Designing VRM hysteretic controllers For optimal transient response

Miguel Castilla; Luis García De Vicuña; Josep M. Guerrero; José Matas; Jaume Miret

doi:10.1109/TIE.2007.894765

Designing VRM hysteretic controllers For optimal transient response

Miguel Castilla^*, Luis García De Vicuña, Josep M. Guerrero, José Matas, Jaume Miret

^*Corresponding author for this work

Research output: Contribution to journal › Journal article › Research › peer-review

65 Citations (Scopus)

Abstract

This paper presents a design methodology for voltage hysteretic regulators powering digital integrated circuits with low voltage, high current, and high slew rate current transients. The design approach optimizes the transient response during large consumption changes by imposing constant closed-loop output impedance. This paper also suggests a novel compensator network for the adaptive voltage positioning feedback loop, which leads to a robust transient response performance against load disturbances. The application of the design methodology to the proposed hysteretic controller provides the suitable control parameter values for optimal transient response. Simulation and experimental results validate the theoretical predictions for the proposed controller, particularly the constant output impedance operation and the robust transient response performance.

Original language	English
Journal	IEEE Transactions on Industrial Electronics
Volume	54
Issue number	3
Pages (from-to)	1726-1738
Number of pages	13
ISSN	0278-0046
DOIs	https://doi.org/10.1109/TIE.2007.894765
Publication status	Published - 1 Jun 2007
Externally published	Yes

Keywords

Computer power supplies
Design methodology
Hysteretic control
Voltage regulators

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title = "Designing VRM hysteretic controllers For optimal transient response",

abstract = "This paper presents a design methodology for voltage hysteretic regulators powering digital integrated circuits with low voltage, high current, and high slew rate current transients. The design approach optimizes the transient response during large consumption changes by imposing constant closed-loop output impedance. This paper also suggests a novel compensator network for the adaptive voltage positioning feedback loop, which leads to a robust transient response performance against load disturbances. The application of the design methodology to the proposed hysteretic controller provides the suitable control parameter values for optimal transient response. Simulation and experimental results validate the theoretical predictions for the proposed controller, particularly the constant output impedance operation and the robust transient response performance.",

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year = "2007",

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T1 - Designing VRM hysteretic controllers For optimal transient response

AU - Castilla, Miguel

AU - De Vicuña, Luis García

AU - Guerrero, Josep M.

AU - Matas, José

AU - Miret, Jaume

PY - 2007/6/1

Y1 - 2007/6/1

N2 - This paper presents a design methodology for voltage hysteretic regulators powering digital integrated circuits with low voltage, high current, and high slew rate current transients. The design approach optimizes the transient response during large consumption changes by imposing constant closed-loop output impedance. This paper also suggests a novel compensator network for the adaptive voltage positioning feedback loop, which leads to a robust transient response performance against load disturbances. The application of the design methodology to the proposed hysteretic controller provides the suitable control parameter values for optimal transient response. Simulation and experimental results validate the theoretical predictions for the proposed controller, particularly the constant output impedance operation and the robust transient response performance.

AB - This paper presents a design methodology for voltage hysteretic regulators powering digital integrated circuits with low voltage, high current, and high slew rate current transients. The design approach optimizes the transient response during large consumption changes by imposing constant closed-loop output impedance. This paper also suggests a novel compensator network for the adaptive voltage positioning feedback loop, which leads to a robust transient response performance against load disturbances. The application of the design methodology to the proposed hysteretic controller provides the suitable control parameter values for optimal transient response. Simulation and experimental results validate the theoretical predictions for the proposed controller, particularly the constant output impedance operation and the robust transient response performance.

KW - Computer power supplies

KW - Design methodology

KW - Hysteretic control

KW - Voltage regulators

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M3 - Journal article

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VL - 54

SP - 1726

EP - 1738

JO - IEEE Transactions on Industrial Electronics

JF - IEEE Transactions on Industrial Electronics

IS - 3

ER -

Designing VRM hysteretic controllers For optimal transient response

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