MEMS technology has redefined modern technology, leading to improved performance and innovative applications across diverse industries. Take for example an airbag, where the (microscale) accelerometer ...

A schematic of the accelerometer. a Typical structure of a MEMS comb-type accelerometer, b single-meandered spring, c double-meandered spring. Image Credit: Microsystems & Nanoengineering. The demand ...

TDK Corporation has expanded its MEMS inertial sensors portfolio with the Tronics AXO315T0, a high-temperature MEMS ...

Figure 1: Design, model and simulation of an accelerometer design using the X-FAB XMB10 customized Component Library in MEMS+. Figure 2 illustrates an example of design rules for a COMB structure, ...

Because of this variability, no two MEMS behave identically. Since conventional methods to measure MEMS properties are usually impractical, expensive, have unknown accuracy and large uncertainty, ...

A schematic of the accelerometer. a Typical structure of a MEMS comb-type accelerometer, b single-meandered spring, c double-meandered spring. Credit: Microsystems & Nanoengineering (2024). DOI ...

Motion processing, which measures and intelligently processes the movements of devices in three dimensional spaces, is the next major disruptive technology that will drive innovation in handheld ...

MEMS devices are an order of magnitude larger than transistors, and transistors are continuing to shrink to smaller process scales (with at least a 10x shrinkage demonstrated in lab samples).

The ability to model the interaction between the transducer and its enclosure is a critical engineering requirement for MEMS designers and can be completed using MEMS+. Fig. 1: Lateral accelerometer ...