低功耗无线Bio-MEMS的波纹微膜片分析

D. Dissanayake, S. Al-Sarawi, D. Abbott
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引用次数: 3

摘要

本文研究并提出了基于无线、无电池、低功耗微膜片结构的表面声波(SAW)器件。这些隔膜旨在为微泵和类似的微流体装置建立驱动机制。膜片的驱动方法依赖于膜片与声表面波器件的输出数字传感器(IDT)之间的静电耦合。本文利用静电驱动中的平行板近似,阐述了基于SAW器件的新型驱动机构的控制理论。为了验证理论模型,利用ANSYS仿真工具建立了有限元模型。考虑了不同的设计方法来增强低输入电压下膜片的挠度。因此,在模拟水平上分析了平面方形隔膜周围的波纹以及隔膜不同部分的不同生物相容性材料的选择。膜片的挠度是SAW器件输出IDT处电位的函数,并与已发表的研究结果进行比较。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Corrugated micro-diaphragm analysis for low-powered and wireless Bio-MEMS
Surface acoustic wave (SAW) device based wirelessly operated, batteryless and low-powered microdiaphragm structures have been investigated and presented in this paper. These diaphragms are intended to establish the actuation mechanism for micropumps and similar microfluidic devices. The actuation method of the diaphragm relies on the electrostatic coupling between the diaphragm and the output Inter digital transducer (IDT) of the SAW device. In this paper, the theory governing the SAW device based novel actuation mechanism, is elaborated using the parallel plate approximation in electrostatic actuation. To validate the theoretical model, a finite element model (FEM) is developed using ANSYS simulation tools and presented. Different design methods are considered to enhance the deflection of the diaphragm for a low input voltage. As such, inclusion of corrugations around a flat square-shaped diaphragm and selection of different bio-compatible materials for various sections of the diaphragm are analysed at the simulation level. Deflection of the diaphragm is obtained as a function of the electric potential at the output IDT of the SAW device, and compared with results obtained from published research.
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