Odys Aviation, a United States dual-use aerospace company building hybrid-electric vertical take-off and landing aircraft, has announced a strategic engineering collaboration with Motion Applied, a UK-based technology company, to advance next-generation hybrid-electric propulsion architecture for advanced flight applications, according to Business Wire.

Under partnership terms, Motion Applied's proven silicon carbide inverter platform, the AMPEX MCU-600, will be integrated with Odys' family of high-speed generator units to form a certifiable, high-performance hybrid propulsion system for use in the company's Laila and Alta aircraft.

At the core of the system is Motion Applied's embedded software stack for hybrid systems coordination and aviation-level redundancy management. Integrated directly with the Odys hybrid controller, the architecture enables a tightly coupled turbine-generator-inverter closed-loop control system optimised for dynamic flight operations and capable of simultaneously supporting multi-winding fault isolation, graceful degradation and continued operation under single-path failures.

Samir Maha, CEO of Motion Applied, said hybrid-electric aviation will only succeed if every element of the propulsion system is developed together with absolute clarity of purpose. "Our partnership with Odys Aviation reflects that mindset. By combining our inverter platform with their advanced generator technology, we are building the foundation for flight-ready hybrid propulsion that raises the bar for performance and safety across the industry," he stated.

James Dorris, CEO of Odys Aviation, said the company believes hybrid propulsion must be architected from the ground up as a unified system, not assembled from loosely connected components. "Motion Applied brings a proven SiC inverter platform and embedded control stack that integrates seamlessly with our hybrid controller," he stated.

Based in Long Beach, California, Odys Aviation was launched in 2021 and has $11 billion in signed letters of intent to date.

Read comprehensive details on the propulsion collaboration and technical specifications in the complete report.