Evaluation of an un-regulated input isolated DC–DC converter using WBG devices

Evaluation of an un-regulated input isolated DC–DC converter using WBG devices

The paper presents the design and analysis of an un-regulated isolated DC–DC converter using wide band gap (WBG) devices for low-voltage, high current applications. Un-regulated isolated DC–DC converter uses a passive rectifier stage at the front end to connect to the utility grid. This will have a...

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Bibliographic Details
Main Authors: Rakesh Ramachandran, Morten Nymand
Format: Article
Language:English
Published: Wiley 2019-04-01
Series:The Journal of Engineering
Subjects:
silicon compounds
wide band gap semiconductors
DC-DC power convertors
rectifiers
gallium compounds
power semiconductor devices
power grids
electricity supply industry
GaN
SiC
voltage 480.0 V to 780.0 V
active PFC
GaN devices
SiC devices
utility grid
passive rectifier stage
unregulated isolated DC–DC converter
wide band gap devices
Online Access:https://digital-library.theiet.org/content/journals/10.1049/joe.2018.8111
Description
Summary:The paper presents the design and analysis of an un-regulated isolated DC–DC converter using wide band gap (WBG) devices for low-voltage, high current applications. Un-regulated isolated DC–DC converter uses a passive rectifier stage at the front end to connect to the utility grid. This will have a voltage stress of 480–780 V DC at the input of the isolated DC–DC converter. For the evaluation, SiC devices are used at the primary side and GaN devices at the secondary side of the converter. Later on the conclusion, a regulated isolated DC–DC converter, which uses an active PFC at the front-end, will be recommended for having less chip area utilisation, less components and efficient magnetics as far as DC–DC converter is concerned.
ISSN:2051-3305

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