Experimental discussion on a 6-kW, 2-kWh battery energy storage system using a bidirectional isolated DC/DC converter

This paper presents an experimental discussion on a 6-kW, full-bridge, zero-voltage switching bidirectional isolated dc/dc converter for a 53.2-V, 2-kWh Li-ion battery energy storage system. The combination of high-frequency switching devices, 600-V/200-A IGBTs and 100-V/500-A MOSFETs with a high-fr...

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Main Authors: Abe T., Tan N.M.L., Akagi H.
Other Authors: 7406009689
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Published: 2023
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spelling my.uniten.dspace-304172023-12-29T15:47:37Z Experimental discussion on a 6-kW, 2-kWh battery energy storage system using a bidirectional isolated DC/DC converter Abe T. Tan N.M.L. Akagi H. 7406009689 24537965000 7102912290 Bidirectional isolated dc/dc converters Energy storage systems Lithium-ion battery Electrochemical cells Energy storage Battery energy storage systems Battery voltages Bidirectional power flow Control circuits DC voltage Energy storage systems Experimental verification Full-bridge Gate drives High-frequency switching High-voltages Li-ion batteries Lithium-ion battery Low-voltage MOSFETs DC-DC converters This paper presents an experimental discussion on a 6-kW, full-bridge, zero-voltage switching bidirectional isolated dc/dc converter for a 53.2-V, 2-kWh Li-ion battery energy storage system. The combination of high-frequency switching devices, 600-V/200-A IGBTs and 100-V/500-A MOSFETs with a high-frequency transformer reduces the weight and physical size of the bidirectional isolated dc/dc converter. The dc voltage on the high-voltage side of the converter is controlled in a range of 300V to 355V as the battery voltage on the low-voltage side varies from 50V to 59V. Experimental verification of bidirectional power flow into (battery charging) or out of (battery discharging) the Li-ion battery bank is also presented. The maximal efficiency of the dc/dc converter is measured to be 98.1% during charging and 98.2% during discharging, excluding the gate drive loss and control circuit loss. � 2012 The Institute of Electrical Engineers of Japan. Final 2023-12-29T07:47:37Z 2023-12-29T07:47:37Z 2012 Article 10.1541/ieejias.132.233 2-s2.0-84863404337 https://www.scopus.com/inward/record.uri?eid=2-s2.0-84863404337&doi=10.1541%2fieejias.132.233&partnerID=40&md5=468d2ad7ee0eea597351abd60b02c2df https://irepository.uniten.edu.my/handle/123456789/30417 132 2 233 240+14 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 Bidirectional isolated dc/dc converters
Energy storage systems
Lithium-ion battery
Electrochemical cells
Energy storage
Battery energy storage systems
Battery voltages
Bidirectional power flow
Control circuits
DC voltage
Energy storage systems
Experimental verification
Full-bridge
Gate drives
High-frequency switching
High-voltages
Li-ion batteries
Lithium-ion battery
Low-voltage
MOSFETs
DC-DC converters
spellingShingle Bidirectional isolated dc/dc converters
Energy storage systems
Lithium-ion battery
Electrochemical cells
Energy storage
Battery energy storage systems
Battery voltages
Bidirectional power flow
Control circuits
DC voltage
Energy storage systems
Experimental verification
Full-bridge
Gate drives
High-frequency switching
High-voltages
Li-ion batteries
Lithium-ion battery
Low-voltage
MOSFETs
DC-DC converters
Abe T.
Tan N.M.L.
Akagi H.
Experimental discussion on a 6-kW, 2-kWh battery energy storage system using a bidirectional isolated DC/DC converter
description This paper presents an experimental discussion on a 6-kW, full-bridge, zero-voltage switching bidirectional isolated dc/dc converter for a 53.2-V, 2-kWh Li-ion battery energy storage system. The combination of high-frequency switching devices, 600-V/200-A IGBTs and 100-V/500-A MOSFETs with a high-frequency transformer reduces the weight and physical size of the bidirectional isolated dc/dc converter. The dc voltage on the high-voltage side of the converter is controlled in a range of 300V to 355V as the battery voltage on the low-voltage side varies from 50V to 59V. Experimental verification of bidirectional power flow into (battery charging) or out of (battery discharging) the Li-ion battery bank is also presented. The maximal efficiency of the dc/dc converter is measured to be 98.1% during charging and 98.2% during discharging, excluding the gate drive loss and control circuit loss. � 2012 The Institute of Electrical Engineers of Japan.
author2 7406009689
author_facet 7406009689
Abe T.
Tan N.M.L.
Akagi H.
format Article
author Abe T.
Tan N.M.L.
Akagi H.
author_sort Abe T.
title Experimental discussion on a 6-kW, 2-kWh battery energy storage system using a bidirectional isolated DC/DC converter
title_short Experimental discussion on a 6-kW, 2-kWh battery energy storage system using a bidirectional isolated DC/DC converter
title_full Experimental discussion on a 6-kW, 2-kWh battery energy storage system using a bidirectional isolated DC/DC converter
title_fullStr Experimental discussion on a 6-kW, 2-kWh battery energy storage system using a bidirectional isolated DC/DC converter
title_full_unstemmed Experimental discussion on a 6-kW, 2-kWh battery energy storage system using a bidirectional isolated DC/DC converter
title_sort experimental discussion on a 6-kw, 2-kwh battery energy storage system using a bidirectional isolated dc/dc converter
publishDate 2023
_version_ 1806427991126835200
score 13.222552