A Wireless Pressure Measurement System Based on TiO2 Interdigitated Sensors

IEEE Sensors, 2005. Pub Date : 2005-10-31 DOI:10.1109/ICSENS.2005.1597625
K. Arshak, A. Arshak, D. Morris, O. Korostynska, E. Jafer
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引用次数: 5

Abstract

The ability to monitor pressure remotely is of particular importance in medical and environmental applications as it is less labour intensive, safer and offers peace of mind to the general public. To meet this demand, a prototype system using TiO2 thick film interdigitated capacitors has been developed. The circuit is based on the principle of capacitance-frequency-voltage conversion and has been designed to minimize power consumption. The sensor was tested under hydrostatic pressure ranging from 0-17 kPa and high sensitivity (DeltaV=47 mV) with low hysteresis (4 %) was recorded. It can be seen that this approach may provide cost effective, reliable devices for wireless sensing applications
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基于TiO2交叉数字传感器的无线压力测量系统
远程监测压力的能力在医疗和环境应用中特别重要,因为它的劳动密集程度较低,更安全,并使公众安心。为了满足这一需求,开发了一个使用TiO2厚膜交叉电容的原型系统。该电路基于电容-频率-电压转换的原理,并被设计为最小化功耗。在0-17 kPa的静水压力范围内对传感器进行了测试,获得了高灵敏度(DeltaV=47 mV)和低迟滞(4%)的记录。可以看出,这种方法可以为无线传感应用提供成本效益高、可靠的设备
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IEEE Sensors, 2005.
IEEE Sensors, 2005.
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