Title :
Common design techniques for quartz rate sensors for both automotive and aerospace/defense market applications
Author :
Madni, Asad M. ; Costlow, Lynn E.
Author_Institution :
BET Technol. Inc., Sylmar, CA, USA
Abstract :
In the early 1990s, Systron Donner Inertial Division (SDID), a subsidiary of BEI Technologies, Inc., possessed a new solid-state rate gyroscope technology that had not yet matured or captured a significant market share. Even though some success had been achieved in defense missile applications, a strategy was clearly needed to further develop the technology and lay the foundation for future growth. The strategy search led to discovery of a leading edge automotive brake system application, which, in turn, led to a radical change in SDID design and manufacturing approaches as well as a dramatic increase in revenues. The resultant radical cost-reduction of Quartz Rate Sensor (QRS) components has benefit for both the automotive and the Aerospace and Defense (A&D) markets. Commonality of design and design techniques is leveraging high-volume, low-cost automotive components into low-volume A&D products.
Keywords :
Coriolis force; aerospace instrumentation; automotive electronics; gyroscopes; microsensors; military equipment; quartz; BEI GyroChip; Coriolis effect principle; MEMS gyroscope; SiO2; aerospace/defense market applications; angular rotation; automotive application; automotive brake system application; automotive stability control; common design techniques; defense missile applications; double-ended tuning fork; quartz rate sensors; solid-state rate gyroscope technology; yaw sensor; Aircraft; Application software; Automotive engineering; Control systems; Gyroscopes; Manufacturing; Missiles; Production; Stability; USA Councils;
Conference_Titel :
Sensors, 2002. Proceedings of IEEE
Print_ISBN :
0-7803-7454-1
DOI :
10.1109/ICSENS.2002.1037362
