A Novel Bypass Architecture for RB-COT Buck Converters

Francesco Gabriele; Samuele Gisonno; Filippo Fiori; Davide Lena; Salvatore Rosario Musumeci; Fabio Pareschi; Gianluca Setti

doi:10.1109/TCSII.2025.3555695

A Novel Bypass Architecture for RB-COT Buck Converters

Francesco Gabriele^*, Samuele Gisonno, Filippo Fiori, Davide Lena, Salvatore Rosario Musumeci, Fabio Pareschi, Gianluca Setti

^*Corresponding author for this work

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

Abstract

In this brief we propose a novel ByPass (BP) circuit that overcomes the voltage regulation limit in the Ripple Based Constant On-Time (RB-COT) Buck converters due to intrinsic presence of a minimum achievable OFF time. The BP stage is conceived to be embedded in the RB-COT modulator located within the converter feedback loop, and only intervening when the minimum OFF time condition is reached. The latter implies that the COT modulator saturates, and consequently, the output voltage regulation of the converter is no longer guaranteed. Conversely, the BP stage does not affect the behavior of the circuit when it operates in normal regulating condition. The effectiveness of the proposed BP stage is confirmed through both transistor-level simulation results derived from the SPICE platform and experimental measurements on a integrated circuit prototype implemented in a 0.18 um Bipolar-CMOS-DMOS process.

Original language	English (US)
Pages (from-to)	793-797
Number of pages	5
Journal	IEEE Transactions on Circuits and Systems II: Express Briefs
Volume	72
Issue number	5
DOIs	https://doi.org/10.1109/TCSII.2025.3555695
State	Published - 2025

Keywords

adaptive COT
buck converter
Bypass mode
COT control
DC-DC converter
minimum OFF time

ASJC Scopus subject areas

Electrical and Electronic Engineering

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10.1109/TCSII.2025.3555695

Cite this

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title = "A Novel Bypass Architecture for RB-COT Buck Converters",

abstract = "In this brief we propose a novel ByPass (BP) circuit that overcomes the voltage regulation limit in the Ripple Based Constant On-Time (RB-COT) Buck converters due to intrinsic presence of a minimum achievable OFF time. The BP stage is conceived to be embedded in the RB-COT modulator located within the converter feedback loop, and only intervening when the minimum OFF time condition is reached. The latter implies that the COT modulator saturates, and consequently, the output voltage regulation of the converter is no longer guaranteed. Conversely, the BP stage does not affect the behavior of the circuit when it operates in normal regulating condition. The effectiveness of the proposed BP stage is confirmed through both transistor-level simulation results derived from the SPICE platform and experimental measurements on a integrated circuit prototype implemented in a 0.18 um Bipolar-CMOS-DMOS process.",

keywords = "adaptive COT, buck converter, Bypass mode, COT control, DC-DC converter, minimum OFF time",

author = "Francesco Gabriele and Samuele Gisonno and Filippo Fiori and Davide Lena and Musumeci, \{Salvatore Rosario\} and Fabio Pareschi and Gianluca Setti",

note = "Publisher Copyright: {\textcopyright} 2004-2012 IEEE.",

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doi = "10.1109/TCSII.2025.3555695",

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T1 - A Novel Bypass Architecture for RB-COT Buck Converters

AU - Gabriele, Francesco

AU - Gisonno, Samuele

AU - Fiori, Filippo

AU - Lena, Davide

AU - Musumeci, Salvatore Rosario

AU - Pareschi, Fabio

AU - Setti, Gianluca

PY - 2025

Y1 - 2025

N2 - In this brief we propose a novel ByPass (BP) circuit that overcomes the voltage regulation limit in the Ripple Based Constant On-Time (RB-COT) Buck converters due to intrinsic presence of a minimum achievable OFF time. The BP stage is conceived to be embedded in the RB-COT modulator located within the converter feedback loop, and only intervening when the minimum OFF time condition is reached. The latter implies that the COT modulator saturates, and consequently, the output voltage regulation of the converter is no longer guaranteed. Conversely, the BP stage does not affect the behavior of the circuit when it operates in normal regulating condition. The effectiveness of the proposed BP stage is confirmed through both transistor-level simulation results derived from the SPICE platform and experimental measurements on a integrated circuit prototype implemented in a 0.18 um Bipolar-CMOS-DMOS process.

AB - In this brief we propose a novel ByPass (BP) circuit that overcomes the voltage regulation limit in the Ripple Based Constant On-Time (RB-COT) Buck converters due to intrinsic presence of a minimum achievable OFF time. The BP stage is conceived to be embedded in the RB-COT modulator located within the converter feedback loop, and only intervening when the minimum OFF time condition is reached. The latter implies that the COT modulator saturates, and consequently, the output voltage regulation of the converter is no longer guaranteed. Conversely, the BP stage does not affect the behavior of the circuit when it operates in normal regulating condition. The effectiveness of the proposed BP stage is confirmed through both transistor-level simulation results derived from the SPICE platform and experimental measurements on a integrated circuit prototype implemented in a 0.18 um Bipolar-CMOS-DMOS process.

KW - adaptive COT

KW - buck converter

KW - Bypass mode

KW - COT control

KW - DC-DC converter

KW - minimum OFF time

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A Novel Bypass Architecture for RB-COT Buck Converters

Abstract

Keywords

ASJC Scopus subject areas

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