Supraharmonics Measurement Based on Colored Noise Suppressed Matrix Pencil Method

Supraharmonics emitted from power electronic devices can cause electromagnetic interference. However, there is currently no unified standard for measuring supraharmonics. This paper presents a supraharmonics measurement method with high-time resolution based on the matrix pencil method. A technique...

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Veröffentlicht in:	IEEE access 2023, Vol.11, p.94346-94357
Hauptverfasser:	Li, Kaite, Zhao, Wei, Li, Shisong, Huang, Songling
Format:	Artikel
Sprache:	eng
Schlagworte:	colored noise compressive sensing Cross correlation Distortion measurement Electromagnetic interference Estimation Frequency estimation Frequency measurement Matrix decomposition matrix pencil method Measurement methods Noise measurement Signal resolution Supraharmonics Time measurement
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creator	Li, Kaite Zhao, Wei Li, Shisong Huang, Songling
description	Supraharmonics emitted from power electronic devices can cause electromagnetic interference. However, there is currently no unified standard for measuring supraharmonics. This paper presents a supraharmonics measurement method with high-time resolution based on the matrix pencil method. A technique based on the principle of cross-correlation is used to process the measured signal. The original signal is replaced by the processing results, then it is solved by the matrix pencil method. This method can effectively reduce the influence of colored noise to the measurement. After comparing with the results obtained by compressive sensing measurement method, it is proved that the method proposed in this paper has distinct advantages in reducing the interference of colored noise and can effectively improve the accuracy of the measurement of supraharmonics.
doi_str_mv	10.1109/ACCESS.2023.3311258
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subjects	colored noise compressive sensing Cross correlation Distortion measurement Electromagnetic interference Estimation Frequency estimation Frequency measurement Matrix decomposition matrix pencil method Measurement methods Noise measurement Signal resolution Supraharmonics Time measurement
title	Supraharmonics Measurement Based on Colored Noise Suppressed Matrix Pencil Method
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