Abstract—(MEMS) Microelectromechanical systemsin consumer electronics are growing faster each year, with increasing demands from the mobile market, which is dominating the growth for this emerging ...

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

MEMS (micro electromechanical system) inertial sensor technology provides a major structural shift in mechanical sensing. When the performance meets their needs, system developers welcome trading ...

MEMS-based accelerometers are increasingly deployed in harsh environments where mechanical stress is not just expected but constant.

Researchers have used a specialized form of additive manufacturing to create MEMS sensors that can be fabricated as custom, single-quantity units. Why custom-made sensors using additive manufacturing ...

Researchers from Delft University of Technology have announced the development of a novel surface micromachined accelerometer. This innovative device utilizes a silicon carbide-carbon nanotube ...

An accelerometer is the ubiquitous little sensor that tells your tablet when to flip orientation or informs the brain of your quadcopter how closely its actual actions are matching your desired ones.

The gyroscope market is heating up, fueled by increasingly autonomous vehicles, robots, and industrial equipment, all of which are demanding greater precision and ever-smaller devices. Gyroscopes ...