CALIBRATION METHOD BASED ON NUMERICAL MODEL FOR THE MEMS 3D ACCELEROMETER

článek ve sborníku ve WoS nebo Scopus

angličtina

This paper compare calibration methods for three axis MEMS accelerometers. Scalar calibration method is based on mathematical model of the sensors, which use six or twelve calibration parameters – three gain factors, three biases and six misalignment sensitivities. The basic principle of the calibration method is based on the fact, that the sum of the measured acceleration vectors x, y, z is equal to the earth gravity vector when accelerometer is stationary. The method does not require any additional expensive equipment like vibration shaker or accurate positioning system. The calibration method was experimentally verified on low-noise capacitive MEMS accelerometers Analog Devices ADXL35x and results were compared with calibration on commercial calibra-tion system SPEKTRA CS18P HF. It has been found that the scalar calibration method is very sensitive to the chosen parameter estimation method and can only be recom-mended if there are no requirements for low measurement uncertainty.

calibration, accelerometer, MEMS 3D sensors, scalar calibration

BENEŠ, P.; KLUSÁČEK, S.; MÁLEK, P.; JÍLEK, T.

12. 7. 2018

Hiroshima

978-83-7880-552-6

Proceedings of the 25th International Congress on Sound and Vibration

150

155

6

http://toc.proceedings.com/40638webtoc.pdf