Power-supply rejection model analysis of capacitor-less LDO regulator designs

Soyeon Joo; Jintae Kim; So Young Kim

doi:10.1587/transele.E100.C.504

Power-supply rejection model analysis of capacitor-less LDO regulator designs

Soyeon Joo
, Jintae Kim
, So Young Kim

Department of Semiconductor Systems Engineering

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

3 Scopus citations

Abstract

This paper presents accurate DC and high frequency power-supply rejection (PSR) models for low drop-out (LDO) regulators using different types of active loads and pass transistors. Based on the proposed PSR model, we suggest design guidelines to achieve a high DC PSR or flat bandwidth (BW) by choosing appropriate active loads and pass transistors. Our PSR model captures the intricate interaction between the error amplifiers (EAs) and the pass devices by redefining the transfer function of the LDO topologies. The accuracy of our model has been verified through SPICE simulation and measurements. Moreover, the measurement results of the LDOs fabricated using the 0.18 μm CMOS process are consistent with the design guidelines suggested in this work.

Original language	English
Pages (from-to)	504-512
Number of pages	9
Journal	IEICE Transactions on Electronics
Volume	E100C
Issue number	5
DOIs	https://doi.org/10.1587/transele.E100.C.504
State	Published - May 2017

Keywords

Low drop-out (LDO) regulator
Pass transistor
Power-supply rejection (PSR)
Two-stage op-amp

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10.1587/transele.E100.C.504

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title = "Power-supply rejection model analysis of capacitor-less LDO regulator designs",

abstract = "This paper presents accurate DC and high frequency power-supply rejection (PSR) models for low drop-out (LDO) regulators using different types of active loads and pass transistors. Based on the proposed PSR model, we suggest design guidelines to achieve a high DC PSR or flat bandwidth (BW) by choosing appropriate active loads and pass transistors. Our PSR model captures the intricate interaction between the error amplifiers (EAs) and the pass devices by redefining the transfer function of the LDO topologies. The accuracy of our model has been verified through SPICE simulation and measurements. Moreover, the measurement results of the LDOs fabricated using the 0.18 μm CMOS process are consistent with the design guidelines suggested in this work.",

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author = "Soyeon Joo and Jintae Kim and Kim, \{So Young\}",

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AU - Joo, Soyeon

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N2 - This paper presents accurate DC and high frequency power-supply rejection (PSR) models for low drop-out (LDO) regulators using different types of active loads and pass transistors. Based on the proposed PSR model, we suggest design guidelines to achieve a high DC PSR or flat bandwidth (BW) by choosing appropriate active loads and pass transistors. Our PSR model captures the intricate interaction between the error amplifiers (EAs) and the pass devices by redefining the transfer function of the LDO topologies. The accuracy of our model has been verified through SPICE simulation and measurements. Moreover, the measurement results of the LDOs fabricated using the 0.18 μm CMOS process are consistent with the design guidelines suggested in this work.

AB - This paper presents accurate DC and high frequency power-supply rejection (PSR) models for low drop-out (LDO) regulators using different types of active loads and pass transistors. Based on the proposed PSR model, we suggest design guidelines to achieve a high DC PSR or flat bandwidth (BW) by choosing appropriate active loads and pass transistors. Our PSR model captures the intricate interaction between the error amplifiers (EAs) and the pass devices by redefining the transfer function of the LDO topologies. The accuracy of our model has been verified through SPICE simulation and measurements. Moreover, the measurement results of the LDOs fabricated using the 0.18 μm CMOS process are consistent with the design guidelines suggested in this work.

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KW - Two-stage op-amp

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EP - 512

JO - IEICE Transactions on Electronics

JF - IEICE Transactions on Electronics

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Power-supply rejection model analysis of capacitor-less LDO regulator designs

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Keywords

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