Northrop Grumman Corporation is moving into the design phase of the Air Force Research Laboratory (AFRL) Aether Spy next-generation multifunction radar program after successfully completing the System Requirements Review (SRR).
Northrop Grumman’s Next Generation Digital Antenna Passes Key Milestone
Northrop Grumman’s multifunction software will become foundational building blocks for the next generation of multifunction radio frequency (RF) systems.
Aether Spy advances multifunction wideband digital Active Electronically Scanned Array (AESA) technology based on the advanced microelectronics created on the DARPA Arrays on Commercial Timescales (ACT) program. It will develop the next generation of integrated circuits that include additional processing and key design features that enable the Department of Defense trusted microelectronics strategy. The advanced devices will be fabricated and integrated into an advanced digital AESA to demonstrate a multifunction system capable of simultaneously performing multiple sensing, communication, and electronic warfare functions.
“We look forward to demonstrating how the advanced digital AESA technology enables unmatched system agility that will meet the challenging mission requirements of advanced platforms,” said William Phillips, director, multifunction systems, Northrop Grumman. “The advanced integrated circuits, digital AESA architecture and multifunction software developed on Aether Spy will become foundational building blocks for the next generation of multifunction radio frequency (RF) systems supporting the future mission needs of the DoD.”
“This transition of digital AESA technology aligns well with the Air Force’s digital engineering initiatives,” said Thomas Dalrymple, technical advisor for Sensor Subsystems at the AFRL Sensors Directorate. “Aether Spy will enable significant improvements in surveillance and battle management missions in the future battlespace. The multifunction aspects are enabled by both software and hardware reprogram ability that will ensure this sensor will have an operational impact for years to come.”