FE-based physical phase variable models of electric machines and transformers for dynamic simulations

2006 IEEE Power Engineering Society General Meeting Pub Date : 2006-10-16 DOI:10.1109/PES.2006.1709640

O. Mohammed, S. Liu, Z. Liu

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引用次数: 2

Abstract

This paper presents the development of the FE-based physical phase variable models for electric machines. Our results show that the developed FE-based phase variable models provide the same accuracy as the full FE model but with much faster simulation speed. These models are necessary for the study of new control strategies to facilitate dynamic simulation in an industrial environment. The FE-based phase variable model is developed with the lumped circuit parameters obtained from FE solutions covering a complete steady state ac cycle. These parameters are described by tables and utilized through table lookup procedure during the simulation. These models take into consideration the effects of nonlinear magnetization and geometry variation, winding arrangements and rotation. In the case of iron core transformers, the model takes into account the inductance variations with the flux amplitude as well as its phase angle during a complete ac cycle. The FE-based phase variable model for various types of machines were studied, including pm synchronous machine, brushless dc motor, induction machine, and transformers

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基于fe的电机和变压器动态仿真的物理相位变量模型

本文介绍了基于fe的电机物理相位变量模型的发展。结果表明，所建立的基于有限元的相位变量模型与全有限元模型具有相同的精度，但仿真速度要快得多。这些模型对于研究新的控制策略以促进工业环境中的动态仿真是必要的。建立了基于有限元的相位变量模型，该模型采用了覆盖整个稳态交流周期的有限元解得到的集总电路参数。这些参数用表来描述，并在仿真过程中通过表查找过程加以利用。这些模型考虑了非线性磁化和几何变化、绕组排列和旋转的影响。对于铁芯变压器，该模型考虑了整个交流周期内电感随磁通幅值和相角的变化。研究了永磁同步电机、无刷直流电动机、感应电机和变压器等不同类型电机的基于fe的相位变量模型

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2006 IEEE Power Engineering Society General Meeting

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