The 30W Drone Signal Jammer Module is designed for effective management of unauthorized drone intrusions. It disrupts communication links between drones and their controllers, satellites, or other transmission sources by emitting targeted interference signals, ensuring security in protected areas.

Key Advantages:

• High Power Output: Features a 30W power output for extended and reliable interference coverage.
• Wide Bandwidth Coverage: Supports multiple frequency bands (420MHz–5850MHz), compatible with diverse drone communication protocols.
• Flexible Scheme Options: Offers LoRa LDMOS, LDMOS, GaN, and LoRa GaN solutions to meet varying performance, integration, and application needs.
• Compact Form Factor: Available in compact dimensions (e.g., 100mm×34mm×15mm, 128mm×35mm×19mm) for easy integration into security systems.

Applicable Scenarios: Airport no-fly zones, government premises, military installations, large-scale event venues (concerts, exhibitions), correctional facilities, and other high-security areas.

A: The module supports mainstream drone communication frequency bands (e.g., 400MHz, 800MHz, 2.4GHz, 5.8GHz). LoRa-specific schemes (LoRa LDMOS, LoRa GaN) offer enhanced interference for drones using LoRa communication. Custom frequency options are also available to match specific drone systems.

A: - LoRa LDMOS / LoRa GaN: Optimized for jamming drones with LoRa-based communication (targeted interference).

• LDMOS: Delivers stable performance at a balanced cost (ideal for general drone jamming).
• GaN: Offers high efficiency and power density (suited for compact, high-efficiency applications).
  Choose based on the target drone’s communication type, project budget, and performance needs.

A: Yes. Frequency customization is available (see “Customized Frequency” in “Frequency Range” remark). For bulk orders, customization of voltage (beyond 28–32V), form factor, or connectors can also be discussed.

A: Yes. The operating temperature range is -10°C to +55°C, and it undergoes rigorous high-low temperature testing (gain fluctuation ≤±1.5dB, power fluctuation ≤±1dB), ensuring reliability in most outdoor environments.

A: The module requires ≥3A@+28Vdc for power. The power cable uses “Red positive, Black negative” polarity. RF signals output via an SMA external screw base. Ensure correct power polarity and RF connector compatibility during installation.