The Transactions of the Korean Institute of Electrical Engineers P (전기학회논문지P)

The Korean Institute of Electrical Engineers (대한전기학회)
권호 표지
DOI QR코드

DOI QR Code

Performance Improvement of CO Sensor Signal Conditioner for Early Fire Detection System

조기화재 감시시스템을 위한 CO센서의 시그널컨디셔너 성능개선

  • Received : 2017.04.28
  • Accepted : 2017.05.19
  • Published : 2017.06.01
Download PDF
⟨ Previous Next ⟩

Abstract

This paper presents performance improvement of CO gas sensor signal conditioner for early fire warning system. The warning system is based on the CO sensor and its advanced signal conditioning modules network that employ electochemical gas sensor. The electochemical has advantage of having a linear output and operating with a low consumption and fast response. This electrochemical gas sensor contains a gas membrane and three electrodes(working, counter, reference electrode) in contact with an electrolyte. To use a three-electrode sensor, a voltage has to be applied between the working and the reference electrode according to the specification of the sensor. In this paper, we designed these requirements that should be considered in temperature compensation algorithm and electrode measurement of CO sensor modules by using advanced signal conditioning method included 3-electrode. Simulation and experimental results show that signal conditioner of CO sensor module using 3-electrode have a advantage linearity, sensitivity and stability, fast response etc..

Keywords

References

  1. Ryu Han-il, "Development of multi-gas sensor and analyzer for IAQ control system based on solid electrolyte", Final Report(102-061-040), Ministry of Environment & Seoul National University. 2009.
  2. Park Jeong-ik, "Highly Precise Sensor Technology - Low price carbon monoxide NDIR gas sensor", Final Report(101-071-026) Ministry of Environment & ELT SENSOR, pp.11-12, 2009.
  3. N. Yamazoe and K. Shimanoe, "New perspectives of gas sensor technology", Sens. Actuators B, vol. 138, issue 1, pp. 100-107, 2009. https://doi.org/10.1016/j.snb.2009.01.023
  4. KS C 6566, "Gas Sensors for detecting flammable gas". Korean Agency for Technology and Standards, 2012.
  5. H. G. Moon et al., "Highly sensitive CO sensors based on cross-linked $TiO_2$ hollow hemispheres ", Sens. Actuators B, vol. 149, issue 1, pp. 116-121, 2010. https://doi.org/10.1016/j.snb.2010.06.014
  6. T. Ono, M. Hasei, A. Kunimoto, N. Miura, "Improvement of sensing performances of irconiabased total NOx sensor by attachment of oxidationcatalyst electrode", Solid State Ionics , vol.175 , issue 1-4, pp. 503-506, 2004. https://doi.org/10.1016/j.ssi.2004.04.044
  7. S. Wei, Y. Yu, and M. Zhou, "CO Gas Sensing of Pd-Doped ZnO Nanofibers Synthesized by lectrospinning Method," Mater. Lett., vol. 64, issue 21, pp. 2284-2286, 2010. https://doi.org/10.1016/j.matlet.2010.07.038
  8. Mohini Dwivedi and Jitendra Bhargava, "CO Sensor Using ZnO Thin Film Derived by RF Magnetron Sputtering Technique", IEEE Sensors Journal , vol. 14, no. 5, pp. 1577-1582, May 2014. https://doi.org/10.1109/JSEN.2014.2298879