A 4.5V-Input 0.3-to-1.7V-Output Step-Down Always-Dual-Path DC-DC Converter Achieving 91.5%-Efficiency with 250mΩ-DCR Inductor for Low-Voltage SoCs

2021 Symposium on VLSI Circuits Pub Date : 2021-06-13 DOI:10.23919/VLSICircuits52068.2021.9492478
Jaehwan Ko, Yeunhee Huh, Min-Woo Ko, Gyeong-Gu Kang, G. Cho, Hyunsik Kim
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引用次数: 8

Abstract

This paper presents an always-dual-path (ADP) DC-DC converter that achieves 4.5V-input 0.3-to-1.7V-output buck conversion for battery-powered low-voltage SoCs. Regardless of voltage conversion ratio (VCR), the proposed ADP converter maintains the inductor current constantly to be ×0.5 of the load current, bringing high efficiency with a large DCR of the compact-volume inductor. Seamless dual-power-path formed by two flying-capacitors merits a low ripple. The chip fabricated in 180-nm 5V CMOS obtains an efficiency of 91.5% (84.6%) at a VCR of 0.38 (0.2) even with an inductor DCR of 250mΩ.
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一种4.5 v输入0.3 ~ 1.7 v输出降压型双路DC-DC变换器,具有250mΩ-DCR电感,用于低压soc,效率为91.5%
本文提出了一种总双路(ADP) DC-DC转换器,可实现4.5 v输入0.3到1.7 v输出降压转换,用于电池供电的低压soc。在不考虑电压转换比(VCR)的情况下,本文提出的ADP变换器使电感电流始终保持在负载电流的×0.5,以小体积电感的大DCR带来高效率。由两个飞行电容器形成的无缝双功率路径具有低纹波的优点。该芯片采用180nm 5V CMOS工艺,在VCR为0.38(0.2)的情况下,即使电感DCR为250mΩ,效率也高达91.5%(84.6%)。
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2021 Symposium on VLSI Circuits
2021 Symposium on VLSI Circuits
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