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arxiv: physics/0606261 · v1 · submitted 2006-06-30 · ⚛️ physics.ed-ph · physics.class-ph

Nonlinear Damping of the LC Circuit using Anti-parallel Diodes

classification ⚛️ physics.ed-ph physics.class-ph
keywords circuitoscillatornonlinearamplitudeanti-parallelbehaviorcurrentdamping
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We investigate a simple variation of the series RLC circuit in which anti-parallel diodes replace the resistor. This results in a damped harmonic oscillator with a nonlinear damping term that is maximal at zero current and decreases with an inverse current relation for currents far from zero. A set of nonlinear differential equations for the oscillator circuit is derived and integrated numerically for comparison with circuit measurements. The agreement is very good for both the transient and steady-state responses. Unlike the standard RLC circuit, the behavior of this circuit is amplitude dependent. In particular for the transient response the oscillator makes a transition from under-damped to over-damped behavior, and for the driven oscillator the resonance response becomes sharper and stronger as drive source amplitude increases. The equipment is inexpensive and common to upper level physics labs.

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