This application note gives an overview of different control mechanisms for MEMS Coriolis Vibratory Gyroscopes (CVG) and how they are implemented using the commercial off-the-shelf HF2LI Lock-in ...

There are an increasing number of applications that have a need to gather data from sensors located in very high temperature environments. In recent years there has been considerable progress in ...

In MEMS technology development, it is always exciting to see the next technology frontier, the border of the known and the unknown. Talent and hard work (along with ingenuity) can move this frontier ...

The rotating-mass gyroscope, which lies at the heart of inertial measurement units (IMUs), has served very successfully from the 1930s to the 1970s, guiding astronauts, spacecraft, missiles, and more.

Solid-state gyroscopes aren’t just for video games and smartphones. Industrial-grade devices can handle tasks that demand superaccurate sensing. • Gyroscopes found in consumer devices lack the ...

Microelectromechanical-systems (MEMS) technology uses micro fabrication techniques to combine microelectronics capabilities with the mechanical properties of microsensors. Increasingly, MEMS ...

Tiny devices made possible by combining the latest advances in mechanical and electronics technology could be at the heart of next-generation personal navigation and vehicle stabilization tools. Tiny ...

There are two kinds of gyroscopes in widespread use for navigation and control: optical ones, which are extremely sensitive but also expensive, and microelectromechanical (MEMS) ones, which are ...

image: Purdue researchers have created a new type of microtweezers capable of manipulating objects to build tiny structures, print coatings to make advanced sensors, and grab and position live stem ...