GAN anti-drone interference module 100 watts 100-2500Mhz

Good Heat Dissipation
GaN has a thermal conductivity of about 170 W/m·K, much higher than silicon's 130 W/m·K. This means that at high power output, GaN modules can dissipate heat more effectively. Therefore, the operating temperature of our products can be controlled below 85°C, while traditional modules may reach more than 100°C under the same conditions. This heat dissipation effectively increases the service life of the product.

Fast Response Speed
The high electron mobility of GaN devices (about 2000 cm²/V·s, more than 5 times that of silicon) makes the GaN UAV jammer module have a very fast response speed, which can complete frequency switching and power adjustment within microseconds, and the response time is more than 10 times faster than that of traditional modules. When facing high-end drones using frequency hopping technology, this allows our products to achieve real-time jamming strategy adjustments, greatly improving the success rate of counterattack.

High Power Output
The output power of our GaN UAV jammer in the 5.8GHz band can reach about 50W, while the output power of similar silicon-based products in this band is usually only 25-30W. This high power output enables our jammers to effectively cover targets within a range of 3,000 meters, which is 2-3 times the coverage range of 1,000-1,500 meters of ordinary products.

Wideband Coverage
Our GaN drone jammers achieve ultra-wideband coverage from 433MHz to 6GHz, with a bandwidth of 5567MHz. This range not only covers the common 2.4GHz and 5.8GHz drone control bands, but also includes low-frequency bands such as 433MHz and 915MHz, as well as emerging drone communication bands such as 3.5GHz and 4.9GHz. In contrast, most jammers on the market can usually only cover 2-3 fixed frequency bands.