Innovative use of Gallium Nitride, and an unmatched history of successful radar development, delivers warfighter capability against aerial targets.
Raytheon Company has successfully completed a customer demonstration of a new U.S. Air Force expeditionary ground-based prototype radar.
Designed to replace the decades old TPS-75 radar system, the Three-Dimensional Expeditionary Long-Range Radar (3DELRR) will help defend warfighters against emerging threats by detecting, identifying and tracking fixed- and rotary-wing aircraft, missiles and unmanned aircraft.
During the June 27 demonstration, which was witnessed by U.S. Air Force and Marine Corps personnel, Raytheon’s 3DELRR tracked targets of opportunity and maneuvering tactical aircraft. Raytheon’s advanced 3DELRR prototype also demonstrated integration into the Air Force’s next-generation Command and Control node.
“The flawless performance of our 3DELRR prototype is the latest chapter in Raytheon’s seven decades of radar leadership and commitment to customer success,” said Dave Gulla, vice president of Global Integrated Sensors for Raytheon’s Integrated Defense Systems business.
Raytheon’s 3DELRR solution is a C-band Gallium Nitride (GaN)-based radar. This combination enables warfighters to affordably detect, identify and track a wide variety of objects very accurately at great distances.
“Our 3DELRR solution meets the customer’s requirements, has a high level of system availability, and just as important, is extremely affordable to purchase, own and operate,” said Andrew Hajek, 3DELRR program director for Raytheon’s Integrated Defense Systems business. “For example, as a DoD-recognized industry leader in GaN, Raytheon is able to capitalize on efficiencies and reduce costs in unique ways.”
About Raytheon’s 3DELRR Solution
Raytheon’s 3DELRR open architecture and GaN-based solution provides the warfighter exceptional capability at an affordable total ownership cost.
Raytheon’s 3DELRR provides a precise air picture, fully net-ready for maximum air battle manager support, and is able to “plug in” to both the Air Force’s current and future Command and Control node.
