Self-oscillating push-pull class-E/F converters

Ray-Lee Lin; Feng Yin Chen

Self-oscillating push-pull class-E/F converters

Ray-Lee Lin, Feng Yin Chen

電機工程學系

研究成果: Paper › 同行評審

8 引文斯高帕斯（Scopus）

摘要

This paper proposes a novel family of self-oscillating push-pull class-E/F converters, which has the common features of both class-E and inverse class-F converters. These proposed converters have self-oscillation scheme and class-E features, incorporating the transistor's parasitic capacitors into the resonant circuit, and thus, having fewer gate-driving circuit components. By flattening the drain-current waveform, the inverse class-F converter can improve performance and increase efficiency. The proposed self-oscillating class-E/F power converters are validated with PSpice simulation results.

原文	English
頁面	649-652
頁數	4
出版狀態	Published - 2004 12月 1
事件	2004 IEEE Asia-Pacific Conference on Circuits and Systems, APCCAS 2004: SoC Design for Ubiquitous Information Technology - Tainan, Taiwan 持續時間: 2004 12月 6 → 2004 12月 9

Other

Other	2004 IEEE Asia-Pacific Conference on Circuits and Systems, APCCAS 2004: SoC Design for Ubiquitous Information Technology
國家/地區	Taiwan
城市	Tainan
期間	04-12-06 → 04-12-09

All Science Journal Classification (ASJC) codes

電氣與電子工程

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title = "Self-oscillating push-pull class-E/F converters",

abstract = "This paper proposes a novel family of self-oscillating push-pull class-E/F converters, which has the common features of both class-E and inverse class-F converters. These proposed converters have self-oscillation scheme and class-E features, incorporating the transistor's parasitic capacitors into the resonant circuit, and thus, having fewer gate-driving circuit components. By flattening the drain-current waveform, the inverse class-F converter can improve performance and increase efficiency. The proposed self-oscillating class-E/F power converters are validated with PSpice simulation results.",

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year = "2004",

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AU - Chen, Feng Yin

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N2 - This paper proposes a novel family of self-oscillating push-pull class-E/F converters, which has the common features of both class-E and inverse class-F converters. These proposed converters have self-oscillation scheme and class-E features, incorporating the transistor's parasitic capacitors into the resonant circuit, and thus, having fewer gate-driving circuit components. By flattening the drain-current waveform, the inverse class-F converter can improve performance and increase efficiency. The proposed self-oscillating class-E/F power converters are validated with PSpice simulation results.

AB - This paper proposes a novel family of self-oscillating push-pull class-E/F converters, which has the common features of both class-E and inverse class-F converters. These proposed converters have self-oscillation scheme and class-E features, incorporating the transistor's parasitic capacitors into the resonant circuit, and thus, having fewer gate-driving circuit components. By flattening the drain-current waveform, the inverse class-F converter can improve performance and increase efficiency. The proposed self-oscillating class-E/F power converters are validated with PSpice simulation results.

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Y2 - 6 December 2004 through 9 December 2004

ER -

Self-oscillating push-pull class-E/F converters

摘要

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All Science Journal Classification (ASJC) codes

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