Title :
Improving Performance of GMR Sensors
Author :
Bernieri, Andrea ; Betta, Giovanni ; Ferrigno, L. ; Laracca, Marco
Author_Institution :
DIEI, Univ. of Cassino & Southern Lazio, Cassino, Italy
Abstract :
Giant magnetoresistance (GMR) sensors are assumed as an important role in magnetic field sensing applications because of their small size, high sensitivity, large frequency response, low power consumption, and relatively low cost. In all these applications, it is very important to estimate and possibly reduce the measurement uncertainty related to the use of these sensors. In this paper, the metrological characterization of GMR magnetometers highlights the contributions to measurement uncertainty of hysteresis, nonlinearity, and operating temperature. Starting from this knowledge, an automatic procedure for calibration and adjustment of GMR magnetometers is setup. This procedure, based on a mixed hardware-software solution, allows a meaningful reduction of the measurement uncertainty for both ac and dc magnetic field amplitude measurements using GMRs.
Keywords :
calibration; computerised instrumentation; giant magnetoresistance; magnetic field measurement; magnetic hysteresis; magnetic sensors; measurement uncertainty; GMR sensors; ac magnetic field amplitude measurements; automatic GMR magnetometer adjustment; automatic calibration procedure; dc magnetic field amplitude measurements; frequency response; giant magnetoresistance sensors; hysteresis; low power consumption; magnetic field sensing applications; measurement uncertainty reduction; metrological characterization; mixed hardware-software solution; nonlinearity; operating temperature; performance improvement; sensitivity; Giant magnetoresistance (GMR); magnetic field measurement; magnetometer; metrological characterization;
Journal_Title :
Sensors Journal, IEEE
DOI :
10.1109/JSEN.2013.2271275
