Nonisolated High Step-Down Converter with ZVS and Low Current Ripples

Yifei Zheng; Shouxiang Li; Keyue Ma Smedley

doi:10.1109/TIE.2018.2833047

Nonisolated High Step-Down Converter with ZVS and Low Current Ripples

Yifei Zheng, Shouxiang Li^*, Keyue Ma Smedley

^*Corresponding author for this work

University of California

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

52 Citations (Scopus)

Abstract

In this paper, a nonisolated high step-down converter is proposed. Energy transfer capacitor and built-in transformer are employed to achieve a very high step-down conversion ratio. Due to the interleaved technique, small values of output inductance can be used, leading to a fast transient response. Furthermore, the use of a coupled inductor reduces inductor current ripples, which implies lower losses. Two main switches and two synchronous rectifiers are used in the converter and all can achieve zero-voltage-switching. As no floating switches are employed, grounded gate drivers and boost strap drivers can be used, avoiding the use of complex isolated gate drivers. In addition, if the switches are shorted, the high input voltage does not appear at the output; thus, the load is protected. A 48 V/1 V 30 A prototype was built, and experimental results are provided to verify the performance of the converter.

Original language	English
Article number	8353778
Pages (from-to)	1068-1079
Number of pages	12
Journal	IEEE Transactions on Industrial Electronics
Volume	66
Issue number	2
DOIs	https://doi.org/10.1109/TIE.2018.2833047
Publication status	Published - Feb 2019
Externally published	Yes

Keywords

Buck converter
coupled inductor
high step-down converter
interleaved
voltage regulator module

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10.1109/TIE.2018.2833047

Cite this

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title = "Nonisolated High Step-Down Converter with ZVS and Low Current Ripples",

abstract = "In this paper, a nonisolated high step-down converter is proposed. Energy transfer capacitor and built-in transformer are employed to achieve a very high step-down conversion ratio. Due to the interleaved technique, small values of output inductance can be used, leading to a fast transient response. Furthermore, the use of a coupled inductor reduces inductor current ripples, which implies lower losses. Two main switches and two synchronous rectifiers are used in the converter and all can achieve zero-voltage-switching. As no floating switches are employed, grounded gate drivers and boost strap drivers can be used, avoiding the use of complex isolated gate drivers. In addition, if the switches are shorted, the high input voltage does not appear at the output; thus, the load is protected. A 48 V/1 V 30 A prototype was built, and experimental results are provided to verify the performance of the converter.",

keywords = "Buck converter, coupled inductor, high step-down converter, interleaved, voltage regulator module",

author = "Yifei Zheng and Shouxiang Li and Smedley, {Keyue Ma}",

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AU - Li, Shouxiang

AU - Smedley, Keyue Ma

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N2 - In this paper, a nonisolated high step-down converter is proposed. Energy transfer capacitor and built-in transformer are employed to achieve a very high step-down conversion ratio. Due to the interleaved technique, small values of output inductance can be used, leading to a fast transient response. Furthermore, the use of a coupled inductor reduces inductor current ripples, which implies lower losses. Two main switches and two synchronous rectifiers are used in the converter and all can achieve zero-voltage-switching. As no floating switches are employed, grounded gate drivers and boost strap drivers can be used, avoiding the use of complex isolated gate drivers. In addition, if the switches are shorted, the high input voltage does not appear at the output; thus, the load is protected. A 48 V/1 V 30 A prototype was built, and experimental results are provided to verify the performance of the converter.

AB - In this paper, a nonisolated high step-down converter is proposed. Energy transfer capacitor and built-in transformer are employed to achieve a very high step-down conversion ratio. Due to the interleaved technique, small values of output inductance can be used, leading to a fast transient response. Furthermore, the use of a coupled inductor reduces inductor current ripples, which implies lower losses. Two main switches and two synchronous rectifiers are used in the converter and all can achieve zero-voltage-switching. As no floating switches are employed, grounded gate drivers and boost strap drivers can be used, avoiding the use of complex isolated gate drivers. In addition, if the switches are shorted, the high input voltage does not appear at the output; thus, the load is protected. A 48 V/1 V 30 A prototype was built, and experimental results are provided to verify the performance of the converter.

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KW - coupled inductor

KW - high step-down converter

KW - interleaved

KW - voltage regulator module

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Nonisolated High Step-Down Converter with ZVS and Low Current Ripples

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Keywords

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