Improved transient response using high-frequency feedback control circuit of the constant current ripple constant on-time with native adaptive voltage positioning design for voltage regulators

Wen Wei Chen; Jiann Fuh Chen; Tsorng Juu Liang; Sheng Fu Hsiao; Jian Rong Huang; Wei Yuan Ting

doi:10.1049/iet-pel.2013.0020

Improved transient response using high-frequency feedback control circuit of the constant current ripple constant on-time with native adaptive voltage positioning design for voltage regulators

Wen Wei Chen, Jiann Fuh Chen, Tsorng Juu Liang, Sheng Fu Hsiao, Jian Rong Huang, Wei Yuan Ting

Department of Electrical Engineering

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

14 Citations (Scopus)

Abstract

Improved transient response using high-frequency feedback control (HFFC) circuit of the constant current ripple constant on-time (CCRCOT) with native adaptive voltage positioning design for voltage regulators (VRs) is proposed in this study. The concept uses the HFFC circuit to filter V_out at the load transient to change the on-time width dynamically, preventing V_out from dropping markedly. This proposal does not need an extra pin to achieve a quick response circuit. Finally, the multiphase VR with the HFFC circuit of the CCRCOT for the IC circuit of the proposed buck converter is implemented by experiment and simulation results to verify their viability and superiority.

Original language	English
Pages (from-to)	1948-1955
Number of pages	8
Journal	IET Power Electronics
Volume	6
Issue number	9
DOIs	https://doi.org/10.1049/iet-pel.2013.0020
Publication status	Published - 2013

All Science Journal Classification (ASJC) codes

Electrical and Electronic Engineering

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10.1049/iet-pel.2013.0020

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@article{a1fa844d2d7f4d31900a49bf0bfce9ef,

title = "Improved transient response using high-frequency feedback control circuit of the constant current ripple constant on-time with native adaptive voltage positioning design for voltage regulators",

abstract = "Improved transient response using high-frequency feedback control (HFFC) circuit of the constant current ripple constant on-time (CCRCOT) with native adaptive voltage positioning design for voltage regulators (VRs) is proposed in this study. The concept uses the HFFC circuit to filter Vout at the load transient to change the on-time width dynamically, preventing Vout from dropping markedly. This proposal does not need an extra pin to achieve a quick response circuit. Finally, the multiphase VR with the HFFC circuit of the CCRCOT for the IC circuit of the proposed buck converter is implemented by experiment and simulation results to verify their viability and superiority.",

author = "Chen, {Wen Wei} and Chen, {Jiann Fuh} and Liang, {Tsorng Juu} and Hsiao, {Sheng Fu} and Huang, {Jian Rong} and Ting, {Wei Yuan}",

year = "2013",

doi = "10.1049/iet-pel.2013.0020",

language = "English",

volume = "6",

pages = "1948--1955",

journal = "IET Power Electronics",

issn = "1755-4535",

publisher = "Institution of Engineering and Technology",

number = "9",

}

Improved transient response using high-frequency feedback control circuit of the constant current ripple constant on-time with native adaptive voltage positioning design for voltage regulators. / Chen, Wen Wei; Chen, Jiann Fuh ; Liang, Tsorng Juu; Hsiao, Sheng Fu; Huang, Jian Rong; Ting, Wei Yuan.

In: IET Power Electronics, Vol. 6, No. 9, 2013, p. 1948-1955.

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

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AU - Chen, Wen Wei

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AU - Hsiao, Sheng Fu

AU - Huang, Jian Rong

AU - Ting, Wei Yuan

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AB - Improved transient response using high-frequency feedback control (HFFC) circuit of the constant current ripple constant on-time (CCRCOT) with native adaptive voltage positioning design for voltage regulators (VRs) is proposed in this study. The concept uses the HFFC circuit to filter Vout at the load transient to change the on-time width dynamically, preventing Vout from dropping markedly. This proposal does not need an extra pin to achieve a quick response circuit. Finally, the multiphase VR with the HFFC circuit of the CCRCOT for the IC circuit of the proposed buck converter is implemented by experiment and simulation results to verify their viability and superiority.

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