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Experimental discussions on operating frequencies of a bidirectional isolated DC-DC converter for a battery energy storage system

This paper presents a high-efficiency bidirectional isolated dc-dc converter for a battery energy storage system connected to the grid. It discusses the design of the converter, an optimal operating frequency range, and the optimal dead times for a 6-kW, full-bridge, bidirectional isolated dc-dc con...

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Main Authors: Tan N.M.L., Abe T., Akagi H.
Other Authors: 24537965000
Format: Conference paper
Published: 2023
Subjects:
DC-DC converters
Efficiency
Electric drives
Energy conversion
Energy storage
Optimization
Battery energy storage systems
Bidirectional isolated dc-dc converter
Converter efficiency
Frequency-dependent loss
Maximum Efficiency
Operating frequency
Optimal frequency
Power transfers
HVDC power transmission
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spelling my.uniten.dspace-300292023-12-29T15:44:05Z Experimental discussions on operating frequencies of a bidirectional isolated DC-DC converter for a battery energy storage system Tan N.M.L. Abe T. Akagi H. 24537965000 7406009689 7102912290 DC-DC converters Efficiency Electric drives Energy conversion Energy storage Optimization Battery energy storage systems Bidirectional isolated dc-dc converter Converter efficiency Frequency-dependent loss Maximum Efficiency Operating frequency Optimal frequency Power transfers HVDC power transmission This paper presents a high-efficiency bidirectional isolated dc-dc converter for a battery energy storage system connected to the grid. It discusses the design of the converter, an optimal operating frequency range, and the optimal dead times for a 6-kW, full-bridge, bidirectional isolated dc-dc converter with focus on improving converter efficiency. This paper also provides a power-loss breakdown of the dc-dc converter at the rated power. The optimal frequency range of the dc-dc converter is defined by making its frequency-dependent loss equal to its frequency-independent loss. The optimal dead time is defined by one-fourth of the resonant period. The maximum efficiency of the dc-dc converter operating at 4 kHz is measured at 98.1% during battery charging and at 98.2% during battery discharging. The converter maintains a high efficiency of more than 97% in a wide range of power transfer. � 2013 IEEE. Final 2023-12-29T07:44:05Z 2023-12-29T07:44:05Z 2013 Conference paper 10.1109/ECCE.2013.6646999 2-s2.0-84891106082 https://www.scopus.com/inward/record.uri?eid=2-s2.0-84891106082&doi=10.1109%2fECCE.2013.6646999&partnerID=40&md5=b631f8bf8791230af9a63799d1a5690e https://irepository.uniten.edu.my/handle/123456789/30029 6646999 2333 2340 Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
topic DC-DC converters
Efficiency
Electric drives
Energy conversion
Energy storage
Optimization
Battery energy storage systems
Bidirectional isolated dc-dc converter
Converter efficiency
Frequency-dependent loss
Maximum Efficiency
Operating frequency
Optimal frequency
Power transfers
HVDC power transmission
spellingShingle DC-DC converters
Efficiency
Electric drives
Energy conversion
Energy storage
Optimization
Battery energy storage systems
Bidirectional isolated dc-dc converter
Converter efficiency
Frequency-dependent loss
Maximum Efficiency
Operating frequency
Optimal frequency
Power transfers
HVDC power transmission
Tan N.M.L.
Abe T.
Akagi H.
Experimental discussions on operating frequencies of a bidirectional isolated DC-DC converter for a battery energy storage system
description This paper presents a high-efficiency bidirectional isolated dc-dc converter for a battery energy storage system connected to the grid. It discusses the design of the converter, an optimal operating frequency range, and the optimal dead times for a 6-kW, full-bridge, bidirectional isolated dc-dc converter with focus on improving converter efficiency. This paper also provides a power-loss breakdown of the dc-dc converter at the rated power. The optimal frequency range of the dc-dc converter is defined by making its frequency-dependent loss equal to its frequency-independent loss. The optimal dead time is defined by one-fourth of the resonant period. The maximum efficiency of the dc-dc converter operating at 4 kHz is measured at 98.1% during battery charging and at 98.2% during battery discharging. The converter maintains a high efficiency of more than 97% in a wide range of power transfer. � 2013 IEEE.
author2 24537965000
author_facet 24537965000
Tan N.M.L.
Abe T.
Akagi H.
format Conference paper
author Tan N.M.L.
Abe T.
Akagi H.
author_sort Tan N.M.L.
title Experimental discussions on operating frequencies of a bidirectional isolated DC-DC converter for a battery energy storage system
title_short Experimental discussions on operating frequencies of a bidirectional isolated DC-DC converter for a battery energy storage system
title_full Experimental discussions on operating frequencies of a bidirectional isolated DC-DC converter for a battery energy storage system
title_fullStr Experimental discussions on operating frequencies of a bidirectional isolated DC-DC converter for a battery energy storage system
title_full_unstemmed Experimental discussions on operating frequencies of a bidirectional isolated DC-DC converter for a battery energy storage system
title_sort experimental discussions on operating frequencies of a bidirectional isolated dc-dc converter for a battery energy storage system
publishDate 2023
_version_ 1806423276894814208
score 13.214268

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