报告详情
A high-flexibility modular model predictive control for nine-phase induction motor drives
编号:68
访问权限:仅限参会人
更新:2025-05-06 15:02:50 浏览:5次
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报告时间:暂无持续时间
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摘要
The traditional control method of nine-phase induction motor suffers from increased computational burden and limited flexibility. Aiming to tackle such a problem, a modular model predictive current control strategy for nine-phase induction motors is proposed in this paper. By mathematical transformation method, the nine-phase motor system is decoupled into three independently controlled three-phase motor units. The algorithm can adjust the output power of three sets of windings independently while maintaining the steady-state accuracy and dynamic response characteristics of the system. This characteristic of the proposed strategy enables the motor to selectively reduce the output power of certain windings under abnormal working conditions and to optimize the stator copper loss under the condition of unbalance of resistance of three sets of windings. This research has important engineering application value for improving the operational reliability, flexibility and energy efficiency of nine-phase induction motor system.
关键词
nine-phase induction motor,modular model predictive control,flexible control
报告人
Yunjie He
Master Degree Candid Southwest Jiaotong University稿件作者
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重要日期
-
会议日期
06月05日
2025
至06月08日
2025
-
04月30日 2025
初稿截稿日期
主办单位
IEEE PELS
IEEE
IEEE
承办单位
Southeast University
联系方式
- Quanwei Wu
- pr******@pub.seu.edu.cn
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