Acoustic energy transfer using piezoelectric transducers

Smart structures and materials. Nondestructive evaluation for health monitoring and diagnostics Pub Date : 2023-04-28 DOI:10.1117/12.2659097

Lining Zhang, Guobiao Hu, Lihua Tang, A. Hu, K. Aw

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Abstract

Acoustic energy transfer (AET) is considered to be a promising technology without electromagnetic interference and safety issue compared to other wireless power transfer methods, especially for biomedical applications. In this paper, an AET system using piezoelectric transducers is modelled by equivalent circuit representation and finite element method, which in general give consistent results. A parametric study is then conducted to understand the influence of the sizes of barrier and piezoelectric transducers as well as the load resistance on the performance of the AET system. It is found that the area of the barrier has negligible impact on the performance, but the thickness of the barrier does, and the thinner barrier is favorable. In addition, it is found that a transfer efficiency of over 90% can be achieved if the transducers are optimized with thickness of 1.8-2.0 mm and the diameter of 24 to 26 mm. As the load resistance increases from 5 Ω to 400 Ω, the maximum efficiency of about 90% is achieved with a medium load resistance. These findings provide useful guidelines for AET system design.

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利用压电换能器进行声能传递

与其他无线能量传输方法相比，声能传输(AET)被认为是一种很有前途的技术，没有电磁干扰和安全问题，特别是在生物医学应用中。本文采用等效电路表示法和有限元法对采用压电换能器的AET系统进行了建模，得到的结果基本一致。然后进行了参数化研究，以了解势垒和压电换能器的尺寸以及负载电阻对AET系统性能的影响。研究发现，障壁面积对性能的影响可以忽略不计，但障壁厚度对性能的影响可以忽略不计，且障壁越薄越有利。此外，当换能器的厚度为1.8 ~ 2.0 mm，直径为24 ~ 26 mm时，可以实现90%以上的传递效率。当负载阻力从5 Ω增加到400 Ω时，在中等负载阻力下实现了约90%的最高效率。这些发现为AET系统的设计提供了有用的指导。

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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Smart structures and materials. Nondestructive evaluation for health monitoring and diagnostics

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