * * ======================================================================== * THAT 2180A VCA SPICE Macromodel, Beta Version 1.B4 12/30/97* * Copyright 1997 THAT Corporation, all rights reserved. * * Note: Macromodel net numbers correspond to the IC package numbers. * Pin 4 is not used on the 2180-series VCAs. * * Iin * | Ec+ * | | Ec- * | | | Vee * | | | | GND * | | | | | Vcc * | | | | | | Iout * | | | | | | | .SUBCKT 2180A_THAT 1 2 3 5 6 7 8 * * * R1 10 13 2.5k R2 10 14 2.5k I1 10 29 DC 50uA R3 11 7 8k R4 12 7 8k G1 7 15 11 12 1.25e-4 R5 0 15 10MEG R6 0 16 10k C1 16 15 10p R7 19 7 2k G2 19 20 15 0 5e-4 C2 19 7 8p E1 20 28 30 6 2 R8 5 29 1.7k V1 0 29 DC 2.1V I2 0 30 DC 20uA R9 4 2 27 C3 20 0 12p I3 20 28 DC 220uA V2 18 0 DC .7V V3 17 15 DC 1.4V Q1 11 1 13 QNHIB Q2 12 9 14 QNHIB Q3 20 21 23 QNPNNOM Q4 20 22 24 QNPNNOM Q5 8 4 27 QNPNNOM Q6 1 25 26 QNPNNOM Q7 1 2 23 QPNPNOM Q8 8 3 24 QPNPNOM Q9 28 28 27 QPNPNOM Q10 28 28 26 QPNPNOM Q11 28 29 5 QNPNNOM Q12 30 30 31 QNPNNOM Q13 0 0 31 QPNPNOM D1 18 15 DNOM D2 17 7 DNOM R10 3 25 20 R11 22 20 20 R12 21 20 27 Vos 9 6 DC 3mV Isym 0 4 DC -420nA * Isym = -420nA for typical THD. Set to -1uA for worst case THD. .model qnpnnom npn (is=1e-15 bf=200, vaf=110, cjc=3pF) .model qpnpnom pnp (is=1e-15 bf=100, vaf=85, cjc=5pf) .model qnhib npn (bf=16000) .model dnom d (is=1e-15) .ENDS * * ======================================================================== * THAT 2180B VCA SPICE Macromodel, Beta Version 1.B3 12/30/97* * Copyright 1997 THAT Corporation, all rights reserved. * * Note: Macromodel net numbers correspond to the IC package numbers. * Pin 4 is not used on the 2180-series VCAs. * Iin * | Ec+ * | | Ec- * | | | Vee * | | | | GND * | | | | | Vcc * | | | | | | Iout * | | | | | | | .SUBCKT 2180B_THAT 1 2 3 5 6 7 8 * * * R1 10 13 2.5k R2 10 14 2.5k I1 10 29 DC 50uA R3 11 7 8k R4 12 7 8k G1 7 15 11 12 1.25e-4 R5 0 15 10MEG R6 0 16 10k C1 16 15 10p R7 19 7 2k G2 19 20 15 0 5e-4 C2 19 7 8p E1 20 28 30 0 2 R8 5 29 1.7k V1 0 29 DC 2.1V I2 0 30 DC 20uA R9 4 2 27 C3 20 0 12p I3 20 28 DC 220uA V2 18 0 DC .7V V3 17 15 DC 1.4V Q1 11 1 13 QNHIB Q2 12 9 14 QNHIB Q3 20 21 23 QNPNNOM Q4 20 22 24 QNPNNOM Q5 8 4 27 QNPNNOM Q6 1 25 26 QNPNNOM Q7 1 2 23 QPNPNOM Q8 8 3 24 QPNPNOM Q9 28 28 27 QPNPNOM Q10 28 28 26 QPNPNOM Q11 28 29 5 QNPNNOM Q12 30 30 31 QNPNNOM Q13 0 0 31 QPNPNOM D1 18 15 DNOM D2 17 7 DNOM R10 3 25 20 R11 22 20 20 R12 21 20 27 Vos 9 6 DC 3mV Isym 0 4 DC -850nA * Isym = -850nA for typical THD. Set to -2.15uA for worst case THD. .model qnpnnom npn (is=1e-15 bf=150, vaf=110,cjc=3pF) .model qpnpnom pnp (is=1e-15 bf=100, vaf=85, cjc=5pf) .model qnhib npn (bf=14000) .model dnom d (is=1e-15) .ENDS * * ======================================================================== * THAT 2180C VCA SPICE Macromodel, Beta