容错永磁电机的优化设计与补救控制

Q4 Engineering

International Journal of Vehicle Autonomous Systems Pub Date : 2013-05-22 DOI:10.1504/IJVAS.2013.053776

J. Ji, Wenxiang Zhao

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引用次数: 1

摘要

容错永磁(PM)电机具有高功率密度、高效率和高可靠性，是电动汽车(EV)应用的理想选择。研究了一种采用Halbach永磁阵列的四相容错永磁电机的优化设计和容错控制策略，分别针对短路和开路故障进行了研究。首先，通过与传统阵列的比较，评估了Halbach永磁阵列对容错永磁电机的影响。其次，通过优化定子齿形，限制了短路电流。第三，提出了一种将健康相电流加倍的开路故障补救控制策略。基于有限元和联合仿真方法对电机性能进行了预测。在实验室样机上的测试结果用于验证理论分析。

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Optimal design and remedial control of fault-tolerant permanent magnet motors

Fault-tolerant Permanent Magnet (PM) motors are good candidates for Electrical Vehicle (EV) applications, offering high power density, high effi ciency and high reliability. This paper investigates optimal design and fault-tolerant control strategy of a four-phase fault-tolerant PM motor with a Halbach PM array, aiming to deal with short-circuit and open-circuit faults, respectively. First, by comparing with a conventional array, the Halbach PM array is evaluated for the fault-tolerant PM motor. Second, by optimising the stator tooth shape, the short-circuit current is limited. Third, by doubling the current of the healthy phase, a remedial control strategy for the open-circuit fault is proposed. The predicted results of the motor’s performance are based on the finite element and co-simulation methoDs. Measurement results from tests on a laboratory prototype are used to verify the theoretical analysis.

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来源期刊

International Journal of Vehicle Autonomous Systems Engineering-Automotive Engineering

CiteScore

1.30

自引率

0.00%

发文量

期刊介绍： The IJVAS provides an international forum and refereed reference in the field of vehicle autonomous systems research and development.