mirror of
https://github.com/mamedev/mame.git
synced 2024-11-16 07:48:32 +01:00
1d875f33fe
matrices are e.g. used in congo bongo without optimisation. (nw)
471 lines
12 KiB
C
471 lines
12 KiB
C
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/* € */ // ABC
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#include "netlist/devices/net_lib.h"
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#include "netlist/devices/nld_system.h"
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#include "netlist/analog/nld_bjt.h"
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#include "netlist/analog/nld_twoterm.h"
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/* ----------------------------------------------------------------------------
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* Library section header START
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* ---------------------------------------------------------------------------*/
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#ifndef __PLIB_PREPROCESSOR__
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#define LM358_DIP(_name) \
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NET_REGISTER_DEV_X(LM358_DIP, _name)
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#define G501534_DIP(_name) \
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NET_REGISTER_DEV_X(G501534_DIP, _name)
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NETLIST_EXTERNAL(congob_lib)
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#endif
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/* ----------------------------------------------------------------------------
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* Library section header END
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* ---------------------------------------------------------------------------*/
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NETLIST_START(dummy)
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// EESCHEMA NETLIST VERSION 1.1 (SPICE FORMAT) CREATION DATE: WED 01 JUL 2015 11:09:25 PM CEST
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// TO EXCLUDE A COMPONENT FROM THE SPICE NETLIST ADD [SPICE_NETLIST_ENABLED] USER FIELD SET TO: N
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// TO REORDER THE COMPONENT SPICE NODE SEQUENCE ADD [SPICE_NODE_SEQUENCE] USER FIELD AND DEFINE SEQUENCE: 2,1,0
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// SHEET NAME:/
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// IGNORED O_AUDIO0: O_AUDIO0 64 0
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// .END
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/* €€ */ SOLVER(Solver, 24000)
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PARAM(Solver.ACCURACY, 1e-8)
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PARAM(Solver.NR_LOOPS, 9000)
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PARAM(Solver.SOR_FACTOR, 0.001)
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PARAM(Solver.GS_LOOPS, 1)
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//PARAM(Solver.GS_THRESHOLD, 99)
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PARAM(Solver.ITERATIVE, "SOR")
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PARAM(Solver.PARALLEL, 0)
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PARAM(Solver.PIVOT, 0)
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LOCAL_SOURCE(congob_lib)
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INCLUDE(congob_lib)
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TTL_INPUT(I_BASS_DRUM0, 0)
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//CLOCK(I_BASS_DRUM0, 2)
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TTL_INPUT(I_CONGA_H0, 0)
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//CLOCK(I_CONGA_H0, 2)
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TTL_INPUT(I_CONGA_L0, 0)
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//CLOCK(I_CONGA_L0, 2)
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TTL_INPUT(I_GORILLA0, 0)
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//CLOCK(I_GORILLA0, 2)
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TTL_INPUT(I_RIM0, 0)
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//CLOCK(I_RIM0, 2)
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ALIAS(I_V0.Q, GND.Q)
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ANALOG_INPUT(I_V12, 12)
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ANALOG_INPUT(I_V5, 5)
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ANALOG_INPUT(I_V6, 6)
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/* temporary output stage */
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RES(RO, RES_K(50))
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CAP(CO, CAP_U(10))
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NET_C(R94.1, CO.1)
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NET_C(CO.2, RO.1)
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NET_C(RO.2, GND)
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// FIXME: Same as 1N4148
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NET_MODEL("1S2075 D(Is=2.52n Rs=.568 N=1.752 Cjo=4p M=.4 tt=20n Iave=200m Vpk=75)")
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NET_MODEL("2SC1941 NPN(IS=46.416f BF=210 NF=1.0022 VAF=600 IKF=500m ISE=60f NE=1.5 BR=2.0122 NR=1.0022 VAR=10G IKR=10G ISC=300p NC=2 RB=13.22 IRB=10G RBM=13.22 RE=100m RC=790m CJE=26.52p VJE=900m MJE=518m TF=1.25n XTF=10 VTF=10 ITF=500m PTF=0 CJC=4.89p VJC=750m MJC=237m XCJC=500m TR=100n CJS=0 VJS=750m MJS=500m XTB=1.5 EG=1.11 XTI=3 KF=0 AF=1 FC=500m)")
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INCLUDE(CongoBongo_schematics)
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/* The opamp actually has an FPF of about 500k. This doesn't work here and causes oscillations.
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* FPF here therefore about half the Solver clock.
