A real-time Arduino based AC-DC Boost converter for Vibration Energy Harvesting devices

2022 IEEE International Conference on Omni-layer Intelligent Systems (COINS) Pub Date : 2022-08-01 DOI:10.1109/COINS54846.2022.9854992

C. S. Clemente, D. Davino, Immacolato Iannone, V. Loschiavo

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Abstract

IoT devices are becoming ubiquitous, spreading in several technological fields. Because of their remote collocation, their usefulness profits of power supplies based on energy harvesting techniques, rather than batteries. Vibration Energy Harvesters (VEHs) based on magnetostrictive alloys are promising because of their excellent characteristics, but the available vibrations are such that the exploitable output voltages are lower than the standards 1.6, 3.3 and 5 V. Then, an electronic circuitry is necessary to increase the output DC voltage and improve their efficiency. Conversion methods have been presented over the years for other smart devices based on piezoelectrics. However, very few or none are specialized for magnetostrictive ones. A promising technique for the latters can be a direct AC-DC Boost conversion. This paper presents the design and control of such a circuit, driven with a real-time operating Arduino board, able to self-adapt with respect to the incoming time period. Several experimental tests are presented, showing the potentiality of the circuit.

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一种用于振动能量收集设备的基于Arduino的实时AC-DC升压转换器

物联网设备正变得无处不在，在几个技术领域蔓延。由于它们的位置偏远，它们的实用性得益于基于能量收集技术的电源，而不是电池。基于磁致伸缩合金的振动能量收割机(VEHs)由于其优异的特性而很有前途，但可用的振动使得可利用的输出电压低于标准的1.6,3.3和5 V。然后，需要一个电子电路来增加输出直流电压并提高它们的效率。多年来，基于压电的其他智能设备已经提出了转换方法。然而，很少或没有专门用于磁致伸缩的。对于后者，一种很有前途的技术是直接的AC-DC Boost转换。本文给出了这样一个电路的设计与控制，该电路由实时操作的Arduino板驱动，能够根据输入的时间段进行自适应。几个实验测试显示了电路的潜力。

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2022 IEEE International Conference on Omni-layer Intelligent Systems (COINS)

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