Zero-current switching series loaded resonant converter insensitive to resonant component tolerance for battery charger

Junsung Park; Minjae Kim; Sewan Choi

doi:10.1049/iet-pel.2013.0757

Zero-current switching series loaded resonant converter insensitive to resonant component tolerance for battery charger

Junsung Park, Minjae Kim, Sewan Choi

Dept. of Electrical and Information Engineering

Seoul National University of Science and Technology (SNUST)

Research output: Contribution to journal › Article › peer-review

21 Scopus citations

Abstract

This study proposes an electric vehicle (EV) battery charger with a fixed frequency zero-current-switching (ZCS) series loaded resonant converter (SRC). Owing to the proposed fixed frequency operation the SRC is capable of operating under ZCS turn on and turn off regardless of voltage variation or load variation, and the magnetic components and the electromagnetic interference (EMI) filters can be optimised. The proposed battery charger has minimum component count, which makes it possible to achieve low cost and high reliability. Also, it is insensitive to resonant component tolerances and therefore suitable for high volume manufacturing. Experimental results are provided from a 3.3 kW prototype which was built for 2011 Future Energy Challenge Competition.

Original language	English
Pages (from-to)	2517-2524
Number of pages	8
Journal	IET Power Electronics
Volume	7
Issue number	10
DOIs	https://doi.org/10.1049/iet-pel.2013.0757
State	Published - 1 Oct 2014

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abstract = "This study proposes an electric vehicle (EV) battery charger with a fixed frequency zero-current-switching (ZCS) series loaded resonant converter (SRC). Owing to the proposed fixed frequency operation the SRC is capable of operating under ZCS turn on and turn off regardless of voltage variation or load variation, and the magnetic components and the electromagnetic interference (EMI) filters can be optimised. The proposed battery charger has minimum component count, which makes it possible to achieve low cost and high reliability. Also, it is insensitive to resonant component tolerances and therefore suitable for high volume manufacturing. Experimental results are provided from a 3.3 kW prototype which was built for 2011 Future Energy Challenge Competition.",

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N2 - This study proposes an electric vehicle (EV) battery charger with a fixed frequency zero-current-switching (ZCS) series loaded resonant converter (SRC). Owing to the proposed fixed frequency operation the SRC is capable of operating under ZCS turn on and turn off regardless of voltage variation or load variation, and the magnetic components and the electromagnetic interference (EMI) filters can be optimised. The proposed battery charger has minimum component count, which makes it possible to achieve low cost and high reliability. Also, it is insensitive to resonant component tolerances and therefore suitable for high volume manufacturing. Experimental results are provided from a 3.3 kW prototype which was built for 2011 Future Energy Challenge Competition.

AB - This study proposes an electric vehicle (EV) battery charger with a fixed frequency zero-current-switching (ZCS) series loaded resonant converter (SRC). Owing to the proposed fixed frequency operation the SRC is capable of operating under ZCS turn on and turn off regardless of voltage variation or load variation, and the magnetic components and the electromagnetic interference (EMI) filters can be optimised. The proposed battery charger has minimum component count, which makes it possible to achieve low cost and high reliability. Also, it is insensitive to resonant component tolerances and therefore suitable for high volume manufacturing. Experimental results are provided from a 3.3 kW prototype which was built for 2011 Future Energy Challenge Competition.

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Zero-current switching series loaded resonant converter insensitive to resonant component tolerance for battery charger

Abstract

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