Towards a wireless microsystem for liquid analysis

Author

Leonte, I.I. ; Hunt, M.S. ; Sehra, G. ; Cole, M. ; Gardner, J.W. ; Noh, H.S. ; Hesketh, P.J.

Author_Institution

Sch. of Eng., Warwick Univ., UK

fYear

2004

fDate

24-27 Oct. 2004

Firstpage

919

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 LiTaO₃-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.

Keywords

UHF antennas; chemical sensors; delay lines; microsensors; radio links; signal processing; surface acoustic wave sensors; 433 MHz; LiTaO₃; antenna; biochemical selective layer; dual delay line configurations; dual shear horizontal surface acoustic wave devices; functionalized coating; liquid analysis; liquid microcell; lithium tantalate; passive SAW devices; signal processing unit; wireless liquid sensing systems; wireless microsystem; Acoustic sensors; Acoustic signal detection; Acoustic signal processing; Acoustic waves; Biomedical signal processing; Biosensors; Delay lines; Microcell networks; Surface acoustic wave devices; Wireless sensor networks;

fLanguage

English

Publisher

ieee

Conference_Titel

Sensors, 2004. Proceedings of IEEE

Print_ISBN

0-7803-8692-2

Type

conf

DOI

10.1109/ICSENS.2004.1426321

Filename

1426321