February 10, 2026
In the current B2B electronic countermeasure market, the limitations of standalone jamming devices have become a critical bottleneck for field operations. Traditional portable jammers often rely on visual spotting, which is ineffective at night or in low-visibility conditions. The industry is rapidly pivoting toward Integrated Systems (Detection, Jamming, and Spoofing). By consolidating passive spectrum sensing with active suppression and GNSS spoofing, operators can achieve a closed-loop defense cycle: identifying threats before they are visible and neutralizing them without collateral signal interference.
The effectiveness of this backpack anti-drone system is defined by its rigorous hardware specifications and its ability to maintain consistency under high-load operational conditions:
Frequency Agility & Coverage: The system monitors and mitigates frequencies ranging from 400MHz to 6GHz. This includes the standard 2.4GHz and 5.8GHz telemetry bands, as well as critical navigation frequencies across GPS L1/L2, GLONASS, and BeiDou constellations.
Detection Precision: Utilizing passive radio frequency (RF) scanning, the device provides a detection radius of 2km to 3km (contingent on environmental noise floors). It operates with an omnidirectional antenna array, ensuring 360° coverage without the need for manual aiming.
Navigation Spoofing Logic: Unlike high-power barrages that simply "drown out" signals, the spoofing module generates low-power, high-precision simulated satellite signals at approximately -130dBm. This allows the operator to take control of the drone’s coordinate system, forcing a safe landing or redirection to a designated "No-Fly Zone."
Thermal Management & Durability: To ensure zero frequency drift during extended operations, the unit is housed in a high-thermal-conductivity Aluminum Alloy chassis. It features an IP67-rated exterior and a forced-air cooling system that maintains stable output within an ambient temperature range of -20°C to +55°C.
The integration of a digital status interface transforms the device from a "blind" transmitter into a tactical intelligence tool. In complex industrial or border environments, the Real-Time Monitoring capability allows operators to observe:
Spectrum Background Noise: Identifying localized interference to adjust detection sensitivity.
Target Signal Signature: Confirming the drone model and frequency to select the most efficient countermeasure.
Module Health Parameters: Monitoring the current, voltage, and temperature of the power amplifiers (PA) to prevent hardware failure during critical missions.
The backpack-integrated system represents an engineering balance between high-gain performance and ergonomic portability. By providing parameterized feedback and multi-layered defense (Detect-Jam-Spoof), it addresses the "last mile" of low-altitude security where vehicle-mounted systems cannot reach. For B2B stakeholders in critical infrastructure and public safety, this integrated approach ensures higher mission success rates and lower risks of uncontrolled drone crashes.
