An energy harvester from human vibrational kinetic energy for wearable biomedical devices

International Journal of Biomechatronics and Biomedical Robotics Pub Date : 2014-02-18 DOI:10.1504/IJBBR.2014.059281

J. Song, K. Aw

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引用次数: 1

Abstract

An electromagnetic kinetic energy harvester has been a topic of considerable interest over recent decades because it is suitable for harvesting human’s kinetic energy at low frequency with the high power density. A small, wearable and portable electromagnetic energy harvester was developed and aimed at applications such as extending the operating period of bio-medical devices through constant charging of batteries. The proposed harvester consists of a snake-shape polydimethylsiloxane cantilever, a coil and anNdFeB magnet enclosed in a polymer casing. Its resonant frequency is ~6.6 Hz and the peak-to-peak output voltage is ~10 mV when tested on a shaker with an acceleration of 0.3 g. When tested at 1.5 g to mimic the acceleration when a person walks, the peak-to-peak output voltage is ~40 mVpp. An unconventional method of voltage rectification has been demonstrated using the combination of a miniature transformer and capacitors to produce unipolar pulses that can be used to trickle charge a battery. Although still not a perfect rectification, nevertheless this method has the potential to replace a diode in the standard rectifier.

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一种用于可穿戴生物医学设备的人体振动动能能量采集器

电磁式动能收割机因其适合于采集低频、高功率密度的人体动能而成为近几十年来备受关注的课题。开发了一种小型、可穿戴和便携式电磁能量采集器，旨在通过不断给电池充电来延长生物医疗设备的工作时间。提议的收割机由蛇形聚二甲基硅氧烷悬臂、线圈和包裹在聚合物外壳中的钕铁硼磁铁组成。在加速度为0.3 g的激振器上测试，其谐振频率为~6.6 Hz，峰对峰输出电压为~10 mV。当在1.5 g下测试以模拟人行走时的加速度时，峰值输出电压为~40 mVpp。一种非常规的电压整流方法已经被证明，使用微型变压器和电容器的组合来产生单极脉冲，可以用来给电池涓流充电。虽然仍然不是一个完美的整流，但这种方法有可能取代标准整流器中的二极管。

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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International Journal of Biomechatronics and Biomedical Robotics

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