The Gyrator reference article from the English Wikipedia on 24-Apr-2004
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Gyrator

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The gyrator is an electric circuit which inverts an impedance. In other words, it can make an inductive circuit behave capacitively, a bandpass filter behave like a bandcut filter, and so on. It was invented around 1950 by Lester Hogan, and is used in active filter design.

Simulated Inductor

an electric circuit that simulates an inductor Gyrator simulating Inductance 


Its primary use is to simulate an inductive element in an electronic circuit, which is typically much smaller than a tabletop electrical circuit. Before the invention of the transistor, coils of wire, with large inductance, might be used in electronic filters, for example. Thus an inductor can be replaced by an assembly containing a capacitor, operational amplifiers, and resistors, which is especially useful in integrated circuit technology.

The circuit works by inverting the effect of a capacitor.  The desired effect is an impedance of the form





This is an ideal inductor L with a series resistance RL.  From the diagram, it can be seen that the impedance of the simulated inductor is the desired impedance in parallel with the impedance of C and R.





If R is much greater than RL, this comes close to



This is the same as a resistance RL in series with an inductance L = RLRC.  It differs in function from a true inductor due to the parallel RC term, and because RL is large compared to a real inductor.  A real inductor has low internal resistance caused only by the wire it is made of.  This limits the accuracy of filters that can be made with the simulated inductor.


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