Open Access

ARTICLE

Artificial Monitoring of Eccentric Synchronous Reluctance Motors Using Neural Networks

Shuguang Wei, Jiaqi Li^*, Zixu Zhao, Dong Yuan

Army Academy of Armored Forces, Beijing, 100072, China

* Corresponding Author: Jiaqi Li. Email:

Computers, Materials & Continua 2022, 72(1), 1035-1052. https://doi.org/10.32604/cmc.2022.024201

Received 08 October 2021; Accepted 13 December 2021; Issue published 24 February 2022

Abstract

This paper proposes an artificial neural network for monitoring and detecting the eccentric error of synchronous reluctance motors. Firstly, a 15 kW synchronous reluctance motor is introduced and took as a case study to investigate the effects of eccentric rotor. Then, the equivalent magnetic circuits of the studied motor are analyzed and developed, in cases of dynamic eccentric rotor and static eccentric rotor condition, respectively. After that, the analytical equations of the studied motor are derived, in terms of its air-gap flux density, electromagnetic torque, and electromagnetic force, followed by the electromagnetic finite element analyses. Then, the modal analyses of the stator and the whole motor are performed, respectively, to explore the natural frequency and the modal shape of the motor, by which the further vibrational analysis is possible to be conducted. The vibration level of the housing is furtherly studied to investigate its relationship with the rotor eccentricity, which is validated by the prototype test. Furthermore, an artificial neural network, which has 3 layers, is proposed. By taking the air-gap flux density, the electromagnetic force, and the vibrational level as inputs, and taking the eccentric distance as output, the proposed neural network is trained till the error smaller than 5%. Therefore, this neural network is obtaining the input parameters of the tested motor, based on which it is automatically monitoring and reporting the eccentric error to the upper-level control center.

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Keywords

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