考虑磁滞的磁路回旋-电容模型的改进

Mohammadali Hayerikhiyavi, A. Dimitrovski
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引用次数: 5

摘要

电磁器件的陀螺-电容(G-C)模型为模拟由磁和电/电子电路组成的组合功率器件提供了一种鲁棒和方便的方法。G-C模型以功率不变的方式无缝连接设备的磁性和电气/电子方面,这非常便于集成系统分析。本文提出了一种改进的磁路G-C模型,该模型除磁芯饱和外,还包括磁滞。应用该方法对直流控制电路和交流控制电路之间存在电磁耦合的连续可变串联电抗器(CVSR)进行了建模。考虑到铁磁磁芯的非线性,用绕组上的感应电压和相应的磁通密度来研究CVSR的行为。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Improved Gyrator-Capacitor Modeling of Magnetic Circuits with Inclusion of Magnetic Hysteresis
Gyrator-Capacitor (G-C) models of electromagnetic devices provide a robust and convenient approach for simulation of a combined power device that consists of magnetic and electric/electronic circuits. The G-C model seamlessly links magnetic and electric/electronic sides of the device in a power invariant fashion which is very convenient for integrated system analysis. This paper proposes an improved G-C model for a ferromagnetic circuit, which includes hysteresis besides the core saturation. The approach has been applied to model a Continuously Variable Series Reactor (CVSR) with electromagnetic coupling between two electric circuits, a control dc and a controlled ac circuit. Taking into account the ferromagnetic core nonlinearities, the CVSR behavior is investigated in terms of induced voltages across the windings and the corresponding magnetic flux densities.
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