300MHz-6G backpack-mounted 3km drone signal detection and strike

The 300MHz-6G backpack-mounted 3km UAV signal detection and strike equipment features an ergonomic backpack design. Its compact layout and reasonable weight distribution allow for easy carrying during various tasks such as patrol, security, emergency response, and field operations. The equipment integrates high-performance detection and jamming modules, enabling rapid deployment without complex setups. It is particularly suitable for complex terrain, temporary deployments, and mobile combat environments, truly achieving rapid portability and efficient operation for individual soldiers, significantly improving on-site response capabilities.

The device supports touchscreen control via a smartwatch. Users can view the device status, detected target information, and operating mode in real time through the wearable terminal, and quickly complete operations such as detection, attack, and mode switching. The touch interface is simple and intuitive with a fast response time, allowing users to complete various functions without frequent mainframe operation. This significantly improves individual soldier operational efficiency and stealth, providing a more flexible and convenient control experience for mobile duty and rapid response.

The system has a built-in data storage function that automatically records historical data such as UAV detection time, frequency band information, signal characteristics, and response results. It supports categorized querying and export analysis. Through long-term accumulated detection records, it helps managers analyze UAV activity patterns, optimize defense strategies, and develop early warning mechanisms, providing reliable data support for security work and improving overall UAV prevention and control capabilities and decision-making efficiency.

The equipment adopts a modular architecture design, with each functional unit independently integrated. Modules such as the detection module, jamming module, power module, and communication control module can be quickly disassembled, replaced, and upgraded. This design not only reduces maintenance difficulty and shortens fault repair time but also facilitates flexible configuration of functions according to different application needs, enabling continuous equipment upgrades and expansions, effectively reducing later maintenance costs, and improving the overall reliability and lifespan of the system.