Title :
Energy-efficient atmospheric CO concentration sensing with on-demand operating MOX gas sensor
Author :
Oletic, Dinko ; Jelicic, Vana ; Antolovic, Dario ; Bilas, Vedran
Author_Institution :
Fac. of Electr. Eng. & Comput., Univ. of Zagreb, Zagreb, Croatia
Abstract :
Collaborative mobile air-pollution monitoring, employing context aware sampling scheduling, requires on-demand sensing of gas concentration. If MOX gas sensors are used, their energy consumption can be reduced by on-demand heating, with a risk to compromise the sensing repeatability. We experimentally investigate response of MiCS-5525 CO MOX sensor to intermittent heating sequences consisting of a train of short rectangular pulses. We analyse stability of response, energy consumption and sensitivity at low concentrations, for various combinations of pulse waveform period and duty-cycle. We obtained stable readings for the heating sequences consuming 200-300 mJ, saving over 30% of energy per reading.
Keywords :
air pollution measurement; air quality; atmospheric measuring apparatus; carbon compounds; environmental monitoring (geophysics); gas sensors; semiconductor devices; MiCS-5525 CO MOX sensor response; collaborative mobile air-pollution monitoring; duty-cycle combination; energy consumption; energy-efficient atmospheric CO concentration sensing; intermittent heating sequence; low concentration sensitivity; on-demand gas concentration sensing; on-demand heating; on-demand operating MOX gas sensor; pulse waveform period combination; response stability analysis; sampling scheduling; sensing repeatability; short rectangular pulse train; stable heating sequence reading; Energy consumption; Gas detectors; Heating; Sensitivity; Stability analysis; Thermal stability;
Conference_Titel :
SENSORS, 2014 IEEE
Conference_Location :
Valencia
DOI :
10.1109/ICSENS.2014.6985119
