Title :
Oscillator-based signal conditioning with improved linearity for resistive sensors
Author :
Ferrari, Vittorio ; Ghidini, Carla ; Marioli, Daniele ; Taroni, Andrea
Author_Institution :
Dipt. di Elettronica per l´´Autom., Univ. degli Studi di Brescia, Italy
fDate :
2/1/1998 12:00:00 AM
Abstract :
A signal conditioning circuit for resistive sensors is presented. It is based on a relaxation oscillator in which both the frequency and the duty-cycle of the square-wave output signal simultaneously carry information from a pair of different sensors. The output frequency is linearly related to the resistive unbalance of a Wheatstone bridge, while the duty-cycle is independently controlled by a second sensor. The latter can be a thermoresistor used for thermal compensation of the primary sensor. The design, analysis, and experimental characterization of the circuit and its application to a thick-film pressure sensor are reported. A method for compensating the accuracy degradation caused by the finite switching delays is illustrated, and results on its experimental validation are given
Keywords :
analogue-digital conversion; compensation; electric sensing devices; frequency convertors; pressure sensors; relaxation oscillators; signal processing equipment; thick film resistors; Wheatstone bridge; accuracy degradation; finite switching delays; frequency convertor; improved linearity; independently controlled duty-cycle; oscillator-based signal conditioning; relaxation oscillator; resistive sensors; resistive unbalance; signal conditioning circuit; thermal compensation; thermoresistor; thick-film pressure sensor; Bridge circuits; Delay; Frequency; Linearity; Oscillators; Sensor phenomena and characterization; Thermal degradation; Thermal sensors; Thermoresistivity; Thick film sensors;
Journal_Title :
Instrumentation and Measurement, IEEE Transactions on
