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60W Drone Jammer Module 1800-2000MHz LDMOS Amp

Technology: LDMOS
Frequency Range: 1.8GHz
Connector Type: SMA Female
Output Power: 60W

60W drone jammer module, 1800-2000MHz, LDMOS, 12-14V 13A, built‑in sweep source, SMA out, 138×50.5×17mm, 0.22kg. Compact high‑power counter‑UAV amplifier.

Technical Specifications

ParameterSpecificationNotes
Frequency range1800 – 2000 MHzMid‑band for drone telemetry/control
Output power60 WTypical, CW or swept
Supply voltageDC 12 – 14 VNominal 12V recommended
Current draw13 AAt maximum output
Modulation sourceBuilt‑in high‑speed sweepNo external signal required
Analog scan speedContinuous sweepFactory‑set for optimal coverage
Input / output impedance50 ΩSMA female output connector
Protection LEDs--
Operating temperature-20 °C to +65 °CDerate above 45°C for continuous use
Dimensions (L×W×H)138 × 50.5 × 17 mmUltra‑compact profile
Weight0.22 kgExtremely light for portable systems
Base materialLDMOS (Laterally Diffused MOS)Linear, efficient amplifier

Product Details

60W Drone Jammer Module 1800-2000MHz LDMOS Amp

Mid‑Band Jamming with Serious Bite

The 1800–2000MHz spectrum is a busy corridor. It hosts mobile networks, telemetry links, and—increasingly—drone command and control channels, especially for models that avoid the more crowded 2.4GHz band. This 60W drone jammer module targets that exact slice, delivering enough RF muscle to break lock on most commercial and semi‑professional UAVs.

What makes this module particularly attractive is its 12V‑nominal supply. Running on DC 12–14V, it draws up to 13A at full tilt, which means you can power it directly from standard vehicle batteries or compact portable power packs. No need for bulky 28V converters. The LDMOS amplifier core ensures linear, clean output across the full 1800‑2000MHz span, with efficiency hitting ≥40% — impressive for a 60W device in this frequency range.

Weighing only 0.22kg and measuring 138×50.5×17mm, this module is one of the lightest in its power class. It slips easily into handheld enclosures, gimbal‑mounted systems, or small drone‑mounted counter‑UAS payloads. Despite its featherweight build, it delivers a solid 60W of swept interference that can neutralise target drones at substantial range.

Built‑In Sweep Source – No External Generator

Like its higher‑power siblings, this 60W drone jammer module features an integrated high‑speed sweep oscillator. The internal source continuously scans the 1800‑2000MHz band, creating a moving interference pattern that is far harder for drone receivers to notch out than a fixed carrier. The sweep rate is factory‑optimised for maximum disruption, and the module requires no external signal injection — just apply power and it jams.

The on/off control follows the same straightforward logic: +5V or floating turns the module on; grounding the pin shuts it down. This makes it easy to integrate with microcontrollers, manual switches, or remote relay triggers. The SMA female output connector is standard for 50‑ohm systems, though we recommend using high‑quality cables rated for 60W continuous power to avoid heating or loss.

Power Efficiency and Thermal Management

Operating at 12–14V, the module pulls a maximum of 13A, translating to roughly 156–182W of DC input. With ≥40% efficiency, about 60W goes out as RF, and the rest dissipates as heat — around 90‑120W. That’s manageable but not negligible. For intermittent duty (e.g., 50% duty cycle or less), passive heatsinking on the module’s baseplate is often sufficient. For continuous operation, a small fan or active cooling is recommended.

The module does not include built‑in VSWR protection LEDs (unlike some other models), but the design is robust against moderate mismatches. However, we strongly advise keeping antenna VSWR ≤2.0 to maintain output power and prevent thermal stress. The SMA connector is rated for 60W, but ensure your antenna and cables can handle that level without degradation.

Where This 60W Drone Jammer Module Shines

The 1800‑2000MHz band is used by various drone models for video downlink, telemetry, and sometimes control, especially in regions where 2.4GHz is congested. This 60W drone jammer module is ideal for:

  • Urban counter‑drone operations – where 2.4GHz noise is high, but 1800‑2000MHz remains a vulnerable link.

  • Mobile jamming platforms – the 12V input matches vehicle electrical systems perfectly.

  • Backpack‑portable units – the 0.22kg weight makes it a natural fit for dismounted troops.

  • Temporary event security – quick‑deploy jammers powered by small batteries or generators.

Its compact size also allows integration into drone‑mounted counter‑UAS systems, giving you the ability to neutralise hostile drones from the air.

Installation Notes for Best Performance

When integrating this module, pay attention to a few key points. First, use a regulated 12–14V supply capable of delivering at least 15A peak to handle startup transients. Second, mount the module on a flat metal surface with thermal compound to aid heat spreading — the baseplate is designed for conduction cooling. Third, keep the RF output cable short (under 30cm if possible) to minimise loss; the SMA connector is convenient but not as robust as N‑type, so avoid excessive torque or repeated mating.

For antenna selection, a wideband 1800‑2000MHz antenna with low VSWR is essential. If you plan to sweep continuously, ensure the antenna covers the full range without resonant dips that could cause reflected power spikes. Although the module lacks active VSWR protection, its LDMOS design is forgiving, but good practice remains the best protection.

Finally, test the drone jammer module with a dummy load before field deployment to verify output power and current draw. The sweep source should produce a clean, continuous chirp across the band — audible as a characteristic whine on a nearby receiver.

Frequently Asked Questions

Q: Can this module run directly from a car battery?
A: Yes. The 12–14V input matches automotive systems. Ensure the battery can supply 13A continuous and use proper fusing.
Q: How does the sweep source improve jamming over fixed frequency?
A: Sweeping prevents drone receivers from locking onto or filtering a single carrier, making the interference harder to reject.
Q: What happens if I disconnect the antenna while powered?
A: The module may overheat due to reflected power. Always keep a load connected. Use a dummy load for testing.
Q: Is this module suitable for handheld use?
A: Absolutely. At 0.22kg and 17mm thick, it fits well in handheld enclosures. Just provide adequate cooling for extended operation.

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