Simulation of arbitrary fault-conditions in PM-machines by generalized unsymmetrical modeling

2012 XXth International Conference on Electrical Machines Pub Date : 2012-11-12 DOI:10.1109/ICELMACH.2012.6350293

J. Mayer, D. Gerling

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引用次数: 3

Abstract

Nowadays, fault tolerance and reliability in electrical machines have become additional important design features besides functionality and efficiency. However, fault tolerant design often comes along with more space requirement and cost, which is not acceptable in many industrial applications. It is rather desirable to have standard machines working also in safety relevant applications and providing fault tolerance by sophisticated control methods. However, these require a detailed knowledge of the dynamic machine behavior in case a failure occurs and the electric and magnetic conditions are no longer symmetrical. Moreover, restoring of feasible operation conditions can also necessitate unsymmetrical voltage supply of the machine. In this paper, the commonly known modeling approaches of symmetrical machines during healthy operation and symmetrical voltage supply are extensively generalized. A general model for PM-machines with arbitrary fault injection capability and unsymmetrical voltage supply and machine operation conditions is set up and evaluated for different important machine faults.

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基于广义非对称建模的永磁电机任意故障状态仿真

如今，除了功能和效率之外，电机的容错性和可靠性已成为另一个重要的设计特征。然而，容错设计往往伴随着更多的空间需求和成本，这在许多工业应用中是不可接受的。我们非常希望标准机器也能在安全相关的应用中工作，并通过复杂的控制方法提供容错能力。然而，这些要求在发生故障时对动态机器行为有详细的了解，并且电气和磁性条件不再对称。此外，恢复可行的运行条件也可能需要机器的不对称电压供应。本文对常见的对称机械健康运行和对称供电的建模方法进行了广泛的推广。建立了具有任意故障注入能力和非对称电压供应和机器运行条件的永磁机床通用模型，并对不同的重要机器故障进行了评估。

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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2012 XXth International Conference on Electrical Machines

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