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60W Drone Jammer Module – 2.3‑2.5GHz GaN Sweep

Technology: GaN
Frequency Range: 2.4GHz
Connector Type: SMA Female
Output Power: 60W

Compact 60W drone jammer module for 2300‑2500MHz, GaN efficiency, 12‑14V DC, 13A, built‑in sweep source, SMA female, 138×50.5×17mm, 0.22kg. Perfect for portable disruptors.

Technical Specifications

ParameterSpecificationNotes
Frequency range2300 – 2500 MHzInstantaneous full band
Output power60W (typical)Measured at 13.8V, 25°C
Supply voltage12 – 14 V DCNominal 13.8V recommended
Current draw≤ 13.0 AAt full output power
Modulation sourceBuilt‑in high‑speed sweepExternal input optional
Analog scan speedFactory‑set (customizable)Contact for sweep rate options
Input / output impedance50 ΩSMA female connectors
Protection LEDsover‑temp and over‑current foldback-
Operating temperature-20 to +65 °CAmbient, derate above 55°C for CW
Dimensions (L×W×H)138 × 50.5 × 17 mmExcluding connectors and mounting tabs
Weight0.22 kg±5 g
Base materialGaN on copper‑clad substrateEfficient thermal spreading

Product Details

60W Drone Jammer Module – 2.3‑2.5GHz GaN Sweep

Power Where It Counts – The 2.4GHz Band

If you have been working with counter‑UAS systems, you know that 2.4GHz is a primary control and telemetry channel for most consumer and prosumer drones. This 60W drone jammer module targets exactly that band – 2300 to 2500 MHz – covering both the upper ISM frequencies and adjacent military/commercial allocations. The output is a clean 60W (measured at 28V, but we will get to the supply later) that gives you a solid jamming footprint without needing a massive heatsink or a bulky power supply. It is designed for operators who need to pack serious punch into a backpack or a small vehicle mount.

Why GaN and 12V Supply Make Sense

Unlike our higher‑voltage GaN blocks, this 60W drone jammer module runs happily on 12‑14V DC – the same range as standard automotive batteries, lithium‑ion packs, and many field generators. That low‑voltage capability is a game‑changer for mobile deployments. The GaN die on a thermally efficient substrate delivers ≥40% efficiency, meaning you get more jammer power per amp‑hour from your battery. At full tilt, the module draws 13A – manageable with a quality 15A‑rated supply. The internal matching keeps output VSWR below 2.0:1 across the whole band, so you do not waste power on reflections.

Sweep Source Included – No External Generator

One less box to carry. This drone jammer module integrates a high‑speed frequency‑sweeping source that generates a continuous interference waveform optimised for 2.4GHz receivers. The sweep rate is factory‑tuned, but we can tweak it if you have a specific hopping pattern to counter. The built‑in source eliminates the need for an external VCO or DDS, simplifying your system design and reducing potential failure points. For users who prefer their own modulation, we also offer a variant with an SMA input that bypasses the internal sweeper – just ask.

Simple Enable and Connector Details

The control logic is as straightforward as it gets: apply +5V or leave the enable pin floating to turn the amplifier on; ground it to shut it down. This makes integration with microcontrollers, manual switches, or remote relays trivial. The RF input and output are both SMA female connectors – standard, rugged, and easy to cable. The input accepts a drive level up to about +10 dBm, so you can feed it directly from most signal sources without extra attenuation.

Thermal Management in a Tiny Footprint

At 138 mm long, 50.5 mm wide, and just 17 mm tall, this 60W drone jammer module is remarkably small for its power class. The weight of 0.22 kg – less than half a pound – makes it one of the lightest 60W jammers we offer. The GaN die sits on a copper‑clad base that spreads heat efficiently, but do not underestimate the need for a heatsink. At full 60W continuous output, you will want to attach it to a flat aluminium or copper heatsink with a fan for prolonged missions. The operating range is ‑20 to +65°C ambient; above 55°C, we recommend reducing duty cycle or adding forced air.

Built for Field Duty

We have seen these modules deployed in handheld guns, drone‑mounted jammers, and fixed perimeter systems. The compact size and low voltage make them especially popular for man‑portable applications. There are no fragile tuning capacitors or complex biasing schemes – the internal circuitry is robust against moderate load mismatches. While there is no dedicated LED indicator for protection, the module includes over‑temperature and over‑current sensing that gracefully reduces output if conditions become unsafe. You will not get a sudden failure; instead, you will notice a gradual drop in power, giving you time to adjust cooling or reduce the transmit duty.

Custom Options and Final Word

We understand that one size does not fit all. If you need a different sweep rate, a different connector orientation, or even a lower‑frequency variant, our engineering team can work with you. Minimum orders for custom mechanical changes are reasonable, and firmware‑only adjustments have no MOQ. This 60W drone jammer module represents a sweet spot for those who want effective 2.4GHz disruption without the weight or voltage constraints of higher‑power solutions. Order a sample, bolt it to a proper heatsink, and see how far 60W can take you.

Frequently Asked Questions

Q: Can I run this module continuously at 60W in a handheld enclosure?
A: Handheld cases have limited cooling. With a small fan and good heat sinking, short bursts are fine. For continuous full power, use a larger heatsink or reduce ambient temperature.
Q: What sweep speed does the built‑in source use?
A: The default is factory‑optimised for typical drone hop rates. We can adjust it from 100 to 500 kHz – just specify your preference when ordering.
Q: Can I supply 14V instead of 12V?
A: Yes, the module accepts 12‑14V DC. Higher voltage slightly improves efficiency but does not increase output power beyond the rated 60W. Stay within the range.
Q: Is the module protected against reverse polarity?
A: Yes, it has an internal diode protection circuit, but we still advise double‑checking your wiring before powering on to avoid unnecessary stress.

Case Studies

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