The embedded finite-state machines allow the user to implement customized motion-detection-based applications with a high level of flexibility, reducing the workload of the microprocessor by moving ...

The design and fabrication of the proposed MEMS accelerometer. a Schematic diagram of the accelerometer with two-layered proof mass. The upper layer has flexures, stiffness tuning electrodes, and ...

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

No audio available for this content. Photo: Silicon Designs New radiation-tested, tactical-grade MEMS inertial accelerometers designed for spacecraft electronics testing Silicon Designs Inc. has ...

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 ...

In a major leap forward for microelectromechanical systems (MEMS) technology, researchers have unveiled a novel miniaturized accelerometer that can boost sensitivity, reducing noise and bias ...

This is the fourth in our series, Think Outside the Chip….MEMS-Based Systems Solutions. In previous articles, I and my fellow authors have addressed the basic concept of MEMS-based system solutions, ...

ADI’s ADXL375 200-g digital MEMS accelerometer delivers more than twice the bandwidth at less than half the power consumption of competing sensors used to measure high-g events. NORWOOD, ...

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 ...

A roundup of recent products in the GNSS and inertial positioning industry from the February 2022 issue of GPS World magazine. The low-profile triple-band HC997EXF embedded helical GNSS antenna ...