用于环境振动采集的MEMS压电能量悬臂装置的设计优化

G. Muscalu, Adrian Anghelescu, B. Firtat
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引用次数: 0

摘要

压电式MEMS悬臂梁在过去几年中一直处于强劲的需求下。它们中的大多数采用薄膜技术制成,并具有不同的配置,如单晶、双晶或多晶,用于传感器和执行器应用。我们的论文是关于压电收集悬臂梁的设计优化,该悬臂梁能够通过直接压电效应将来自周围环境的机械振动转化为电能。提出了不同的单晶压电收割机几何形状和材料,均采用挠性模式。所有这些模型都使用CoventorWare软件进行了仿真。为了获得更大的输出功率,采用了双悬臂阵列(2 × 10),输出功率可达~1.46 μW。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Design optimization of MEMS piezoelectric energy cantilever device for environment vibrations harvesting
Piezoelectric MEMS cantilevers have been under strong demand in the last years. Most of them made in the thin film technology and in different configurations like unimorphs, bimorphs or multimorphs are targeted for sensor and actuator applications. Our paper is about the design optimization of piezoelectric harvesting cantilevers able to convert mechanical vibrations from the surrounding environment to electrical energy via direct piezoelectric effect. Different unimorph piezoelectric harvester geometries and materials are proposed, all employing flexure mode. All these models are simulated using CoventorWare software. A double array of cantilevers (2 × 10) is used in order to obtain a greater output power magnitude, up to ~1.46 μW.
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