AI Article Synopsis
- The paper introduces advanced methods for identifying faults caused by broken rotor bars in induction motors, utilizing closed-loop control techniques.
- Fast Fourier Transform (FFT) and Discrete Wavelet Transform (DWT) are employed to analyze electrical and mechanical parameters during both start-up and steady-state conditions, with DWT particularly excelling in fault detection.
- A Luenberger observer is used for sensorless control to estimate rotor speed and manage fault effects, leading to the emergence of a specific quadratic current pattern that aids in fault identification.
Article Abstract
This paper presents new techniques to evaluate faults in case of broken rotor bars of induction motors. Procedures are applied with closed-loop control. Electrical and mechanical variables are treated using fast Fourier transform (FFT), and discrete wavelet transform (DWT) at start-up and steady state. The wavelet transform has proven to be an excellent mathematical tool for the detection of the faults particularly broken rotor bars type. As a performance, DWT can provide a local representation of the non-stationary current signals for the healthy machine and with fault. For sensorless control, a Luenberger observer is applied; the estimation rotor speed is analyzed; the effect of the faults in the speed pulsation is compensated; a quadratic current appears and used for fault detection.
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| http://dx.doi.org/10.1016/j.isatra.2014.06.003 | DOI Listing |
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