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*/
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PARAM(XU16.B.MODEL, "MB3614(UGF=11k)")
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PARAM(XU17.C.MODEL, "MB3614(UGF=11k)")
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PARAM(XU17.A.MODEL, "MB3614(TYPE=1)")
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PARAM(XU17.B.MODEL, "MB3614(TYPE=1)")
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PARAM(XU17.D.MODEL, "MB3614(TYPE=1)")
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//PARAM(XU16.A.MODEL, "MB3614(TYPE=1)")
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PARAM(XU16.C.MODEL, "MB3614(TYPE=1)")
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PARAM(XU16.D.MODEL, "MB3614(TYPE=1)")
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#if 0
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PARAM(XU13.A.MODEL, "MB3614(TYPE=1)")
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PARAM(XU13.B.MODEL, "MB3614(TYPE=1)")
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PARAM(XU13.C.MODEL, "MB3614(TYPE=1)")
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PARAM(XU13.D.MODEL, "MB3614(TYPE=1)")
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#endif
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#if 1
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OPTIMIZE_FRONTIER(C51.1, RES_K(20), 50)
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OPTIMIZE_FRONTIER(R77.2, RES_K(20), 50)
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OPTIMIZE_FRONTIER(C25.2, RES_K(240), 50)
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OPTIMIZE_FRONTIER(C29.2, RES_K(390), 50)
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OPTIMIZE_FRONTIER(C37.2, RES_K(390), 50)
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OPTIMIZE_FRONTIER(C44.2, RES_K(200), 50)
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OPTIMIZE_FRONTIER(R90.2, RES_K(100), 50)
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OPTIMIZE_FRONTIER(R92.2, RES_K(15), 50)
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#endif
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NETLIST_END()
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NETLIST_START(CongoBongo_schematics)
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CAP(C20, CAP_N(68))
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CAP(C21, CAP_U(1))
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CAP(C22, CAP_U(47))
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CAP(C23, CAP_N(100))
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CAP(C24, CAP_N(100))
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CAP(C25, CAP_U(1))
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CAP(C26, CAP_N(68))
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CAP(C27, CAP_N(33))
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CAP(C28, CAP_U(47))
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CAP(C29, CAP_U(1))
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CAP(C30, CAP_N(33))
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CAP(C31, CAP_N(33))
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CAP(C32, CAP_N(68))
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CAP(C33, CAP_N(33))
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CAP(C34, CAP_U(47))
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CAP(C35, CAP_N(33))
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CAP(C36, CAP_N(33))
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CAP(C37, CAP_U(1))
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CAP(C38, CAP_N(10))
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CAP(C39, CAP_N(3.3))
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CAP(C40, CAP_U(2.2))
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CAP(C41, CAP_N(6.8))
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CAP(C42, CAP_N(6.8))
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CAP(C43, CAP_N(47))
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CAP(C44, CAP_U(1))
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CAP(C45, CAP_U(33))
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CAP(C46, CAP_N(100))
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CAP(C47, CAP_P(470))
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CAP(C48, CAP_N(1.5))
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CAP(C49, CAP_P(220))
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CAP(C50, CAP_N(3.9))
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CAP(C51, CAP_U(1))
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CAP(C52, CAP_U(1))
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CAP(C53, CAP_U(1))
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CAP(C54, CAP_U(1))
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CAP(C55, CAP_U(1))
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CAP(C56, CAP_U(10))
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CAP(C57, CAP_N(47))
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CAP(C58, CAP_N(22))
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CAP(C59, CAP_U(10))
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CAP(C60, CAP_N(22))
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CAP(C62, CAP_N(22))
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CAP(C61, CAP_U(1))
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DIODE(D1, "1S2075")
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DIODE(D2, "1S2075")
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DIODE(D3, "1S2075")
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DIODE(D4, "1S2075")
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DIODE(D5, "1S2075")
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DIODE(D6, "1S2075")
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DIODE(D7, "1S2075")
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DIODE(D8, "1S2075")
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QBJT_EB(Q2, "2SC1941")
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RES(R21, RES_K(10))
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RES(R22, RES_K(47))
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RES(R23, RES_K(47))
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RES(R24, RES_K(10))
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RES(R25, RES_K(47))
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RES(R26, RES_K(22))
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RES(R27, RES_K(10))
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RES(R28, RES_K(470))
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RES(R29, RES_K(1))
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RES(R30, RES_K(240))
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RES(R31, RES_K(10))
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RES(R32, RES_K(47))
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RES(R33, RES_K(47))
