Towards a wireless microsystem for liquid analysis

I. Leonte, M. Hunt, G. Sehra, M. Cole, J. Gardner, H. Noh, P. Hesketh
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引用次数: 3

Abstract

The paper describes both semi-wireless and wireless (433 MHz) liquid sensing systems based upon dual shear horizontal surface acoustic wave (SH-SAW) devices and introduces a novel design concept and a novel principle of detection. Each system comprises an uncoated passive SH-SAW device, a liquid microcell, a device antenna and an associated signal processing unit. The LiTaO/sub 3/-based SH-SAW sensors have dual delay line configurations with different path lengths, the principle of detection being the attenuation and time delay between the signals. The sensors have no biochemical selective layer making them non-specific but create a robust/durable and low-cost system. This sensing system may be applied in the food/beverage industry, medical applications; a functionalized coating can be added for more specific biological applications.
用于液体分析的无线微系统
本文介绍了基于双剪切水平表面声波(SH-SAW)器件的半无线和无线(433 MHz)液体传感系统,并介绍了一种新的设计理念和检测原理。每个系统包括一个无涂层的无源SH-SAW装置、一个液体微电池、一个装置天线和一个相关的信号处理单元。基于LiTaO/sub - 3/的SH-SAW传感器具有不同路径长度的双延迟线配置,检测原理是信号之间的衰减和时间延迟。传感器没有生化选择层,使它们不具有特异性,但却创造了一个坚固耐用和低成本的系统。该传感系统可应用于食品/饮料行业、医疗应用;可添加功能化涂层以用于更特定的生物应用。
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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