Torque Optimization of Six-Phase Arcuate Sine + Third Harmonic Shaping Surface Permanent-Magnet Synchronous Motor China International Youth Conference on Electrical Engineering (CIYCEE 2024)

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Torque Optimization of Six-Phase Arcuate Sine + Third Harmonic Shaping Surface Permanent-Magnet Synchronous Motor

编号：75 访问权限：仅限参会人更新：2024-08-15 10:48:36 浏览：165次口头报告

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摘要

To improve the torque density of direct-drive surface permanent-magnet synchronous motors (SPSMs), the model of arcuate sine + third harmonic (Sin+3rd) shaping SPSM with parallel magnetization and the optimal injection amount of the third harmonic current when the machine loaded with Sine+3rd current are derived. The finite-element models of six-phase arcuate Sine+3rd shaping and sine shaping SPSMs are established based on the principle of the same maximum thickness of the permanent magnet (PM), and their no-load air-gap flux densities are compared. The sine current load and Sine+3rd current load are applied to the sine shaping and Sine+3rd shaping motors, respectively, based on the principle of equal current amplitude. The results show that the fundamental amplitude of no-load air-gap flux density for Sine+3rd shaping SPSM is significantly higher than that of the sine shaping SPSM, and the amplitude of other higher harmonics is unchanged except for the third harmonic. When a rated load is applied, the average torque of the Sine+3rd shaping SPSM loaded with Sine+3rd current is increased by 17.5% compared with the Sine+3rd shaping SPSM which is only loaded with the sine current mentioned above, and is increased by 26.5% compared with the sine shaping motor. The result is consistent with the theoretical calculation and provides theoretical guidance for torque optimization of direct-drive SPSMs.

关键词

SPSM, parallel magnetization, Sine+3rd shaping, torque optimization

报告人

wenbin xuan

Student College of Electrical Engineering Qingdao University

稿件作者

Xinzhen Wu College of Electrical Engineering Qingdao University

wenbin xuan College of Electrical Engineering Qingdao University

Chuntao Chen College of Electrical Engineering Qingdao University

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重要日期

会议日期

11月06日

2024

至

11月08日

2024
09月15日 2024

初稿截稿日期
11月08日 2024

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Huazhong University of Science and Technology

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历届会议

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China International Youth Conference on Electrical Engineering (CIYCEE 2024)