Thin-film sensors for industrial electronics: performance evaluation by circuit model simulation

Industrial Electronics, 2002. ISIE 2002. Proceedings of the 2002 IEEE International Symposium on Pub Date : 1900-01-01 DOI:10.1109/ISIE.2002.1026316

A. Bonavita, A. Caddemi, N. Donato

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Abstract

Thin-films of pure and Li- or Au-doped iron oxide have been realized by liquid phase deposition (LPD). Supporting them over alumina substrates provided with gold interdigitated contacts, gas sensor devices in a layered configuration have been obtained. The sensor electrical response to CO and humidity in air was evaluated. Furthermore, an impedance spectroscopy characterization over the whole 0-100% RH humidity range was carried out. The results have been employed to extract accurate circuit models of the sensing films. Since each element of the equivalent circuit has a direct and univocal relationship with the different parts of the physical structure, such models have shown to be a basic tool for a deeper knowledge of the sensor performance by relating structural to electrical properties. In addition, their implementation gives useful indications on the changes that can be made to improve the sensor response. In the paper, the performance of the sensors and the most interesting results of the model simulation are presented and discussed.

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工业电子用薄膜传感器:电路模型仿真的性能评价

采用液相沉积(LPD)技术制备了纯氧化铁薄膜和掺杂Li或au的氧化铁薄膜。将它们支撑在具有金交叉触点的氧化铝衬底上，获得了层状结构的气体传感器装置。评估了传感器对空气中CO和湿度的电响应。此外，在整个0-100% RH湿度范围内进行了阻抗谱表征。结果已用于提取传感膜的精确电路模型。由于等效电路的每个元件都与物理结构的不同部分有直接和明确的关系，因此这些模型已被证明是通过将结构与电气特性联系起来，深入了解传感器性能的基本工具。此外，它们的实现为改进传感器响应提供了有用的指示。本文介绍并讨论了传感器的性能和模型仿真中最有趣的结果。

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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Industrial Electronics, 2002. ISIE 2002. Proceedings of the 2002 IEEE International Symposium on

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