Melbourne, FL 32919 https://www.l3harris.com/
Software-defined radio contract for U.S. Army could net companies as much as $6 billion over decade - NewsMay 02, 2022
ARLINGTON, Va. The U.S. Army recently awarded an indefinite delivery/indefinite quantity (ID/IQ) contract for its new Combat Net Radio (CNR) modernization project to L3Harris Technologies (Rochester, New York) and Thales Defense Security (Clarksburg, Maryland).
MELBOURNE, Fla. L3Harris Technologies has signed a contract worth a potential $593 million that calls for the company to develop passive sensor technology for the U.S. Navy’s shipboard surveillance, detection, and cueing capabilities.
Military helicopter avionics upgrades like those for Future Vertical Lift platforms make data and modular-agnostic hardware a priority for defense electronics manufacturers. As systems and electronics evolve, many of these advances will have to comply with open architecture standards like the Future Airborne Capability Environment (FACE) and must leverage a modular open systems approach (MOSA) to ease cost and time-to-market pressure.
MELBOURNE, Fla. L3Harris Technologies has won $117 million for option-year three of a U.S. Space Force and U.S. Space Command contract to continue maintaining and modernizing infrastructure to track objects in space.
MELBOURNE, Fla. L3Harris Technologies announced that the company has been selected by the U.S. Space Force to continue efforts to upgrade and modernize its space domain awareness, which is used to help combat anti-satellite threats.
MELBOURNE, Fla. The U.S. Marine Corps has awarded L3Harris Technologies a competitive 10-year, $750 million single-award indefinite delivery, indefinitely quantity contract for multi-channel handheld and vehicular radio systems.
MELBOURNE, Fla. L3Harris Technologies completed the final major design milestone on the U.S. Missile Defense Agency’s (MDA) Hypersonic and Ballistic Tracking Space Sensor (HBTSS) program Phase IIb On-orbit Prototype Demonstration and has begun building the demonstration satellite.