Lockheed Martin has invented a new type of satellite dish technology for use on satellites and ground terminals, including space-based 5G. The Wide Angle ESA Fed Reflector (WAEFR) antenna is a hybrid of a phased array Electronically Steerable Antenna (ESA) and a parabolic dish, and increases coverage area by 190% compared to traditional phased array antennas at a much lower cost.
This antenna is part of a larger Lockheed Martin R&D investment in 5G.MIL™ technologies that will optimize and securely connect warfighting platforms to enable joint all-domain command and control (JADC2).
“We adopted a commercial mindset to quickly mature this technology and discovered there were multiple use cases and applications that could benefit from this new hybrid antenna,” said Chris Herring, vice president of advanced program development at Lockheed Martin Space. “5G.MIL technologies like this will bring greater connectivity, faster and more reliable networks, and new data capabilities to support our customers as they navigate the complexity of 21st century battlefields.”
The team rapidly prototyped, tested and validated this system in a matter of months compared to what previously took years. WAEFR also features:
- High performance gain of a dish with the beam agility of an ESA
- Low Size Weight and Power (SWAP) common product solution to accommodate any orbital altitude or ground terminal application
- Advances in 3D-printing technology and accelerated parts production
This type of antenna will also benefit the broader communications and ISR communities by providing a more reliable scanning solution compared to gimbaled designs.
“The primary benefit of the WAEFR approach is accomplishing more missions with fewer resources,” said Thomas Hand, Ph.D., associate technical fellow at Lockheed Martin Space. “While state of the art ESA solutions can address more demanding link performance, capacity, and data rates using multiple agile analog beams, they do so at a premium.”