Version 1.B3 12/30/97* * Copyright 1997 THAT Corporation, all rights reserved. * * Note: Macromodel net numbers correspond to the IC package numbers. * Pin 4 is not used on the 2180-series VCAs. * * Iin * | Ec+ * | | Ec- * | | | Vee * | | | | GND * | | | | | Vcc * | | | | | | Iout * | | | | | | | .SUBCKT 2180C_THAT 1 2 3 5 6 7 8 * * * R1 10 13 2.5k R2 10 14 2.5k I1 10 29 DC 50uA R3 11 7 8k R4 12 7 8k G1 7 15 11 12 1.25e-4 R5 0 15 10MEG R6 0 16 10k C1 16 15 10p R7 19 7 2k G2 19 20 15 0 5e-4 C2 19 7 8p E1 20 28 30 0 2 R8 5 29 1.7k V1 0 29 DC 2.1V I2 0 30 DC 20uA R9 4 2 27 C3 20 0 12p I3 20 28 DC 220uA V2 18 0 DC .7V V3 17 15 DC 1.4V Q1 11 1 13 QNHIB Q2 12 9 14 QNHIB Q3 20 21 23 QNPNNOM Q4 20 22 24 QNPNNOM Q5 8 4 27 QNPNNOM Q6 1 25 26 QNPNNOM Q7 1 2 23 QPNPNOM Q8 8 3 24 QPNPNOM Q9 28 28 27 QPNPNOM Q10 28 28 26 QPNPNOM Q11 28 29 5 QNPNNOM Q12 30 30 31 QNPNNOM Q13 0 0 31 QPNPNOM D1 18 15 DNOM D2 17 7 DNOM R10 3 25 20 R11 22 20 20 R12 21 20 27 Vos 9 6 DC 3mV Isym 0 4 DC -3.3uA * Isym = -3.3uA for typical THD. Set to -5.9uA for worst case THD. .model qnpnnom npn (is=1e-15 bf=110, vaf=110, cjc=3pF) .model qpnpnom pnp (is=1e-15 bf=100, vaf=85, cjc=5pf) .model qnhib npn (bf=12000) .model dnom d (is=1e-15) .ENDS * * ======================================================================== * THAT 2181A VCA SPICE Macromodel, Beta Version 1.B3 12/30/97* * Copyright 1997 THAT Corporation, all rights reserved. * * Note: Macromodel net numbers correspond to the IC package numbers. * * * Iin * | Ec+ * | | Ec- * | | | Sym * | | | | Vee * | | | | | GND * | | | | | | Vcc * | | | | | | | Iout * | | | | | | | | .SUBCKT 2181A_THAT 1 2 3 4 5 6 7 8 * * * R1 10 13 2.5k R2 10 14 2.5k I1 10 29 DC 50uA R3 11 7 8k R4 12 7 8k G1 7 15 11 12 1.25e-4 R5 0 15 10MEG R6 0 16 10k C1 16 15 10p R7 19 7 2k G2 19 20 15 0 5e-4 C2 19 7 8p E1 20 28 30 0 2 R8 5 29 1.7k V1 0 29 DC 2.1V I2 0 30 DC 20uA R9 4 2 27 C3 20 0 12p I3 20 28 DC 220uA V2 18 0 DC .7V V3 17 15 DC 1.4V Q1 11 1 13 QNHIB Q2 12 9 14 QNHIB Q3 20 21 23 QNPNNOM Q4 20 22 24 QNPNNOM Q5 8 4 27 QNPNNOM Q6 1 25 26 QNPNNOM Q7 1 2 23 QPNPNOM Q8 8 3 24 QPNPNOM Q9 28 28 27 QPNPNOM Q10 28 28 26 QPNPNOM Q11 28 29 5 QNPNNOM Q12 30 30 31 QNPNNOM Q13 0 0 31 QPNPNOM D1 18 15 DNOM D2 17 7 DNOM R10 3 25 22 R11 22 20 22 R12 21 20 27 Vos 9 6 DC 3mV .model qnpnnom npn (is=1e-15 bf=200, vaf=110, cjc=3pF) .model qpnpnom pnp (is=1e-15 bf=100, vaf=85, cjc=5pf) .model qnhib npn (bf=16000) .model dnom d (is=1e-15) .ENDS * * ======================================================================== * THAT 2181B VCA SPICE Macromodel, Beta Version 1.B3 12/30/97* * Copyright 1997 THAT Corporation, all rights reserved. * * Note: Macromodel net numbers correspond to the IC package numbers. * * * Iin * | Ec+ * | | Ec- * | | | Sym * | | | | Vee * | | | | | GND * | | | | | | Vcc * | | | | | | | Iout * | | | | | | | | .SUBCKT 2181B_THAT 1 2 3 4 5 6 7 8 * * * R1 10 13 2.5k R2 10 14 2.5k I1 10 29 DC 50uA R3 11 7 8k R4 12 7 8k G1 7 15 11 12 1.25e-4 R5 0 15 10MEG R6 0 16 10k C1 16 15 10p R7 19 7 2k G2 19 20 15 0 5e-4 C2 19 7 8p E1 20 28 30 0 2 R8 5 29 1.7k V1 0 29 DC 2.1V I2 0 30 DC 20uA R9 4 2 27 C3 20 0 12p I3 20 28 DC 220uA V2 18 0 DC .7V V3 17 15 DC 1.4V Q1 11 1 13 QNHIB Q2 12 9 14 QNHIB Q3 20 21 23 QNPNNOM Q4 20 22 24 QNPNNOM Q5 8 4 27 QNPNNOM Q6 1 25 26 QNPNNOM Q7 1 2 23 QPNPNOM Q8 8 3 24 QPNPNOM Q9 28 28 27 QPNPNOM Q10 28 28 26 QPNPNOM Q11 28 29 5 QNPNNOM Q12 30 30 31 QNPNNOM Q13 0 0 31 QPNPNOM D1 18 15 DNOM D2 17 7 DNOM R10 3 25 20 R11 22 20 20 R12 21 20 27 Vos 9 6 DC 3mV .model qnpnnom npn (is=1e-15 bf=150, vaf=110, cjc=3pF) .model qpnpnom pnp (is=1e-15 bf=100, vaf=85, cjc=5pf) .model qnhib npn (bf=14000) .model dnom d (is=1e-15) .ENDS * * ======================================================================== * THAT 2181C VCA SPICE Macromodel, Beta Version 1.B3 12/30/97* * Copyright 1997 THAT Corporation, all rights reserved. * * Note: Macromodel net numbers correspond to the IC package numbers. * * * Iin * | Ec+ * | | Ec- * | | | Sym * | | | | Vee * | | | | | GND * | | | | | | Vcc * | | | | | | | Iout * | | | | | | | | .SUBCKT 2181C_THAT 1 2 3 4 5 6 7 8 * * * R1 10 13 2.5k R2 10 14 2.5k I1 10 29 DC 50uA R3 11 7 8k R4 12 7 8k G1 7 15 11 12 1.25e-4 R5 0 15 10MEG R6 0 16 10k C1 16 15 10p R7 19 7 2k G2 19 20 15 0 5e-4 C2 19 7 8p E1 20 28 30 0 2 R8 5 29 1.7k V1 0 29 DC 2.1V I2 0 30 DC 20uA R9 4 2 27 C3 20 0 12p I3 20 28 DC 220uA V2 18 0 DC .7V V3 17 15 DC 1.4V Q1 11 1 13 QNHIB Q2 12 9 14 QNHIB Q3 20 21 23 QNPNNOM Q4 20 22 24 QNPNNOM Q5 8 4 27 QNPNNOM Q6 1 25 26 QNPNNOM Q7 1 2 23 QPNPNOM Q8 8 3 24 QPNPNOM Q9 28 28 27 QPNPNOM Q10 28 28 26 QPNPNOM Q11 28 29 5 QNPNNOM Q12 30 30 31 QNPNNOM Q13 0 0 31 QPNPNOM D1 18 15 DNOM D2 17 7 DNOM R10 3 25 20 R11 22 20 20 R12 21 20 27 Vos 9 6 DC 3mV .model qnpnnom npn (is=1e-15 bf=110, vaf=110, cjc=3pF) .model qpnpnom pnp (is=1e-15 bf=100, vaf=85, cjc=5pf) .model qnhib npn (bf=12000) .model dnom d (is=1e-15) .ENDS * * * ======================================================================== * THAT 2252V02 RMS SPICE Macromodel, Beta Version 1.B3 3/5/98* * Copyright 1998 THAT Corporation, all rights reserved. * * Note: Macromodel net numbers correspond to the IC package numbers. * * In * | Sym * | | GND * | | | Vee * | | | | Ibias * | | | | | Out * | | | | | | Cap * | | | | | | | Vcc * | | | | | | | | .SUBCKT 2252RMS_THAT IN SYM GND Vee IBIAS OUT CAP Vcc * E_E3 2 3 1 0 1 R_Rn2 1 0 1 C_Cn2 1 0 1p R_Rp2 0 4 1 E_E4 5 0 4 0 1 R_Rp3 0 6 1 C_Cp3 0 6 53.08n G_G2 0 4 2 7 100000 E_E5 8 0 6 0 1 C_Cp2 0 4 90.5n G_G3 0 6 CAP 9 100000 R_Rd CAP 10 0.000001 