A low-profile humidity sensor based on a frequency domain chipless sensing technology is proposed in this study. The chipless microwave sensor is composed by a microstrip resonator gap-coupled with a 50Ω microstrip transmission line and loaded with a Nafion 117 sensitive material layer. The response of the sensor at fixed temperature (25°C) and for a relative humidity (RH) variation in the range 0% - 90% has been simulated and tested in experimental conditions. The preliminary results are promising and pave the way for a future in-depth characterization of the sensor and an analysis of the performance under real-world conditions.
A Preliminary Microwave Frequency Characterization of a Nation-Based Chipless Sensor for Humidity Monitoring / Donelli, Massimo; Manekiya, Mohammedhusen Hanifbhai; Marchi, Giada; Mulloni, Viviana; Lorenzelli, Leandro. - (In corso di stampa). (Intervento presentato al convegno IEEE Sensors 2020, WTC tenutosi a Rotterdam, Netherlands nel 25-28 ottobre 2020) [10.1109/SENSORS47125.2020.9278752].
A Preliminary Microwave Frequency Characterization of a Nation-Based Chipless Sensor for Humidity Monitoring
Massimo Donelli;Mohammedhusen Manekiya;Giada Marchi;Viviana Mulloni;Leandro Lorenzelli
In corso di stampa
Abstract
A low-profile humidity sensor based on a frequency domain chipless sensing technology is proposed in this study. The chipless microwave sensor is composed by a microstrip resonator gap-coupled with a 50Ω microstrip transmission line and loaded with a Nafion 117 sensitive material layer. The response of the sensor at fixed temperature (25°C) and for a relative humidity (RH) variation in the range 0% - 90% has been simulated and tested in experimental conditions. The preliminary results are promising and pave the way for a future in-depth characterization of the sensor and an analysis of the performance under real-world conditions.File | Dimensione | Formato | |
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