Joint Control of Three-Level DC-DC Converter Interfaced Hybrid Energy Storage System in DC Microgrids

A new three-level bidirectional dc-dc converter configuration for the battery and supercapacitor (SC) energy storage systems in dc microgrids is presented in this paper. The PI-based control method is implemented to operate the proposed converter with hybrid energy storage system. Furthermore, joint...

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Veröffentlicht in:	IEEE transactions on energy conversion 2019-12, Vol.34 (4), p.2248-2257
Hauptverfasser:	Manandhar, Ujjal, Wang, Benfei, Zhang, Xinan, Beng, Gooi Hoay, Liu, Yitao, Ukil, Abhisek
Format:	Artikel
Sprache:	eng
Schlagworte:	Batteries Configurations Control stability Control systems Control systems design Converters DC-DC power converters Electric power grids Energy storage Hybrid energy storage system Hybrid systems Inductors Microgrids Passive components PI controller Power flow renewable energy Restoration Stability analysis Storage systems three level bidirectional DC-DC converter Voltage control
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container_title	IEEE transactions on energy conversion
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creator	Manandhar, Ujjal Wang, Benfei Zhang, Xinan Beng, Gooi Hoay Liu, Yitao Ukil, Abhisek
description	A new three-level bidirectional dc-dc converter configuration for the battery and supercapacitor (SC) energy storage systems in dc microgrids is presented in this paper. The PI-based control method is implemented to operate the proposed converter with hybrid energy storage system. Furthermore, joint control is utilized to obtain rapid dc-link voltage restoration and effective power sharing between battery and SC based on their respective characteristics. The system operating principle, controller design, stability analysis, simulation studies, and experimental studies are presented in this paper. The proposed three-level bidirectional dc-dc converter configuration can effectively integrate the battery and SC with the bidirectional power flow. The proposed control method provides the effective participation of the SC system which reduces the stress on the battery system. The presented converter configuration is effective in reducing the stress on the power semiconductors and provides better performance with smaller passive components. The experimental platform is built to test and validate the three-level bidirectional dc-dc converter and the proposed control method for the HESS.
doi_str_mv	10.1109/TEC.2019.2935787
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subjects	Batteries Configurations Control stability Control systems Control systems design Converters DC-DC power converters Electric power grids Energy storage Hybrid energy storage system Hybrid systems Inductors Microgrids Passive components PI controller Power flow renewable energy Restoration Stability analysis Storage systems three level bidirectional DC-DC converter Voltage control
title	Joint Control of Three-Level DC-DC Converter Interfaced Hybrid Energy Storage System in DC Microgrids
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