50W GaN Drone Jammer Module 1000-1300MHz – L-Band Blocker
50W GaN drone jammer module covering 1000-1300MHz with GaN-on-SiC technology, 28V, ≤4.5A, built-in noise source, SMA output, 117×58×18mm, 300g. Ideal for L-band UAV telemetry and command link disruption.
Technical Specifications
| Parameter | Specification | Notes |
| Frequency range | 1000 – 1300 MHz | L-band for UAV command and telemetry links |
| Output power | 47 ± 1 dBm (50W) | Measured at 28V, CW mode |
| Supply voltage | 24 – 28 V DC | Nominal 28V recommended |
| Current draw | 3.2 – 4.5 A | Depending on input drive level |
| Modulation source | Built-in high-speed noise generator | Options: VCO, DDS, SDR |
| Analog scan speed | 270 kHz (default) | Customisable 100-500 kHz |
| Input / output impedance | 50 Ω | SMA female output |
| Protection LEDs | Power, over-voltage, over-temperature | Visual status indicators |
| Operating temperature | -20 ~ +65 °C | Ambient, with adequate heatsinking |
| Dimensions (L×W×H) | 117 × 58 × 18 mm | Excluding connectors |
| Weight | 300 g | Approximate net weight |
| Base material | Copper on aluminium alloy | GaN-on-SiC die on copper heatsink |
Product Details
L-Band – The Backbone of Long-Range Drone Communication
While most consumer drones operate on 2.4GHz or 5.8GHz, the real workhorses of the unmanned world – tactical UAVs, long-range survey platforms, and military-grade systems – often rely on the L-band for their command and telemetry links. The 1000-1300MHz range offers superior propagation characteristics compared to higher frequencies, including better penetration through foliage and light obstructions, as well as extended range for a given output power. This 50W GaN drone jammer module is engineered specifically to target this critical spectrum. By delivering 47±1 dBm of clean RF energy directly into the L-band, this module can effectively disrupt the communication backbone of long-endurance drones, severing the link between the aircraft and its ground control station. For counter-UAS operators who need to neutralise threats at extended distances, this 50W GaN drone jammer module provides the reach and punch that lower-frequency jamming simply cannot match.
GaN Technology – The Powerhouse Behind the Performance
At the heart of this 50W GaN drone jammer module lies advanced gallium nitride technology on a silicon carbide substrate. This material combination delivers exceptional power density and thermal efficiency that far surpasses conventional silicon or even older LDMOS designs. The AB-class GaN architecture ensures linear amplification while maintaining efficiency above 40%, translating to less wasted power and reduced cooling requirements. The module draws between 3.2A and 4.5A from a 24-28V DC supply, making it remarkably power-efficient for a 50W amplifier. The copper-based heatsink integrated into the base efficiently extracts heat from the GaN die, allowing the module to maintain full output even during extended operation. With a weight of just 300g and dimensions of 117×58×18mm, this 50W GaN drone jammer module delivers performance that would have required a unit twice the size just a few years ago.
Thermal Design and Rugged Construction
Field deployment demands equipment that can withstand real-world conditions, and this 50W GaN drone jammer module is built to last. The aluminium housing provides both electromagnetic shielding and a robust mechanical enclosure, while the copper base beneath the GaN die ensures efficient thermal transfer. The module operates reliably across the -20 to +65°C temperature range, covering most operational environments from desert heat to freezing mountain passes. Three LED indicators provide clear visual feedback: power-on, over-voltage, and over-temperature. When thermal limits are approached, the built-in protection circuitry gracefully reduces output to prevent damage, then automatically restores full power once temperatures normalise. The SMA female connector offers a secure, low-loss interface that maintains 50Ω impedance throughout the signal chain. Every aspect of this 50W GaN drone jammer module has been designed with reliability in mind – no fragile components, no delicate adjustments that can drift, just solid-state engineering that you can count on when it matters most.
Modulation Options and Customisation Flexibility
The standard configuration of this 50W GaN drone jammer module includes a built-in high-speed noise modulation source with a default sweep rate of 270KHz, adjustable between 100-500KHz to match specific threat profiles. This sweeping interference pattern is particularly effective against modern digital receivers, forcing constant recalibration of their error-correction circuits. For more specialised requirements, we offer alternative front-end options including VCO for fixed-frequency continuous wave, DDS for programmable chirp and hopping patterns, or SDR for full software-defined flexibility with external I/Q inputs. Each modulation type changes the character of the interference, allowing you to tailor this 50W GaN drone jammer module to your specific tactical needs. The input signal source is factory-configured but fully customisable at the time of ordering – simply specify your preferred modulation type and sweep parameters, and we will deliver a module optimised for your application.
Integration, Deployment, and Field Tips
Integrating this 50W GaN drone jammer module into your counter-UAS system is straightforward. The compact footprint leaves plenty of room for other components, and the simple DC input and TTL-compatible enable logic simplify wiring – apply +5V or leave floating to activate, ground to disable. This makes it easy to interface with microcontrollers, manual switches, or existing security system PLCs. For multi-band installations, multiple modules can be stacked side by side to cover L-band, 2.4GHz, and 5.8GHz simultaneously. Before field deployment, always test the module into a 50Ω dummy load and confirm your antenna’s VSWR is within acceptable limits. Use a directional antenna with appropriate gain for maximum effective range – an L-band panel or Yagi antenna is typically recommended. Ensure your power supply can deliver at least 5A continuously to handle peak current demands, and keep DC leads short and adequately gauged to minimise voltage drop. With proper setup, this 50W GaN drone jammer module will deliver consistent, dependable performance whether you are protecting a forward operating base, a critical infrastructure site, or a VIP convoy.





