The VA-D2 drone flight platform is a conventional layout, all-electric tail-thrust vertical takeoff and landing (VTOL) fixed-wing drone. Utilizing a forward-engineering design process, it boasts superior performance compared to other electric VTOL fixed-wing drones in its class. Constructed entirely of aerospace-grade carbon fiber composite material, it offers high strength and lightweight construction, making it suitable for various applications requiring long operating times and rapid payload switching.
Product Overview
Why Choose VA-D2 Electric Fixed-Wing VTOL Drone?
Pure electric tail thrust vertical takeoff and landing fixed-wing mode
Allows for takeoff and landing without a runway, adapting to complex terrain and urban environments, while boasting long endurance, high speed, and strong wind resistance.
Modular Architecture Supporting Third-Party Payload, Radio, and Control Options
Significantly enhances mission flexibility, scalability, and system compatibility, enabling multi-purpose use and rapid iterative upgrades. This transforms the UAV from a single-function platform into a customizable aerial operational system.
Aerospace carbon fiber composite material, modular disassembly form
With high airframe strength, light weight, and reliable structure, it is suitable for various application scenarios such as long operation time and rapid switching of mission load. The use of a segmented packaging method for the fuselage and two-section wings greatly reduces the packaging size.
Fully Autonomous Precision Landing
Requires no human intervention, significantly improving operational safety and efficiency, and demonstrating irreplaceable advantages in complex environments and unmanned scenarios.
Aerodynamic Layout with a Lift-to-Drag Ratio of 16.2
Aerodynamic efficiency approaching that of commercial airliners (17-20), far exceeding conventional fixed-wing UAVs (typical value 10-15), represents a core technological breakthrough for achieving ultra-long endurance, low energy consumption, and high payload missions.
Important Parameters
| Overall Length | 1520mm (including motor) | Maximum Rate of Climb | 4m/s |
| Height | 356mm | Service Ceiling | 4500m |
| Wingspan | 2398mm | Wind Resistance Rating | Takeoff and landing level 5, flight level 6 |
| Airframe Material | Aerospace carbon fiber composite material | Minimum Turn Radius | 100m (Safe turning radius at high altitude not less than 120m) |
| Maximum Safe Takeoff Weight | 10kg | Operating Temperature | -20℃~45℃: Can fly in light rain (Rainfall ≤10mm/24h) |
| Maximum Payload | 2kg | Fixed-wing Wind Resistance | 13m/s (Level 6 wind) |
| Maximum Cruise Speed | 35m/s | Quadrome Wind Resistance | 10m/s (Level 5 wind) |
| Standard Cruise Speed | 19m/s | Packaging Dimensions | 1580*400*440 mm |
| Flight Time | 3hours @ 2kg | Packaging Weight | 22kg |
| Maximum Range | 300km | Aircraft Protection Rating | IPX4 |
Solution
Smart City
With the advantages of drones such as flexibility, high efficiency, and intelligent identification, cities can be monitored, traffic managed, and public safety ensured in a comprehensive and timely manner
Surveillance & Reconnaissance
Quickly take off to gain a global view, identify congestion points, accident sites and illegal parking, and automatically patrol pollution sources and water environment to conduct ecological assessments
Flight Introduction
♦Vertical Takeoff and Landing Phase
After startup, the rotors on both sides of the fuselage and at the tail accelerate synchronously, generating powerful lift that instantly lifts the fuselage off the ground.
Thanks to its precise flight control system, it can smoothly complete vertical takeoff and landing in confined spaces, without relying on a runway, adapting to various complex operating environments.
♦Transition Flight Phase
Once the drone reaches the preset altitude, the rotors gradually adjust their attitude, and the fuselage smoothly transitions to fixed-wing flight mode.
The tail propeller begins to generate power, and the drone, like a gliding bird, smoothly enters its cruise route. During flight, the fuselage maintains stable attitude and exhibits excellent wind resistance, easily coping with changes in airflow.
♦Cruise Flight Phase
After entering cruise mode, the D2 drone relies on its high-aspect-ratio wings to provide ample lift, combined with an efficient power system, to maintain stable speed and altitude.
The application of aerospace-grade carbon fiber composite materials throughout the fuselage ensures strength while making it lighter, further improving endurance and flight efficiency.
♦ Landing Phase
As the drone approaches the end point or landing point, it plans its landing route in advance, smoothly switches from fixed-wing mode back to vertical take-off and landing mode, and the rotors provide vertical lift again.
It accurately aligns with the landing point and descends slowly until it lands smoothly. The whole process is smooth and natural, demonstrating extremely high control and precision.
Accessories Details
Electro-optical Pod
Thermal Imaging Camera
Resolution 640×512
Pixel count 12µm
Focal length 35mm
Long-zoom Camera
40x optical zoom
Focal length 4.25~170mm
5.13W pixels
Rangefinding Camera
Range: 20m~3000m
Range accuracy: ±1m
Range frequency: 1~10 Hz
40x Tri-Light AI Tracking Pod, Multi-Target Tracking, Recognition, Positioning System
Pod Parameters
| Visible light | Thermal imaging | Multi-target tracking | |||
| Band | 0.4μm- 0.9μm | Band | 8μm – 14μm | Target Type | People, vehicles, ships, airplanes |
| Resolution | 1920×1080 | Resolution | 640×512 | Recall | ≥90% |
| Focal Length | f=4.25mm-170mm | Focal Length | 35mm/F1.0 | Precision | ≥80% |
| Horizontal Field of View | 62.13°- 1.73° | Field of View | 12.4°× 9.9° | Minimum Target Size | 32×32@1080P |
| Optical Zoom | 40 times | Focal Length | Support | Number of Tracked Targets | ≥20 |
Dual-screen Ground Station
The entire unit is made of aluminum alloy and features silicone anti-slip texture and eight anti-collision corners for more comprehensive protection. All external interfaces are dustproof and waterproof, ensuring safe and reliable operation.
Ground Station Parameters
| Dimensions | 416*330*100 mm | System | Windows 10/Linux |
| Weight | 10 kg | CPU | Intel i7-11 Processor |
| Working Time | 4-6 h | Graphics Card | Intel Iris Xe |
| Operating Temperature | -10 – 60℃ | Screen | 2 *15.6-inch Screens, 1920*1080 Resolution |
| Battery | 266 WH | Touchscreen | 10-point Touchscreen |
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Professional Technical Support
We are committed to ensuring every customer receives timely and professional technical support. Our engineers can provide remote product installation guidance, software updates, and drone flight technical support. Customers can also arrange for in-person training at our factory.
Customizable for diverse application scenarios
Complete drone flight training
Online support from a team of professional after-sales engineers
Comprehensive IT documentation support
Regional distributor and partner support
Cooperation Process
Inquiry & Quotation
Check Buyer Information
Sign Contract
Arrange Deposit
Apply for Export License
Produce & Testing
Balance Payment
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Receiving & Training
After-sales
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