How large should the transmission power of a high-power UAV jammer be?
In recent years, UAV signal blockers have continued to develop in the direction of high-power output. This is mainly because the current UAV technology has made great progress, and the effective distance and anti-interference ability of flight control and image transmission have been greatly improved compared with the past. As a manufacturer of UAV jammers, the quickest and most effective way to effectively confront them is to increase the transmission power of the interference signal. So the question is: how large should the transmission power of a high-power UAV jammer be?
Looking back five or six years ago, or even earlier, the transmission power of UAV wifi jammers at that time was generally not large. The transmission power of each signal interference module only needed 5W-10W, and at that time, only such a large power was needed to obtain a very good interference effect against UAVs. However, with the advent of more and more commercial UAVs, in the actual testing and use process, it has been found that if the original transmission power is still used, the interference distance will obviously be greatly reduced. So as a manufacturer, we began to increase the transmission power of each module, and the output power of the interference signal of each module was increased from 5-10W to about 20W.
However, today, as drone manufacturers adopt more and more frequency hopping communication technology, expand several other communication frequency bands, and develop newer anti-interference algorithms and anti-interference capabilities, if the module transmission power of the drone jammer continues to use 20W output power, it will be found that when facing new drones with new technology capabilities, the effective interference distance has become very short. What should we do? Further increase the output power of the module and increase the power of 20W to 50W.
The transmission power of high-power drone jammers is generally 50W, which is the preferred solution for various manufacturers. Of course, in addition to this method, there are other methods that can improve the interference effect without increasing the power. We will continue to answer these later.
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