F_F1 Vcc 9 VF_F1 0.119 VF_F1 11 12 0V I_I3 Vcc 9 DC 0.0001uA I_I1 Vcc 0 DC 1mA F_F2 Vcc 3 VF_F2 0.119 VF_F2 12 13 0V I_I11 0 14 DC 10pA E_E6 15 16 14 0 1 F_F4 17 Vee VF_F4 0.33 VF_F4 13 Vee 0V I_I2 0 Vee DC 1mA V_Voff 18 0 0mV E_E1 15 0 19 20 1 R_Rp1 20 19 5Meg C_Cp1 20 19 5pF F_F5 Vcc 20 VF_F5 1 VF_F5 Vcc 19 0V R_Rb IN 21 20 V_V8 OUT 8 4mV Q_Q39 19 IN 17 n2252hib 1 Q_Q40 20 18 17 n2252hib 1 Q_Q41 22 22 23 n2252lob 1 Q_Q42 23 23 11 n2252lob 1 Q_Q43 5 5 24 n2252lob 1 Q_Q44 9 9 25 n2252lob 1 Q_Q45 25 25 8 n2252lob 1 Q_Q46 3 3 0 n2252lob 1 Q_Q47 14 14 26 n2252lob 1 Q_Q48 26 26 0 n2252lob 1 Q_Q49 5 5 10 n2252lob 1 Q_Q50 IBIAS IBIAS 22 n2252lob 1 Q_Q51 7 SYM 16 n2252lob 1 Q_Q52 7 15 IN n2252lob 1 Q_Q53 24 24 7 n2252lob 1 Q_Q54 IN 21 16 n2252lob 1 .ENDS * *$ .model n2252hib NPN(is=1e-15 bf=1600, vaf=110, cjc=3pF) *$ *$ .model n2252lob NPN(is=1e-15 bf=100, vaf=110, cjc=3pF) * *$ * ======================================================================== * THAT 124x series P,S packages * REV 00 - created on 09/17/2004, by FF * * * DEVICE=THAT1240 P,S 0dB gain Line receiver * THAT1240 "macromodel" created on 09/17/2004, by FF * * connections: non-inverting input * | inverting input * | | positive power supply * | | | negative power supply * | | | | output * | | | | | ref voltage or GND * | | | | | | sense * | | | | | | | .subckt 1240_THAT IN+ IN- VCC VEE OUT REF SENSE * R_R1 IN+ 40 9000 R_R3 IN- 50 9000 R_R4 50 SENSE 9000.5692 R_R2 40 REF 9000 D_D13 SENSE VCC DPROT D_D11 OUT VCC DPROT D_D9 REF VCC DPROT D_D2 10 IN+ DPROT D_D1 10 VCC DPROT D_D4 11 IN- DPROT D_D3 11 VCC DPROT D_D7 13 IN- DPROT D_D5 12 IN+ DPROT D_D8 13 VEE DPROT D_D6 12 VEE DPROT D_D10 VEE REF DPROT D_D12 VEE OUT DPROT D_D14 VEE SENSE DPROT X_U1 40 50 VCC VEE OUT OA_33X36706 .ends *$ * ======================================================================== * DEVICE=THAT1243 P,S -3dB gain Line receiver * THAT1243 "macromodel" created on 09/17/2004, by FF * * connections: non-inverting input * | inverting input * | | positive power supply * | | | negative power supply * | | | | output * | | | | | ref voltage or GND * | | | | | | sense * | | | | | | | .subckt 1243_THAT IN+ IN- VCC VEE OUT REF SENSE * R_R1 IN+ 40 10500 R_R3 IN- 50 10500 R_R4 50 SENSE 7500.405 R_R2 40 REF 7500 D_D13 SENSE VCC DPROT D_D11 OUT VCC DPROT D_D9 REF VCC DPROT D_D2 10 IN+ DPROT D_D1 10 VCC DPROT D_D4 11 IN- DPROT D_D3 11 VCC DPROT D_D7 13 IN- DPROT D_D5 12 IN+ DPROT D_D8 13 VEE DPROT D_D6 12 VEE DPROT D_D10 VEE REF DPROT D_D12 VEE OUT DPROT D_D14 VEE SENSE DPROT X_U1 40 50 VCC VEE OUT OA_33X36706 .ends *$ * ======================================================================== * DEVICE=THAT1246 P,S -6dB gain Line receiver * THAT1246 "macromodel" created on 09/17/2004, by FF * * connections: non-inverting