FZX presents the 20W 1170-1280MHz anti drone module, a specialized solution for combating drone threats by targeting their GPS and WiFi frequencies. This module is at the heart of our anti-drone strategy, providing robust interference capabilities to safeguard against unauthorized drone activities.
In response to the escalating risks posed by unregulated drone activities, the 20W 1170-1280MHz Drone UAV GPS Jammer Module emerges as a critical tool in countering unauthorized drone operations. By targeting the fundamental GPS and WiFi frequencies relied upon by drones, this module plays an indispensable role in maintaining the integrity of airspace and ensuring enhanced security measures. With its proven stability and performance, this module is an essential resource in the fight against drone misuse and is supported by a team dedicated to delivering exceptional technical support and after-sales service to optimize the effectiveness of the drone jammer in safeguarding airspace environments.
Project | Index | Unit | Remark | ||
Frequency Range | 1170-1280 | MHz | Customers can customize the frequency | ||
Operating Voltage | 28 | V | 28-32V | ||
Maximum output power | 43±0.5 | dBm | 20W@≤1.8A | ||
Gain | 38±1 | dB | Peak-to-peak | ||
In-band fluctuations | ≤2 | dB | Peak-to-peak | ||
Spurious emissions | Within work zone | ≤-15dBm/1MHz | dBm |
Center frequency plus CW signal to maximum Output power time measurement |
|
Outside work zone | 9KHz~1GHz | No higher than normal noise floor clutter | dBm | ||
1G~12.75GHz | dBm | ||||
Output voltage standing wave ratio | ≤1.30 | Without power, standard network output -10dBm | |||
≤1.30 | Power Up, Dual Directional Coupler Test | ||||
High and low temperature test | Working temperature | -10~+55 | ℃ | Low temperature can start | |
Gain stability | ±1.5 @-40℃~+55℃ | dB | |||
Power stability | ±1 @-40℃~+55℃ | dB | |||
Power supply requirements | ≥2A@+28Vdc; | Continuous wave output 20W | |||
Power supply interface | Power cord red positive black negative | red positive black negative | |||
RF output connector | SMA | SMA external screw female seat | |||
Electric current | ≤1.8 | A | |||
Size | 25.6*111.7*17 | mm | |||
Weight | 0.1 | Kg |
The drone countermeasure anti drone module (Radio Frequency module) is designed to disrupt drones' communication and navigation systems by emitting targeted radio frequencies, hindering their normal functions. Integrated into drone countermeasure systems, these modules play a vital role in:
1. **Communication Disruption**: By transmitting on drone control frequencies, the anti drone module disrupts the communication link between the drone and its operator, potentially leading to control loss and safety procedure initiation.
2. **Navigation Interference**: Emitting interference signals affecting GPS reception, the anti drone module disrupts the drone's navigation system, causing inaccuracies in position and flight capabilities.
3. **Forced Landing or Return**: Through communication and navigation interference, the anti drone module can compel the drone to execute safety responses, such as prompt landing or return to the initial point.
4. **Prevention of Unauthorized Activities**: In sensitive areas or events, the anti drone module acts as a deterrent against illicit drone operations, preserving privacy and security.
5. **Protection of Critical Sites**: Deployment of anti drone modules around military bases, government facilities, airports, and critical infrastructure safeguards against unwanted drone incursions, minimizing security risks.
6. **Airspace Safety Assurance**: During public events or emergencies, the anti drone module ensures airspace safety by preventing drone interference with aerial operations or rescue missions.
In essence, the drone countermeasure anti drone module disrupts drone operations through controlled radio frequencies, enforcing safety measures, and protecting specific areas from potential drone-related hazards.