Journal ArticleDOI
A Low Quiescent Current Asynchronous Digital-LDO With PLL-Modulated Fast-DVS Power Management in 40 nm SoC for MIPS Performance Improvement
Yu-Huei Lee,Shen-Yu Peng,Chao-Chang Chiu,Alex Chun-Hsien Wu,Ke-Horng Chen,Ying-Hsi Lin,Shih-Wei Wang,Tsung-Yen Tsai,Chen-Chih Huang,Chao-Cheng Lee +9 more
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TLDR
A low quiescent current asynchronous digital- LDO (D-LDO) regulator integrated with a phase-locked loop (PLL)-modulated switching regulator (SWR) that achieves the near-optimum power management supply for core processor in system-on-chip (SoC).Abstract:
A low quiescent current asynchronous digital- LDO (D-LDO) regulator integrated with a phase-locked loop (PLL)-modulated switching regulator (SWR) that achieves the near-optimum power management supply for core processor in system-on-chip (SoC). The parallel connection of the asynchronous D-LDO regulator and the ripple-based control SWR can accomplish fast-DVS (F-DVS) operation as well as high power conversion efficiency. The asynchronous D-LDO regulator controlled by bidirectional asynchronous wave pipeline realizes the F-DVS operation, which guarantees high million instructions per second (MIPS) performance of the core processor under distinct tasks. The use of a ripple-based control SWR operating with a leading phase amplifier ensures fast response and stable operation without the need for large equivalent-series-resistance, thus reducing the output voltage ripple for the enhancement of supply quality. The fabricated chip occupies 1.04 mm2 in 40 nm CMOS technology. Experimental results show that a 94% peak efficiency with a voltage tracking speed of 7.5 V/μs as well as the improved MIPS performance by 5.6 times was achieved.read more
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A 20 mV Input Boost Converter With Efficient Digital Control for Thermoelectric Energy Harvesting
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Journal ArticleDOI
A Fully Integrated Digital LDO With Coarse–Fine-Tuning and Burst-Mode Operation
TL;DR: A coarse-fine-tuning technique with burst-mode operation is proposed to the digital low dropout regulator, which regulates the D-LDO to the desired output voltage and takes over the steady-state operation for high accuracy and current efficiency.
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A 200-mA Digital Low Drop-Out Regulator With Coarse-Fine Dual Loop in Mobile Application Processor
Yong-Jin Lee,Wanyuan Qu,Shashank Singh,Dae-Yong Kim,Kwang-Ho Kim,Sang-Ho Kim,Jae-Jin Park,Gyu-Hyeong Cho +7 more
TL;DR: This paper proposes a coarse-fine dual-loop architecture for the digital low drop-out (LDO) regulators with fast transient response and more than 200-mA load capacity and a digital controller is implemented to prevent contentions between the two loops.
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An Analog-Assisted Tri-Loop Digital Low-Dropout Regulator
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References
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A dynamic voltage scaled microprocessor system
TL;DR: In this article, the authors proposed a dynamic voltage scaling (DVS) strategy to achieve the highest possible energy efficiency for time-varying computational loads, which can reduce energy consumption for low computational periods while retaining peak performance when required.
Journal ArticleDOI
A 20 mV Input Boost Converter With Efficient Digital Control for Thermoelectric Energy Harvesting
TL;DR: In this paper, a low power boost converter for thermoelectric energy harvesting that demonstrates an efficiency that is 15% higher than the state-of-the-art for voltage conversion ratios above 20.
Proceedings Article
A 20 mV Input Boost Converter With Efficient Digital Control for Thermoelectric Energy Harvesting
TL;DR: In this article, a low power boost converter for thermoelectric energy harvesting that demonstrates an efficiency that is 15% higher than the state-of-the-art for voltage conversion ratios above 20.
Journal ArticleDOI
A Transient-Enhanced Low-Quiescent Current Low-Dropout Regulator With Buffer Impedance Attenuation
TL;DR: In this paper, a low-dropout regulator (LDO) with an impedance-attenuated buffer for driving the pass device was proposed. But the buffer was not used to reduce the output voltage.
Journal ArticleDOI
Ripple-Based Control of Switching Regulators—An Overview
TL;DR: An overview of ripple-based control techniques can be found in this paper, where the authors discuss their merits and limitations, and introduce techniques for reducing the noise sensitivity and the sensitivity to capacitor parameters, improving the frequency stability and the dc regulation.