input * | inverting input * | | positive power supply * | | | negative power supply * | | | | output * | | | | | ref voltage or GND * | | | | | | sense * | | | | | | | .subckt 1246_THAT IN+ IN- VCC VEE OUT REF SENSE * R_R1 IN+ 40 12k R_R3 IN- 50 12k R_R4 50 SENSE 6000.285 R_R2 40 REF 6k D_D13 SENSE VCC DPROT D_D11 OUT VCC DPROT D_D9 REF VCC DPROT D_D2 10 IN+ DPROT D_D1 10 VCC DPROT D_D4 11 IN- DPROT D_D3 11 VCC DPROT D_D7 13 IN- DPROT D_D5 12 IN+ DPROT D_D8 13 VEE DPROT D_D6 12 VEE DPROT D_D10 VEE REF DPROT D_D12 VEE OUT DPROT D_D14 VEE SENSE DPROT X_U1 40 50 VCC VEE OUT OA_33X36706 .ends *$ * ======================================================================== * DEVICE=OA_33X36706,OPAMP,PNP,INT * OA_33X36706 operational amplifier "macromodel" subcircuit for THAT124x series * created using Parts release 8.0 on 09/16/2004 by FF * Parts is a MicroSim product. * * connections: non-inverting input * | inverting input * | | positive power supply * | | | negative power supply * | | | | output * | | | | | .subckt OA_33X36706 1 2 3 4 5 * c1 11 12 285.31E-15 c2 6 7 12.100E-12 dc 5 53 dy de 54 5 dy dlp 90 91 dx dln 92 90 dx dp 4 3 dx egnd 99 0 poly(2) (3,0) (4,0) 0 .5 .5 fb 7 99 poly(5) vb vc ve vlp vln 0 504.64E3 -1E3 1E3 500E3 -500E3 ga 6 0 11 12 1.1632E-3 gcm 0 6 10 99 1.1632E-9 iee 3 10 dc 147.60E-6 hlim 90 0 vlim 1K q1 11 2 13 qx1 q2 12 1 14 qx2 r2 6 9 100.00E3 rc1 4 11 859.69 rc2 4 12 859.69 re1 13 10 495.25 re2 14 10 495.25 ree 10 99 1.3550E6 ro1 8 5 27 ro2 7 99 27 rp 3 4 16.185E3 vb 9 0 dc 0 vc 3 53 dc 2.8037 ve 54 4 dc 2.8037 vlim 7 8 dc 0 vlp 91 0 dc 25 vln 0 92 dc 25 .model dx D(Is=800.00E-18) .model dy D(Is=800.00E-18 Rs=1m Cjo=10p) .model qx1 PNP(Is=800.00E-18 Bf=60.500) .model qx2 PNP(Is=800.0000E-18 Bf=60.500) .ends *$ * THAT124x models end here *$ * ======================================================================== * THAT 120x series P,S packages * REV 00 - created on 09/24/2004, by FF * * * DEVICE=THAT1200 P,S 0dB gain Line receiver * THAT1200 "macromodel" created on 09/24/2004, by FF * * connections: non-inverting input * | inverting input * | | positive power supply * | | | negative power supply * | | | | output * | | | | | ref voltage or GND * | | | | | | CM input * | | | | | | | CM output * | | | | | | | | .subckt 1200_THAT IN+ IN- VCC VEE OUT REF CMIN CMOUT * R_R4 2 CMIN 24k R_R7 5 4 24k R_R6 3 5 24k X_U1 1 3 Vcc Vee 3 OA1456_01 X_U2 2 4 Vcc Vee 4 OA1456_01 R_R5 REF CMIN 24k R_R10 6 REF 6000 R_R8 3 6 6000 R_R9 4 7 6000.47 X_U4 6 7 Vcc Vee OUT OA3456_01 X_U3 5 CMOUT Vcc Vee CMOUT OA4456_01 R_R11 7 OUT 6000 R_R3 CMIN 1 24k R_R2 IN- 2 0.00001 R_R1 IN+ 1 0.00001 D_D10 Vee CMIN DPROT D_D7 11 IN+ DPROT D_D8 11 Vee DPROT D_D6 10 Vee DPROT D_D5 10 IN+ DPROT D_D9 CMIN Vcc DPROT D_D2 8 IN+ DPROT D_D1 8 Vcc DPROT D_D4 9 Vcc