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MEMS & Piezoelectric Devices Blog Posts

Optimizing the Power of a Piezoelectric Energy Harvester

October 2, 2015

When it comes to a piezoelectric energy harvester, the design configuration should maximize the level of power transfer. How can simulation be used to improve the design of an energy harvester?

Simulating a MEMS-Based Pressure Sensor Inspired by a Cave Fish

August 17, 2015

Oceanic inspiration: Researchers from the PSG College of Technology in India used numerical simulation to investigate a pressure sensor design inspired by the blind Mexican cave fish.

Simulating a Valveless Micropump Mechanism

July 17, 2015

Valveless micropumps are integral to many microfluidic systems. Simulation can be used to study the fluid–structure interaction occurring in these components to improve their performance.

Modeling a Stacked Piezoelectric Actuator in a Valve

May 13, 2015

Piezoelectric valves are energy efficient, durable, and fast. You can model a key component of this device responsible for opening and closing the valve: a stacked piezoelectric actuator.

Using Degeneracy Breaking to Design a MEMS Biosensor

February 12, 2015

Researchers from Newcastle University in the U.K. used simulation to investigate the effects of material and geometric symmetry breaking in a degenerate mode sensor. Get the full story >>

Improving the Power of Optical Systems via Component Design

January 21, 2015

Adaptive optics are used to improve the power of optical systems — beyond the obstacles imposed by the optical medium. See examples and learn how to model adaptive optics systems.

New Piezoelectric Modeling Interface in COMSOL 5.0

December 30, 2014

As of version 5.0 of COMSOL Multiphysics®, there is a new interface for simulating piezoelectric devices; it has predefined features that make it easy to set up and run a piezoelectric model.

Modeling a Surface Micromachined Accelerometer

December 23, 2014

There are plenty of MEMS manufacturing techniques, but surface micromachining is preferred because it can merge electronic components and freely moving mechanical parts onto one substrate.


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