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SeanHatch said:If I have an Inductor, L, and a resistor, R, in series, how can I accomplish this same impedance with a resistor and a capacitor?
Is this only at a single frequency? I feel like we're playing 20 questions. :evil:SeanHatch said:It doesn't matter. I'm working out a transfer function, and while the RL series combo is much more intuitive, I've got to use capacitors.
:roll:
So, can I obtain the frequency(w) from the RL series combo, and then use that to find an equivalent impedance with a cap? Or is that what you're discouraging.
Ron H said:Believe it or not, the impedance of an RL series network is not equal to the sum of the individual impedances.