DPROT D_D3 9 IN+ DPROT D_D15 REF Vcc DPROT D_D14 Vee OUT DPROT D_D13 OUT Vcc DPROT D_D16 Vee REF DPROT D_D11 CMOUT Vcc DPROT D_D12 Vee CMOUT DPROT .ends *$ * ========================================================================== * * DEVICE=THAT1203 P,S -3dB gain Line receiver * THAT1206 "macromodel" created on 09/24/2004, by FF * * connections: non-inverting input * | inverting input * | | positive power supply * | | | negative power supply * | | | | output * | | | | | ref voltage or GND * | | | | | | CM input * | | | | | | | CM output * | | | | | | | | .subckt 1203_THAT IN+ IN- VCC VEE OUT REF CMIN CMOUT * R_R4 2 CMIN 17k R_R7 5 4 24k R_R6 3 5 24k X_U1 1 3 Vcc Vee 3 OA1456_01 X_U2 2 4 Vcc Vee 4 OA1456_01 R_R5 REF CMIN 24k R_R10 6 REF 6000 R_R8 3 6 6000 R_R9 4 7 6000.37 X_U4 6 7 Vcc Vee OUT OA3456_01 X_U3 5 CMOUT Vcc Vee CMOUT OA4456_01 R_R11 7 OUT 6000 R_R3 CMIN 1 17k R_R2 IN- 2 7k R_R1 IN+ 1 7k D_D10 Vee CMIN DPROT D_D7 11 IN+ DPROT D_D8 11 Vee DPROT D_D6 10 Vee DPROT D_D5 10 IN+ DPROT D_D9 CMIN Vcc DPROT D_D2 8 IN+ DPROT D_D1 8 Vcc DPROT D_D4 9 Vcc DPROT D_D3 9 IN+ DPROT D_D15 REF Vcc DPROT D_D14 Vee OUT DPROT D_D13 OUT Vcc DPROT D_D16 Vee REF DPROT D_D11 CMOUT Vcc DPROT D_D12 Vee CMOUT DPROT .ends *$ * ========================================================================== * DEVICE=THAT1206 P,S -6dB gain Line receiver * THAT1206 "macromodel" created on 09/24/2004, by FF * * connections: non-inverting input * | inverting input * | | positive power supply * | | | negative power supply * | | | | output * | | | | | ref voltage or GND * | | | | | | CM input * | | | | | | | CM output * | | | | | | | | .subckt 1206_THAT IN+ IN- VCC VEE OUT REF CMIN CMOUT * R_R4 2 CMIN 17k R_R7 5 4 24k R_R6 3 5 24k X_U1 1 3 Vcc Vee 3 OA1456_01 X_U2 2 4 Vcc Vee 4 OA1456_01 R_R5 REF CMIN 24k R_R10 6 REF 5k R_R8 3 6 7066 R_R9 4 7 7066 X_U4 6 7 Vcc Vee OUT OA3456_01 X_U3 5 CMOUT Vcc Vee CMOUT OA4456_01 R_R11 7 OUT 5000.1 R_R3 CMIN 1 17k R_R2 IN- 2 7k R_R1 IN+ 1 7k D_D10 Vee CMIN DPROT D_D7 11 IN+ DPROT D_D8 11 Vee DPROT D_D6 10 Vee DPROT D_D5 10 IN+ DPROT D_D9 CMIN Vcc DPROT D_D2 8 IN+ DPROT D_D1 8 Vcc DPROT D_D4 9 Vcc DPROT D_D3 9 IN+ DPROT D_D15 REF Vcc DPROT D_D14 Vee OUT DPROT D_D13 OUT Vcc DPROT D_D16 Vee REF DPROT D_D11 CMOUT Vcc DPROT D_D12 Vee CMOUT DPROT .ends *$ * ========================================================================== * OA1456_01 operational amplifier "macromodel" subcircuit for THAT120x series * created using Parts release 8.0 on 09/21/104 at 14:01 * Parts is a MicroSim product. * * connections: non-inverting input * | inverting input * | | positive power supply * | | | negative power supply * | | | | output * | | | | | .subckt OA1456_01 1 2 3 4 5 * c1 11 12 866.03E-15 c2 6 7 3.0000E-12 cee 10 99 352.17E-15 dc 5 53 dy