Switching‐angle‐based hybrid modulation method of full wind speed and low carrier wave ratio for direct‐drive permanent‐magnet wind power generation system-Reference-Cited by-同舟云学术

Switching‐angle‐based hybrid modulation method of full wind speed and low carrier wave ratio for direct‐drive permanent‐magnet wind power generation system

Published:2024-05 Issue:5 Volume:2024 Page:
ISSN:2051-3305
Container-title:The Journal of Engineering
language:en
Short-container-title:The Journal of Engineering

Author:

Cheng Zhun¹,Xu Mai²,Yi Wenjing²,Li Dan¹,Luo Bing³,Zhang Yang²^ORCID

Affiliation:

1. College of Intelligent Manufacturing Hunan Railway Professional Technology College Zhuzhou Hunan Province P. R. China

2. College of Electrical and Information Engineering Hunan University of Technology Zhuzhou Hunan Province P. R. China

3. CSG Electric Power Research Institute Co. Ltd Guangzhou Guangdong Province P. R. China

Abstract

AbstractA switching‐angle‐based hybrid modulation method of full wind speed and low carrier wave ratio for direct‐drive permanent‐magnet wind power generation system is proposed here, which order to improve the control performance of wind turbines in the full wind speed range. The combination manner of the proposed method is based on the harmonic distortion rate of the stator current, a modulation mode with a higher carrier wave ratio is adopted within the maximum switching frequency allowed by the system, the switching angle from optimized synchronous modulation also is introduced. In order to solve the problem of current impact caused by switching different modulation modes, the switching strategy between different modulation modes is developed from the perspective of harmonic current. And the sectors are redivided for the problem of sudden change in carrier wave ratio during switching, which improve the control effect of permanent‐magnet synchronous wind generator when changing the modulations modes. Finally, the feasibility and correctness of the proposed method are verified by theoretical analysis and simulation.

Publisher

Institution of Engineering and Technology (IET)

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