Differential equations of a nonlinear multipolar element

Vasyl Tchaban
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Abstract

A method for forming nonlinear diffe­rential equations of a multipololar element, which connect its independent pole currents and independent polar voltages, is proposed. The difficulty of the analysis is that some of the internal and external unknowns may be under the symbol of differentiation. The starting infor­mation for this formation is the common differential equations of the system of internal and external currents and voltages. The method is demonstrated on the case of formation of the corresponding differential equations of the system as such that is formed by bipolar elements. The analysis is significantly simplified in the presence of internal D-dege­nerations of the system or resistive circuits.
非线性多极元的微分方程
提出了一种建立多极元非线性微分方程的方法,该方程将其独立的极电流和独立的极电压联系起来。分析的难点在于,内部和外部的一些未知数可能在微分的符号下。这种形式的起始信息是内部和外部电流和电压系统的公微分方程。以双极元形成的系统的相应微分方程为例,证明了该方法的有效性。在系统或电阻电路存在内部d -退化时,分析显着简化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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