Our story on Drone and UVA:
Performance features
The PD-2600 UAV platform is a composite wing vertical take-off and landing UAV independently developed by our company. It adopts a composite wing overall layout of fixed-wing combined with four-rotor wings, which solves the problem of vertical take-off and landing of fixed-wing UAVs in a simple and reliable way. It has the characteristics of long flight time, high speed and long distance of fixed-wing UAVs and the function of vertical take-off and landing of rotary-wing UAVs. The vertical take-off and landing mode greatly enhances the environmental adaptability of the modified UAV platform. The UAV platform can operate smoothly in complex terrains such as mountainous areas, hills, jungles and areas with dense buildings, greatly expanding the application scope of UAVs, and is an ideal choice for industrial-grade UAVs.
The PD-2600 UAV platform is equipped with an industrial-grade vertical take-off and landing fixed-wing flight control and navigation system and professional aerial photography, aerial survey and inspection ground station software, which can ensure that the UAV can fly autonomously throughout the entire process, and can complete autonomous take-off, flight state conversion, autonomous cruising, autonomous landing and other flight stages without operator intervention. At the same time, it supports automatic route planning of 1,000 waypoints and emergency landing plans for 100 waypoints.
a) The UAV platform has the following characteristics and advantages:
b) a) Practical and efficient: It has the characteristics of long flight time, high speed, long distance and large payload of fixed-wing UAV;
c) b) Vertical take-off and landing: It has the take-off and landing method of rotary-wing UAV, which greatly reduces the take-off and landing site and airspace requirements;
d) c) Low cost of use: No complex and bulky launch and recovery equipment is required, and no additional recovery sensors are required;
e) d) Easy to operate: It integrates a special flight control and navigation system, and the whole process is fully autonomous. The operator only needs to send the flight plan, and no professional training and operating experience are required;
f) Compact system: No complex auxiliary equipment is required, and transportation, deployment, maintenance and withdrawal are simple.
Table 1 Technical Parameters
| Performance/Indicators | Parameter |
| Body length | 1.2m |
| Wingspan | 2.6m |
| Maximum take-off weight | 20kg |
| Maximum payload | 2-5kg |
| Battery life | 2h |
| Flight radius | 100-150km |
| Maximum control distance | Remote controller (manual control, used for auxiliary control of unexpected situations during landing): 1km Ground station control (depending on the data transmission distance): 4G standard 100km |
| Maximum speed | 100-150km/h |
| Cruising speed | 100-120km/h |
| Service Ceiling | 5000m |
| Maximum wind resistance | 16m/s (Wind Force 7) Fixed-wing stage |
| Usage Environment | -10℃+45℃; light rainproof |
| Vertical lift/lowering power battery | 16000mAh-12S lithium battery |
| Take-off and landing method | Vertical Take-Off and Landing |
Pod gimbal Z-2Mini
Intelligent 4K full-color night vision micro dual-light pod
Main Features
⚫ Integrates AI-ISP full-color night vision 4K camera and thermal imaging camera to innovate all-weather operation experience.
⚫ With AI multi-target detection and tracking function, it can intelligently identify pedestrians and vehicles in the captured image, and continuously lock and track any of the targets.
⚫ Micro non-orthogonal three-axis mechanical stabilization configuration, weighing as low as 110 grams.
⚫ Supports network, serial port and S.BUS control, compatible with private protocols and MAVLink protocols, convenient for secondary development. Supports image transmission via network and HDMI.
⚫ IMU temperature control and carrier inertial navigation data fusion, image stabilization accuracy can reach ±0.01°, and the pod can still remain stable when the carrier is violently maneuvering.
⚫ Supports upright and inverted installation, and can be quickly installed on various carrier platforms for use.
⚫ With the Dragonfly display and control software, the screen can be displayed in real time on the computer without the need for docking protocol, and the pod can be controlled at the same time.
⚫ With the customized QGC software, all the functions of the pod can be realized with the open source flight control.
⚫ The screen supports the overlay of OSD information such as latitude, longitude, and altitude, and the photo supports writing the EXIF information of the shooting point coordinates.
⚫ 10~26.4VDC wide voltage input.
