Company developing central technologies for DARPA and US Space Force to provide key payload technology for SpaceLink’s network for time critical data between spacecraft and the ground
SpaceLink, the company building the communications superhighway for the space economy, announced that it selected SEAKR Engineering, Inc (SEAKR) to provide key payload technology for its relay satellite system. SEAKR is developing technologies for DARPA and the U.S. Space Force, and will provide advanced on-board processing for the SpaceLink network, which provides secure, continuous, high-capacity communications for time-critical service between spacecraft and the ground.
Working together with SpaceLink, SEAKR is developing an advanced, high-performance processor that integrates with both optical and radio frequency (RF) signals. The processor on each of SpaceLink’s MEO satellites will control and direct data traffic to optimize the capacity and availability of the network in response to customer demand.
“SEAKR and SpaceLink are aligned in our strategic planning and technology roadmaps,” said Dave Bettinger, SpaceLink CEO. “SEAKR is fully compliant with U.S. government standards and cybersecurity requirements, and our processor development and production will be done on U.S. soil by U.S. persons. For critical payload components, we know this is important to many of our customers.”
SEAKR is the leading-edge provider of advanced electronics for space applications and is developing one of the central technologies for the Defense Advanced Research Projects Agency’s (DARPA’s) Blackjack satellite network.
“SEAKR has developed multiple on-orbit reconfigurable payloads for both commercial and military missions for multiple orbital domains. The SpaceLink satellite communication processor leverages decades of successful missions and will represent one of the most capable systems deployed,” said Dave Jungkind, SEAKR’s Vice President of Business Development.
The SpaceLink relay system, planned to launch in 2024, will provide operational connectivity to commercial and government space missions using both RF and optical links to the relay satellites and laser crosslinks to route traffic to any SpaceLink ground entry point, and on to the users’ Mission Operations Center. The system will support the growing bandwidth demand and security requirements of commercial, civil, and U.S. and allied national security missions.
“We share SpaceLink’s excitement about the prospects for a relay system that provides continuous connectivity for spacecraft in LEO,” said Scott Anderson, president and co-founder of SEAKR. “Our agreement with SpaceLink enables us to move forward with development of the advanced, high-performance processor that meets SpaceLink’s relay requirements. Our companies have great synergy and we are enthusiastic to move forward with all the technical requirements and interfaces.”
With the growing space economy and proliferation of spacecraft in LEO, the demand for fast, continuous, high-capacity connectivity is accelerating. SpaceLink’s unique architecture and location in MEO means the satellite constellation always has direct line of sight to satellites, space stations, tugs and servicers in LEO, as well as to its dedicated Gateway Earth Stations. SpaceLink will relieve the bandwidth bottleneck for organizations that need to transport data quickly and securely to users anywhere in LEO or on Earth.
The SpaceLink relay network is designed to pick up where the U.S. Tracking and Data Relay Satellite System (TDRSS) leaves off and go beyond with unprecedented capacity that leverages today’s technology advances. Enhancing the business case for Earth observation companies, commercial space stations, satellite servicers, and space tugs, SpaceLink also meets requirements for the U.S. Government and close allies that want to leverage industry solutions.