10W 5.8G Broadband RF Anti Drone Module Description
This broadband anti drone module is easy to integrate into main jammers, emitting powerful radio frequencies to disrupt drones' communication and navigation signals. Prevent the drones from sending control or navigation signals and reaching their final destination, forcing them to land emergently and navigate back to their origin.
Frequency: 433/900M 1.2/1.4/1.5/2.4/5.2/5.8G
Maximum jamming distance: 1500M
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Interface Definitions
Our Advantages
Product Applications
FAQs
1. What are the potential applications of the RF jamming module?
Our jamming module has a maximum 6km jamming distance, ideal for use at airports, military facilities, and other high-security locations where unauthorized drone access poses a risk.
2. Is it legal to use a broadband anti drone module?
In many regions, the jamming devices are regulated or even prohibited, due to the potential interference with legitimate communications systems. It's essential to check local regulations and seek legal advice before purchasing or operating a jamming device.
3. How to set up the anti-UAV module?
Pre-Installation Preparations
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Check Required Components: Ensure all necessary components are available, including the jammer module, main unit housing, power cables, and connection interfaces.
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Power Off Device: Confirm the device is powered off, and fully disconnected from any electrical sources to prevent hazards during installation.
Module Installation
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Insert Module into Main Device: Place the jammer module into the designated main unit. Most units have specific slots or connectors for simple module installation.
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Secure the Module: Attach the module securely, ensuring that the connection ports between the module and main device are properly aligned.
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Position Antennas: For modules with antennas, make sure they are installed correctly, and oriented for optimal interference coverage.
Power Connection
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Connect Power Supply: Connect the module to the main unit’s power supply, ensuring the voltage and current meet the module’s specifications.
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Check Power System Load: If using multiple modules or peripherals, confirm that the power system can support the total load.
Control Interface Setup
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Establish Control Connections: For remote control or configuration, connect the module to the control system via USB, serial ports, or wireless interfaces.
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Configure Settings: Adjust interference frequencies and power levels to optimize module performance and ensure seamless functionality.
System Testing and Calibration
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Power On and Test: After installation, power on the system and perform an initial test to confirm the module is working correctly.
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Conduct Interference Tests: Test the module’s ability to disrupt target frequencies and evaluate signal coverage in real-world conditions.
Final Inspection and Quality Check
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Secure All Components: Verify that all components are securely fastened and there are no loose connections or defects.
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Review Performance: Perform a final performance check to ensure the module integrates seamlessly with the main jammer system, providing stable and reliable interference.
4. What should be considered when installing the broadband anti-drone module?
Power Supply:
Ensure Compatibility: Verify that the power supply matches the module's voltage and current requirements. Using the incorrect power supply can damage the module or prevent it from functioning. Always check the technical specifications before connecting the device.
Secure Connections:
Tighten All Connections: Ensure that all connections between the jammer module and the main unit are securely fastened. Loose or improperly connected cables can result in unstable performance, signal loss, or system failure. Double-check that all connectors are tightly secured to ensure optimal functionality.
Proper Orientation of Antennas:
Maximize Coverage: Confirm the antennas are installed and oriented correctly. Proper antenna positioning is crucial for maximizing interference coverage and ensuring the module performs effectively in the intended direction.
Monitor and Troubleshoot:
Continuous Performance Check: After installation, monitor the system to ensure that it operates smoothly. Regularly check for signal instability, overheating, or any other potential issues that might impact the system's long-term reliability.
| Item | Parameter |
| Type | 10W-RF-Module |
| Place of Origin | Guangdong, China |
| Brand Name | DescBoot |
| Supplier Type | OEM/ODM |
| Frequency Range | 433M:428-438 900M:840-928 1.2G:1150-1250 1.4G:1450-1550 1.5G:1560-1620 2.4G:2400-2485 5.2G:5150-5350 5.8G:5725-5850 |
| Output Impedance | 50 ohms |
| Spurious & Harmonic | No significant spurious or 2/3 harmonic signals outside the operating band |
| Output Power Stability | ≤1.5 dB |
| Sweep Signal Flatness | ≤1.5 dB |
| RX Power | ≥10W (40dBm) |
| Gain | ≥40db |
| Supply Voltage | DC: 24V - 28V |
| Interface Mode | OUT-SMA |
| Output Current | 1.0A-1.5A |
| Static Current | ≤0.6A |
| Interfaces | Power supply interface |
| CTRL transmission control interface | |
| power detection interface | |
| Power Detection Output Voltage | 5±0.5V |
| Scanning Frequency | ≥200K |
| Weight | 90g |
| Module Size | 88X43X13MM |
How to connect the module to the power source
- Plug in a 24V output wire to it
- Provide it with another 5V high-level voltage
- Having connected these two wires, proceed to install the antenna. Tighten the antenna
- In the process of operation, the wires must be connected
- Then supply it with both 24V and 5V simultaneously to generate power for transmission
Precautions
Please ensure the RF module is equipped with the necessary heat dissipation accessory the well-connected antenna and the suitable power supply before its use.