Low-Power PMIC with Two Hybrid Converters for TEG Application

2020 IEEE Asia Pacific Conference on Circuits and Systems (APCCAS) Pub Date : 2020-12-08 DOI:10.1109/APCCAS50809.2020.9301651

Thinh Tran-Dinh, H. Pham, B. Dao, Hien Hoang-Thi, L. Pham-Nguyen, Sang-Gug Lee, Hanh-Phuc Le

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引用次数: 1

Abstract

This paper presents a low-power power management IC (PMIC) for Thermal Electric Generator (TEG) applications that includes investigation, demonstration, and comparison between two hybrid DC-DC converters. Both converters employs an input inductive step-up stage and an output switched-capacitor stage. The first converter, a 2-stage boost converter (2SBC), has a Boost stage connected in series with a switched-capacitor doubler, fully integrated with all control and regulation circuits. The second converter is an open-loop three-level boost converter (3LBC). Both converters are designed in a single prototype chip, fabricated in a 180-nm process. The PMIC’s self-start operation is verified at a minimum voltage of 50mV. The functionality of both converters are verified to match with simulation results, achieving above 50% efficiency for a wide range of loads. The peak efficiencies of 65% and 83% are achieved for the 2-stage boost converter and the three level boost converter at 150mV and 180mV input voltages, respectively.

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具有两个混合转换器的低功耗PMIC用于TEG应用

本文介绍了一种用于热电发电机(TEG)应用的低功耗电源管理IC (PMIC)，包括研究、演示和两种混合DC-DC转换器的比较。两个变换器都采用输入电感升压级和输出开关电容级。第一个转换器是2级升压转换器(2SBC)，其升压级与开关电容倍频器串联，与所有控制和调节电路完全集成。第二个变换器是开环三电平升压变换器(3LBC)。这两种转换器都设计在一个原型芯片上，采用180纳米工艺制造。PMIC的自启动操作在50mV的最小电压下被验证。两种转换器的功能经过验证，与仿真结果相匹配，在广泛的负载范围内实现50%以上的效率。在150mV和180mV输入电压下，2级升压变换器和3级升压变换器的峰值效率分别达到65%和83%。

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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2020 IEEE Asia Pacific Conference on Circuits and Systems (APCCAS)

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