MEMS is an acronym that stands for microelectromechanical systems – exceptionally small devices that incorporate mechanical, electrical, and frequently optical components on a single microchip. These ...

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 ...

Semiconductor Engineering sat down to talk about future developments and challenges for microelectromechanical systems (MEMS) with Gerold Schropfer, director of MEMS products and European operations ...

MEMS are primarily transducer systems that can control or sense chemical, optical, or physical quantities, such as fluids, acceleration, or radiation. A MEMS device/transducer possesses an electrical ...

MEMS are helping to advance biomedical devices by leaps and bounds, but technical and business challenges remain. Charles Chung, Ph.D. Shown are different pressure sensor designs—each tailored to ...

The internet of things is a system that connects objects and users via the internet. “Things” are made much simpler using microelectromechanical (MEMS) technology. MEMS devices come in a variety of ...

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 ...

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 ...