Enhanced One-Cycle Control for Multicell Power Converters

In this article, we propose an enhanced one-cycle control (EOCC) strategy for high-voltage gain multicell converters, aiming to resolve the existing issues that exist in the conventional one-cycle control techniques, such as intolerance to load disturbances and inapplicability to multicell converter...

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Veröffentlicht in:	IEEE transactions on power electronics 2020-08, Vol.35 (8), p.8846-8856
Hauptverfasser:	Zhang, Guidong, Zou, Siyuan, Yu, Samson Shenglong, Chen, Si-Zhe, Zhang, Bo, Qiu, Dongyuan, Zhang, Yun
Format:	Artikel
Sprache:	eng
Schlagworte:	Capacitors Enhanced one-cycle control Experimentation high-voltage-gain converters Inductors multicell converter Perturbation methods Power converters Switches Switching circuits Voltage control Voltage gain
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container_title	IEEE transactions on power electronics
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creator	Zhang, Guidong Zou, Siyuan Yu, Samson Shenglong Chen, Si-Zhe Zhang, Bo Qiu, Dongyuan Zhang, Yun
description	In this article, we propose an enhanced one-cycle control (EOCC) strategy for high-voltage gain multicell converters, aiming to resolve the existing issues that exist in the conventional one-cycle control techniques, such as intolerance to load disturbances and inapplicability to multicell converters. The proposed EOCC method is able to overcome these limitations while effectively suppressing input voltage fluctuations and having great responsiveness. Simulation and experimentation on an improved four-cell switched inductor with the proposed EOCC are conducted, which agree well with the theoretical analyses and demonstrate a range of favorable features of the EOCC method, revealing its great feasibility and wide applicability.
doi_str_mv	10.1109/TPEL.2020.2967630
format	Article
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subjects	Capacitors Enhanced one-cycle control Experimentation high-voltage-gain converters Inductors multicell converter Perturbation methods Power converters Switches Switching circuits Voltage control Voltage gain
title	Enhanced One-Cycle Control for Multicell Power Converters
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