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100W GaN Drone Jammer Module 5725-5850MHz

Technology: GaN
Frequency Range: 5.8GHz
Connector Type: N Female
Output Power: 100W

100W GaN drone jammer module 5725-5850MHz, 28V, built-in noise source, 150x80x22mm, 800g. Ideal for UAV countermeasures.

Technical Specifications

ParameterSpecificationNotes
Frequency range5725–5850 MHzInstantaneous wideband
Output power50 ± 1 dBm (100 W)Class AB GaN design
Supply voltage28 VAccepts 28–32 V DC
Current draw≤ 9.2 AAt 100 W output
Modulation sourceBuilt-in high-speed noise sourceCustom VCO, DDS, or SDR on request
Analog scan speed270 kHzCustomizable 100–500 kHz
Input / output impedance50 ΩN-female connector
Protection LEDsPower switch, over-voltage, over-temperatureVisual status at a glance
Operating temperature-20 to +65 °CField-ready range
Dimensions (L×W×H)150 × 80 × 22 mmExcluding connector
Weight800 gLightweight for the power class
Base materialGaN-on-SiC die on copper carrierPatented thermal management

Product Details

When every second counts in counter-drone operations, you need a jammer module that delivers full rated power across the entire band without hesitation. That’s exactly what our 100-watt GaN drone jammer module does. Operating from 5725 MHz to 5850 MHz, it covers the most commonly used FPV and control frequencies for commercial drones in the 5.8 GHz band. Unlike traditional amplifier-based setups that require external signal generators and complicated tuning, this module arrives with a built-in high-speed noise modulation source — and it’s ready to disrupt.100W GaN Drone Jammer Module 5725-5850MHz

Why GaN-on-SiC Matters

The core of the module leverages gallium nitride grown on a silicon carbide substrate, mounted on a solid copper carrier. This isn’t just a material choice for marketing; it’s what makes the 100 W output power achievable in such a small footprint. The Class AB GaN design gives you instant wideband response. You can sweep the entire 125 MHz bandwidth without waiting for frequency settling, making it effective against drones that hop channels or use spread-spectrum links. The 50-ohm matched input/output via N-female connectors keeps integration straightforward — no exotic tuning stubs required.

You’ll also notice the module runs at 28 V DC (tolerating up to 32 V) and draws less than 9.2 A at full power. For system integrators building portable drone jammers, that’s a manageable power budget that won’t require oversized batteries or cooling rigs. And at only 800 grams and measuring 150 x 80 x 22 mm, it drops right into handheld, backpack, or fixed-site counter-UAS solutions.

Built-in Intelligence and Customization

Out of the box, the analog scan speed is set to 270 kHz, sweeping the noise modulation across the band. We’ve seen this sweep rate create a very effective denial zone for 5.8 GHz video downlinks and RC links. For specialized applications, you can request scan speeds anywhere from 100 kHz to 500 kHz. While the default signal source is a high-speed noise generator optimized for maximum disruption, we offer customization to VCO, DDS, or SDR-based modulation. This means you can fine-tune the jamming waveform to match a specific threat profile without re-engineering the whole RF chain.

Thermal Performance That Keeps You on Target

Heat is the enemy of any high-power RF module, and we addressed it head-on. The GaN-on-SiC die is bonded to a copper carrier using a patented thermal management process. You get consistent 50 dBm (100 W) output even as ambient temperatures climb to +65°C. The module operates reliably down to -20°C, making it suitable for both desert deployments and cold-weather missions. Protection LEDs on the housing give you instant feedback on power status, over-voltage, and over-temperature conditions. If something goes outside the safe envelope, you’ll know immediately — no need for separate telemetry.

Field-Ready Reliability

We designed this drone jammer module with real-world abuse in mind. The compact aluminum housing isn’t just lightweight; it’s rugged enough to withstand the bumps and vibrations of field use. All components are soldered and encapsulated for shock resistance. Since the output stage is a true 50-ohm source, connecting it to antennas or combiners is as simple as attaching an N-type cable. There’s no complex sequencing or digital interface required — just apply 28 V, and the module begins jamming.

In a market flooded with oversized, power-hungry amplifiers that promise jamming but deliver thermal throttling, this GaN module cuts through the noise. Whether you’re assembling a drone gun, a vehicle-mounted protection system, or a perimeter defense unit, you’ll appreciate the raw power, compact size, and straightforward integration this module brings. With the ability to customize modulation and scan speeds, it serves as a versatile backbone for any serious counter-drone project.

Frequently Asked Questions

Q: What drone control frequencies does this jammer module disrupt?
A: The module covers 5725–5850 MHz in a single instantaneous wideband sweep. That range includes popular ISM-band drone uplinks, many digital video downlinks, and certain proprietary telemetry channels. If your target drone operates anywhere inside that block, the drone jammer module will inject enough noise power to break the link.
Q: Can I feed my own modulation waveform instead of the built-in noise source?
A: Yes. The standard module ships with an internal high-speed noise source, but the RF input path can be configured at the factory for external modulation. Whether you need a sweeping VCO tone, a precise DDS chirp, or a complex SDR waveform, the customization path is open. Just specify your requirement when ordering the drone jammer module.
Q: How hot does the module get, and is active cooling required?
A: The GaN-on-SiC die sits directly on a copper carrier, and the patented thermal design pulls heat out fast. At 100 W continuous output, the baseplate temperature stays within safe limits as long as the module is mounted to a heatsink or a metal chassis with adequate surface area. The over-temperature LED will let you know if additional airflow is needed in hot climates.
Q: Is 100 watts enough to defeat drones at a useful distance?
A: Power is only half the equation – antenna gain and line-of-sight matter just as much – but 50 dBm is a substantial starting point. When paired with a directional antenna, this drone jammer module provides enough effective isotropic radiated power to create a reliable denial zone several hundred meters across, which covers most perimeter protection and convoy escort scenarios.
Q: What power supply setup do you recommend?
A: The module expects a clean 28 V DC rail capable of at least 10 A continuous to leave a margin above the 9.2 A draw. Batteries, DC-DC converters, or AC-DC supplies all work as long as the voltage stays within 28–32 V and ripple is kept low. The over-voltage protection LED helps guard against supply mishaps, but a regulated source is still the safest way to run any high-power drone jammer module.

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