MANHASSET,N.Y.—Startup Microlab says it has manufactured a latching RF MEMS switch that overcomes problems common to existing thermal and electrostatic microelectromechanical system (MEMS) switches.
Whether operating on the ground, in the air, at sea, or in space, defense electronic systems face extraordinary challenges, from wide and rapid temperature changes to extremes of shock and vibration.
Radio-frequency microelectromechanical switches represent a convergence of microscale mechanical structures and RF circuitry, enabling the dynamic control of signal paths with minimal power ...
Menlo Micro selected Keysight Technologies’ PathWave Advanced Design System (ADS) and Electromagnetic (EM) Design software to accelerate their design and development efforts to create high-performance ...
Semiconductor Engineering sat down to talk about future developments and challenges for microelectromechanical systems (MEMS) with Gerold Schropfer, director of MEMS products and European operations ...
Modern communication systems ranging from 5G cellular to military radios are increasingly required to support a growing number of channels and frequency bands, and it is often essential to be able to ...
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