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80W Drone Jammer Module | GaN 1550–1620MHz Amplifier

Technology: GaN
Frequency Range: 1.5GHz
Connector Type: SMA Female
Output Power: 80W

80W drone jammer module with GaN technology, 1550–1620MHz band, built-in high-speed sweep source, VSWR ≤2.0, DC 24–29V, 12A. Compact 168.5×84.5×23mm, 0.55kg. Ideal for counter-UAV systems.

Technical Specifications

ParameterSpecificationNotes
Frequency range1550 – 1620 MHzGPS L1 / GNSS navigation band
Output power80 WTypical, continuous wave
Supply voltageDC 24 – 29 V28 V nominal recommended
Current draw12.0 AAt maximum output power
Modulation sourceBuilt‑in high‑speed sweepNo external generator needed
Analog scan speedContinuous sweptCovers full band rapidly
Input / output impedance50 ΩSMA female output connector
Protection LEDsVSWR fault indicatorAbsorptive circuit, visual alert
Operating temperature-20 °C to +65 °CDerate above 45 °C for continuous use
Dimensions (L×W×H)168.5 × 84.5 × 23 mmCompact, board‑mounted design
Weight0.55 kgLightweight for portable systems
Base materialGaN (Gallium Nitride)High‑efficiency semiconductor

Product Details

80W Drone Jammer Module | GaN 1550–1620MHz Amplifier

Reliable Counter‑UAV Power in a Compact Form

Consumer drones have become a persistent threat to secure perimeters, public gatherings, and no‑fly zones. When standard detection and warning systems are not enough, security teams need a decisive RF solution. The 80W drone jammer module delivers that decisive edge by targeting the exact navigation frequencies that most unmanned aerial vehicles depend on.

This 80W drone jammer module operates across the 1550–1620MHz spectrum—the primary band for GPS L1 and GNSS positioning signals. By saturating this critical link, it effectively strips drones of their position‑fixing capability, triggering automatic return‑to‑home routines or forced landings. Unlike lower‑power jammers that may be outmatched by modern receiver front‑ends, this unit outputs a solid 80 watts of clean, swept‑frequency energy.

The heart of the module is a Gallium Nitride (GaN) power amplifier. GaN offers five to ten times the power density of traditional silicon transistors, which means this device fits 80W of brute force into a package that weighs just 0.55 kg and measures 168.5×84.5×23 mm. For field operators, that translates into portable, man‑portable systems that do not compromise on jamming range or effectiveness.

Built‑In Sweep Source and Smart Protection

One of the most appreciated features is the integrated high‑speed sweep generator. Many jammers require an external signal source to create the sweeping pattern needed to defeat frequency‑agile drones. This 80W drone jammer module eliminates that extra component by generating its own continuous swept signal across the full 1550–1620MHz range. The sweep rate is fast enough to disrupt both standard civilian GPS receivers and more sophisticated receivers that employ narrowband filtering.

Protection is equally thorough. The module incorporates an absorptive VSWR protection circuit. Unlike reflective designs that simply shut down or redirect excess power back to the amplifier—risking overheating or permanent damage—this absorptive approach safely dissipates reflected energy. It gives integrators a generous safety margin during antenna tuning or in case of accidental disconnection. A dedicated protection LED provides instant visual feedback when the VSWR exceeds the safe threshold of 2.0.

Deployment Flexibility and System Integration

Integrating this 80W drone jammer module into a new or existing counter‑UAV system is deliberately straightforward. The unit accepts a DC supply from 24V to 29V, drawing a maximum of 12.0A at full output. The on/off control is designed for remote or automated operation: applying +5V or leaving the pin floating turns the module on, while grounding the pin shuts it down. This logic level matches standard microcontroller outputs, relay contacts, or manual switches.

The output connector is a robust SMA female, ensuring compatibility with a wide range of 50‑ohm antennas and cabling. The module’s compact dimensions and light weight make it suitable for handheld jammers, vehicle‑mounted systems, fixed installations, and even backpack‑carried equipment. System designers will also appreciate the built‑in sweep source, which reduces overall bill‑of‑materials and simplifies firmware development.

Real‑World Applications

Because the 1550–1620MHz band is the backbone of satellite navigation, this 80W drone jammer module is ideal for any scenario where drone incursions must be neutralised:

  • Airports and heliports – preventing drones from entering approach and departure corridors.

  • Power stations and nuclear facilities – guarding against espionage or accidental collisions.

  • Stadiums and concert venues – ensuring crowd safety during large events.

  • Correctional institutions – blocking contraband deliveries via aerial drops.

  • Military checkpoints and convoys – providing rapid, deployable counter‑UAV cover.

The 80W output power, combined with GaN efficiency (≥40%), allows sustained operation even in warm environments, provided proper heatsinking is applied. Users should plan for approximately 30–40 watts of heat dissipation and ensure adequate airflow or conductive cooling for continuous duty cycles.

Installation Best Practices

To extract maximum performance from this module, pay attention to a few practical details. First, confirm that your power supply can deliver 12A continuously at 24–29V—dropping below 24V will reduce output power, while exceeding 29V may trigger overvoltage protection. Second, use a high‑quality 50‑ohm antenna with a VSWR below 2.0; the module’s own protection will handle minor mismatches, but a well‑matched antenna maximises radiated power. Third, keep RF cables as short as possible to minimise insertion loss.

The module’s absorptive protection is particularly forgiving—it allows integrators to test various antennas without fear of immediate damage. However, for prolonged field reliability, we recommend securing all connections and, if possible, monitoring the protection LED during initial power‑up.

Frequently Asked Questions

Q: How does this 80W drone jammer module compare to a 20W or 50W unit?
A: The extra power translates directly into a larger effective jamming radius and better penetration through obstacles like foliage, building materials, and atmospheric losses. While lower‑power units may work for close‑range applications, 80W gives you a decisive margin against drones with improved receiver sensitivity or directional antennas. The GaN design also keeps efficiency high, so you are not paying a huge weight or heat penalty for that extra output.
Q: Is the built‑in sweep source sufficient, or do I still need an external signal generator?
A: The built‑in sweep source is fully self‑contained and covers the entire 1550–1620MHz band at a fast enough rate to disrupt both fixed‑frequency and frequency‑hopping drone receivers. No external generator is required. Simply apply power and the module produces the jamming signal automatically—this greatly simplifies system integration and reduces overall cost.
Q: What happens if I accidentally run the module without an antenna connected?
A: The absorptive VSWR protection safely dissipates reflected power, so the amplifier is not instantly damaged. The protection LED will light up to warn you of the high VSWR condition. While the module can tolerate short periods of mismatch, we strongly recommend connecting a proper antenna or dummy load before prolonged operation to maintain performance and longevity.
Q: Can I use this module in a handheld jammer powered by batteries?
A: Yes, as long as your battery pack can deliver 12A continuously at 24–29V. The module’s 0.55 kg weight and compact size make it well suited for handheld enclosures. The on/off control (+5V or float for ON, ground for OFF) works perfectly with a trigger switch. Just ensure adequate heatsinking—handheld units often rely on passive cooling, so keep duty cycles moderate or add a small fan if extended operation is required.

Case Studies

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