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RES(R34, RES_K(47))
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RES(R35, RES_K(47))
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RES(R36, RES_K(22))
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RES(R37, RES_K(10))
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RES(R38, RES_M(1))
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RES(R39, 330)
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RES(R40, RES_K(390))
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RES(R41, RES_K(10))
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RES(R42, RES_K(47))
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RES(R43, RES_K(47))
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RES(R44, RES_K(47))
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RES(R45, RES_K(47))
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RES(R46, RES_K(22))
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RES(R47, RES_K(10))
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RES(R48, RES_M(1))
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RES(R49, 220)
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RES(R50, RES_K(390))
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RES(R51, RES_K(10))
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RES(R52, RES_K(22))
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RES(R53, RES_K(22))
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RES(R54, RES_K(22))
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RES(R55, RES_K(22))
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RES(R56, RES_K(10))
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RES(R57, RES_K(4.7))
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RES(R58, RES_M(1))
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RES(R59, 470)
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RES(R60, RES_M(2.2))
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RES(R61, RES_M(2.2))
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RES(R62, RES_K(200))
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RES(R63, RES_K(22))
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RES(R64, RES_K(22))
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RES(R65, RES_K(20))
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RES(R66, RES_K(20))
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RES(R67, RES_K(20))
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RES(R68, RES_K(20))
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RES(R69, RES_K(20))
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RES(R70, RES_K(100))
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RES(R71, RES_K(150))
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RES(R72, RES_K(330))
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RES(R73, RES_K(1))
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RES(R74, RES_K(1))
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RES(R75, RES_K(470))
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RES(R76, RES_K(10))
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RES(R77, RES_K(20))
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RES(R78, RES_K(47))
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RES(R79, RES_K(22))
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RES(R80, RES_K(20))
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RES(R81, RES_K(10))
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RES(R82, RES_K(100))
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RES(R83, RES_K(51))
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RES(R84, RES_K(51))
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RES(R85, RES_K(51))
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RES(R86, RES_K(51))
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RES(R87, RES_K(100))
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RES(R88, RES_K(2.2))
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RES(R89, RES_K(10))
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RES(R90, RES_K(100))
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RES(R91, RES_K(10))
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RES(R92, RES_K(15))
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RES(R93, RES_K(15))
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RES(R94, RES_K(51))
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MB3614_DIP(XU13)
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G501534_DIP(XU15)
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MB3614_DIP(XU16)
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MB3614_DIP(XU17)
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CD4001_DIP(XU18)
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CD4538_DIP(XU19)
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MM5837_DIP(XU20)
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TTL_7416_DIP(XU6)
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NET_C(D1.A, C21.2, R23.1)
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NET_C(D1.K, C20.1, R22.1)
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NET_C(XU13.1, C37.2, C36.1, R48.1)
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NET_C(XU13.2, C35.2, R48.2)
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NET_C(XU13.3, R44.1, R46.2, R45.1)
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NET_C(XU13.4, R27.1, R21.1, R37.1, R31.1, R47.1, R41.1, R57.1, R51.1, C46.2, C45.2, XU17.4, R80.2, XU16.4, XU20.4, XU15.12, I_V12.Q)
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NET_C(XU13.5, R54.1, R56.2, R55.1)
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NET_C(XU13.6, C41.2, R58.2, R60.2)
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NET_C(XU13.7, C44.2, C42.1, R58.1, R61.1)
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NET_C(XU13.8, C29.2, C31.1, R38.1)
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NET_C(XU13.9, C30.2, R38.2)
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NET_C(XU13.10, R34.1, R36.2, R35.1)
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NET_C(XU13.11, C22.2, R29.2, R25.2, R23.2, R22.2, XU6.1, XU6.3, XU6.7, C28.2, R39.2, R35.2, R33.2, R32.2, C34.2, R49.2, R45.2, R43.2, R42.2, C40.2, R59.2, R55.2, R53.2, R52.2, C43.2, R69.1, R64.1, C49.2, C48.2, C47.2, C46.1, C45.1, XU17.11, XU19.1, XU19.4, XU19.8, XU19.12, XU19.15, R81.1, C56.2, C55.2, C53.2, C52.2, XU18.1, XU18.2, XU18.7, XU18.12, XU18.13, C54.2, XU16.11, R84.1, R88.1, Q2.E, C58.2, C60.2, XU20.1, XU20.2, XU15.4, I_V0.Q)
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NET_C(XU13.12, R24.1, R26.2, R25.1)
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NET_C(XU13.13, C23.2, R28.2)
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NET_C(XU13.14, C25.2, C24.1, R28.1)
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NET_C(C25.1, R30.2)
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NET_C(C24.2, C23.1, R29.1)
