ENGINEERING
THE ORBITAL
ECONOMY
OrbitExSpace is built on a single conviction: the orbital economy will be as essential to civilization in fifty years as the internet is today.
We are not building a demonstration. We are building an engineering programme designed to deploy next-generation orbital systems at the scale and reliability that humanity's permanent presence beyond Earth demands.
Backed by Inec Holding's institutional capital and long-horizon governance, OrbitExSpace has the runway, the structure, and the mandate to execute at scale.

THREE ENGINEERING
PILLARS
Each technology domain is engineered for deployment at scale — not for demonstration. Together they form the complete infrastructure stack of the orbital economy.
Advanced Satellite Platforms
Next-generation satellite buses engineered for reliability, modularity, and long-duration orbital operations. OES platform architecture supports LEO, MEO, and GEO missions with standardized interfaces for rapid payload integration.
High-Performance Propulsion
Compact, high-efficiency propulsion systems for orbital insertion, station-keeping, and deep-space transfer. PropulseX thruster technology delivers superior specific impulse in a flight-proven form factor.
Deep-Space Infrastructure
Long-duration spacecraft architectures and communication relay systems for operations beyond Earth orbit. DeepLink network technology enables continuous low-latency data relay from lunar orbit to deep-space destinations.

Modular satellite architecture designed for mass-deployment economics
FROM ENGINEERING TO ORBIT
Satellite Platform Programme
Development of the OES-1 modular satellite bus — a standardized, scalable platform architecture for commercial and governmental LEO/GEO missions. Designed for high-volume production at aerospace-grade quality.
Orbital Propulsion Programme
Next-generation electric propulsion technology delivering class-leading specific impulse in a compact, flight-heritage form factor. Qualified for orbit-raising and long-duration station-keeping.
Deep-Space Network Programme
Orbital relay infrastructure for continuous low-latency communication from lunar orbit to deep-space destinations. The data backbone required for crewed and robotic operations beyond Earth orbit.
Structural Systems Programme
Lightweight, radiation-hardened structural frame systems for long-duration spacecraft. OrbFrame composite architecture achieves superior mass fraction while maintaining structural integrity across the full mission lifecycle.
WHY ORBITAL
SYSTEMS. WHY NOW.
The orbital economy is undergoing a structural shift unprecedented since the launch of Sputnik. Commercial launch costs have fallen by 95% in fifteen years. The window to build foundational infrastructure is open now.
OrbitExSpace is engineering the platforms, propulsion, and communications architecture that will underpin the next century of orbital operations.
INSTITUTIONAL BACKING.
OPERATIONAL FREEDOM.
As a wholly-owned subsidiary of Inec Holding AG, OrbitExSpace benefits from institutional governance, patient long-horizon capital, and cross-portfolio strategic resources — while maintaining 100% operational autonomy.
Building the orbital economy
demands the right partners.
Whether you are a potential customer, technology partner, or institutional investor — OrbitExSpace is open to strategic conversations at the frontier.