首页|期刊导航|电工技术学报|轴向磁通模块化混合励磁开关磁阻电机及其绕组故障特性

轴向磁通模块化混合励磁开关磁阻电机及其绕组故障特性

王国平陈昊戚湧徐立军于丰源闫文举

电工技术学报2025，Vol.40Issue(4)：1090-1104,15.

电工技术学报2025，Vol.40Issue(4)：1090-1104,15.DOI:10.19595/j.cnki.1000-6753.tces.240102

轴向磁通模块化混合励磁开关磁阻电机及其绕组故障特性

Axial Flux Modular Hybrid Excitation Switched Reluctance Motor and Its Winding Fault Characteristics

王国平 ¹陈昊 ²戚湧 ³徐立军 ⁴于丰源 ⁵闫文举⁶

作者信息

1. 中国矿业大学深圳研究院深圳 518057||中国矿业大学电气工程学院徐州 221116
2. 中国矿业大学深圳研究院深圳 518057||中国矿业大学电气工程学院徐州 221116||新疆工程学院控制工程学院乌鲁木齐 830023
3. 南京理工大学计算机科学与工程学院南京 210094
4. 新疆工程学院控制工程学院乌鲁木齐 830023
5. 中国矿业大学电气工程学院徐州 221116
6. 中国矿业大学电气工程学院徐州 221116||新能源电动车技术与装备中东欧国家国际联合研究中心徐州 221008||江苏省高校新能源发电与电动车国际合作联合实验室徐州 221008||徐州市新能源电动车技术与装备重点实验室徐州 221008
折叠

摘要

Abstract

Axial flux switched reluctance motors(AFSRM)are widely used due to the advantages of high torque density.The dual-stator axial motor with stator modularity and PMs can significantly improve the fault tolerance and torque output capability of AFSRM.An axial flux modular-double-stator hybrid-excitation SRM(AFMHSRM)with high torque performance and fault-tolerant redundancy capability is designed.This motor's coupling characteristics and performance under different winding faults are analyzed. Firstly,the topology of AFMHSRM and its working principle are analyzed.The redundancy capability of the motor in case of failure is improved by modularizing the stator,while the PM is used for hybrid excitation to improve the motor output torque capability.Subsequently,the magnetic flux path coupling characteristics of the proposed motor are qualitatively analyzed by the equivalent magnetic circuit(MEC),and the torque enhancement produced by hybrid excitation is theoretically discussed.In addition,the magnetic flux path in case of winding fault is decoupled,and the relationship between torque and flux is given.The static torque characteristics of the proposed motor and the conventional axial flux modular-double-stator SRM(CAFMSRM)are compared by the finite element software Ansys/Maxwell when the windings are excited with a current of 30 A under different fault conditions.The hybrid excitation with PM of the AFMHSRM has higher output torque than CAFMSRM.A unified simulation model of the AFMHSRM winding with different fault states is established,and the dynamic performance of the AFMHSRM and CAFMSRM is simulated.In the series current chopper control(CCC)control mode,the torque of AFMHSRM is up to 45.99% higher than that of CAFMSRM,and the torque ripple of AFMHSRM is 12.69% lower than that of CAFMSRM.In parallel single pulse control(SPC)mode,the AFMHSRM has greater torque and lower torque ripple than the CAFMSRM.Finally,the accuracy of the static and dynamic performance analysis is verified by a prototype. The following conclusions can be drawn.(1)The modular structure of the proposed AFMHSRM attenuates the magnetic coupling and improves the fault redundancy capability.(2)The introduction of PMs results in the highest increase of torque output capability by 45.99% and the lowest reduction of torque ripple by 12.69% of the AFMHSRM,compared to the CAFMSRM.(3)In a single-phase failure of three out of four windings,the AFMHSRM can still produce 69.89% of the torque during normal operation.

关键词

轴向磁通开关磁阻电机/模块化定子/混合励磁/绕组故障/电磁性能

Key words

Axial flux switched reluctance motor/modular stator/hybrid excitation/winding faults/electromagnetic performance

分类

信息技术与安全科学

引用本文复制引用

王国平,陈昊,戚湧,徐立军,于丰源,闫文举..轴向磁通模块化混合励磁开关磁阻电机及其绕组故障特性[J].电工技术学报,2025,40(4):1090-1104,15.

基金项目

深圳市协同创新专项计划国际合作研究项目(GJHZ20220913144400001)、江苏省现代农机装备与技术示范推广项目(NJ2023-27)和深圳市基础研究专项(自然科学基金)重点项目(JCYJ20220818100000001)资助. （GJHZ20220913144400001）

电工技术学报

OA北大核心

ISSN：1000-6753

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