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NET_C(C21.1, R24.2)
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NET_C(C20.2, R21.2, XU6.8)
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NET_C(C22.1, R27.2, R26.1)
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NET_C(R30.1, R40.1, R50.1, R62.1, R94.1)
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//NET_C(XU6.2, XU6.4, XU19.7, XU18.3, XU18.11, XU15.5, XU15.6, XU15.7, XU15.8, XU15.9, XU15.10, XU15.11, XU15.14)
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NET_C(XU6.5, I_CONGA_L0.Q)
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NET_C(XU6.6, C26.2, R31.2)
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NET_C(XU6.9, I_BASS_DRUM0.Q)
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NET_C(XU6.10, C38.2, R51.2)
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NET_C(XU6.11, I_RIM0.Q)
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NET_C(XU6.12, C32.2, R41.2)
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NET_C(XU6.13, I_CONGA_H0.Q)
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NET_C(XU6.14, D5.K, XU19.16, R70.2, R76.2, R71.2, XU18.14, I_V5.Q)
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NET_C(D2.A, C27.2, R33.1)
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NET_C(D2.K, C26.1, R32.1)
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NET_C(C29.1, R40.2)
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NET_C(C31.2, C30.1, R39.1)
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NET_C(C27.1, R34.2)
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NET_C(C28.1, R37.2, R36.1)
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NET_C(D3.A, C33.2, R43.1)
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NET_C(D3.K, C32.1, R42.1)
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NET_C(C37.1, R50.2)
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NET_C(C36.2, C35.1, R49.1)
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NET_C(C33.1, R44.2)
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NET_C(C34.1, R47.2, R46.1)
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NET_C(D4.A, C39.2, R53.1)
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NET_C(D4.K, C38.1, R52.1)
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NET_C(C44.1, R62.2)
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NET_C(C42.2, C41.1, R59.1)
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NET_C(C39.1, R54.2)
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NET_C(C40.1, R57.2, R56.1)
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NET_C(R60.1, R61.2, C43.1)
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NET_C(R63.1, R64.2, C47.1, D5.A, XU18.5, XU18.6)
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NET_C(R63.2, XU20.3)
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NET_C(R65.1, R66.2, C48.1)
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NET_C(R65.2, XU18.4)
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NET_C(R66.1, R67.2, C50.2)
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NET_C(R67.1, C49.1, XU17.10)
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NET_C(R68.1, R69.2, XU17.9)
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NET_C(R68.2, C50.1, XU17.8, C51.1)
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NET_C(XU17.1, XU16.6, C62.1)
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NET_C(XU17.2, R82.1, C62.2, R85.2)
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NET_C(XU17.3, R83.1, R84.2)
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NET_C(XU17.5, C55.1, R72.1, R73.1)
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NET_C(XU17.6, XU17.7, R77.2)
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NET_C(XU17.12, R80.1, R81.2, C56.1)
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NET_C(XU17.13, R78.1, R79.2, R77.1)
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NET_C(XU17.14, R79.1, R82.2, R83.2)
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NET_C(C51.2, R78.2)
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NET_C(XU19.2, R70.1, C52.1)
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NET_C(XU19.3, XU19.13, R76.1)
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NET_C(XU19.5, XU19.11, I_GORILLA0.Q)
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NET_C(XU19.6, XU18.9)
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NET_C(XU19.9, XU18.8)
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NET_C(XU19.10, D7.A, R75.2)
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NET_C(XU19.14, R71.1, C53.1)
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NET_C(R72.2, D6.A, XU18.10)
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NET_C(R73.2, D6.K)
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NET_C(D7.K, R74.2)
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NET_C(R74.1, R75.1, C54.1, XU16.10)
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NET_C(XU16.1, R91.1, R92.2)
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NET_C(XU16.2, R90.1, R91.2)
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NET_C(XU16.3, R86.2, I_V6.Q)
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NET_C(XU16.5, R86.1, R87.2)
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NET_C(XU16.7, R87.1, D8.A, R90.2)
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NET_C(XU16.8, XU16.9, XU15.13)
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NET_C(XU16.12, R93.1, C58.1)
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NET_C(XU16.13, XU16.14, C57.1, C59.2)
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NET_C(R85.1, Q2.C)
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NET_C(R89.1, D8.K)
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NET_C(R89.2, R88.2, Q2.B)
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NET_C(R92.1, C57.2, R93.2)
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NET_C(C59.1, XU15.1)
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NET_C(C60.1, XU15.2)
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NET_C(XU15.3, C61.2)
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NET_C(C61.1, R94.2)
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NETLIST_END()
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NETLIST_START(opamp_mod)
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/* Opamp model from
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*
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* http://www.ecircuitcenter.com/Circuits/opmodel1/opmodel1.htm
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*
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* MB3614 Unit Gain frequency is about 500 kHz and the first pole frequency
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* about 5 Hz. We have to keep the Unity Gain Frequency below our sampling
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* frequency of 24 Khz.
