Microelectromechanical systems are an engineering marvel that mainstream industries such as automaking, medical devices and other high-precision manufacturers have integrated into their products for ...

Researchers are developing a new class of tiny mechanical devices containing vibrating, hair-thin structures that could be used to filter electronic signals in cell phones and for other more exotic ...

Microelectromechanical systems (MEMS) offer designers the potential to make the optical network of the future possible, but some things need to change before the ideal becomes a reality. Although ...

The role of packaging/assembly/test (P/A/T) in the overall successful commercialization of MEMS (microelectromechanical systems) has historically taken a backseat to device development. In the ...

Micro-electromechanical systems (MEMS) represent a key technology in the measurement space. Whether you are looking to design, produce, and test your own MEMS and associated circuitry or develop a ...

A cutting-edge design platform for microelectromechanical systems (MEMS) now allows engineers to simultaneously optimize mechanical and electronic components using a genetic algorithm. By introducing ...

WEST LAFAYETTE, Ind. - Researchers are developing a new class of tiny mechanical devices containing vibrating, hair-thin structures that could be used to filter electronic signals in cell phones and ...

Cleaning is an essential process for MEMS applications in order to prevent device failure due to foreign material. Small particles located on MEMS devices are significant causes of device rejection ...

Semiconductor engineers leveraged manufacturing techniques developed for computer chips to create microscopic MEMS devices. Fabrication methods for MEMS sensors, such as layer deposition, ...

The success of MEMS devices often relies on maintaining a hermetic environment to protect their delicate internal components. Glass sealing provides a superior solution for achieving reliable hermetic ...