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Article type: Research Article
Authors: Zhang, Wendonga | Pang, Lianga | Hu, Huodaa | Qin, Haihongb | Zhao, Chaohuia;
Affiliations: [a] Shanghai Dianji University, Shanghai, China | [b] Nanjing University of Aeronautics and Astronautics, Nanjing, Jiangsu, China
Correspondence: [*] Corresponding author: Chaohui Zhao, Shanghai Dianji University, No. 300, Shuihua Road, Shanghai, 201306, PR China. E-mail: zhaoch@sdju.edu.cn
Abstract: To study the influence of the magnitude of the excitation current on the radial electromagnetic force wave of the tangential magnetizing parallel structure hybrid excitation synchronous motor (TMPS-HESM) under different working conditions. Firstly, the basic structure of the motor and the rotor magnetic circuit model is introduced. Secondly, considering the influence of excitation current, the Maxwell stress tensor method is used to analyze the radial electromagnetic force wave of the motor and the source, frequency and order of the radial electromagnetic force wave that has a great influence on the electromagnetic vibration of the motor are qualitatively obtained. Then, the three-dimensional finite element method is used to calculate the variation law of the radial electromagnetic force wave when different excitation currents are applied under no-load and load conditions, revealing that the DC excitation will increase the amplitude of the radial electromagnetic force wave of a specific order. Meanwhile, the influence of load torque variation on the radial electromagnetic force wave is discussed, and it is found that the (2f, 8) and (6f, 24) order electromagnetic force waves are greatly affected by the armature reaction. The work provides a theoretical basis for further suppressing the electromagnetic vibration of this type of hybrid excitation motor.
Keywords: Hybrid excitation motor, radial electromagnetic force wave, excitation current, analytical method, finite element method
DOI: 10.3233/JAE-230016
Journal: International Journal of Applied Electromagnetics and Mechanics, vol. 74, no. 3, pp. 209-233, 2024
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