Improving phase-locked battery charger speed by using resistance-compensated technique

Liang Rui Chen; Chuan Sheng Liu; Jin Jia Chen

doi:10.1109/TIE.2008.2008342

Improving phase-locked battery charger speed by using resistance-compensated technique

Liang Rui Chen, Chuan Sheng Liu, Jin Jia Chen

Department of Electrical Engineering

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

46 Citations (Scopus)

Abstract

In this paper, a resistance-compensated phase-locked battery charger (RC-PLBC) mathematical model is built, and its s-domain transfer function is also derived. The stable, safe, and nonovercharging conditions of the RC-PLBC are discussed, and many criteria are proposed. After that, a complete design procedure is presented for designing a fast and safe RC-PLBC. A prototype of RC-PLBC is designed and realized to verify the charging performance. Comparing with a typical PLBC, the charge speed of the proposed RC-PLBC is improved by 18%, and the safety is held on.

Original language	English
Pages (from-to)	1205-1211
Number of pages	7
Journal	IEEE Transactions on Industrial Electronics
Volume	56
Issue number	4
DOIs	https://doi.org/10.1109/TIE.2008.2008342
Publication status	Published - 2009 May 13

All Science Journal Classification (ASJC) codes

Control and Systems Engineering
Electrical and Electronic Engineering

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abstract = "In this paper, a resistance-compensated phase-locked battery charger (RC-PLBC) mathematical model is built, and its s-domain transfer function is also derived. The stable, safe, and nonovercharging conditions of the RC-PLBC are discussed, and many criteria are proposed. After that, a complete design procedure is presented for designing a fast and safe RC-PLBC. A prototype of RC-PLBC is designed and realized to verify the charging performance. Comparing with a typical PLBC, the charge speed of the proposed RC-PLBC is improved by 18%, and the safety is held on.",

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AB - In this paper, a resistance-compensated phase-locked battery charger (RC-PLBC) mathematical model is built, and its s-domain transfer function is also derived. The stable, safe, and nonovercharging conditions of the RC-PLBC are discussed, and many criteria are proposed. After that, a complete design procedure is presented for designing a fast and safe RC-PLBC. A prototype of RC-PLBC is designed and realized to verify the charging performance. Comparing with a typical PLBC, the charge speed of the proposed RC-PLBC is improved by 18%, and the safety is held on.

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