3/6/2024 0 Comments Nasa human testing gyroscopeIn view of its one-layer planar configuration, this gyroscope can be implemented easily for applications requiring conformal mounting onto a surface of interest. Originally developed for NASA training, the Spa. This SAW gyroscope can be competitively priced, inherently rugged, reliable and very sensitive, which is capable of being wirelessly interrogated, without any sensor power source. Our Spaceball Human Gyroscope is a real thrill seeking ride that will leave you and your guests wanting more. Numerical simulation using HP EESOF is used to optimize this gyroscope. These vibrating dot arrays through the Coriolis effect will generate secondary SAW in orthogonal direction under rotation, which can then be picked up by the SAW sensor. Further to this resonator, strategically positioned metallic dots that form an array along the standing wave anti-node locations are subjected to the reference vibratory motion. A SAW sensor arranged in orthogonal to the resonator. The SAW resonator is used to setup the stable reference vibration. The SAW resonator is designed and optimized using coupling-of-modes theory. This SAW gyroscope is an integration of a SAW resonator and a SAW sensor. The design and simulation of a Surface Acoustic Wave (SAW) MEMS gyroscope using HP EESOF is presented in this paper.
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