A novel approach for detecting HMDSO poisoning of metal oxide gas sensors and improving their stability by temperature cycled operation

A novel approach for detecting HMDSO poisoning of metal oxide gas sensors and improving their stability by temperature cycled operation

In this paper we study the effect of hexamethyldisiloxane (HMDSO) vapor on an SnO2-based gas sensor (GGS 1330, UST Umweltsensortechnik GmbH, Geschwenda, Germany) in a temperature cycled operation (TCO). We show that HMDSO poisoning can be quantified at early stages (85 to 340 ppm × min) with a resol...

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Bibliographic Details
Published in:Journal of sensors and sensor systems Vol. 4; no. 2; pp. 305 - 311
Main Authors: Schüler, M, Sauerwald, T, Schütze, A
Format: Journal Article
Language:English
Published: Gottingen Copernicus GmbH 19-10-2015
Copernicus Publications
Subjects:
Adsorption
Carbon monoxide
Discriminant analysis
Discrimination
Ethanol
Feature extraction
Gas sensors
Gases
Hexamethyldisiloxane
Metal oxides
Methods
Poisoning
Sensors
Stability analysis
Tin dioxide
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Summary:In this paper we study the effect of hexamethyldisiloxane (HMDSO) vapor on an SnO2-based gas sensor (GGS 1330, UST Umweltsensortechnik GmbH, Geschwenda, Germany) in a temperature cycled operation (TCO). We show that HMDSO poisoning can be quantified at early stages (85 to 340 ppm × min) with a resolution of ±85 ppm × min using TCO. This novel approach for sensor self-monitoring provides a simple method for early detection of HMDSO poisoning. It is thereby possible to detect poisoning before the sensor function is strongly impaired. In this paper we show that by using an appropriate normalization of the sensor data, the stability of gas discrimination by linear discriminant analysis (LDA) can be improved, which in turn facilitates a more accurate determination of the poisoning state by a hierarchical LDA discrimination. For a specific temperature cycle and feature extraction approach, we show that identification of ethanol and carbon monoxide is still possible after poisoning with 900 ppm × min HMDSO, i.e. a HMDSO poisoning dose more than twice as high as required by DIN EN 50194-1.
ISSN:2194-878X
2194-8771
2194-878X
DOI:10.5194/jsss-4-305-2015