| Customization: | Available |
|---|---|
| Application: | Deserts, Oceans, Airport etc. |
| Infrared: | Lwir 640*512 |
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The unmanned aerial vehicle (UAV) optical detection radar system is designed for detecting "low, slow, small" targets such as drones, birds, and airborne objects. Using electro-optical detectors mounted on a precision turntable, it completes a 360° omnidirectional search and detection to discover targets, outputting information such as target identification and position. The system also performs automatic tracking and measurement of selected targets, providing precise location information. The system is equipped with a scanning-type long-wave non-cooled infrared thermal imager, visible light camera, laser rangefinder, and servo turntable. It can output panoramic infrared images, gaze-tracking visible light images, and provide information on target azimuth, elevation, and distance. The system is also equipped with an AI-based image processor, enabling target search and detection, tracking and recognition, and panoramic image display.
1. The system performs omnidirectional rapid search, providing alarms and panoramic image displays for "low, slow, small" targets as well as ground and sea surface targets.
2. Automatically track, identify, and measure a detected target.
3. Display the situation of the monitored area in real time, offering a panoramic view, localized zoom-in view, and target tracking and identification images.
4. Multi-layer defense zone setup functionality, allowing the defense area to be divided into core zones, warning zones, expansion zones, etc., with adjustable zone sizes.
5. GIS-based defense zone situation control and target trajectory information display capabilities.
6. It shows target identification information, target trajectories, multi-source fusion data, equipment deployment locations, monitoring ranges, and equipment status information.The system supports target classification and recognition, using deep learning algorithms to automatically identify target attributes.
7. Built-in self-test (BIT) function, enabling status and fault detection of all replaceable units
| System Performance | ||
| Detect | Search and Detect Range | Height≤1000m;Distance≥ 2000m |
| Detect Range DJI Phantom | IR≥2km | |
| EO≥5km | ||
| Laser Rangefinder≥2km(optional) | ||
| Detect Range airborne objects and birds | IR≥500m | |
| EO≥700m | ||
| Search | Search Range | Azimuth Angle:N×360° |
| Elevation Angle:-10°to+70°(0°=horizonta) | ||
| Speed | ≥3s/rotation | |
| Measuring Accuracy | Azimuth:≤0.5° , Elevation≤0.5° | |
| Search Target Detection Accuracy | ≤±1 pixel | |
| Multi-Target Detection Capability | ≥30 targets | |
| Recognition and Tracking |
Tracking Measurement Accuracy | Azimuth:≤0.05°,Elevation:≤0.05° |
| Tracking Precision | ≤±1 piel | |
| Anti-Jamming Tracking Time | ≥3s | |
| Recognition Probability | ≥90% | |
| Physical Characteristics | Weight | ≤35kg(main unit) |
| Size | Φ360mm×520mm | |
Environmental Adaptability |
OperatingTemperature | -20C-+55ºC |
| Storage Temperature | -25ºC-+60ºC | |
| Protection Level | IP66 | |
| Power Interface | DC28V | |
| Interface | Electrical Interface | RS422,RS485,SDI |
| Communication Interface | Gigabit Ethemet RJ45 | |
| Detect Performance | ||
| IR Camera | Resolution | 640×512 |
| Spectral Range | 8-14um | |
| Focal Length | 60mm/100mm | |
| Tracking FOV | 4×3.3°-73×5.9 | |
| Panoramic FOV | 4×3.3°/7.3°×5.9° | |
| Low Light EO Camera |
Resolution | 1920×1080 |
| Wavelength | 400-1100nm | |
| Min llumination | 0.001 lux(F1.5) | |
| Focal Length | 10-550mm;55×optical zoom,16×digital zoom | |
| FOV | 0.6°×0.3°-31°×17.8° | |
| Control | Motorized/zoom | |
| Image Defog | Optical/Electric | |
| Laser Rangefinder (option) |
Wavelength | 1540nm |
| Max range | ≥2km | |
| Accuracy | Im(RMS) | |
| Beam Divergence Angle | 0.6 mrad | |
| Range Frequency | 1Hz-5Hz adjustable | |
| Eye Safety | Class1 | |
| Tumtable Performance | |
| Azimuth Angle | 0-360°,unimited rotation |
| Elevation Angle | -10°-+85° |
| Azimuth Speed | 0.01°-180°/s |
| HlevationSpeed | 0.01°-100°/s |
| Angular Acceleration | ≥60/s² |
| Azimuth Speed Stability | <0.1% |
| Angle Measurement Accuracy | ≤0.01° |
Xi'an Zhongke Lead IR-Tech Co., Ltd established in 2015, is a Research type enteprise based on intelligent electro-optical equipment and infrared thermal imaging technology, incubated by Xi'an Institute of Optics and Precision Mechanics of China Academy of Sciences.
Lead IR-Tech has three core centers: Photoelectric equipment integration, precision optical processing, and specialized lens calibration. They are equipped with over 400 advanced devices, including CNC polishing machines, photoelectric, coordinate measuring machines, interferometers, and photoelectric system testing systems. This enables LEAD IR-TECH to achieve the full process of design, processing, integration, and testing of photoelectric products.
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