Non-Conventional Cantilever for Piezoelectric Energy Harvesting at Ultra Low Resonant Frequency

2019 9th Annual Information Technology, Electromechanical Engineering and Microelectronics Conference (IEMECON) Pub Date : 2019-03-01 DOI:10.1109/IEMECONX.2019.8877092

Abhishek Ray, V. Butram, Namrata Gupta, Alok Naugarhiya

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Abstract

The piezoelectric energy harvester is the most prominent energy sources to sustain low power electronic devices which include mobile, wireless sensor nodes and biomedical applications etc. This paper demonstrates a non-conventional type cantilever structure based piezoelectric energy harvester. The sidewall of the proposed structure is in staircase shape, hole in the beam and a tip mass on the free end side. To achieve high output power at low-frequency range unimorph PZT-5H piezoelectric material is used in the cantilever beam. The proposed structure for proof mass is incorporated at the free side of the cantilever and a hole on the beam. The simulation measures the resonance frequency of the cantilever and for the different values of load output electrical power is estimated. The proposed work achieves the electric potential of 0.7 V at 53.4 Hz with 1.0 g of input acceleration. Based on the simulation this harvester reports output power for various values of loads ranging from 100 Ω to 100 MΩ. With the load value of 30 kΩ maximum output power attained is 300 ΩW.

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超低谐振频率压电能量收集的非常规悬臂梁

压电能量收集器是维持低功耗电子设备的最突出的能量来源，包括移动、无线传感器节点和生物医学应用等。介绍了一种非传统悬臂式压电能量采集器。拟议结构的侧壁为楼梯形状，梁上有孔，自由端侧有一个尖端质量。为了在低频范围内实现高输出功率，悬臂梁采用了均匀型PZT-5H压电材料。所提出的证明质量的结构包括在悬臂的自由侧和梁上的孔。仿真测量了悬臂梁的谐振频率，并对不同负载值下的输出电功率进行了估计。所提出的工作在53.4 Hz下实现0.7 V的电势，输入加速度为1.0 g。基于仿真，该收割机报告从100 Ω到100 MΩ的各种负载值的输出功率。负载值为30 kΩ时，最大输出功率为300 ΩW。

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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2019 9th Annual Information Technology, Electromechanical Engineering and Microelectronics Conference (IEMECON)

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