CJO=7.048E-13, VJ=0.869, M=0.03, FC=0.5, TT=3.48E-9) # print str(subcircuit_1N4148) frequence = 50 perdiod = 1. / frequence step_time = perdiod / 200 end_time = perdiod * 10 line_peak_voltage = 10 circuit = Circuit('Simple Rectifier', global_nodes=(0, 'out')) circuit.subcircuit(subcircuit_1N4148) circuit.V('input', 'in', circuit.gnd, 'DC 0V', 'SIN(0V {}V {}Hz)'.format(line_peak_voltage, frequence)) circuit.X('D', '1N4148', 'in', 'out') circuit.C('load', 'out', circuit.gnd, micro(100)) circuit.R('load', 'out', circuit.gnd, kilo(1), ac='1k') circuit.Cload.plus.add_current_probe(circuit) simulation = circuit.simulation(temperature=25, nominal_temperature=25, pipe=True) simulation.options(filetype='binary') simulation.save('V(in)', 'V(out)') simulation.tran(step_time, end_time)
subcircuit_1N4148.R('1', 1, 2, 5.827E+9) subcircuit_1N4148.D('1', 1, 2, '1N4148') subcircuit_1N4148.model('1N4148', 'D', IS=4.352E-9, N=1.906, BV=110, IBV=0.0001, RS=0.6458, CJO=7.048E-13, VJ=0.869, M=0.03, FC=0.5, TT=3.48E-9) # print str(subcircuit_1N4148) frequence = 50 perdiod = 1. / frequence step_time = perdiod/200 end_time = perdiod*10 line_peak_voltage = 10 circuit = Circuit('Simple Rectifier', global_nodes=(0, 'out')) circuit.subcircuit(subcircuit_1N4148) circuit.V('input', 'in', circuit.gnd, 'DC 0V', 'SIN(0V {}V {}Hz)'.format(line_peak_voltage, frequence)) circuit.X('D', '1N4148', 'in', 'out') circuit.C('load', 'out', circuit.gnd, micro(100)) circuit.R('load', 'out', circuit.gnd, kilo(1), ac='1k') circuit.Cload.plus.add_current_probe(circuit) simulation = circuit.simulation(temperature=25, nominal_temperature=25, pipe=True) simulation.options(filetype='binary') simulation.save('V(in)', 'V(out)') simulation.tran(step_time, end_time) print circuit.nodes for node in circuit.nodes: print repr(node), ':', ' '.join(element.name for element in node.elements)