A Lockheed Martin and Ball Aerospace satellite communications prototype has successfully completed a phased array transmit test for an MBMM antenna.
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Press Release, Colorado Springs, 31 August 2020: Lockheed Martin and Ball Aerospace successfully completed a phased array transmit test for a Multi-Band, Multi-Mission (MBMM) antenna. MBMM helps enable multiple satellites to simultaneously connect with a single-phased array antenna system using multiple frequencies. It increases throughput, while also shrinking the antenna’s footprint. This marks a technology milestone for the United States Space Force’s MBMM programme and moves the team one step closer to a full end-to-end satellite communication demonstration later this summer. This transmit test follows a similar successful receive test, which occurred in February.
The prototype antenna, awarded by the Defense Innovation Unit in April 2019, features proven technologies at high maturity levels like Lockheed Martin’s Horizon advanced satellite scheduler, Ball Aerospace’s modular subarray and panel design, and Kratos RT Logic advanced digital signal processing. Additionally, the prototype uses a ‘building block’ approach that can easily scale as the number of satellites increases or as the communication needs evolve.
“We are excited to partner with the Space Force on this phased array technology demonstration. This is a collaborative team with proven leadership in fielding large-scale L- and S-band communication phased arrays,” said Maria Demaree, vice president and general manager of Lockheed Martin Mission Solutions. “Our experience integrating antennas into C2 systems is unparalleled.”
The total number of commercial and military satellites in orbit is projected to increase at least four-fold in the next decade, with a projected tenfold increase in capacity needed within the Air Force Satellite Control Network (AFSCN). That growth necessitates new technologies like phased arrays which can connect to multiple space vehicles simultaneously, unlike traditional parabolic antennas. Phased array antennas also avoid significant mechanical maintenance costs when compared to parabolic dishes.
“Ball Aerospace has targeted investment in the core phased array technologies required to allow MBMM to address the Space Force’s mission needs while providing an affordable full system solution,” said Jake Sauer, vice president and general manager, Tactical Solutions, Ball Aerospace. “With the successful completion of the transmit test, we are looking forward to the full end-to-end mission demonstration of the phased array capability.”
The MBMM prototype phased array is part of a broad initiative to modernize the existing AFSCN system and bring new technology faster to warfighters. MBMM increases AFSCN capacity and throughput while improving resiliency for ground infrastructure and satellite systems.
