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引用次数: 4

摘要

MEMS振动能量收集器件的窄带宽被认为是限制器件在实际应用中的实现的主要挑战。本文报道了利用可动质量体加宽压电悬臂梁带宽的实验验证。这种加宽效应是由可移动的金属球引起的重心变化引起的。本研究的目的是通过改变球的数量和球的大小来研究可移动质量的影响。结果表明,控制组(无可移动组件)和8个嵌入的10mm球体的带宽分别从1.8 Hz显著增加到10.6 Hz。保持可移动质量的总量相似,但减小球体的大小并增加球体的数量,导致带宽进一步增加到13.4 Hz。
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Rolling Mass for Wide bandwidth Vibration Energy Harvesting
The narrow bandwidth of MEMS vibration energy harvesting devices is considered a major challenge that limits the implementation of the devices into real-life applications. This paper reports on experimental validation of widening the bandwidth of a piezoelectric cantilever using a movable mass. The widening effect is caused from a change in center of gravity caused from movable metallic spheres. The goal of this study was to investigate the effects of the amount of movable mass by varying the number of spheres and the size of the spheres. The results demonstrated a significant increase in bandwidth from 1.8 Hz to 10.6 Hz for the control (no movable component) and eight embedded 10mm spheres respectively. Keeping the overall amount of movable mass to be similar but decreasing the size and increasing the number of spheres resulted in a further increase in bandwidth to 13.4 Hz.
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