Dmitry Vasilenko, of Arrow Electronics, provides some design hints to accelerate the mechanical model of an accelerometer. Micro-mechanical systems (MEMS) have become common. They are used for ...

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 ...

Standard Finite Element (FE) models, especially those that incorporate multiple physical domains, consist of detailed representations of a device that include a large number of Degrees of Freedom (DoF ...

TDK Corp. has extended its range of high-temperature microelectromechanical systems (MEMS) inertial sensors. The sensor, ...

A new three axis MEMS accelerometer designed to measure the acceleration of high impact events resulting from shock and vibration has been announced by Analog Devices. The ADXL377 is designed to ...

Model 1521 is offered in eight standard ranges from ±2g to ±400g. Each has a ±4V differential output and comes in a choice of 20pin LCC or J-lead surface mount packages, both of which are nitrogen gas ...

A recent request from Hewlett-Packard piqued my interest, as company representatives wanted to talk to me about a microelectromechanical systems (MEMS) inertial sensor it had developed. At the end of ...

SAN JOSE, CA, Oct. 28, 2015 – mCube, provider of the world's smallest MEMS motion sensors, today announced the industry's first 3-axis accelerometer which is less than a cubic millimeter in total size ...

Japanese multinational conglomerate company Hitachi, Ltd. announced that it has developed a new MEMS accelerometer that can detect vibrations up to three orders of magnitude smaller than previous ...