Application of a hybrid FEM-BEM method to the time response of an electromagnet under imposed terminal voltages

2015 9th International Symposium on Advanced Topics in Electrical Engineering (ATEE) Pub Date : 2015-05-07 DOI:10.1109/ATEE.2015.7133845

I. Ciric, M. Maricaru, M. Costea, G. Vasilescu, F. Hantila

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Abstract

The paper presents a method for the analysis of the motion of an electromagnet armature when given voltages are applied at its terminals. The nonlinearity of the ferromagnetic core is treated by the polarization fixed point method (PFPM), the magnetic polarization correction being performed iteratively in terms of the magnetic field intensity. A hybrid Finite Element Method (FEM) - Boundary Element Method (BEM) technique is employed in order to solve the electromagnetic field problem. The FEM is used for the computation of the field within the ferromagnetic bodies and, independently, the BEM is applied to the outside free space, the coupling between the FEM and BEM domains being performed by an iterative correction of the boundary conditions. The terminal voltages determine the coil magnetic fluxes and, then, the current density is obtained by integrating the vector potential over the coil cross sections. The variation with time of the terminal voltages is also taken into account in the solution of the coupled electro-mechanical problem. The response is determined for terminal voltages applied at various times within a period.

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混合FEM-BEM方法在外加电压作用下电磁铁时间响应的应用

本文提出了一种分析电磁铁电枢两端施加一定电压时的运动的方法。采用极化不动点法(PFPM)处理铁磁磁芯的非线性，根据磁场强度迭代进行磁极校正。采用有限元法和边界元法的混合方法求解电磁场问题。有限元法用于计算铁磁体内部的场，边界元法独立地应用于外部自由空间，有限元和边界元法域之间的耦合是通过边界条件的迭代修正来实现的。终端电压决定线圈的磁通，然后，通过对线圈横截面上的矢量电位积分得到电流密度。在求解机电耦合问题时，还考虑了端电压随时间的变化。响应是在一段时间内不同时间施加的终端电压确定的。

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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2015 9th International Symposium on Advanced Topics in Electrical Engineering (ATEE)

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