On-Chip Inductor-Less Indoor Light Energy Harvester with Improved Efficiency for WSN/IoT Device Design

2019 13th International Conference on Sensing Technology (ICST) Pub Date : 2019-12-01 DOI:10.1109/ICST46873.2019.9047728

J. Hora, Meilyssa A. Mayormita, John Raul C. Rebollos, Xi Zhu, E. Dutkiewicz

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引用次数: 3

Abstract

An on-chip inductor-less indoor light energy harvester circuit block for internet-of-things wireless sensor node device design is implemented in 65nm CMOS process technology. The design of the indoor light energy harvester comprises a bootstrapped ring oscillator, a two-phase non-overlapping clock generator, a tapered buffer, a multi-stage differential-drive CMOS rectifier, a charge controlling circuit and a voltage regulator. The system boosts an input of 500 mV from a photovoltaic cell without using a typical boost converter circuit that employs an inductor element. Hence, a simplified on-chip design charges an external 1.3-V rechargeable battery. The use of a multi-stage differential-drive rectifier eliminates the need for expensive on-chip inductors. A charge control circuit is implemented to maintain the battery voltage and avoid overcharging, thus improving battery life. A low-dropout voltage regulator further regulates the battery voltage to produce a stable dc voltage. The chip core design has a total area of 1342µm×1011µm. The output of the harvesting system is a regulated 0.9 V supply with 1.05 mA current at full load.

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提高WSN/IoT设备设计效率的片上无电感室内光能采集器

采用65nm CMOS工艺实现了一种用于物联网无线传感器节点器件设计的片上无电感室内光能采集器电路块。室内光能采集器的设计包括自激环形振荡器、两相无重叠时钟发生器、锥形缓冲器、多级差动驱动CMOS整流器、电荷控制电路和电压调节器。该系统无需使用采用电感元件的典型升压转换电路，即可从光伏电池中提升500 mV的输入。因此，一个简化的片上设计充电外部1.3 v可充电电池。多级差动驱动整流器的使用消除了对昂贵的片上电感器的需要。采用充电控制电路，保持电池电压，避免过充，提高电池寿命。低差稳压器进一步调节电池电压以产生稳定的直流电压。芯片核心设计的总面积为1342µm×1011µm。采集系统的输出是一个0.9 V的稳压电源，满载时电流为1.05 mA。

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2019 13th International Conference on Sensing Technology (ICST)

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