Powerful 100W GaN Drone Jamming Module | 6.5–6.7 GHz
100W GaN Drone Jamming Module: 6.5-6.7GHz, 50dBm, 28V, 9.2A, instant wideband, built-in noise source, 150x80x22mm, 800g. Customizable modulation source & scan speed.
Technical Specifications
| Parameter | Specification | Notes |
| Frequency range | 6500–6700 MHz | Instantaneous wideband |
| Output power | 50 dBm ±1 dB (100 W) | At 50 Ω load |
| Supply voltage | 28 V DC (28–32 V) | – |
| Current draw | ≤9.2 A | At 100 W output |
| Modulation source | Built-in high-speed noise | Optional VCO, DDS, SDR |
| Analog scan speed | 270 kHz default | Custom 100–500 kHz |
| Input / output impedance | 50 Ω | N female connectors |
| Protection LEDs | Power, over-voltage, over-temp | – |
| Operating temperature | -20 to +65 °C | Normal operating range |
| Dimensions (L×W×H) | 150 × 80 × 22 mm | – |
| Weight | 800 g | – |
| Base material | GaN on SiC, copper carrier | Patented heat-spreading |
Product Details

The 100W GaN Drone Jamming Module delivers robust counter-UAS capability in the 6500–6700 MHz band. Designed around a Class AB gallium nitride on silicon carbide (GaN on SiC) architecture, it provides instant wideband coverage, excellent thermal management, and industry-leading power density in a tiny 150×80×22 mm footprint. Whether you are hardening fixed sites or equipping mobile platforms, this jammer module brings multi-octave denial in a lightweight, reliable form factor.
Why GaN Technology for Drone Jamming?
Gallium nitride on SiC outpaces legacy LDMOS or GaAs when extreme power density and thermal efficiency are critical. The 100W GaN Drone Jamming Module uses patented heat-spreading on a copper base carrier to keep junction temperatures low even at 100 W CW output. This means higher reliability, longer mission life, and stable 50 dBm power across the full 6.5–6.7 GHz instantaneous bandwidth. (Learn more about GaN on SiC from this Microwave Journal primer.)
100W GaN Drone Jamming Module: Core Specifications
At 28 V DC (28–32 V compliant) the module draws ≤9.2 A and delivers a minimum 50 dBm (100 W) into 50 Ω. Protection LEDs signal power status, over-voltage, and over-temperature conditions. N-type female connectors handle the RF input/output. The integrated high-speed noise modulation source simplifies feed-in—no external exciter required for standard barrage jamming. For advanced schemes, the module accepts custom VCO, DDS, or SDR inputs, providing unmatched flexibility. (Internal link: see our standard 50W drone jammer module for lower-power roles.)
Instant Wideband and Scan Flexibility
True instantaneous wideband operation means the module can cover the entire 6.5–6.7 GHz span without tuning. The default analog scan speed is 270 kHz, yet the internal sweep can be customized from 100 kHz to 500 kHz upon request. This agility is vital when countering frequency-hopping drones or swarms that rapidly shift across the band. Because the GaN front end reacts in nanoseconds, you maintain continuous blanket coverage over the target spectrum.
Compact, Rugged Integration
Measuring just 150×80×22 mm and weighing 800 g, the 100W GaN Drone Jamming Module fits easily into man-portable kits, fixed-site arrays, and vehicle-mounted counter-drone systems. A sealed, ruggedized housing withstands operational temperatures from -20 °C to +65 °C. The 50 Ω impedance simplifies cascading with antennas, filters, or power combiners, while the copper-base carrier provides a direct thermal path to your cold plate or heatsink.
Modulation Source Customization
The onboard high-speed noise source is standard, delivering effective barrage interference. For more sophisticated jamming techniques—such as swept tones, reactive DRFM-based deception, or protocol-aware attacks—the module can be factory-configured with a voltage-controlled oscillator (VCO), direct digital synthesizer (DDS), or software-defined radio (SDR) front end. Just specify your modulation and scan-rate requirements; our team will tune the bias sequencing and control logic accordingly.
Integration Examples
The 100W GaN Drone Jamming Module fits ground, vehicle, and CUAS drone payloads. Standard N-type connectors and 28 V DC power simplify field deployment. Each unit is factory burn-in tested at 100 W CW across 6.5–6.7 GHz and ships with a spectral plot and power verification data. System integrators rely on the LED fault indicators for remote monitoring and the option to inject external waveforms through the input port.
Real-World Deployment Notes
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To get the most from the 100W GaN Drone Jamming Module, always verify antenna VSWR—the output stage is rugged but designed for a 50 Ω load.
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Plan for adequate cooling: while GaN on SiC is efficient, 100 W RF output demands proper heat-sinking; the copper carrier is your thermal interface.
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Leverage the LED indicators for remote status when integrating into a larger CUAS network.




