Take a look at this backpack anti drone disruptor, which can enforce control of flying drones or flying models within an effective control distance of 1-5 kilometers (the specific effective distance is affected by environmental conditions and drone type).
When encountering uninvited drones, it can effectively block the remote control signal received by the drone by emitting powerful electromagnetic waves, quickly cut off the drone control chain, trigger it to enter the preset safety mode, and perform forced landing or return, avoiding potential safety threats from drones.
The device follows strict power output standards to ensure that while jamming drone signals, it will not interfere with the surrounding environment and other electronic devices of different frequencies. At the same time, considering the safety of operators, it will not cause electromagnetic radiation or other safety hazards to operators or bystanders during use.
Whether the drone is conducting illegal filming, surveillance, or other potentially dangerous behaviors, you can easily deal with it, and this sense of security is priceless.
However, the price of D-US-BP03 is a bit expensive. We also have another backpack jammer PD-US-05 which is much cheaper. If you need to block the drone within the range of 400m-1000m, you can definitely choose PD-US-05.
The tri-bands drone satellite signal jammer output port
Port 1: GPS L1 + Glonass L1 (1570-1620 MHz)——Interrupt GPS communication, making it impossible for the drone to navigate or maintain position.
Port 2: WiFi 2.4G (2400-2484 MHz)——Interrupt remote control and video transmission, causing the drone to lose control and be forced to make an emergency landing.
Port 3: WiFi 5.8G (5725-5850 MHz)——Completely cut off the remote control signal, resulting in loss of driving function.
The test of D-US-BP03 can be carried out in the following ways
Actual wide-area field test: Under the condition of sufficient space test, field test is carried out to determine the maximum control distance of the interceptor to the target aircraft.
Equivalent test: Use the calculation formula to estimate the maximum control distance of the interceptor. The formula is: Theoretical maximum distance of drone remote control * (actual control distance of interceptor field test / actual remote control distance of drone).
Failure: During the test, you can observe whether the drone’s remote control fails, whether it cannot be positioned (including GPS/GLONASS failure), and whether the image transmission signal fails.
Specification Details
Host weight | about 10 kg (excluding built-in battery) |
Host size | 120×90×10mm |
Antenna length | 60mm |
Battery type | built-in lithium battery, continuous working time 2 hours |
Charging method | AC adapter (AC 220V-DC 27V or 24V/45 AMP) |