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*
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* Simple Opamp Model Calculation
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*
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* First Pole Frequency 5 Hz
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* Unity Gain Frequency 11,000 Hz
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* RP 100,000 Ohm
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* DC Gain / Aol 2200
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* CP 0.318 uF
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* KG 0.022
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*
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*/
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/* Terminal definitions for calling netlists */
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ALIAS(PLUS, G1.IP) // Positive input
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ALIAS(MINUS, G1.IN) // Negative input
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ALIAS(OUT, EBUF.OP) // Opamp output ...
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AFUNC(fUH, 1, "A0 1.2 -")
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AFUNC(fUL, 1, "A0 1.2 +")
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ALIAS(VCC, fUH.A0) // VCC terminal
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ALIAS(GND, fUL.A0) // VGND terminal
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AFUNC(fVREF, 2, "A0 A1 + 0.5 *")
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NET_C(fUH.A0, fVREF.A0)
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NET_C(fUL.A0, fVREF.A1)
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NET_C(EBUF.ON, fVREF)
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/* The opamp model */
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LVCCS(G1)
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PARAM(G1.RI, RES_K(1000))
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#if 0
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PARAM(G1.G, 0.0022)
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RES(RP1, 1e6)
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CAP(CP1, 0.0318e-6)
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#else
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PARAM(G1.G, 0.002)
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PARAM(G1.CURLIM, 0.002)
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RES(RP1, 9.5e6)
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CAP(CP1, 0.0033e-6)
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#endif
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VCVS(EBUF)
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PARAM(EBUF.RO, 50)
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PARAM(EBUF.G, 1)
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NET_C(G1.ON, fVREF)
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NET_C(RP1.2, fVREF)
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NET_C(CP1.2, fVREF)
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NET_C(EBUF.IN, fVREF)
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NET_C(RP1.1, G1.OP)
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NET_C(CP1.1, RP1.1)
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DIODE(DP,"D(IS=1e-15 N=1)")
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DIODE(DN,"D(IS=1e-15 N=1)")
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#if 1
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NET_C(DP.K, fUH.Q)
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NET_C(fUL.Q, DN.A)
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NET_C(DP.A, DN.K, RP1.1)
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#else
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/*
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* This doesn't add any performance by decreasing iteration loops.
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* To the contrary, it significantly decreases iterations
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*/
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RES(RH1, 0.1)
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RES(RL1, 0.1)
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NET_C(DP.K, RH1.1)
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NET_C(RH1.2, fUH.Q)
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NET_C(fUL.Q, RL1.1)
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NET_C(RL1.2, DN.A)
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NET_C(DP.A, DN.K, RP1.1)
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#endif
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NET_C(EBUF.IP, RP1.1)
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NETLIST_END()
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NETLIST_START(G501534_DIP)
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AFUNC(f, 2, "A0 A1 0.2 * *")
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/*
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* 12: VCC
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* 4: GND
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* 1: IN
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* 3: OUT
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* 13: CV
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* 2: RDL - connected via Capacitor to ground
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*/
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DUMMY_INPUT(DU1)
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DUMMY_INPUT(DU2)
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DUMMY_INPUT(DU3)
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RES(RO, 1000)
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ALIAS(12, DU1.I)
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ALIAS(4, DU2.I)
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ALIAS(2, DU3.I)
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ALIAS(1, f.A0)
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ALIAS(13, f.A1)
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NET_C(f.Q, RO.1)
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ALIAS(3, RO.2)
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NETLIST_END()
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NETLIST_START(congob_lib)
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LOCAL_LIB_ENTRY(G501534_DIP)
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NETLIST_END()
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