de 54 5 dy dlp 90 91 dx dln 92 90 dx dp 4 3 dx egnd 99 0 poly(2) (3,0) (4,0) 0 .5 .5 fb 7 99 poly(5) vb vc ve vlp vln 0 405.86E3 -1E3 1E3 410E3 -410E3 ga 6 0 11 12 439.19E-6 gcm 0 6 10 99 4.3919E-9 iee 3 10 dc 78.480E-6 hlim 90 0 vlim 1K q1 11 2 13 qx1 q2 12 1 14 qx2 r2 6 9 100.00E3 rc1 4 11 2.2769E3 rc2 4 12 2.2769E3 re1 13 10 1.5777E3 re2 14 10 1.5777E3 ree 10 99 2.5484E6 ro1 8 5 50 ro2 7 99 50 rp 3 4 32.531E3 vb 9 0 dc 0 vc 3 53 dc 1.9847 ve 54 4 dc 2.3847 vlim 7 8 dc 0 vlp 91 0 dc 12 vln 0 92 dc 12 .model dx D(Is=800.00E-18) .model dy D(Is=800.00E-18 Rs=1m Cjo=10p) .model qx1 PNP(Is=800.00E-18 Bf=55.870) .model qx2 PNP(Is=800.0000E-18 Bf=55.870) .ends *$ * ========================================================================== * OA3456_01 operational amplifier "macromodel" subcircuit for THAT120x series * created using Parts release 8.0 on 09/21/104 at 14:16 * Parts is a MicroSim product. * * connections: non-inverting input * | inverting input * | | positive power supply * | | | negative power supply * | | | | output * | | | | | .subckt OA3456_01 1 2 3 4 5 * c1 11 12 3.4352E-12 c2 6 7 11.900E-12 dc 5 53 dy de 54 5 dy dlp 90 91 dx dln 92 90 dx dp 4 3 dx egnd 99 0 poly(2) (3,0) (4,0) 0 .5 .5 fb 7 99 poly(5) vb vc ve vlp vln 0 90.553E3 -1E3 1E3 91E3 -91E3 ga 6 0 11 12 2.7216E-3 gcm 0 6 10 99 27.216E-9 iee 3 10 dc 154.70E-6 hlim 90 0 vlim 1K q1 11 2 13 qx1 q2 12 1 14 qx2 r2 6 9 100.00E3 rc1 4 11 367.43 rc2 4 12 367.43 re1 13 10 33.049 re2 14 10 33.049 ree 10 99 1.2928E6 ro1 8 5 42 ro2 7 99 42 rp 3 4 13.481E3 vb 9 0 dc 0 vc 3 53 dc 3.0057 ve 54 4 dc 2.0057 vlim 7 8 dc 0 vlp 91 0 dc 27 vln 0 92 dc 27 .model dx D(Is=800.00E-18) .model dy D(Is=800.00E-18 Rs=1m Cjo=10p) .model qx1 PNP(Is=800.00E-18 Bf=69.685E3) .model qx2 PNP(Is=800.0000E-18 Bf=69.685E3) .ends *$ * ========================================================================== * OA4456_01 operational amplifier "macromodel" subcircuit for THAT120x series * created using Parts release 8.0 on 09/21/104 at 17:53 * Parts is a MicroSim product. * * connections: non-inverting input * | inverting input * | | positive power supply * | | | negative power supply * | | | | output * | | | | | .subckt OA4456_01 1 2 3 4 5 * c1 11 12 498.66E-15 c2 6 7 4.0000E-12 cee 10 99 1.0980E-12 dc 5 53 dy de 54 5 dy dlp 90 91 dx dln 92 90 dx dp 4 3 dx egnd 99 0 poly(2) (3,0) (4,0) 0 .5 .5 fb 7 99 poly(5) vb vc ve vlp vln 0 20.789E3 -1E3 1E3 21E3 -21E3 ga 6 0 11 12 588.11E-6 gcm 0 6 10 99 5.8811E-9 iee 3 10 dc 105.40E-6 hlim 90 0 vlim 1K q1 11 2 13 qx1 q2 12 1 14 qx2 r2 6 9 100.00E3 rc1 4 11 1.7004E3 rc2 4 12 1.7004E3 re1 13 10 1.1870E3 re2 14 10 1.1870E3 ree 10 99 1.8975E6 ro1 8 5 167 ro2 7 99 167 rp 3 4 95.147E3 vb 9 0 dc 0 vc 3 53 dc 1.7773 ve 54 4 dc 2.3773 vlim 7 8 dc 0 vlp 91 0 dc 9 vln 0 92 dc 