The dashboard is designed with two 9.7-inch tablets that enable real-time interaction and monitoring. The new
multimedia system integrates a variety of smart technologies including travel info, media control, satellite navigation,
flight media, which are displayed in different tabs for more intuitive operation. Additionally, the double-touchscreen
design enables redundancy of the human-machine interaction system to ensure flight safety.
Double-curved windshield for wider vision and better view. The
space inside the cabin has been well-planned and arranged via
setting of the seat angle and optimization of the dashboard.
The leather-made seat design inspired by F1 sports car provides more
comfortable support for your body during flight. Just sit and enjoy.
The luggage trunk is big enough to easily accommodate an
18-inch suitcase, satisfying general commuting and
short-distance travel demands. The trunk is equipped with a belt
to fasten the luggage during flight.
The 8 arms of EHang AAV are designed to be foldable, only taking 5㎡
parking space.
The fuselage uses epoxy CF composite material to optimize the overall
structural strength and stiffness and maximize the specific strength, realizing
a perfect combination of lightness and stiffness. Besides, aviation-grade
aluminum alloy is also used to effectively reduce the aircraft weight and
ensure the supporting strength of different parts.
The design of coaxial dual propellers greatly reduce the space and
structural components required for the installation of propellers and motors,
thus making the aircraft lighter. The brushless DC motors, which are
controlled by the sensorless FOC driver, generate high power yet less heat
during operation, and provide safe and strong propulsion for the aircraft.
The streamline design effectively let the air flow closely outside the fuselage, reducing the drag coefficient and
wind resistance and making the flight smoother than ever. The excellent aerodynamic design and advanced
manufacturing technique are combined to improve the operating efficiency of the propeller and aircraft.
The Battery Management System (BMS) can monitor the status information including battery
voltage, current and temperature in real time and control them within a safe range, thus
effectively extending the service life of the battery. Meanwhile, the 12 batteries are
combined as a system to provide safe and reliable power. Even in the event of failure or
malfunction in 1 or several of the batteries, the battery system can still operate stably and
reliably and provide sufficient power for the aircraft.
The high-speed and ultra-long-distance transmission wireless network enables smooth communication between EHANG AAV
and the command & control center, and also enables remote management of the aircraft and real-time transmission of the flight data.
