Designed Specifically to Counter Remote Control Jamming
This system is specifically designed to counter remotely controlled
drones. Utilizing broadband, high-power electromagnetic
interference technology, it effectively blocks the remote control
link signals of unauthorized drones, causing them to lose control,
return to home, or make an emergency landing. Its DC24V power
supply design is suitable for vehicle-mounted, fixed, and portable
deployment environments, supporting rapid start-up and 24/7
uninterrupted operation. The system boasts a 5km wide-area coverage
capability, enabling the creation of secure isolation zones in
critical areas, major events, and sensitive facilities, achieving
rapid suppression and precise protection against drone threats.
Product Parameter Table
| Parameter Item | Content |
|---|
| Working Distance | ≥5 km coverage area |
| Working Voltage | DC24V |
| Interference Frequency Band | 2.4G/5.8G/L1/L2 and other multiple frequency bands |
| Working Mode | Switchable directional/omnidirectional |
| Startup Time | ≤3 seconds |
| Antenna Type | Modular array structure |
| Interference Power | High power output adjustable |
| GPS Function | Supports both spoofing and shielding modes |
| Usage Scenarios | Vehicle-mounted, fixed, and mobile deployment |
| Working Time | Supports continuous 24-hour operation |
Modular Antenna Array Design
The system adopts a modular antenna array architecture, allowing
users to select directional or omnidirectional jamming modes
according to mission requirements. The directional mode is used for
long-range precision suppression, enhancing the effectiveness of
striking drone threats from specific directions; the
omnidirectional mode is suitable for area surveillance and
multi-target response, covering a 360° range for wide-area security
protection. This design ensures the equipment has high flexibility
and adaptability in complex tactical environments.
Dual Protection: GPS Spoofing + Remote Control Link Shielding
In addition to providing remote control signal interference, it
also supports GPS spoofing and positioning system suppression,
enabling a dual attack on the drone's navigation and control
system. When a drone attempts to fly using satellite positioning,
the spoofing module outputs a false GPS signal, causing it to
deviate from its flight path or be forced to land, thereby
improving the overall reliability and effectiveness of the defense.
Modular Circuit Design for Easy Maintenance
The modular circuit architecture facilitates rapid repair and
upgrades. Users can quickly adjust the output power, frequency band
modules, and circuit board components according to their needs
without complex disassembly, significantly reducing equipment
maintenance cycles and costs, and improving the system's
sustainable deployment capabilities.
