A high-voltage DC-DC converter with Vin/3 - Voltage stress on the primary switches

Ting-Ting Song; Henry S.-H. Chung; Adrian Ioinovici

doi:10.1109/TPEL.2007.909227

A high-voltage DC-DC converter with Vin/3 - Voltage stress on the primary switches

Ting-Ting Song, Henry S.-H. Chung, Adrian Ioinovici

Department of Electrical Engineering

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

39 Citations (Scopus)

Abstract

A high-voltage dc-dc converter with low voltage stress on the power switches and high output current capacity is presented. This converter exhibits three distinct features. First, the voltage stress on the primary switches is only one-third of the input voltage, so that switches of low voltage rating and thus of low on-resistance can be used. This leads to reduced conduction loss. Second, all the switches are soft-switched, so that the switching loss can be reduced. Third, the rectifier is a current tripler, so that the output current capacity, and thus the power handling capacity of the converter are increased. A 5.1-kW, 1000-V/48-V dc-dc converter prototype has been built and tested. Experimental results are favorably compared with theoretical predictions. © 2007 IEEE.

Original language	English
Pages (from-to)	2124-2137
Journal	IEEE Transactions on Power Electronics
Volume	22
Issue number	6
DOIs	https://doi.org/10.1109/TPEL.2007.909227
Publication status	Published - Nov 2007

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 7 Affordable and Clean Energy

Research Keywords

DC-DC conversion
DC-DC power converters
High load current converter
High-voltage converter
High-voltage techniques
Switches

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abstract = "A high-voltage dc-dc converter with low voltage stress on the power switches and high output current capacity is presented. This converter exhibits three distinct features. First, the voltage stress on the primary switches is only one-third of the input voltage, so that switches of low voltage rating and thus of low on-resistance can be used. This leads to reduced conduction loss. Second, all the switches are soft-switched, so that the switching loss can be reduced. Third, the rectifier is a current tripler, so that the output current capacity, and thus the power handling capacity of the converter are increased. A 5.1-kW, 1000-V/48-V dc-dc converter prototype has been built and tested. Experimental results are favorably compared with theoretical predictions. {\textcopyright} 2007 IEEE.",

keywords = "DC-DC conversion, DC-DC power converters, High load current converter, High-voltage converter, High-voltage techniques, Switches",

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AU - Song, Ting-Ting

AU - Chung, Henry S.-H.

AU - Ioinovici, Adrian

PY - 2007/11

Y1 - 2007/11

N2 - A high-voltage dc-dc converter with low voltage stress on the power switches and high output current capacity is presented. This converter exhibits three distinct features. First, the voltage stress on the primary switches is only one-third of the input voltage, so that switches of low voltage rating and thus of low on-resistance can be used. This leads to reduced conduction loss. Second, all the switches are soft-switched, so that the switching loss can be reduced. Third, the rectifier is a current tripler, so that the output current capacity, and thus the power handling capacity of the converter are increased. A 5.1-kW, 1000-V/48-V dc-dc converter prototype has been built and tested. Experimental results are favorably compared with theoretical predictions. © 2007 IEEE.

AB - A high-voltage dc-dc converter with low voltage stress on the power switches and high output current capacity is presented. This converter exhibits three distinct features. First, the voltage stress on the primary switches is only one-third of the input voltage, so that switches of low voltage rating and thus of low on-resistance can be used. This leads to reduced conduction loss. Second, all the switches are soft-switched, so that the switching loss can be reduced. Third, the rectifier is a current tripler, so that the output current capacity, and thus the power handling capacity of the converter are increased. A 5.1-kW, 1000-V/48-V dc-dc converter prototype has been built and tested. Experimental results are favorably compared with theoretical predictions. © 2007 IEEE.

KW - DC-DC conversion

KW - DC-DC power converters

KW - High load current converter

KW - High-voltage converter

KW - High-voltage techniques

KW - Switches

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DO - 10.1109/TPEL.2007.909227

M3 - RGC 21 - Publication in refereed journal

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EP - 2137

JO - IEEE Transactions on Power Electronics

JF - IEEE Transactions on Power Electronics

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ER -

A high-voltage DC-DC converter with Vin/3 - Voltage stress on the primary switches

Abstract

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Research Keywords

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