Factory Wide Frequency Range 50W 550M Portable RF Power Amplifier Module Anti PFV Drone Jammer Device
Factory Wide Frequency Range 800M 100W Broadband Wireless Drone Signal Jammer Module for Anti FPV Drone Device
This FPV signal jammer module is the core component of signal jammers. And it can be installed into drone jammer backpacks, portable&stationary drone jammers, vehicle-mounted drone signal jammers, etc.
With this module, you can customize the signal jammer’s frequency band and output power to suit your individual needs.
With the increasing misuse of drones by unqualified operators, there are growing concerns over safety and security. To address these risks, our modules serve as an essential tool for maintaining order and preventing unauthorized drone activity.
Our Modules are highly praised for its stability and efficiency, receiving positive feedback from customers. We also offer comprehensive technical support and excellent after-sales service, including equipment installation, commissioning, use training, etc. And all products enjoy a 1-year warranty and lifetime maintenance service.
How does the FPV jammer module work?
First, we need to detect the target frequencies; then we adjust the module to those bands, including WIFI, GPS, cellular, and radio frequencies.
Then the module will emit higher-power signals to match or overlap the target signals.
Finally, the target devices lose their function.
Components of FPV Signal Jammer Module
1. They include both omnidirectional and directional antennas. And they send out jamming signals to block the targeted frequencies.
2. Signal Generator: This tool creates jamming signals that interfere with the target signal.
3. Power Amplifier: Amplifies the signal generated by the signal generator so that it is strong enough to block the target signals.
4. Control circuit: This circuit allows the operator to configure settings and monitor performance.
FAQs
1.What's the difference between FPV and UAV?
FPV (First Person View) refers to the real-time transmission of images captured by an onboard camera of a drone, allowing the operator to control the drone's flight as if they were personally on the scene. This method of control enables the operator to directly see the view from the drone's perspective, thereby facilitating more precise control.
A UAV (Unmanned Aerial Vehicle) is an unmanned aircraft that is operated using radio remote control equipment and self-contained programmed control devices. It is commonly referred to as a drone and is an aircraft capable of autonomous or remote-controlled flight in the air.
FPV is a technology and methodology focused on providing operators with a first-person perspective for enhanced control and immersion, while UAVs are unmanned aircraft capable of performing a wide range of tasks and can incorporate FPV technology among others.
2.What's the difference between FPV and UAV jammer modules?
All the modules can defend against drones, but you can choose more frequencies from the FPV jammer module. There are anti FPV/UAV module frequencies. And we can also support customizable modules.
- FPV jammer module frequencies:
| 433M:428-438MHz | 900M:840-928MHz | 1.2G:1150-1250MHz |
| 1.4G:1450-1550MHz | 1.5G:1560-1620MHz | 2.4G:2400-2485 |
| 5.2G:5150-5350MHz | 5.8G:5725-5850MHz | 900MHZ:850-1100MHZ |
| 250M:200-300MHZ | 350M:300-400MHZ 450M | 450M:400-500MHZ |
| 550MHZ:500-600MHZ | 700MHZ:600-850MHZ | 800MHZ:700-900MHZ |
- UAV jammer module frequencies:
| 433M:428-438MHz | 900M:840-928MHz | 1.2G:1150-1250MHz |
| 1.4G:1450-1550MHz | 1.5G:1560-1620MHz | 2.4G:2400-2485 |
| 5.2G:5150-5350MHz | 5.8G:5725-5850MHz |
3. What's the difference between these frequencies? the pros and cons between drone frequencies?
| Frequency Range | Common use | Pros | Cons |
|---|---|---|---|
| 2.4 GHz | Most consumer and commercial drones, indoor flights, medium-range tasks. | Wide compatibility; high data rate; ideal for real-time video; widely available. | Susceptible to interference (Wi-Fi, Bluetooth); weaker penetration; shorter range. |
| 5.2G | High-performance drones; High-speed data transmission; HD video streaming | High data rate; Less crowded than 2.4 GHz | Shorter range; Poor penetration through obstacles |
| 5.8 GHz | HD video transmission, FPV racing drones, low-interference areas, short-range tasks. | Higher bandwidth; less interference (vs. 2.4 GHz); supports HD video. | Poorer penetration; shorter range; requires advanced hardware. |
| 433 MHz | Some DIY and industrial drones | Strong penetration; long range (kilometers); good interference resistance. | Low data rate; regulated in some countries (requires license); vulnerable to illegal devices. |
| 900 MHz | Long-range industrial and agricultural drones | Long-range coverage (rural/industrial); strong penetration; interference-resistant. | Limited bandwidth; restricted in some regions (e.g., Europe); fewer device options. |
| 1.2-1.3 GHz | Professional FPV, medium-range aerial photography. | Balanced penetration and range; suitable for FPV and mid-range control. | Requires licensing; potential conflicts with aviation systems; niche usage. |
| 1.4GHz | Military drones;Surveillance UAVs; Military and defense systems;Secure communication | Less crowded spectrum; Good for specialized applications | Limited device compatibility; Narrow usage scope |
| 1.5G | High-altitude drones; Mapping UAVs; Satellite communication; GPS and navigation systems | Stable signal; Good for long-distance communication | Limited bandwidth; Less common for consumer devices |
| GPS L1 L2 |
Navigation and positioning
|
Essential for autonomous flight and mapping | Easily jammed, critical for drone operations |