示例#1
0
re = Resistor([kemitterdirekt, kemitter], 'RE', 0.001, None)
npn = NPN_VBIC([kcollector, kbasis, kemitterdirekt, 'SUB'],
               'Q1',
               0,
               None,
               pParams='NPN_VBIC_npn13G2.comp')
rsub = Resistor(['SUB', '0'], "R3", 264, None)
seq = CircuitSystemEquations([v1, v2, npn, r1, rsub, re])
#v1.setInnerImpedance(50)
ca = CircuitAnalyser(seq)

#for Nx in range(1,8):
#seq.setParamterForComp("Q1","Nx",1)
#npn.setParameterOrVariableValue("Nx", Nx)
#ca.plot_lin(ca.getDCParamSweep('V2',-1,1.6,0.1,["Q1IT"],'V1',[0.8]))
res = ca.getACAnalysis_semilogx("V1", [kcollector], 1, 12, 10)
ca.plot_semilogx(res[0])
#res = ca.getDCParamSweep('V2',0.01,1.6,0.01,["Q1IT"],'V1',[0.91])
#ca.plot_lin(res)
#res = ca.getSPAnalysis_semilogx(1,12,10,["V1"])
#ca.plot_smith(res)
res = res[0]

toFile = open("Betragsfrequenzgang_angepasst.csv", 'w')

for i in range(res[0].shape[1]):
    t = str((res[0])[0][i])
    plot = (res[0])[1][i]
    real = str(float(plot.real))
    imag = str(float(plot.imag))
    wline = "".join((t, ",", str(plot), "\n"))
示例#2
0
ca = CircuitAnalyser(seq)
ca.printDCOp(["vCurMirror", "Q7IT", "Q6C", "LOPlus"])
imp1_180 = ca.getImpedanceAt("V1", 180e9)
imp4_18 = ca.getImpedanceAt("V4", 18e9)
imp5_18 = ca.getImpedanceAt("V5", 18e9)

print("IMP1_180 @180G: %s" % str(imp1_180))
print("IMP4_18 @18G: %s" % str((imp4_18)))
print("IMP5_18 @18G: %s" % str(imp5_18))

#print(imp6)
#v1 = seq.getCompByName("V1").setInnerImpedance(imp[0])
#seq.getCompByName("V3").setInnerImpedance(imp[0])
#print(v1.getInnerImpedance())
#ca.plot_smith(ca.getSPAnalysis_semilogx(8,12,10,["V1","V3"]))
ca.plot_semilogx(ca.getACAnalysis_semilogx("V1", ["Q1C"], 9, 11, 10)[0])

res = ca.getTrans(0, 0.1e-9, 1e-13, ["Q4C", "Q1C", "LOPlus"])

# how to get a diff-Signal
out = np.zeros((2, res[0].shape[1]), dtype=np.float64)
for i in range(res[0].shape[1]):
    out[0][i] = (res[0])[0][i]
    out[1][i] = (res[0])[1][i] - (res[0])[2][i]

ca.plot_lin([out, ["diffout"], "transient"])

print("Max %G " % np.amax(out[1][:]))

ca.plot_lin(res)
示例#3
0
from OSIM.Modeling.CircuitSystemEquations import CircuitSystemEquations
from OSIM.Simulation.CircuitAnalysis.CircuitAnalyser import CircuitAnalyser
from OSIM.Simulation.NetToComp import NetToComp

seq = CircuitSystemEquations(
    NetToComp('DiffAmplifier/Diffamp.net').getComponents())
ca = CircuitAnalyser(seq)
ca.printDCOp(["R6", "R3", "VCurSource"])
#print(seq.x)
#max = np.amax(np.absolute(seq.x))
#print(max)
#ca.plot_lin(ca.getDCParamSweep('V1',1,3.3,0.05,["VoutPlus","VoutMinus"],'VCC',[3.3]))
ca.plot_semilogx(ca.getACAnalysis_semilogx("V1", ["VoutPlus"], 2, 10, 11)[0])