A DVS-Enabled Distributed Digital LDO Providing Rapid Uniform Power Grid and Ripple Reduction Achieving 20.1-ps FOM in 28 nm CMOS

Yuli Han; Jaemin Kim; Gunmo Koo; Jaejin Kim; Jusung Kim; Joo Young Kim; Kunhee Cho

doi:10.1109/TCSI.2024.3422278

A DVS-Enabled Distributed Digital LDO Providing Rapid Uniform Power Grid and Ripple Reduction Achieving 20.1-ps FOM in 28 nm CMOS

Yuli Han, Jaemin Kim, Gunmo Koo, Jaejin Kim, Jusung Kim, Joo Young Kim, Kunhee Cho

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

1 Scopus citations

Abstract

A dynamic voltage scaling (DVS) enabled distributed digital low-dropout voltage regulator (LDO) is described. The proposed distributed LDO utilizes a multi-point average sensing to enable rapid and uniform output voltage regulation across a large-scale power grid, even during unbalanced load transients. A 16-bit thermometer-code flash analog-to-digital converter (FADC) combined with unary passgate configurations and an adaptive on-resistance (RON) modulation is employed to ensure a small output voltage ripple during DVS operation, using only a small 13.4nF output capacitor. The proposed distributed LDO has been implemented in 28nm CMOS, achieves a 10.4A/mm2 current density, 99.96% current efficiency, and a 20.1ps FOM. It has also been tested under various unbalanced load transient conditions and can rapidly regulate the output voltage back to the target level.

Original language	English
Pages (from-to)	5081-5090
Number of pages	10
Journal	IEEE Transactions on Circuits and Systems I: Regular Papers
Volume	71
Issue number	11
DOIs	https://doi.org/10.1109/TCSI.2024.3422278
State	Published - 2024

Bibliographical note

Publisher Copyright:
© 2024 IEEE.

Keywords

Digital LDO
distributed LDO
dynamic voltage scaling
multi-point average sensing
on-resistance modulation

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10.1109/TCSI.2024.3422278

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title = "A DVS-Enabled Distributed Digital LDO Providing Rapid Uniform Power Grid and Ripple Reduction Achieving 20.1-ps FOM in 28 nm CMOS",

abstract = "A dynamic voltage scaling (DVS) enabled distributed digital low-dropout voltage regulator (LDO) is described. The proposed distributed LDO utilizes a multi-point average sensing to enable rapid and uniform output voltage regulation across a large-scale power grid, even during unbalanced load transients. A 16-bit thermometer-code flash analog-to-digital converter (FADC) combined with unary passgate configurations and an adaptive on-resistance (RON) modulation is employed to ensure a small output voltage ripple during DVS operation, using only a small 13.4nF output capacitor. The proposed distributed LDO has been implemented in 28nm CMOS, achieves a 10.4A/mm2 current density, 99.96\% current efficiency, and a 20.1ps FOM. It has also been tested under various unbalanced load transient conditions and can rapidly regulate the output voltage back to the target level.",

keywords = "Digital LDO, distributed LDO, dynamic voltage scaling, multi-point average sensing, on-resistance modulation",

author = "Yuli Han and Jaemin Kim and Gunmo Koo and Jaejin Kim and Jusung Kim and Kim, \{Joo Young\} and Kunhee Cho",

note = "Publisher Copyright: {\textcopyright} 2024 IEEE.",

year = "2024",

doi = "10.1109/TCSI.2024.3422278",

language = "English",

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AU - Han, Yuli

AU - Kim, Jaemin

AU - Koo, Gunmo

AU - Kim, Jaejin

AU - Kim, Jusung

AU - Kim, Joo Young

AU - Cho, Kunhee

PY - 2024

Y1 - 2024

N2 - A dynamic voltage scaling (DVS) enabled distributed digital low-dropout voltage regulator (LDO) is described. The proposed distributed LDO utilizes a multi-point average sensing to enable rapid and uniform output voltage regulation across a large-scale power grid, even during unbalanced load transients. A 16-bit thermometer-code flash analog-to-digital converter (FADC) combined with unary passgate configurations and an adaptive on-resistance (RON) modulation is employed to ensure a small output voltage ripple during DVS operation, using only a small 13.4nF output capacitor. The proposed distributed LDO has been implemented in 28nm CMOS, achieves a 10.4A/mm2 current density, 99.96% current efficiency, and a 20.1ps FOM. It has also been tested under various unbalanced load transient conditions and can rapidly regulate the output voltage back to the target level.

AB - A dynamic voltage scaling (DVS) enabled distributed digital low-dropout voltage regulator (LDO) is described. The proposed distributed LDO utilizes a multi-point average sensing to enable rapid and uniform output voltage regulation across a large-scale power grid, even during unbalanced load transients. A 16-bit thermometer-code flash analog-to-digital converter (FADC) combined with unary passgate configurations and an adaptive on-resistance (RON) modulation is employed to ensure a small output voltage ripple during DVS operation, using only a small 13.4nF output capacitor. The proposed distributed LDO has been implemented in 28nm CMOS, achieves a 10.4A/mm2 current density, 99.96% current efficiency, and a 20.1ps FOM. It has also been tested under various unbalanced load transient conditions and can rapidly regulate the output voltage back to the target level.

KW - Digital LDO

KW - distributed LDO

KW - dynamic voltage scaling

KW - multi-point average sensing

KW - on-resistance modulation

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JO - IEEE Transactions on Circuits and Systems I: Regular Papers

JF - IEEE Transactions on Circuits and Systems I: Regular Papers

IS - 11

ER -

A DVS-Enabled Distributed Digital LDO Providing Rapid Uniform Power Grid and Ripple Reduction Achieving 20.1-ps FOM in 28 nm CMOS

Abstract

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Keywords

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