1. Precise Localization and Interference of Enemy Navigation
Systems
Utilizing high-precision signal detection and analysis
technologies, this system is capable of precisely locating and
interfering with enemy navigation systems. Its core technology lies
in the real-time capture of navigation signals emitted by enemy
drones, followed by their effective jamming or spoofing. This
action compels enemy drones to lose their original navigation
capabilities, causing them to deviate from their flight paths or
lose control entirely. Through this technology, the system
establishes an effective deterrent against enemy drones, providing
comprehensive security protection for the designated defense zone.
2. Product Specifications
| Parameter | Description |
|---|
| Detection Frequency Range: | 300 MHz – 6 GHz |
| Key Detection Bands: | 400M/500M/600M/700M/800M/900M/1.1G/1.2G/1.4G/1.5G/2.4G/3.3G/5.2G/5.8G
(Customizable) |
| Detection Range: | 1 – 8 km |
| Jamming Bands: | 900M / 1.5G / 2.4G / 5.2G / 5.8G |
| Jamming Range: | > 1 – 2 km |
| Response Time: | ≤ 3 seconds |
| Product Dimensions: | 580 × 580 × 320 mm |
| Package Dimensions: | 720 × 720 × 455 mm |
| Product Weight: | 15 kg |
| Total Package Weight: | 45 kg |
3. Vehicle-Mounted and Fixed-Site Installation
This system supports flexible installation methods; it can be
deployed as a vehicle-mounted system on various mobile platforms or
installed as a fixed-site device within a designated defense zone.
The vehicle-mounted configuration is adaptable to diverse
battlefield environments, providing immediate mobility and rapid
response capabilities whenever needed. Conversely, the fixed-site
installation establishes a long-term, stable protective barrier
over a specific area, thereby ensuring the security of critical
infrastructure.
4. High-Precision Navigation Spoofing Technology
Through the application of high-precision navigation spoofing
technology, this system effectively deceives enemy signal reception
equipment. This technology operates by generating fabricated
navigation signals, compelling enemy drones to erroneously receive
and track these false signals, thereby achieving the objectives of
interference and deception. The deceptive signals possess extremely
high precision, enabling the effective control of enemy drones
within a very short timeframe—even to the extent of diverting them
into misleading zones or causing them to completely lose their
positioning capabilities.
5. High-Efficiency Thermal Design
To ensure the system's stability and efficient operation during
prolonged use, the device incorporates a high-efficiency thermal
design. Its cooling system combines both active and passive cooling
technologies to effectively lower system temperatures, thereby
preventing performance degradation or malfunctions caused by
overheating. Whether operating in high-temperature or
low-temperature environments, the device maintains excellent
operational status, ensuring continuous, all-weather combat
readiness.
