30W Drone Jammer Module – 2500‑2700MHz LDMOS Block
Compact 30W drone jammer module for 2500‑2700MHz, LDMOS efficiency, 24‑29V DC, 3.2A, built‑in sweep source, SMA female, 115.5×46.5×21mm, 0.21kg. Ideal for multi‑band systems.
Technical Specifications
| Parameter | Specification | Notes |
| Frequency range | 2500 – 2700 MHz | Instantaneous full band |
| Output power | 30W (typical) | Measured at 28V, 25°C |
| Supply voltage | 24 – 29 V DC | Nominal 28V recommended |
| Current draw | ≤ 3.2 A | At full output power |
| Modulation source | Built‑in high‑speed sweep | External input optional |
| Analog scan speed | Factory‑set (customizable) | Contact for sweep rate options |
| Input / output impedance | 50 Ω | SMA female connectors |
| Protection LEDs | over‑temp and over‑current foldback | - |
| Operating temperature | -20 to +65 °C | Ambient, derate above 55°C for CW |
| Dimensions (L×W×H) | 115.5 × 46.5 × 21 mm | Excluding connectors and mounting tabs |
| Weight | 0.21 kg | ±5 g |
| Base material | LDMOS on metal‑clad substrate | Efficient thermal spreading |
Product Details
A Lightweight Solution for the Upper 2.5‑2.7GHz Band
The 2500‑2700MHz range is increasingly important in the counter‑drone space – it covers satellite communications, some telemetry links, and emerging broadband services that drones occasionally exploit. This 30W drone jammer module delivers a clean 30W output across that entire window, giving you a reliable jamming tool without overloading your power budget or your payload capacity. It is designed for integrators who need to cover multiple bands without turning their system into a heavy, power‑hungry monster.
LDMOS Efficiency in a Small Package
While GaN dominates at higher frequencies and power levels, LDMOS remains a smart choice for 2.5‑2.7GHz when you need a balance of cost, linearity, and field‑proven reliability. This module achieves ≥40% efficiency – respectable for this class – which keeps heat generation manageable. The internal matching network keeps output VSWR below 2.0:1 across the full band, ensuring that reflected power does not eat into your effective radiated power. With a supply range of 24‑29V DC and a maximum current draw of just 3.2A, this module is exceptionally frugal – you can run it off a modest 100W power supply without breaking a sweat.
Integrated Sweep Source Simplifies Your Build
One of the hassles with building a jamming system is sourcing a separate modulation generator. This 30W drone jammer module eliminates that step. It includes a high‑speed frequency‑sweeping source that produces a continuous interference waveform specifically shaped for the 2500‑2700MHz band. The sweep rate is factory‑set for typical drone hop patterns, but we can adjust it upon request. If you already have your own VCO or SDR, we offer an external‑input variant – just specify that at the time of ordering.
Enable Logic and RF Interface
The control interface is designed for straightforward integration. Apply +5V or leave the enable pin open to turn the amplifier on; ground the pin to shut it down. This TTL‑compatible logic works with any standard microcontroller, manual toggle, or remote relay. Both the RF input and output are SMA female connectors – robust, widely available, and easy to cable. The input accepts up to about +10 dBm, so you can drive it directly from most commercial signal sources without additional amplification or attenuation.
Minimal Footprint, Maximum Flexibility
Measuring just 115.5 mm long, 46.5 mm wide, and 21 mm tall, this 30W drone jammer module is one of the most space‑efficient units in its class. At 0.21 kg, it barely adds weight to a multi‑channel jammer or a handheld device. The LDMOS die is mounted on a thermally conductive metal base, but like all RF power modules, it benefits from a proper heatsink. For continuous full‑power operation, attach it to a flat aluminium heatsink with thermal grease. The ambient operating range is ‑20 to +65°C – derate above 55°C if you plan to run it non‑stop.
Practical Integration Notes
We have seen this module used as a dedicated band‑specific blocker in larger multi‑frequency arrays, as well as a standalone unit in smaller perimeter systems. Its low current draw makes it particularly attractive for battery‑powered applications where every amp‑hour counts. There is no dedicated protection LED on the board, but the circuit includes thermal and over‑current foldback – if conditions become unsafe, the output gradually reduces rather than failing catastrophically. That gives you a margin to adjust cooling or reduce duty cycle.
Custom Options and Closing Thoughts
Not every deployment needs a 100W brute‑force solution. Sometimes, 30W is exactly the right amount – enough to disrupt control links at practical distances, yet gentle enough on your cooling and power infrastructure. We support custom sweep speeds, connector orientations, and even frequency tweaks within the 2500‑2700MHz range. Firmware changes have no MOQ; mechanical modifications are subject to a reasonable minimum. This 30W drone jammer module is a reliable, no‑nonsense building block for any counter‑UAS system. Order a sample, pair it with a decent antenna, and start testing.





