Brief: Discover the DD-R10 X Band 10km Anti Drone System, a cutting-edge low-altitude surveillance radar designed for effective detection and tracking of low-flying targets like drones, birds, and cruise missiles. Featuring advanced digital beamforming technology, high accuracy, and strong anti-interference capabilities, this radar ensures reliable performance in complex environments. Ideal for air traffic control, border defense, and airport security.
Related Product Features:
Wide coverage with azimuth 360° and pitch up to +65° for comprehensive surveillance.
High data refresh rate of 1s/2s/3s enables effective tracking of maneuvering targets up to 150m/s.
Advanced adaptive clutter suppression reduces false alarms and enhances detection in various environments.
Portable design with low power consumption, allowing single-person setup and operation.
Small near-distance blind zone ensures real-time monitoring of targets close to the radar.
Low interception rate due to continuous wave transmission and uniform spectrum distribution.
Excellent tracking performance with a maximum space scan rate of 1Hz and advanced algorithms.
Easy integration with other sensing devices for a complete anti-drone system.
Faqs:
What types of targets can the DD-R10 radar detect?
The DD-R10 radar can detect and track low-flying aircraft, drones, birds, cruise missiles, and even ground or surface targets.
What is the maximum detection range of the DD-R10 radar?
The radar can detect small rotary-wing UAVs up to 10km, medium-sized fixed-wing UAVs up to 20km, and helicopters or vehicles up to 20km.
How does the DD-R10 radar perform in complex environments?
With advanced digital beamforming and adaptive clutter suppression, the radar operates stably in complex environments, effectively reducing interference and false alarms.
Is the DD-R10 radar easy to set up and operate?
Yes, the radar is designed for portability and ease of use, with a low-power continuous wave system and intuitive human-machine interface for simple configuration and operation.