Humidity compensation based on power-law response for MOS sensors to VOCs

The compensation model for humidity is proposed for Metal oxide semiconductor (MOS) sensors to respond to volatile organic compounds (VOCs) vapor. There are four frequently-used sensors were investigated for the detection of three typical VOCs, namely, acetone, ethanol and methanol. In this study, water vapor was treated as a reactant involved in the response, then a model is proposed based on the power law response. As the resistance of sensor and humidity enter the model, the detected gas concentration will be output. The effect of model is well verified on the experimental system. Even the model was applied to electronic nose to improve the recognition results. It indicates that our method is of great value to system that needs to remove the interference of water vapor.

Automated summary

A compensation model for humidity in Metal oxide semiconductor sensors was proposed for detecting volatile organic compounds vapor. Water vapor was considered a reactant in the response, and a power law model was introduced. The model showed good verification in experimental systems and could be applied to electronic noses for improved recognition results.