Cascaded H-Bridge Multilevel Inverter System Fault Diagnosis Using a PCA and Multiclass Relevance Vector Machine Approach

Author

Tianzhen Wang ; Hao Xu ; Jingang Han ; Elbouchikhi, Elhoussin ; El Hachemi Benbouzid, Mohamed

Author_Institution

Dept. of Electr. Autom., Shanghai Maritime Univ., Shanghai, China

Volume

30

Issue

12

fYear

2015

Firstpage

7006

Lastpage

7018

Abstract

Multilevel inverters, for their distinctive performance, have been widely used in high voltage and high-power applications in recent years. As power electronics equipment reliability is very important and to ensure multilevel inverter systems stable operation, it is important to detect and locate faults as quickly as possible. In this context and to improve fault diagnosis accuracy and efficiency of a cascaded H-bridge multilevel inverter system (CHMLIS), a fault diagnosis strategy based on the principle component analysis and the multiclass relevance vector machine (PCA-mRVM), is elaborated and proposed in this paper. First, CHMLIS output voltage signals are selected as input fault classification characteristic signals. Then, a fast Fourier transform is used to preprocess these signals. PCA is used to extract fault signals features and to reduce samples dimensions. Finally, an mRVM model is used to classify faulty samples. Compared to traditional approaches, the proposed PCA-mRVM strategy not only achieves higher model sparsity and shorter diagnosis time, but also provides probabilistic outputs for every class membership. Experimental tests are carried out to highlight the proposed PCA-mRVM diagnosis performances.

Keywords

bridge circuits; fault location; feature extraction; invertors; learning (artificial intelligence); power engineering computing; principal component analysis; probability; signal classification; signal sampling; CHMLIS; PCA-mRVM; cascaded H-bridge multilevel inverter system fault diagnosis; class membership; fault detection; fault location; fault signal feature extraction; input fault classification characteristic signals; multiclass relevance vector machine approach; power electronics equipment reliability; principle component analysis; probabilistic outputs; sample dimension reduction; Circuit faults; Fault diagnosis; Feature extraction; Inverters; Support vector machines; Switches; Voltage measurement; Cascaded H-bridge; Fault diagnosis; cascaded H-bridge; fault diagnosis; model sparsity; multi-class relevance vector machine; multiclass relevance vector machine (mRVM); principal component analysis; principal component analysis (PCA);

fLanguage

English

Journal_Title

Power Electronics, IEEE Transactions on

Publisher

ieee

ISSN

0885-8993

Type

jour

DOI

10.1109/TPEL.2015.2393373

Filename

7012099