Natural Oscillation Principle-based Burst-Mode PDM-Controlled Class-D Resonant Converter for Inductive Power Transfer Applications
Author:
Affiliation:
1. Department of Marine Engineering, Graduate School of Maritime Science, Kobe University
Publisher
Institute of Electrical Engineers of Japan (IEE Japan)
Subject
Electrical and Electronic Engineering,Industrial and Manufacturing Engineering
Link
https://www.jstage.jst.go.jp/article/ieejias/139/3/139_239/_pdf
Reference15 articles.
1. (1) G. A. Covic and J. T. Boys: “Inductive power transfer”, Proc. The IEEE, Vol. 101, No. 6, pp. 1276-1289 (2013)
2. (2) S. Y. R. Hui, W. Zhong, and C. K. Lee: “A critical review of recent progress in mid-range wireless power transfer”, IEEE Trans. Power Electron., Vol. 29, No. 9, pp. 4500-4511 (2014)
3. (3) U. K. Madawala, and D. J. Thrimawithana: “A bidirectional inductive power interface for electric vehicles in V2G systems”, IEEE Trans. Ind Electron., Vol. 58, No. 10, pp. 4789-4796 (2011)
4. (4) W. Li, H. Zhao, S. Li, J. Deng, T. Kan, and C. C. Mi: “Integrated LCC compensation topology for wireless charger in electric and plug-in electric vehicles”, IEEE Trans. Ind Electron., Vol. 62, No. 7, pp. 4215-4225 (2015)
5. (5) H. Ogiwara, M. Itoi, and M. Nakaoka: “SEPP-ZVS high frequency inverter incorporating auxiliary switch”, IEEJ Trans. IA, Vol. 123, No. 10, pp. 1236-1237 (2003) (in Japanese)
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1. Resonant-Frequency-Tracking Δ-Σ Pulse-Density-Modulation ZVS Class-D Converter for Inductive Power Transfer Applications;IEEJ Transactions on Industry Applications;2020-04-01
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