An EPM-based Variable Stiffness Oscillator for Vibration Energy Harvesting

T. Kosaka, A. Masuda
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Abstract

AbstractThis study presents a novel variable stiffness oscillator for vibration energy harvesting with resonant frequency tunability. Methods of tuning frequency include changing dimensions, moving center of gravity of the proofmass, and adding positive or negative stiffness in electrostatic ways, piezoelectric ways, or magnetic ways. In this study, an EPM-based variable stiffness mechanism for a vibration energy harvester was proposed and applied to a cantilever oscillator to examine its basic performance. It was described that the holding force of the EPM significantly depended on the activation process, and it was important to realize the full activation to exploit the potential performance of the EPM. Then, it was shown that the resonance frequency of the cantilever oscillator can be changed from 26Hz to 42 Hz when the EPM placed in the middle of the beam was fully activated, while the partially activated EPM could not maintain the resonance because of its weak holding force.
一种基于epm的变刚度振动能量收集振荡器
摘要提出了一种谐振频率可调的变刚度振动能量采集振荡器。调谐频率的方法包括改变尺寸、移动质点重心、静电法、压电法或磁法增加正刚度或负刚度等。在本研究中,提出了一种基于epm的变刚度振动能量采集器机构,并将其应用于悬臂振荡器,以测试其基本性能。结果表明,EPM的保持力与活化过程密切相关,实现充分活化是开发EPM潜在性能的关键。结果表明,当完全激活置于梁中央的EPM时,悬臂振子的谐振频率可以从26Hz变化到42hz,而部分激活的EPM由于保持力较弱而无法维持谐振。
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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