low-altitude target surveillance radar
FSTH-LD01
Production Introduction
The radar employs advanced one-dimensional Digital Beamforming (DBF) technology with simultaneous multi-beam capability. It is capable of detecting various types of aerial vehicles including multi-rotor drones, fixed-wing drones, UAVs (Unmanned Aerial Vehicles), loitering munitions, and swarms. The radar provides real-time acquisition of target position (distance, azimuth, elevation, longitude, latitude, altitude), motion dynamics (speed), echo intensity, Radar Cross Section (RCS), target type, and other multidimensional information.
The radar can transmit system status and target trajectory information via predefined output interface protocols to electro-optical systems, command and control centers, and other entities. This enables guidance for laser weapons, microwave weapons, and anti-aircraft guns. Additionally, the product includes reserved input interface protocols for remote control and to facilitate radar networking.
Main Parameter
NO. | Name | Parameter |
1 | System configuration | Digital beamforming |
2 |
Beam scanning mode | Elevation:simultaneous multi-beam azimuth mechanical scanning |
3 | Operating frequency band | Ku |
4 | Detection capability/power | ≥ 5km (RCS=0.01㎡) |
5 | Distance blind zone | ≤ 150m |
6 | Azimuth coverage range | 360° |
7 | Elevation coverage range | ≥60° |
8 | Radial speed range | 1m/s ~ 150m/s |
9 | Distance measurement accuracy | ≤ 7.5m |
10 | Azimuth measurement accuracy | ≤ 0.3° |
11 | Elevation measurement accuracy | ≤ 0.5° |
12 | Data rate | 2s |
13 | Number of targets detected simultaneously | ≥ 500 |
low-altitude target surveillance radar
FSTH-LD01
Production Introduction
The radar employs advanced one-dimensional Digital Beamforming (DBF) technology with simultaneous multi-beam capability. It is capable of detecting various types of aerial vehicles including multi-rotor drones, fixed-wing drones, UAVs (Unmanned Aerial Vehicles), loitering munitions, and swarms. The radar provides real-time acquisition of target position (distance, azimuth, elevation, longitude, latitude, altitude), motion dynamics (speed), echo intensity, Radar Cross Section (RCS), target type, and other multidimensional information.
The radar can transmit system status and target trajectory information via predefined output interface protocols to electro-optical systems, command and control centers, and other entities. This enables guidance for laser weapons, microwave weapons, and anti-aircraft guns. Additionally, the product includes reserved input interface protocols for remote control and to facilitate radar networking.
Main Parameter
NO. | Name | Parameter |
1 | System configuration | Digital beamforming |
2 |
Beam scanning mode | Elevation:simultaneous multi-beam azimuth mechanical scanning |
3 | Operating frequency band | Ku |
4 | Detection capability/power | ≥ 5km (RCS=0.01㎡) |
5 | Distance blind zone | ≤ 150m |
6 | Azimuth coverage range | 360° |
7 | Elevation coverage range | ≥60° |
8 | Radial speed range | 1m/s ~ 150m/s |
9 | Distance measurement accuracy | ≤ 7.5m |
10 | Azimuth measurement accuracy | ≤ 0.3° |
11 | Elevation measurement accuracy | ≤ 0.5° |
12 | Data rate | 2s |
13 | Number of targets detected simultaneously | ≥ 500 |