Voltage sag/swell waveform analysis method based on multi-dimension characterisation

Voltage magnitude and sag duration are known as acknowledged basic voltage sag characteristics in the last decades. However, these values cannot meet the demands of waveform analysis in the modern smart grid. Therefore, voltage sag multi-dimension characterisation is required to extract more essenti...

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Bibliographic Details
Published in:IET generation, transmission & distribution transmission & distribution, 2020-02, Vol.14 (3), p.486-493
Main Authors: Hu, Wen-Xi, Xiao, Xian-Yong, Zheng, Zi-Xuan
Format: Article
Language:English
Subjects:
characteristics calculation
multidimension characterisation method
multidimension characteristics
phase angle
power quality monitoring system
power supply quality
Research Article
sag duration
segmentation calculation
smart grid
smart power grids
swell waveform analysis
voltage sag analysis
voltage sag detection
waveform analysis
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Summary:Voltage magnitude and sag duration are known as acknowledged basic voltage sag characteristics in the last decades. However, these values cannot meet the demands of waveform analysis in the modern smart grid. Therefore, voltage sag multi-dimension characterisation is required to extract more essential information from measured waveforms. This study focuses on the unsolved issue that how to obtain required characteristics from voltage sag waveforms effectively. Overall, multi-dimension characterisation method contains several parts: voltage sag detection, segmentation and characteristics calculation. Fundamental voltage magnitude and phase angle, obtained by the proposed adaptive generalised morphology filter, are segmented in several parts. Then, a set of characteristics are calculated to characterise the voltage sag waveform in a multi-dimensional way. Performance of the proposed method is validated by synthetic and measured waveforms. Results show that both detection and segmentation methods have better performance than existing typical methods, and multi-dimension characteristics can be extracted from waveforms accurately. Moreover, the proposed method can be implemented in power quality monitoring system to support further sag studies.
ISSN:1751-8687
1751-8695
1751-8695
DOI:10.1049/iet-gtd.2019.1038