Stabilization and Pointing for Radar and Phased-Array Systems

The continued move higher in the radio-frequency spectrum coupled with the evolution of more accurate phased-array systems has driven the need for inertial measurement units (IMUs), gyroscopes, and accelerometers to be integrated into these systems.

This webinar will focus on microelectromechanical systems (MEMS)-based systems, that measure pointing, motion, and axis deviations and their applicability to modern radar, communications, and electronic warfare systems. Accurate IMUs are not just needed on airborne and marine-based radar and communications systems. With accuracy, as well as resolution that is improving exponentially, paired with larger independent array designs, it has become critical for advanced radar systems to have their own numerous ecosystems of IMUs integrated to enable the performance expected of the next generation. This technology also applies to terrestrial phased-array systems in motion.

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Debbie Gibson has been with Analog Devices for over 20 years in a variety of roles spanning DC/DC power, mixed-signal modules, and inertial products. She is currently the Product Line Director for Inertial Components and Modules focused on multiple market segments where inertial solutions provide differentiated application value.

Sean D'Arcy joined Analog Devices in 2015 and is part of Aerospace and Defense Marketing Team, focusing on Aviation, Unmanned Systems, Missiles and Munitions. With over 20 years in the Aerospace and Defense industry, Sean has supported development and upgrade programs for platforms such as the C-130 Hercules, MQ-9 Reaper, B-2 Spirit, F-16 Falcon, U-2 Dragon Lady and the X-47B. He is a multi-engine fixed wing pilot, has owned an aviation company, worked for two major Defense Contractors and the Johnson Space Center.