H-SIMO:混合单电感多输出5级薄氧化物电源管理单元，在28nm FD-SOI中实现91.4%的锂离子电池效率

2020 IEEE Custom Integrated Circuits Conference (CICC) Pub Date : 2020-03-01 DOI:10.1109/CICC48029.2020.9075895

S. Amin, P. Mercier

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引用次数: 2

摘要

本文介绍了一种小型化的锂离子兼容5级混合单电感多输出(H-SIMO)电源管理单元(PMU)，用于28nm FD-SOI为物联网设备供电。小型化是通过结合SIMO转换器的优点和混合多级转换器的优点来实现的。PMU在28nm FD-SOI中实现，其安排自然地利用了5电平转换器所需的晶体管堆叠，从而仅使用1V薄氧化物晶体管就可以完全覆盖2.8-4.2V锂离子电池电压范围。该0.42mm2芯片使用一个1.28mm3电感，在10µW至40mW的0.4-0.9V范围内独立调节三个不同的输出，峰值效率为91.4%。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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H-SIMO: A Hybrid Single-Inductor Multi-Output 5-Level Thin-Oxide Power Management Unit Achieving 91.4% Efficiency from Li-ion Battery Voltages in 28nm FD-SOI

This paper presents a miniaturized Li-ion-compatible 5-level hybrid single-inductor multi-output (H-SIMO) power management unit (PMU) in 28nm FD-SOI for powering IoT devices. Miniaturization is achieved by combining the benefits of SIMO converters with the benefits of hybrid multi-level converters. The PMU is implemented in 28nm FD-SOI in an arrangement that naturally exploits the required transistor stacking of a 5-level converter to enable full coverage of the 2.8-4.2V Li-ion battery voltage range using only 1V thin-oxide transistors. The 0.42mm2 die independently regulates three different outputs over 0.4-0.9V from 10µW to 40mW using a single 1.28mm3 inductor with 91.4% peak efficiency.

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2020 IEEE Custom Integrated Circuits Conference (CICC)

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