Power harmonic and interharmonic detection method in renewable power based on Nuttall double-window all-phase FFT algorithm

Harmonics and interharmonics adversely affect power grids. The fast Fourier transform (FFT) algorithm is one of the most commonly used methods for harmonic analysis. However, in practical applications, the accuracy of harmonic analysis can be seriously affected by fence effect and spectral leakage,...

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Published in:	IET renewable power generation Vol. 12; no. 8; pp. 953 - 961
Main Authors:	Su, Taixin, Yang, Mingfa, Jin, Tao, Flesch, Rodolfo César Costa
Format:	Journal Article
Language:	English
Published:	The Institution of Engineering and Technology 11.06.2018
Subjects:	all‐phase spectrum analysis discrete Fourier transforms fast Fourier transform algorithm fast Fourier transforms fence effect harmonic analysis interharmonic identification measurement precision nonsynchronous sampling Nuttall double‐window all‐phase FFT algorithm phase invariance characteristics phase measurement power grids power harmonic detection method power interharmonic detection method power system harmonics renewable power Research Article signal sampling spectral analysis spectral leakage suppression spectrum correction method window function power system harmonics fast Fourier transforms discrete Fourier transforms nonsynchronous sampling spectral leakage suppression phase invariance characteristics phase measurement spectral analysis power interharmonic detection method fence effect harmonic analysis measurement precision all-phase spectrum analysis renewable power interharmonic identification power harmonic detection method signal sampling window function fast Fourier transform algorithm Nuttall double-window all-phase FFT algorithm power grids spectrum correction method
ISSN:	1752-1416, 1752-1424, 1752-1424
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Abstract	Harmonics and interharmonics adversely affect power grids. The fast Fourier transform (FFT) algorithm is one of the most commonly used methods for harmonic analysis. However, in practical applications, the accuracy of harmonic analysis can be seriously affected by fence effect and spectral leakage, which are undesired characteristics inherent to discrete Fourier transforms. Moreover, when non-synchronous sampling is carried out, the phase measurement is not accurate enough, and there is a large error in the identification of interharmonics. In order to improve the measurement precision, the method of all-phase spectrum analysis is used, since it has the characteristics of phase invariance and good spectral leakage suppression. A novel method based on improved Nuttall double-window all-phase FFT is proposed by improving the window function and the spectrum correction method for achieving higher precision. Through simulation and experimental verification, the proposed algorithm has proven to perform better than the traditional algorithms both for the detection of harmonics and interharmonics. In addition, the computation burden is not considerably increased when compared to such algorithms, which allows the on-line use of the proposed algorithm.
AbstractList	Harmonics and interharmonics adversely affect power grids. The fast Fourier transform (FFT) algorithm is one of the most commonly used methods for harmonic analysis. However, in practical applications, the accuracy of harmonic analysis can be seriously affected by fence effect and spectral leakage, which are undesired characteristics inherent to discrete Fourier transforms. Moreover, when non‐synchronous sampling is carried out, the phase measurement is not accurate enough, and there is a large error in the identification of interharmonics. In order to improve the measurement precision, the method of all‐phase spectrum analysis is used, since it has the characteristics of phase invariance and good spectral leakage suppression. A novel method based on improved Nuttall double‐window all‐phase FFT is proposed by improving the window function and the spectrum correction method for achieving higher precision. Through simulation and experimental verification, the proposed algorithm has proven to perform better than the traditional algorithms both for the detection of harmonics and interharmonics. In addition, the computation burden is not considerably increased when compared to such algorithms, which allows the on‐line use of the proposed algorithm.
Author	Yang, Mingfa Jin, Tao Su, Taixin Flesch, Rodolfo César Costa
Author_xml	– sequence: 1 givenname: Taixin surname: Su fullname: Su, Taixin organization: 1Department of Electrical Engineering, Fuzhou University, Fuzhou 350116, People's Republic of China – sequence: 2 givenname: Mingfa surname: Yang fullname: Yang, Mingfa organization: 1Department of Electrical Engineering, Fuzhou University, Fuzhou 350116, People's Republic of China – sequence: 3 givenname: Tao surname: Jin fullname: Jin, Tao email: jintly@fzu.edu.cn organization: 1Department of Electrical Engineering, Fuzhou University, Fuzhou 350116, People's Republic of China – sequence: 4 givenname: Rodolfo César Costa surname: Flesch fullname: Flesch, Rodolfo César Costa organization: 2Department of Automation and Systems, Federal University of Santa Catarina, 88040-900, Florianópolis, SC, Brazil
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Keywords	power system harmonics fast Fourier transforms discrete Fourier transforms nonsynchronous sampling spectral leakage suppression phase invariance characteristics phase measurement spectral analysis power interharmonic detection method fence effect harmonic analysis measurement precision all-phase spectrum analysis renewable power interharmonic identification power harmonic detection method signal sampling window function fast Fourier transform algorithm Nuttall double-window all-phase FFT algorithm power grids spectrum correction method
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Snippet	Harmonics and interharmonics adversely affect power grids. The fast Fourier transform (FFT) algorithm is one of the most commonly used methods for harmonic...
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SubjectTerms	all‐phase spectrum analysis discrete Fourier transforms fast Fourier transform algorithm fast Fourier transforms fence effect harmonic analysis interharmonic identification measurement precision nonsynchronous sampling Nuttall double‐window all‐phase FFT algorithm phase invariance characteristics phase measurement power grids power harmonic detection method power interharmonic detection method power system harmonics renewable power Research Article signal sampling spectral analysis spectral leakage suppression spectrum correction method window function
Title	Power harmonic and interharmonic detection method in renewable power based on Nuttall double-window all-phase FFT algorithm
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