Laboratory setup with a flame shooting from a torch towards a metallic apparatus on a track, surrounded by sparks.

BUILT FOR REUSE, DESIGNED FOR PERFORMANCE

Our satellite fleet is engineered for repeatable missions. Unlike traditional, single-mission spacecraft, every core component is rated for multiple reentries, reducing supply chain risk and eliminating long lead times.

ROBUST, SCALABLE AND MISSION READY

By decoupling satellite bus from payload development, we help customers reduce risk, conduct valuable post-mission analysis, and iterate faster.

Reusable by Design

Built to survive reentry and thrive on repeat missions.

Fleet-Based Logistics

A mission-ready fleet that eliminates the complexity of space access.

Circular Operations

Launch, fly, return, learn, and re-launch.

Timelines on Your Terms

Launch missions and retrieve payloads on a custom schedule.

TECHNICAL SPECIFICATIONS

OPTIMIZED FOR FLEXIBLE
LEO MISSIONS

Designed for flexibility, the platform operates in Low Earth Orbit between 250–600 km. It can support mission durations from 1 day to 5 years, with passive thermal control and efficient power systems to ensure stable performance.

With standard satellite components qualified for reuse, the vehicle is designed for a range of mission applications, from hosted payloads to in-orbit servicing and in-space manufacturing.

Wireframe 3D model of a satellite with two solar panel arrays and a large parabolic dish antenna.

Wireframe top view of a satellite with a spherical center and two rectangular solar panels extending from each side.

ENGINEERED FOR SAFE RETURN AND RAPID REUSE

Built for reliable return, our system withstands reentry thermal and structural loads without additional requirements on the payload. A rigid heat shield protects the bus and payload while a custom parachute allows the satellite to safely touch down on Earth, where ground crews can access payloads within minutes.

MARKET APPLICATIONS