Publication Type
Conference Proceeding Article
Version
acceptedVersion
Publication Date
7-2010
Abstract
The detection of faults in an induction motor is important as a part of preventive maintenance. Stator current is one of the most popular signals used for utility-supplied induction motor fault detection as a current sensor can be installed nonintrusively. In variable speeds operation, the use of an inverter to drive the induction motor introduces noise into the stator current so stator current based fault detection techniques become less reliable. This paper presents a hybrid algorithm, which combines time and frequency domain analysis, for broken rotor bar and bearing fault detection. Cluster information obtained by using Independent Component Analysis (ICA) to extract features from time domain current signals is combined with information extracted from fast Fourier transformed signal to reveal any underlying faults. To minimise the effect of the noise in the raw signal and intra-class variance in the extracted feature, a novel noise reduction approach- Ensemble and Individual Noise Reduction is employed. An advantage of the proposed scheme is that time domain analysis module can provide an early fault detection with minimal computation complexity. Experimental results obtained on the three-phase inverter-fed squirrel-cage induction motors demonstrated that the proposed method provides excellent classification results.
Keywords
Real-time fault diagnosis, inverter-driven induction motor, robust algorithm, hybrid time-frequency method
Discipline
Numerical Analysis and Scientific Computing | Operations and Supply Chain Management
Research Areas
Intelligent Systems and Optimization
Publication
2010 IEEE International Symposium on Industrial Electronics: Bari, Italy, July 4-7: Proceedings
First Page
1633
Last Page
1638
ISBN
9781424463909
Identifier
10.1109/ISIE.2010.5637554
Publisher
IEEE
City or Country
Piscataway, NJ
Citation
1
Creative Commons License
This work is licensed under a Creative Commons Attribution-NonCommercial-No Derivative Works 4.0 International License.
Additional URL
https://doi.org/10.1109/ISIE.2010.5637554
Included in
Numerical Analysis and Scientific Computing Commons, Operations and Supply Chain Management Commons