LONG BEACH, Calif.--(BUSINESS WIRE)--

Vast, the company developing next-generation space stations and space infrastructure, today announced Vast Satellite, a new line of high-power satellite buses built for operators across communications, Earth observation, national security, and orbital data center satellite constellations.

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With the launch of Vast Satellite, Vast is expanding beyond commercial space stations into high-volume spacecraft platforms designed for high-performance orbital missions. The first offering is a 15 kW-class satellite bus designed to support a wide array of power-intensive missions through flexible configurations.

Built around common in-house subsystems—including avionics, power, communications, propulsion, and flight software—Vast Satellite leverages technologies already developed for its Haven-1 space station, and validated through the successful Haven Demo mission in 2025. This shared architecture combined with Vast's vertically integrated manufacturing model and advanced production capabilities is designed to support faster development timelines, lower costs, and increased mission reliability.

“We believe Vast is uniquely positioned to compete in the high-power satellite market through the combination of our world-class engineering team, large-scale manufacturing capabilities, and the on-orbit success of Haven Demo,” said Vast CEO Max Haot. “Customers can benefit from our experience designing, building, and operating flight-proven large-scale spacecraft while gaining access to highly capable, flexible spacecraft platforms backed by operational expertise.”

Vast Satellite has already secured its first sale: a confidential customer signed an agreement for four satellites, with an option to purchase up to 200 additional satellites.

Haven Demo, led by Senior Vice President of Special Projects Jim Martz, served as an in-space testbed for critical space station technologies. Following a successful mission in 2025, the spacecraft executed a controlled deorbit on February 4, 2026, after successfully testing and validating critical systems—including avionics, power, and flight software—the same core technologies that underpin Vast’s high-power satellites. Martz previously led satellite engineering organizations at SpaceX’s Starshield and Muon Space.

“Haven Demo allowed us to validate key spacecraft systems in the operational environment they were designed for,” said Martz. “The mission provided valuable flight heritage and demonstrated the maturity of the avionics, power, and software systems that are expected to form the foundation of our satellite platforms.”

The inaugural platform in Vast's high-power satellite product line features the following specifications:

Mission Parameters

Design life: 5 years

LEO altitude range: 350–1,200 km

Future orbits: MEO, GEO, Lunar

Total mission ΔV: ≥500 m/s

Mechanical

Bus dry mass: 700 kg

Payload capacity: 350+ kg

Flat panel structure optimized for high-density launch and batch deployment

Dimensions: 2.2 m × 3.6 m

Flexible payload mounting locations and volume

Power

Solar power: 15 kW (two deployable rollout arrays with drive actuators)

Payload peak power: 20 kW+ (time dependent)

Payload orbit average power: 6-14.5 kW (orbit and payload dependent)

Payload orbit average bus managed thermal dissipation: 6-10 kW (orbit and payload dependent)

GNC Performance

Pointing knowledge: