Title :
Quartz angular rate sensor for automotive control
Author :
Nonomura, Y. ; Fujiyoshi, M. ; Omura, Y. ; Tsukada, K. ; Okuwa, M. ; Morikawa, T. ; Sugitani, N. ; Satou, S. ; Kurata, N. ; Matsushige, S.
Author_Institution :
Toyota Central R&D Labs. Inc, Aichiken, Japan
Abstract :
A new quartz angular rate sensor has been developed for automotive controls. The principle of the sensor is detection of the Coriolis force with a vibrator An H shape vibrator supported with a stein at the center was used The vibrator supported at the center was good for the isolation of a small motion detecting angular rate from an extremely large excitation motion. A new mechanical coupling model and the FEM analysis were used to reduce output offset of the sensor. The detection range of the sensor is from -100 deg/s to 100 deg/s. The sensor output offset is small within ± l deg/s. The developed quartz sensor satisfied required specifications and had wide temperature reliability. Further, the sensor has been successfully used onboard passenger cars
Keywords :
Coriolis force; angular velocity measurement; automotive electronics; crystal resonators; electric sensing devices; finite element analysis; piezoelectric transducers; reliability; Coriolis force detection; FEM analysis; H-shape vibrator; angular velocity; automotive controls; mechanical coupling model; passenger cars; quartz angular rate sensor; wide temperature reliability; Angular velocity; Automotive engineering; Control systems; Crystalline materials; Force sensors; Mechanical sensors; Piezoelectric effect; Sensor systems; Temperature sensors; Vibrations;
Conference_Titel :
Sensors for Industry, 2001. Proceedings of the First ISA/IEEE Conference
Conference_Location :
Rosemont, IL
Print_ISBN :
0-7803-6659-X
DOI :
10.1109/SFICON.2001.968524
