Power for every mission.
Scalable power on-demand opens up limitless possibilities, from true global connectivity to the next era of space exploration.
Orbital Data Centers
Orbital data centers demand consistent, high-throughput power for compute, cooling, and communications — far beyond what onboard systems alone can provide. The Star Catcher Network enables sustained performance and scalability by delivering up to 10x more power, unlocking a new generation of orbital data infrastructure.
Direct-to-Cell (D2C)
Flexible, augmented power from the Star Catcher Network enables high-throughput signals, wider coverage footprints, and reliable performance in any condition — making true global connectivity possible with direct-to-cell constellations that don’t require the scale or resources of today’s largest operators.
Very Low Earth Orbit (VLEO)
VLEO satellites below 450 km offer superior imaging and high-bandwidth communications but face a drag–power tradeoff that limits mission duration. The Star Catcher Network breaks this cycle by providing up to 10× more power without added surface area, enabling sustained propulsion and stable operations in this once-impractical regime.
National Security
Defense and intelligence operations rely on power-hungry sensors, processors, and propulsion systems to stay ahead of evolving threats. Scalable, resilient power from the Star Catcher Network enables true maneuver-without-regret, continuous surveillance, and real-time situational awareness across every orbital domain.
Advanced Computing
On-demand, high-intensity energy — delivering up to ten Suns of flux — provides the power density required to operate advanced computing hardware in space, enabling orbital edge computing, AI-powered sensing, and real-time insights.
In-Space Manufacturing
Manufacturing in orbit requires immense, uninterrupted power to process materials, operate robotic systems, and maintain thermal stability. By plugging into the Star Catcher Network, in-space manufacturing and assembly (ISAM) can scale from isolated experiments to industrial-grade production of large structures, propellant, and even factories producing Earth-bound products such fiber optics and human tissues.
Lunar Exploration
Surviving the 14-day lunar night is one of the greatest challenges for sustained surface operations. By delivering continuous power through darkness — including in permanently shadowed craters — the Star Catcher Network enables long-term, reliable operation of rovers, habitats, and factories, unlocking true permanence on the Moon.
Space Stations
Space stations require continuous and large amounts of power for life support, propulsion, science, and manufacturing — and even more to assemble the larger structures that will define the next generation of habitats. The Star Catcher Network delivers scalable, uninterrupted energy to sustain operations and enable the next era of human space exploration.
