Title :
Fast impedance analyzer interface with direct-sampling-technique for highly damped resonant gas sensors
Author :
Schneider, T. ; Doerner, S. ; Hauptmann, P.R. ; Richter, D. ; Fritze, H.
Author_Institution :
Inst. of Micro- & Sensor Syst., Otto-von-Guericke-Univ., Magdeburg
fDate :
Oct. 30 2005-Nov. 3 2005
Abstract :
In order to acquire multiple information about highly damped resonant gas sensors, such as frequency shift and damping figure, a compact impedance analyzer interface with direct-sampling-technique (DST) has been developed. DST allows accurate signal detection, good noise rejection by digital signal processing and very short measurement periods. The compact impedance analyzer is well suited for process control applications and can be employed for any sensor systems based on impedance spectroscopy by adapting the input stage of the interface. As an example, a CeO2 coated langasite BAW resonator acting as high temperature gas sensor is presented, which acts as microbalance for measuring changes in conductivity and mechanical properties of the metal oxide sensor film
Keywords :
bulk acoustic wave devices; cerium compounds; gas sensors; microbalances; CeO2; compact impedance analyzer; damping figure; digital signal processing; direct-sampling-technique; frequency shift; high temperature gas sensor; highly damped resonant gas sensors; impedance spectroscopy; interface electronics; langasite BAW resonator; metal oxide sensor film; microbalance; noise rejection; process control; sensor systems; signal detection; Damping; Digital signal processing; Frequency; Gas detectors; Impedance; Information analysis; Noise measurement; Resonance; Signal detection; Temperature sensors;
Conference_Titel :
Sensors, 2005 IEEE
Conference_Location :
Irvine, CA
Print_ISBN :
0-7803-9056-3
DOI :
10.1109/ICSENS.2005.1597799
