Conducted emissions of an upto 2.3 kW interleaved SiC buck converter under varied operative conditions

DOI
URI
Scopus ID
Conference
International Symposium on Electromagnetic Compatibility 2024 (EMC EUROPE 2024) ; Bruges, Belgium ; September 2-5, 2024
Publisher
IEEE
Book title
EMC EUROPE 2024 : 2024 International Symposium on Electromagnetic Compatibility
ISBN
First page
792
Last page
797
Peer-reviewed
Part of the university bibliography
Language
English
Keyword
DC-DC power converters
Electromagnetic interference
Silicon carbide
Temperature measurement
Abstract
Wide band gap semiconductors such as siliconcarbide (SiC)-based devices are favored in the power electronic industry for their reduced switching losses. However, their utilization leads to high d𝑉₍DS₎/d𝑡, causing high-frequency emissions that can affect the operation of connected devices and systems on the board net. This study investigates conducted emissions originating from the output lines of a laboratory adaptation of an automotive interleaved buck converter, interfacing the traction battery of an electric vehicle with 48 V board net, along with monitoring the chip temperature of the SiC MOSFET. Across various combinations of input and output characteristics and operation modes, differences in common and differential mode emission spectra and their comparison with CISPR-25 standard limits, are observed. A study is further done to analyze these experimental results.
Version
Published version
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Metadata only access