Copper mesh electrodes based energy harvester

2016 IEEE Students’ Technology Symposium (TechSym) Pub Date : 2016-09-01 DOI:10.1109/TECHSYM.2016.7872668

M. Bhaiyya, Poonam Gawatre, S. Balpande, R. Pande

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引用次数: 3

Abstract

With advent of microelectronics, power requirement is reduced to greater extend which makes microsystems self powered. Hence, Energy Harvesting domain becomes center of attraction of worldwide researchers. It is possible to harvest the energy from the ambient sources which are freely available in surrounding and use this harvested energy to power the miniaturized devices which require microwatt power. Since, human body parts like finger, brachial, ankle are curved in nature thus flexible harvester is proposed in order to mesh with human body parts. Human motions are often complicated and a periodic. Capturing the vibrations and harvesting the energy from those vibrations is the need of hour. The proposed harvester with copper meshed electrodes and Zinc oxide (ZnO) as piezoelectric material was fabricated by simple and inexpensive spin coating method. Copper has been the material of choice for electrodes because of its exceptional electrical conductivity and availability. The measured electric potential of the proposed harvester was 0.65 volts at a resonance frequency of 41 Hz and array is proposed for more electric potential and power.

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基于铜网电极的能量采集器

随着微电子技术的出现，大大降低了对功率的要求，使微系统实现了自供电。因此，能量收集领域成为世界各国研究人员关注的热点。我们可以从周围的环境资源中获取能量，并利用这些能量为需要微瓦功率的小型设备提供动力。由于手指、肱、踝关节等人体部位在本质上是弯曲的，因此提出了柔性收割机，以配合人体部位。人的运动往往是复杂的和周期性的。捕捉振动并从这些振动中获取能量需要一个小时。采用简单、廉价的自旋镀膜方法制备了以氧化锌(ZnO)为压电材料的铜网状电极收集器。铜因其优异的导电性和可用性而成为电极的首选材料。所提出的收割机的测量电势为0.65伏，谐振频率为41赫兹，并提出了更大的电势和功率阵列。

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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2016 IEEE Students’ Technology Symposium (TechSym)

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