Mach 5–6 speed. 200 passengers. Hydrogen propulsion. Global routes in under 3 hours. The HX-200 redefines what it means to travel.
Engineering excellence meets commercial viability. Every specification engineered for performance, safety, and sustainability.
5,000+ km/h cruising at altitudes above 30,000 feet
Premium cabin with business and first-class sections
Non-stop global routes between major cities
Zero carbon emissions with liquid hydrogen fuel
Optimized aerodynamic profile for hypersonic flight
Expected commercial certification by 2032
Our revolutionary variable cycle turbofan and scramjet engine delivers unprecedented performance across all flight regimes.
Dual-cycle engine that switches between high-bypass turbofan for subsonic flight and direct turbojet for supersonic acceleration. Optimized for takeoff, climb, and Mach 0-3 operations.
At Mach 2-3, the engine transitions to ramjet mode. Air compression occurs through forward motion geometry—no rotating compressor needed. Smooth transition with no moving parts.
Supersonic combustion ramjet ignites fuel directly in hypersonic airflow at Mach 5-6. Hydrogen fuel provides maximum energy density with zero carbon emissions.
Next-generation AI-powered flight systems that think, adapt, and protect—delivering unprecedented safety and efficiency.
Machine learning algorithms that optimize flight trajectories in real-time for maximum efficiency.
Lightning-fast data fusion from hundreds of sensors delivering instant situational awareness.
Comprehensive suite of LIDAR, radar, and optical sensors for all-weather operation.
Intelligent safeguards prevent exceedances while maximizing performance envelope.
Three independent flight control computers ensure safe operation even with multiple system failures.
Advanced composite materials engineered to withstand extreme hypersonic temperatures while maintaining maximum strength-to-weight ratios.
Ultra-lightweight carbon fiber reinforced polymer (CFRP) provides exceptional strength while reducing structural weight by 40% compared to traditional aluminum construction.
Grade 5 titanium alloys provide superior heat resistance for leading edges and high-stress structural members. Engineered for temperatures exceeding 600°C.
Ceramic thermal protection tiles (TPS) with advanced ablative coatings protect the airframe from surface temperatures reaching 1,800°C during hypersonic cruise.
Despite traveling at hypersonic speeds, the HX-200 offers a quieter, smoother ride than traditional aircraft. Advanced vibration dampening and climate control create an exceptional cabin environment.
Wider seats and more legroom than conventional aircraft with panoramic windows
Satellite-based internet for seamless video calls and streaming
Chef-prepared meals with international cuisine options
Join the revolution in hypersonic travel. The HX-200 will transform how the world moves.
