A Multiple‐Port Three‐Level DC/DC Converter for HESS with Power Sharing in DC Microgrids

In order to reduce the volume, weight and cost of conventional hybrid energy storage system (HESS) while properly exploring the complementary features of different energy storage devices for DC microgrid applications, this paper proposes a multiple‐port three‐level DC/DC converter. It possesses mult...

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Published inChinese Journal of Electronics Vol. 30; no. 3; pp. 570 - 583
Main Authors Tong, JIAO, Xi'nan, ZHANG, Benfei, WANG, Guangquan, CUI, Wanzhong, MA
Format Journal Article
LanguageEnglish
Published Published by the IET on behalf of the CIE 01.05.2021
Subjects
DC microgrid
hybrid energy storage system
Multiple‐port DC/DC converter
Renewable generation
Three‐level
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Abstract In order to reduce the volume, weight and cost of conventional hybrid energy storage system (HESS) while properly exploring the complementary features of different energy storage devices for DC microgrid applications, this paper proposes a multiple‐port three‐level DC/DC converter. It possesses multiple ports sharing one front‐end three‐level DC/DC converter with an inductor and supercapacitor bank. Different types of batteries and/or multiple battery banks can be interfaced through the multiple terminals. Such a converter structure facilitates the cooperation of different energy storage devices to satisfy various power demands of DC microgrids with intermittent renewable generation plants. Moreover, the proposed structure allows power sharing among different energy storage devices, which enables more efficient cooperation of different battery banks or different types of batteries. Experimental results are presented to verify the efficacy of the proposed converter structure and its control.
AbstractList In order to reduce the volume, weight and cost of conventional hybrid energy storage system (HESS) while properly exploring the complementary features of different energy storage devices for DC microgrid applications, this paper proposes a multiple‐port three‐level DC/DC converter. It possesses multiple ports sharing one front‐end three‐level DC/DC converter with an inductor and supercapacitor bank. Different types of batteries and/or multiple battery banks can be interfaced through the multiple terminals. Such a converter structure facilitates the cooperation of different energy storage devices to satisfy various power demands of DC microgrids with intermittent renewable generation plants. Moreover, the proposed structure allows power sharing among different energy storage devices, which enables more efficient cooperation of different battery banks or different types of batteries. Experimental results are presented to verify the efficacy of the proposed converter structure and its control.
Author Benfei, WANG
Wanzhong, MA
Xi'nan, ZHANG
Tong, JIAO
Guangquan, CUI
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SubjectTerms DC microgrid
hybrid energy storage system
Multiple‐port DC/DC converter
Renewable generation
Three‐level
Title A Multiple‐Port Three‐Level DC/DC Converter for HESS with Power Sharing in DC Microgrids
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