6533b824fe1ef96bd1280111
RESEARCH PRODUCT
Improved Quadratic Time-frequency Distributions for Detecting Inter-turn Short Circuits of PMSMs in Transient States
Kjell G. RobbersmyrHuynh Van KhangSveinung Attestogsubject
symbols.namesakeSignal processingFourier transformQuadratic equationComputer scienceShort-time Fourier transformsymbolsCondition monitoringSpectrogramTransient (oscillation)AlgorithmVDP::Teknologi: 500::Elektrotekniske fag: 540Time–frequency analysisdescription
This paper aims to improve quadratic time-frequency distributions to adapt condition monitoring of electrical machines in transient states. Short-Time Fourier transform (STFT) has been a baseline signal processing technique for detecting fault characteristic frequencies. However, limits of window sizes due to loss of frequency- or time-resolution, make it hard to capture rapid changes in frequencies. Within this study, Choi-Williams and Wigner-Ville distributions are proposed to effectively detect peaks at characteristic frequencies while still maintaining low computation time. The improved quadratic time-frequency distributions allow for generating spectrograms of a longer lasting data signal and capturing multi-component signals with a better separation of the components than STFT. Further, the time resolution of the spectrograms generated by the proposed method is not affected by the window size. The effectiveness of the proposed methods is numerically verified from the data of an in-house test setup.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2020-08-23 |