LAPSE:2023.22582
Published Article
LAPSE:2023.22582
Zero-Sequence Differential Current Protection Scheme for Converter Transformer Based on Waveform Correlation Analysis
March 24, 2023
Through the analysis of the recovery inrush current generated by the external fault removal of the converter transformer, it is pointed out that the zero-sequence current caused by the recovery inrush may result in the saturation of the neutral current transformer (CT), whose measurement distortion contributes to the mis-operation of zero-sequence differential current protection. In this paper, a new scheme of zero-sequence differential current protection based on waveform correlation is proposed. By analyzing the characteristics of zero-sequence current under internal fault, external fault and external fault removal, the waveform correlation of the zero-sequence current measured at the terminal of the transformer and the zero-sequence current measured at the neutral point of the transformer is used for identification. The polarity of the CT is selected to guarantee the zero-sequence currents at the terminal and neutral point of the transformer exhibit a "ride through" characteristic under external fault, then the waveform similarity is high, and the correlation coefficient is positive. On the other hand, when internal fault occurs, zero-sequence current waveforms on both sides differ from each other largely, and the correlation coefficient is negative. Through a large number of simulations verified by PSCAD/EMTDC, this criterion can accurately identify internal and external faults, exempt from effects of the recovery inrush. Moreover, it presents certain ability for CT anti-saturation.
Record ID
Keywords
Converter transformer, correlation analysis, CT saturation, zero-sequence differential current protection
Subject
Suggested Citation
Zheng T, Yang X, Guo X, Wang X, Zhang C. Zero-Sequence Differential Current Protection Scheme for Converter Transformer Based on Waveform Correlation Analysis. (2023). LAPSE:2023.22582
Author Affiliations
Zheng T: State Key Laboratory of Alternate Electrical Power System with Renewable Energy Sources, North China Electric Power University, Beijing 102206, China
Yang X: State Key Laboratory of Alternate Electrical Power System with Renewable Energy Sources, North China Electric Power University, Beijing 102206, China
Guo X: State Key Laboratory of Alternate Electrical Power System with Renewable Energy Sources, North China Electric Power University, Beijing 102206, China
Wang X: State Key Laboratory of Power Grid Safety and Energy Conservation, China Electric Power Research Institute Co., Ltd, Beijing 100192, China
Zhang C: State Key Laboratory of Alternate Electrical Power System with Renewable Energy Sources, North China Electric Power University, Beijing 102206, China
Yang X: State Key Laboratory of Alternate Electrical Power System with Renewable Energy Sources, North China Electric Power University, Beijing 102206, China
Guo X: State Key Laboratory of Alternate Electrical Power System with Renewable Energy Sources, North China Electric Power University, Beijing 102206, China
Wang X: State Key Laboratory of Power Grid Safety and Energy Conservation, China Electric Power Research Institute Co., Ltd, Beijing 100192, China
Zhang C: State Key Laboratory of Alternate Electrical Power System with Renewable Energy Sources, North China Electric Power University, Beijing 102206, China
Journal Name
Energies
Volume
13
Issue
7
Article Number
E1814
Year
2020
Publication Date
2020-04-09
Published Version
ISSN
1996-1073
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Original Submission
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PII: en13071814, Publication Type: Journal Article
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LAPSE:2023.22582
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doi:10.3390/en13071814
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[v1] (Original Submission)
Mar 24, 2023
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Mar 24, 2023
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