مرکز منطقه ای اطلاع رساني علوم و فناوري - Multistable Circuits Using Nonlinear Reactances

Abstract :

This paper presents some results in the asymmetric resonant circuit, which is constructed by applying a dc voltage $E_0$ and a sinusoidal voltage $E_1 \\sin {\\omega }t$ to a series resonant circuit containing a nonlinear capacitance. The circuit is analyzed using the Ritz-Galerkin method. Assuming that the first approximation for the charge $q$ takes on the form $Q_0 + Q_1 \\sin({\\omega }t + \\theta)$ , the curves $\\omega - Q_1$ , ${E_1} - {Q_1}$ , and ${E_0} - {Q_1}$ , are obtained. It is shown that the asymmetric circuit is a tristable circuit with respect to these parameters, while the usual ferroresonant circuit is a bistable circuit. The influence of the dc voltage $E_0$ upon the circuit is studied in particular, and an interesting phenomenon, called "residual jump phenomenon," may occur in the circuit only when $E_0$ is changed and others fixed. Furthermore, the study shows how to construct a multistable circuit using nonlinear reactances. Combining some nonlinear reactances with suitable bias voltages, circuits having two, three, four or five stable solutions are obtained.