Our first innovation tackles one of the biggest challenges in electric aviation: battery dependency. Traditional electric aircraft require a large number of heavy batteries to sustain long flights—but not ours.
We've developed a proprietary onboard power generation system that continuously recharges our system in-flight, allowing us to significantly reduce battery load while maintaining or even extending operational range.
This breakthrough not only reduces aircraft weight but also improves overall energy efficiency, making each flight more economical and environmentally sustainable.
Our second innovation is a custom-designed electric motor, purpose-built for unmanned aviation. Unlike traditional electric motors that emphasize RPM or raw power, our design focuses on torque optimization—the true driving force behind propeller performance
Our motors generate maximum torque using minimal power, reducing energy demand without compromising output. This high-efficiency motor design enables smoother propulsion, quicker acceleration, and greater payload flexibility—all critical for express logistics.
We don’t use off-the-shelf propeller blades. Our engineering team has designed custom propellers specifically matched to the unique torque and RPM characteristics of our electric motor.
While standard blades are optimized for combustion engines, they often underperform when paired with electric systems. Our proprietary blade design ensures that every watt of power from our motor is converted into forward thrust with maximum aerodynamic efficiency, noise reduction, and stability.
The fourth innovation is how we manage the energy flow within our system. We've developed a proprietary method to optimize power delivery to the shaft, ensuring that every ounce of energy is converted into usable torque.
By intelligently managing how electric motors interact with the propeller drive system, we’re able to reduce power draw, minimize heat loss, and ensure long-term reliability—essential for mission-critical delivery operations.