A smart single-chip micro-hotplate-based chemical sensor system in CMOS-technology

• Published in: 2002 IEEE International Symposium on Circuits and Systems (ISCAS) Vol. 2; p. II
• Main Authors: Barrettino, D., Graf, M., Zimmermann, M., Hierlemann, A., Baltes, H., Hahn, S., Barsan, N., Weimar, U.
• Format: Conference Proceeding
• Language: English
• Published: IEEE 2002
• Subjects: Biomembranes; Chemical industry; Chemical sensors; Circuits; Electrical equipment industry; Gas detectors; Gas industry; Intelligent sensors; Temperature distribution; Temperature sensors
• ISBN: 9780780374485; 0780374487
• DOI: 10.1109/ISCAS.2002.1010948

A novel monolithic chemical (gas) sensor fabricated in industrial CMOS-technology combined with post-CMOS micromachining is presented, which comprises metal-oxide (SnO/sub 2/)-covered micro-hotplates and the necessary driving and signal-conditioning circuitry. The operating temperature of the SnO/sub 2/ resistor is between 200 and 350/spl deg/C. The on-chip temperature controller regulates the temperature of the membrane up to 350/spl deg/C with a resolution of 0.5/spl deg/C. A special heater design to achieve temperatures up to 350/spl deg/C with 5 V supply voltage was developed, which ensures homogeneous temperature distribution (1-2% maximum temperature fluctuation). Temperature sensors, on and off-membrane (near the circuitry), show excellent thermal isolation between the heated membrane area and the circuitry-area on the bulk chip (chip temperature rises by max 6/spl deg/C at 350/spl deg/C membrane temperature). A logarithmic converter was included to measuring the SnO/sub 2/ resistance change upon gas exposure over a range of four orders of magnitude.