Towards the unification of material-level and system-level approaches: nonlinear characterization of hard and soft-PZT energy harvesters

2019 19th International Conference on Micro and Nanotechnology for Power Generation and Energy Conversion Applications (PowerMEMS) Pub Date : 2019-12-01 DOI:10.1109/PowerMEMS49317.2019.82063205204

A. Brenes, D. Kim, É. Lefeuvre, N. Kim, H. Kang, C. Yoo, C. I. Cheon, S. Han

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Abstract

This paper compares the system-level parameters and output power of soft-material and hard-material piezoelectric energy harvesters taking into account the material softening nonlinear behavior. We validate the approach by verifying the compatibility with conclusions available in the literature at material level. Among the results, our system-level characterization confirms that soft-type materials behave intrinsically more nonlinearly and that neglecting their nonlinear behavior can lead to wrong conclusions about the system-level coupling coefficient. Then, we compare the generators in terms of power delivered to a load when actuated by a shaker. The power delivered by the hard-type transducer increases faster than the power delivered by the soft-type transducer when the acceleration amplitude increases which is also consistent with our characterization results and validates the system-level approach.

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迈向材料级和系统级方法的统一:硬pzt能量收集器和软pzt能量收集器的非线性表征

考虑材料软化非线性特性，对软材料和硬材料压电能量采集器的系统级参数和输出功率进行了比较。我们通过在材料水平上验证与文献中可用结论的兼容性来验证该方法。在这些结果中，我们的系统级表征证实了软型材料本质上的非线性行为，忽略它们的非线性行为可能导致关于系统级耦合系数的错误结论。然后，我们比较发电机在由激振器驱动时传递给负载的功率。当加速度幅值增加时，硬型换能器提供的功率比软型换能器提供的功率增加得更快，这也与我们的表征结果一致，并验证了系统级方法。

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 19th International Conference on Micro and Nanotechnology for Power Generation and Energy Conversion Applications (PowerMEMS)

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