Home > Product > Drone jammer module > 100W > 100W GaN Drone Jammer Module 400–500MHz | High Power Anti-Drone RF Jamming Solution
100W GaN Drone Jammer Module (400–500MHz) The 100W GaN drone jammer module is a high-performance RF countermeasure solution designed for professional UAV defense applications. Operating within the 400–500MHz frequency range, this module delivers stable 100W output power and adopts advanced Gallium Nitride (GaN) technology on silicon carbide (SiC) substrate……
The 100W GaN drone jammer module is a high-performance RF countermeasure solution designed for professional UAV defense applications. Operating within the 400–500MHz frequency range, this module delivers stable 100W output power and adopts advanced Gallium Nitride (GaN) technology on silicon carbide (SiC) substrate to ensure excellent thermal management and long-term reliability.
With a compact structure, wide instantaneous bandwidth, and integrated high-speed noise modulation signal source, this drone jammer module is ideal for system integrators and anti-drone equipment manufacturers seeking powerful and customizable RF jamming solutions.
100W (50±1 dBm) high output power
400–500MHz operating frequency
Class AB GaN design for high efficiency
Instantaneous wideband response
50 Ohm input/output impedance
Built-in high-speed noise modulation signal source
Customizable VCO, DDS, or SDR options
Compact size and lightweight structure
LED status indicators (power, over-voltage, over-temperature)
Industrial-grade thermal design
This drone jammer module adopts GaN on Silicon Carbide (SiC) technology and is mounted on a copper carrier for enhanced heat dissipation. Combined with patented thermal management techniques, the module maintains stable performance even under continuous high-power operation.
Compared with traditional LDMOS solutions, GaN technology offers:
Higher power density
Better thermal conductivity
Improved durability
Enhanced RF efficiency
These advantages make it highly suitable for demanding UAV countermeasure systems.
| No. | Specification | Details |
|---|---|---|
| 1 | Operating Frequency | 400–500 MHz |
| 2 | Output Power | 100W (50±1 dBm) |
| 3 | Operating Voltage | 28V (28–32V) |
| 4 | Operating Current | ≤9.2A |
| 5 | Scan Speed | 270KHz (Customizable 100–500KHz) |
| 6 | Signal Source | Built-in high-speed noise modulation |
| 7 | Optional Signal Types | VCO / DDS / SDR (Customizable) |
| 8 | Impedance | 50 Ohm input/output |
| 9 | Connector | N Female |
| 10 | Working Temperature | -20°C to +65°C |
| 11 | Dimensions | 150 × 80 × 22 mm |
| 12 | Weight | 800 g |
| 13 | Indicators | Power, Over-voltage, Over-temperature |
The module integrates multiple protection and monitoring features to ensure safe operation:
LED indicators for real-time status monitoring
Over-voltage protection
Over-temperature protection
Stable DC 28V power input design
These protections extend system lifespan and improve operational safety in field deployments.
This 100W drone jammer module is suitable for integration into:
Critical infrastructure protection systems
Border and perimeter security systems
Its customizable signal source and scanning parameters allow flexible adaptation to different drone communication bands and mission requirements.
To meet various project requirements, the drone jammer module supports:
Frequency band customization
Scan speed adjustment (100–500KHz)
Alternative signal source configurations (VCO / DDS / SDR)
Power tuning solutions
OEM/ODM integration
If you are looking for a high-power, compact, and thermally optimized drone jammer module, this 400–500MHz 100W GaN solution provides the performance and reliability required for professional UAV countermeasure systems.
Its advanced GaN-on-SiC design, stable 100W output, and flexible customization capabilities make it a dependable core RF module for modern anti-drone applications.
86-13920737097
AddBuilding 2, Honggao Industrial Park, Bao’an District, Shenzhen, China.
E-mailjackyjingtj@gmail.com
Copyright @ 2026 BNT Jammer
Copyright @ 2026 BNT Jammer
Copyright @ 2026 BNT Jammer
