80W GaN Drone Jamming Module – 2000-2200MHz Swept Blocker
80W GaN drone jamming module covers 2000-2200MHz, 80W output, 24-29V, ≤10A, built-in sweep source, SMA female, VSWR protection, 168.5×84.5×23mm, 0.55kg, -20~+65°C.
Technical Specifications
| Parameter | Specification | Notes |
| Frequency range | 2000 – 2200 MHz | Instantaneous full band |
| Output power | 80W (typical) | ≥40% efficiency |
| Supply voltage | 24 – 29 V DC | 28V recommended |
| Current draw | ≤10.0 A | At 80W output |
| Modulation source | Built‑in high‑speed sweep generator | Customisable on request |
| Analog scan speed | Fixed internal sweep | Speed can be tailored per order |
| Input / output impedance | 50 Ω | SMA female |
| Protection LEDs | VSWR protection (absorptive) | protection circuit built‑in |
| Operating temperature | -20 ~ +65 °C | Baseplate temperature |
| Dimensions (L×W×H) | 168.5 × 84.5 × 23 mm | Standard size |
| Weight | 0.55 kg | Excluding heatsink |
| Base material | Copper with Ni‑plating | GaN‑on‑SiC die attached |
Product Details
Where Mid-Band Jamming Meets GaN Efficiency
The 2.0–2.2 GHz band is a busy corridor – satellite downlinks, drone telemetry, and various command links all compete for space. To cut through that noise and reliably disable hostile UAVs, you need an amplifier that offers both brawn and brains. This 80W GaN drone jamming module delivers exactly that, using gallium‑nitride technology to pack serious output into a compact, lightweight enclosure. Whether you are upgrading a fixed installation or building a mobile counter‑UAS system, this unit provides a straightforward, field‑ready solution for mid‑band denial.
GaN Muscle and Built‑In Sweep Source
Unlike older LDMOS designs that struggle with efficiency at higher frequencies, this module leverages GaN‑on‑SiC to achieve ≥40% typical efficiency at 80W output. That means less heat, smaller heatsinks, and longer mission durations. The operating voltage spans 24–29V DC, with a maximum current draw of 10.0A – a modest appetite for this power level. What sets this module apart is the integrated high‑speed sweep generator: you do not need an external signal source; simply apply DC power and enable the module, and it produces a swept noise signal across the entire 2000‑2200MHz band. This simplifies integration and reduces bill‑of‑materials costs. For advanced users, the sweep rate and waveform can be customised upon request, but the default internal source works perfectly for most drone jamming scenarios.
Robust Protection and Thermal Design
RF amplifiers are vulnerable to antenna mismatches, especially in dynamic field environments. This 80W GaN drone jamming module incorporates an absorptive VSWR protection device that safely dissipates reflected energy rather than bouncing it back into the amplifier. The output VSWR is specified at ≤2.0, giving you a safe margin for most commercial antennas. Thermal management is equally well thought out: the GaN die is mounted on a copper baseplate that spreads heat evenly, and the entire assembly operates reliably from -20°C to +65°C. While there are no dedicated LED indicators, the module includes a simple enable/disable control – apply +5V or leave it floating for normal operation, or ground the pin to shut it down. This logic‑level interface makes it easy to integrate with microcontrollers or manual switches.
Practical Integration and Field Use
Measuring just 168.5×84.5×23mm and weighing 0.55kg, this 80W GaN drone jamming module slips into tight equipment racks or portable cases without adding unnecessary bulk. The RF interface uses a rugged SMA‑female connector, and the input and output impedance is standard 50Ω, so you can use off‑the‑shelf cables and antennas. We recommend mounting the module on a flat metal surface with thermal paste, and if you plan to run continuous sweeps for extended periods, a small fan over the baseplate will keep temperatures well within limits. The absorptive VSWR protection also means you can test the amplifier without a perfect load – the module will simply absorb the reflected power, preventing damage. This feature alone saves many field headaches.
Why Choose This 80W GaN Drone Jamming Module?
First, the efficiency – GaN allows you to get 80W of RF power without oversized power supplies or cooling systems. Second, the integrated sweep source eliminates extra components, simplifying your design. Third, the protection circuitry ensures that even in harsh deployment scenarios, the module survives. And finally, the compact size and light weight make it suitable for drone‑mounted (as a payload) or ground‑based systems. We have seen integrators use this module for border patrol, stadium security, and convoy protection, where reliability and quick deployment are paramount.





