def __init__(self, **parameters): ls = parameters.get('ls', 1e-9) rs = parameters.get('rs', 1.0) cp = parameters.get('cp', 150e-15) cs = parameters.get('cs', 30e-15) rac = parameters.get('rac', 1) ldc = parameters.get('ldc', 1e-9) k1 = parameters.get('k1', 0.9) rsub = parameters.get('rsub', 1) freq = linspace(0.1e9, 15e9, 101) lib = myinductor(name='myinductor', rs=rs, ls=ls, cp=cp, cs=cs, rac=rac, ldc=ldc, k1=k1, rsub=rsub) dev = Device(model='myinductor', nodes=('plus', 'minus', '0')) cir1 = Sp(library=lib, device=dev, freq=freq) cir1.simulate(verbose=True) y11, y12, y21, y22 = cir1.Y() self.freq = freq self.l11 = (1.0 / y11).imag / (2.0 * pi * freq) self.r11 = (1.0 / y11).real self.q11 = (1.0 / y11).imag / (1 / y11).real
def __init__(self, **parameters): freq = linspace(0.1e9, 15e9, 101) dev = Nport(nodes=("plus", "0", "minus", "0"), file="./examples/MyInductor/mydata.s2p") cir1 = Sp(device=dev, freq=freq) cir1.simulate(verbose=True) y11, y12, y21, y22 = cir1.Y() self.freq = freq self.l11 = (1.0 / y11).imag / (2.0 * pi * freq) self.r11 = (1.0 / y11).real self.q11 = (1.0 / y11).imag / (1 / y11).real
def __init__(self, **parameters): freq = linspace(0.1e9, 15e9, 101) dev = Nport(nodes=('plus', '0', 'minus', '0'), file='./examples/MyInductor/mydata.s2p') cir1 = Sp(device=dev, freq=freq) cir1.simulate(verbose=True) y11, y12, y21, y22 = cir1.Y() self.freq = freq self.l11 = (1.0 / y11).imag / (2.0 * pi * freq) self.r11 = (1.0 / y11).real self.q11 = (1.0 / y11).imag / (1 / y11).real
def __init__(self, **parameters): ls = parameters.get("ls", 1e-9) rs = parameters.get("rs", 1.0) cp = parameters.get("cp", 150e-15) cs = parameters.get("cs", 30e-15) rac = parameters.get("rac", 1) ldc = parameters.get("ldc", 1e-9) k1 = parameters.get("k1", 0.9) rsub = parameters.get("rsub", 1) freq = linspace(0.1e9, 15e9, 101) lib = myinductor(name="myinductor", rs=rs, ls=ls, cp=cp, cs=cs, rac=rac, ldc=ldc, k1=k1, rsub=rsub) dev = Device(model="myinductor", nodes=("plus", "minus", "0")) cir1 = Sp(library=lib, device=dev, freq=freq) cir1.simulate(verbose=True) y11, y12, y21, y22 = cir1.Y() self.freq = freq self.l11 = (1.0 / y11).imag / (2.0 * pi * freq) self.r11 = (1.0 / y11).real self.q11 = (1.0 / y11).imag / (1 / y11).real