Title :
Thick-film inclinometer based on free convective motion of an heating air mass
Author :
Crescini, D. ; Marioli, D. ; Romani, M. ; Sardini, E. ; Taroni, A.
Author_Institution :
Dipt. di Elettronica per l´´Automazione, Brescia Univ., Italy
Abstract :
In this application, a thick-film tilt sensor has been developed, based on heat transfer by natural convection. The device measures internal changes in heat transfer due to the inclination. The device is functionally equivalent to a traditional proof-mass accelerometer. The proof mass in the new thick-film sensor is a gas. The gaseous proof-mass provides great advantages over the use of the traditional solid proof mass. A conditioning electronic circuit amplifies the signal variation induced by the inclination, compensating for the deviation due to the initial asymmetrical values of the bridge arms and their slow variations. Preliminary tests on the first prototypes show an accuracy of about 2% full scale output, repeatability of about 0.2° and resolution better than 0.1° over a ±20° range.
Keywords :
angular measurement; bridge circuits; electric sensing devices; natural convection; signal processing equipment; thick film devices; bridge arm asymmetrical values; conditioning electronic circuit; free convective air motion; gaseous proof mass; heat transfer; heated air mass; inclination measurement; inclinometer; natural convection; thick-film sensor; Accelerometers; Arm; Bridge circuits; Electronic circuits; Gas detectors; Heat transfer; Heating; Solids; Thermal sensors; Thick film sensors;
Conference_Titel :
Instrumentation and Measurement Technology Conference, 2004. IMTC 04. Proceedings of the 21st IEEE
Print_ISBN :
0-7803-8248-X
DOI :
10.1109/IMTC.2004.1351239
