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Finite-time robust control for transformerless H-bridge cascaded STATCOM with star configuration  ( EI收录)  

文献类型:期刊文献

英文题名:Finite-time robust control for transformerless H-bridge cascaded STATCOM with star configuration

作者:Lv, Xingyu Lei, Bangjun Fei, Shumin

第一作者:Lv, Xingyu

通信作者:Lei, Bangjun|[14440cb6f528bf597f343]雷邦军;

机构:[1] Foreign Language Teaching Center, Guizhou Institute of Technology, Guiyang, China; [2] Key Laboratory of Power Dig Data of Guizhou Province, School of Electrical and Information Engineering, Guizhou Institute of Technology, Guiyang, China; [3] Key Laboratory of Measurement and Control of Complex Systems of Engineering, Ministry of Education, School of Automation, Southeast University, Nanjing, China

第一机构:贵州理工学院大学外语教学部

通信机构:|贵州理工学院电气与信息工程学院

年份:2021

卷号:8

期号:2

起止页码:106-115

外文期刊名:Journal of Control and Decision

收录:EI(收录号:20193207282047);Scopus(收录号:2-s2.0-85096620986)

基金:This work is supported by Guizhou Provincial Science and Technology Foundation (No. QiankeheJzi [2015]2070, Qiankehejichu[2016]1064, Qiankehejichu[2017]1074, Qiankehejichu[2018]1068, Qiankehezhicheng[2018]2164), the Chinese National Natural Science Foundation under Grant No. 61563011, the Ph.D research fund of Guizhou Normal University under Grant No. 11904-0514170, High level talent research project of Guizhou Institute of Technology (No. XJGC20150405).

语种:英文

外文关键词:Damping - Electric current regulators - Mathematical transformations - Robust control - Stability - Stars - Static synchronous compensators - Transients

摘要:This article presents a finite-time robust control (FTRC) of a transformerless STATCOM based on a cascaded multilevel H-bridge converter (CMHC) with star configuration. The FTRC is first proposed for the current loop control of a CMHC-based transformerless STATCOM by using the finite time robust control theory. Taking the parameters, perturbations and external disturbances into account and using coordinate transformation method, the nonlinear dynamic model of the CMHC-based transformerless STATCOM is transformed into a standard nonlinear port-controlled dissipative Hamiltonian (PCDH) structure. Based on the PCDH structure, an FTRC is designed for the CMHC-based transformerless STATCOM to improve the transient stability and oscillation damping of power system. Finally, the simulation results demonstrate that the FTRC has better dynamic performance and strong robustness in comparison with the passivity-based control of the CMHC-based transformerless STATCOM. ? 2019 Northeastern University, China.

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