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/*
* todo.c
*
*/
#include "netlist/devices/net_lib.h"
struct ttd
{
nl_util::pstring_list a;
};
ttd * nl_register_tt(pstring name, int in, int out);
#define NETLIST_TT(_name, _in, _out) \
{ \
ttd *a = setup.register_tt(# _name, _in, _out); \
#define TT_LINE(_x) \
a->a.add(_x);
#define TT_END() }
NETLIST_START(7400_TTL)
NET_REGISTER_DEV(7400, s1)
NET_REGISTER_DEV(7400, s2)
NET_REGISTER_DEV(7400, s3)
NET_REGISTER_DEV(7400, s4)
ALIAS(1, s1.A);
ALIAS(2, s1.B);
ALIAS(3, s1.Q);
ALIAS(4, s2.A);
ALIAS(5, s2.B);
ALIAS(6, s2.Q);
ALIAS(9, s3.A);
ALIAS(10, s3.B)
ALIAS(8, s3.Q);
ALIAS(12, s4.A);
ALIAS(13, s4.B);
ALIAS(11, s4.Q);
NETLIST_END()
NETLIST_START(lib)
NETLIST_TT(7400, 2, 1)
TT_LINE("A,B | Q ")
TT_LINE("0,X|1|22")
TT_LINE("X,0|1|22")
TT_LINE("1,1|0|15")
TT_END()
NETLIST_END()
#if 0
RES(R1, 10)
RES(R2, 10)
RES(R3, 10)
NET_C(V5,R1.1)
NET_C(R1.2, R2.1)
NET_C(R2.2, R3.1)
NET_C(R3.2, GND)
#endif
#if 0
RES(R4, 1000)
CAP(C1, 1e-6)
NET_C(V5,R4.1)
NET_C(R4.2, C1.1)
NET_C(C1.2, GND)
//LOG(log1, C1.1)
#endif
#if 0
RES(R5, 1000)
NETDEV_1N914(D1)
NET_C(V5, R5.1)
NET_C(R5.2, D1.A)
NET_C(D1.K, GND)
//LOG(log1, D1.A)
#endif
#if 0
#endif
#if 0
NETDEV_VCVS(VV)
RES(R1, 1000)
RES(R2, 10000)
NET_C(V5, R1.1)
NET_C(R1.2, VV.IN)
NET_C(R2.1, VV.OP)
NET_C(R2.2, VV.IN)
NET_C(VV.ON, GND)
NET_C(VV.IP, GND)
LOG(logX, VV.OP)
#endif
#if 0
#endif
#if 0
NETDEV_VCVS(VV)
PARAM(VV.G, 100000) // typical OP-AMP amplification
PARAM(VV.RO, 50) // typical OP-AMP amplification
RES(R1, 1000)
RES(R3, 10000) // ==> 10x amplification (inverting)
NET_C(4V, R1.1)
NET_C(R1.2, VV.IN)
NET_C(R3.1, VV.IN)
NET_C(R3.2, VV.OP)
NET_C(VV.ON, GND)
NET_C(VV.IP, GND)
LOG(logX, VV.OP)
LOG(logY, 4V)
#endif
#if 0
// Impedance converter with resistor
NETDEV_VCVS(VV)
PARAM(VV.G, 100000) // typical OP-AMP amplification
PARAM(VV.RO, 50) // typical OP-AMP amplification
RES(R3, 10000)
NET_C(4V, VV.IP)
NET_C(R3.1, VV.IN)
NET_C(R3.2, VV.OP)
NET_C(VV.ON, GND)
LOG(logX, VV.OP)
LOG(logY, 4V)
#endif
#if 0
// Impedance converter without resistor
NETDEV_VCVS(VV)
PARAM(VV.G, 100000) // typical OP-AMP amplification
PARAM(VV.RO, 50) // typical OP-AMP amplification
NET_C(4V, VV.IP)
NET_C(VV.IN, VV.OP)
NET_C(VV.ON, GND)
LOG(logX, VV.OP)
LOG(logY, 4V)
#endif
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