9 .model dx D(Is=800.00E-18) .model dy D(Is=800.00E-18 Rs=1m Cjo=10p) .model qx1 PNP(Is=800.00E-18 Bf=74.286) .model qx2 PNP(Is=800.0000E-18 Bf=74.286) .ends *$ * THAT120x models end here *$ * ======================================================================== * Protection diode model for THAT124x and THAT120x series * .MODEL DPROT D (IS=864.10E-18 RS=100 CJO=194.00E-15 M=.42945 BV=60 IBV=1E-10) *$ * * ======================================================================== THAT 300-Series Noise Performance Optimized Models .MODEL QPNP_THAT_NS PNP ( + IS = 2.330327E-15 BF = 80 + NF = 0.998 BR = 54.6051301 + NR = 1 ISE = 6.471784E-14 NE = 1.5256667 + ISC = 9.821992E-14 NC = 1.4090231 VAF = 50 + VAR = 8.5915034 IKF = 0.1605012 IKR = 2.997951E-3 + RB = 25 RBM = 1.604356 IRB = 1.3734E-4 + RE = 0.2 RC = 17.9803001 CJE = 5.921046E-12 + VJE = 0.7302802 MJE = 0.49864 FC = 0.9317095 + CJC = 3.374991E-12 VJC = 0.6162124 MJC = 0.497456 + TF = 2.416792E-10 XTF = 5.9184348 ITF = 0.0726275 + VTF = 1.2378779 QCO = 1E-12 RCO = 1 + VO = 1 GAMMA = 1E-13 XTB = 1.2 + PTF = 20) * .MODEL QNPN_THAT_NS NPN ( + IS = 5.005475E-15 BF = 150 + NF = 1 BR = 119.4532856 + NR = 1 ISE = 3.002016E-16 NE = 1.3340565 + ISC = 3.173175E-14 NC = 1.6525 VAF = 60 + VAR = 10.8094728 IKF = 0.2850543 IKR = 0.0103675 + RB = 30 RBM = 2.94235 IRB = 1.750788E-4 + RE = 0.2 RC = 12.4561714 CJE = 5.086292E-12 + VJE = 0.7241957 MJE = 0.49456 FC = 0.97 + CJC = 2.190824E-12 VJC = 0.5595858 MJC = 0.498675 + TF = 7.063932E-11 XTF = 17.846692 ITF = 0.0862198 + VTF = 1.7447209 QCO = 1E-12 RCO = 1 + VO = 1 GAMMA = 1E-13 XTB = 1.1 + PTF = 20) * * THAT 300-Series Transistor Models - High Frequency Performance Optimized .MODEL QPNP_THAT_HF PNP ( + IS = 2.330327E-15 BF = 80 + NF = 0.998 BR = 54.6051301 + NR = 1 ISE = 6.471784E-14 NE = 1.5256667 + ISC = 9.821992E-14 NC = 1.4090231 VAF = 50 + VAR = 8.5915034 IKF = 0.1605012 IKR = 2.997951E-3 + RB = 103.345 RBM = 2.20352 IRB = 1.3734E-4 + RE = 0.2 RC = 17.9803001 CJE = 5.921046E-12 + VJE = 0.7302802 MJE = 0.49864 FC = 0.9317095 + CJC = 3.374991E-12 VJC = 0.6162124 MJC = 0.497456 + TF = 2.416792E-10 XTF = 5.9184348 ITF = 0.0726275 + VTF = 1.2378779 QCO = 1E-12 RCO = 1 + VO = 1 GAMMA = 1E-13 XTB = 1.2 + PTF = 20) * .MODEL QNPN_THAT_HF NPN ( + IS = 5.005475E-15 BF = 150 + NF = 1 BR = 119.4532856 + NR = 1 ISE = 3.002016E-16 NE = 1.3340565 + ISC = 3.173175E-14 NC = 1.6525 VAF = 60 + VAR = 10.8094728 IKF = 0.2850543 IKR = 0.0103675 + RB = 117.3192 RBM = 2.035 IRB = 1.750788E-4 + RE = 0.2 RC = 12.4561714 CJE = 5.086292E-12 + VJE = 0.7241957 MJE = 0.49456 FC = 0.97 + CJC = 2.190824E-12 VJC = 0.5595858 MJC = 0.498675 + TF = 7.063932E-11 XTF = 17.846692 ITF = 0.0862198 + VTF = 1.7447209 QCO = 1E-12 RCO = 1 + VO = 1 GAMMA = 1E-13 XTB = 1.1 + PTF = 20) * *$