The fundamental phase shift compensation scheme in a digital-controlled VIENNA rectifier with variable carrier-fundamental frequency ratio under unbalanced grid conditions-Reference-Cited by-同舟云学术

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The fundamental phase shift compensation scheme in a digital-controlled VIENNA rectifier with variable carrier-fundamental frequency ratio under unbalanced grid conditions

Published:2022-08 Issue: Volume:8 Page:769-780
ISSN:2352-4847
Container-title:Energy Reports
language:en
Short-container-title:Energy Reports

Author:

Lyu Jianguo^ORCID,Shi Zhaocheng,Wu Fuyun,Fan Linyong,Sun Zhuang,Hu Wenbin

Publisher

Elsevier BV

Subject

General Energy

Reference23 articles.

1. L. S., M. L., M. H., F. T., J. W. K, T. B. S., 99.3% Efficient three-phase buck-type all-SiC SWISS Rectifier for DC distribution systems, in: 2017 IEEE Applied power electronics conference and exposition, 2017, pp. 2173–2178.

2. Computationally efficient optimal switching sequence model predictive control for three-phase vienna rectifier under balanced and unbalanced DC links;Xu;IEEE Trans Power Electron,2021

3. Constant power control-based strategy for vienna-type rectifiers to expand operating area under severe unbalanced grid;Hang;IET Power Electr,2014

4. One-cycle control of switching converters;Smedley;IEEE Trans Power Electr,1995

5. Application of the one-cycle control technique to a three-phase three-level NPC rectifier;Bento;IEEE Trans Ind Appl,2014

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