This brief presents an analysis of the nonlinear dynamics of a memristive inductive–capacitive circuit, driven by a sinusoidal voltage source. The analysis is carried out using multiple-scale technique. The memristance M(q) is modeled by a power law series of the electrical charge q, considering both passive and active M(q). The steady-state solution behavior, close to the resonant circuit condition, is investigated. Numerical simulations are reported for comparison with analytical results.
Multiple Scale Approach to Dynamics of an LC Circuit With a Charge-Controlled Memristor
and Bernardo Tellini
2017-01-01
Abstract
This brief presents an analysis of the nonlinear dynamics of a memristive inductive–capacitive circuit, driven by a sinusoidal voltage source. The analysis is carried out using multiple-scale technique. The memristance M(q) is modeled by a power law series of the electrical charge q, considering both passive and active M(q). The steady-state solution behavior, close to the resonant circuit condition, is investigated. Numerical simulations are reported for comparison with analytical results.File in questo prodotto:
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