Development and Analysis of Footstep Power Harvester – A Case Study for the Viability of the Device in Surigao City

2021 IEEE 13th International Conference on Humanoid, Nanotechnology, Information Technology, Communication and Control, Environment, and Management (HNICEM) Pub Date : 2021-11-28 DOI:10.1109/HNICEM54116.2021.9732040

Robert R. Bacarro, V. J. Ylaya, R. R. Vicerra, Vicente Z. Delante

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Abstract

This study develops a footstep generator and its viability to harvest energy in a two-shopping center in Surigao City. The footstep power harvester module was enclosed in a wood-tile type 3x2ft size where parallel piezoelectric were embedded inside to increase the output current and placed strategically in the main entrance where people generally pass through. In this research, a microcontroller was used to regulate the dc from the piezoelectric to the 3.7-volt battery. The voltage sensor, like the current sensor, was used to Figure out how much voltage was contained in two AA batteries. Data collection of harvested energy was done using two establishments, 12hours from 6 am to 12 pm and 12 to 6 pm. The total average amount of harvested power on one 3x2ft size was equal to 668.5 mW. Tripling the footstep power harvester module would increase the power generated to 2W, enough to charge a mobile phone.

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脚踏动力收割机的研制与分析——以苏里高市为例

本研究在苏里高市的一个双购物中心开发了一种脚步声发生器及其能量收集的可行性。脚步声电力收集模块被封闭在一个3 × 2英尺大小的木瓦中，其中平行压电嵌入其中以增加输出电流，并策略性地放置在人们通常经过的主入口。在本研究中，使用微控制器来调节压电到3.7伏电池的直流电。电压传感器和电流传感器一样，用来计算两节AA电池中包含多少电压。收集的能量数据是在两个场所完成的，从早上6点到下午12点和12点到下午6点的12小时。一个3x2ft尺寸的总平均收获功率等于668.5 mW。将步行能量收集模块增加两倍，将产生的功率增加到2W，足以为一部手机充电。

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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来源期刊

2021 IEEE 13th International Conference on Humanoid, Nanotechnology, Information Technology, Communication and Control, Environment, and Management (HNICEM)

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