This news is classified in: Defense Radar / EW Communications
Sep 17, 2018
BAE Systems has signed a cooperative agreement with the Air Force Research Laboratory (AFRL) for Phase 1 of a technical effort to transition gallium nitride (GaN) semiconductor technology developed by the U.S. Air Force to our Advanced Microwave Products (AMP) Center.
We’ve signed a cooperative agreement with the Air Force Research Laboratory (AFRL) for Phase 1 of a technical effort to transition gallium nitride (GaN) semiconductor technology developed by the U.S. Air Force to our Advanced Microwave Products (AMP) Center. As part of the effort, we’ll transfer and further enhance the technology, and scale it to 6-inch wafers to slash per-chip costs and improve the accessibility of this defense-critical technology.
GaN technology provides broad frequency bandwidth, high efficiency, and high transmit power in a small footprint, making it ideal for next-generation radar, electronic warfare, and communications systems. Under the agreement, we will work with AFRL to establish a 140-nanometer GaN monolithic microwave integrated circuit (MMIC) process that will be qualified for production by 2020, with products available to Department of Defense (DoD) suppliers through an open foundry service.
By System (Reconnaissance system, Targeting system, Search and track system, Surveillance system, Warning/detection system, Countermeasure system, Navigation and guidance system, Special mission system), By Technology (Multispectral, Hyperspectral), By Application (Commercial, Military, Space), By Region, Competition, 2019-2029F
Download free sample pages“Millimeter-wave GaN technologies today are produced in research and development laboratories in low volumes at high associated costs or in captive foundries that are not broadly accessible to defense suppliers,” said Scott Sweetland, Advanced Microwave Products director at BAE Systems. “This effort will leverage AFRL’s high-performance technology and BAE Systems’ 6-inch manufacturing capability to advance the state of the art in GaN MMIC performance, reliability, and affordability while providing broader access to this critical technology.”
The work on this project will primarily take place in our 70,000-square-foot Microelectronics Center (MEC) in Nashua, New Hampshire, where we research, develop, and produce compound semiconductor materials, devices, circuits, and modules for a wide range of microwave and millimeter-wave applications. The MEC has been an accredited DoD Category 1A Trusted Supplier since 2008, and fabricates integrated circuits in production quantities for critical DoD programs.
As part of the project, the AMP Center team will work closely with the company’s FAST LabsTM research organization and MMIC design experts from ENGIN-IC.
