Low-altitude Surveillance Phased Array Radar
Descriptions of Low-altitude Surveillance Phased Array Radar
The product employs deep learning technology, exhibiting a reduced
reliance on signal-to-noise ratio. It effectively addresses the
challenge of detecting small targets in complex environments. It
endows the radar with adaptive capabilities to various terrain
environments, eliminating the need for parameter adjustments after
relocation; it can be powered on directly for searching, ensuring
user-friendly operation. Additionally, it breaks through
traditional radar methods in particular MTI+MTD, CFAR, and
conventional clutter map detection. It excels in high angular
accuracy (azimuth and elevation), extremely low false alarm rates,
stable trajectory tracking, and adaptability to the maneuvering
flight of targets in complex environ ments like urban areas. The
system can autonomously recognize rainy conditions, effectively
suppress meteorological clutter, and operate around the clock.
Features of Low-altitude Surveillance Phased Array Radar
- Precision Detection
- Stable Tracking
Industry Applications of Low-altitude Surveillance Phased Array Radar
- Security & Counter-terrorism in the Oil & Petrochemical
Industry
- Security & Counter-terrorism in the Power Industry
- Government & Security Agency
- Civil Aviation Airport & Logistics Base
- Large-Scale Event & Sport Competition
- Urban No-Fly Zone Airspace Security
- Business & Personal Privacy Protection
- More Industry Solutions
Specifications of Low-altitude Surveillance Phased Array Radar
Resolution | Azimuth: ≤2.8°; Elevation: ≤7.5°; Range: ≤17 m |
Accuracy | Azimuth: ≤ 0.5° (3σ); Elevation: ≤ 0.5° (3σ); Range: ≤ 8 m (3σ) |
Power Consumption | Radar Frontend ≤ 220 W Real-time data processing platform ≤ 200 |
Operating Temperature | -40℃ to 55℃ |
Weight | Radar Frontend ≤ 34 kg Real-time Data Processing Platform ≤ 15 kg |
Product Dimensions | Array ≤ 600 mm × 550 mm (including turntable) |
Ingress Protection Rating | IP65 |