Fault diagnosis for three-phase PWM rectifier based on deep feedforward network with transient synthetic features

• URL: http://arxiv.org/abs/2211.00228v1
• Date: Tue, 1 Nov 2022 02:32:20 GMT
• Title: Fault diagnosis for three-phase PWM rectifier based on deep feedforward network with transient synthetic features
• Authors: Kou Lei, Liu Chuang, Cai Guo-Wei, Zhang Zhe, Zhou Jia-Ning, Wang Xue-Mei
• Abstract summary: A fault diagnosis method based on deep feedforward network with transient synthetic features is proposed. The average fault diagnosis accuracy can reach 97.85% for transient synthetic fault data. Online fault diagnosis experiments show that the method can accurately locate the fault IGBTs.
• Score: 0.0
• License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
• Abstract: Three-phase PWM rectifiers are adopted extensively in industry because of their excellent properties and potential advantages. However, while the IGBT has an open-circuit fault, the system does not crash suddenly, the performance will be reduced for instance voltages fluctuation and current harmonics. A fault diagnosis method based on deep feedforward network with transient synthetic features is proposed to reduce the dependence on the fault mathematical models in this paper, which mainly uses the transient phase current to train the deep feedforward network classifier. Firstly, the features of fault phase current are analyzed in this paper. Secondly, the historical fault data after feature synthesis is employed to train the deep feedforward network classifier, and the average fault diagnosis accuracy can reach 97.85% for transient synthetic fault data, the classifier trained by the transient synthetic features obtained more than 1% gain in performance compared with original transient features. Finally, the online fault diagnosis experiments show that the method can accurately locate the fault IGBTs, and the final diagnosis result is determined by multiple groups results, which has the ability to increase the accuracy and reliability of the diagnosis results. (c) 2020 ISA. Published by Elsevier Ltd. All rights reserved.

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