Explore this backpack anti-drone disruptor, capable of managing flying drones or models within a control range of 1-5 kilometers (actual effective distance varies based on environmental factors and drone specifications).
In the event of encountering unauthorized drones, it effectively interrupts the remote control signals received by the drone through the emission of strong electromagnetic waves, swiftly severing the control link, prompting the drone to activate its preset safety protocols, and perform an emergency landing or return, thereby mitigating possible safety risks posed by drones.
This device adheres to stringent power output regulations to ensure that, while jamming drone signals, it does not disrupt the ambient environment or interfere with other electronic devices operating at different frequencies. Additionally, prioritizing operator safety, it ensures no electromagnetic radiation or other hazards are presented to users or bystanders during operation.
Whether the drone is involved in illicit filming, surveillance, or other potentially hazardous activities, you can effortlessly manage the situation, providing unparalleled peace of mind.
However, the D-US-BP03 model is relatively pricey. We also offer a more affordable alternative, the PD-US-05 backpack jammer, ideal for disrupting drones within a range of 400 meters to 1000 meters.
Tri-band drone satellite signal jammer output ports:
Port 1: GPS L1 + GLONASS L1 (1570-1620 MHz) – ??Disrupts GPS navigation, preventing the drone from locating or holding its position.
Port 2: WiFi 2.4G (2400-2484 MHz) – ??Disrupts remote control and video feeds, causing the drone to lose control and necessitating an emergency descent.
Port 3: WiFi 5.8G (5725-5850 MHz) – ??Completely disables the remote control signals, leading to a loss of maneuverability.
Methods of testing the D-US-BP03 include:
Field Test: Conduct a comprehensive field test in a spacious area to ascertain the maximum effective range of the device against target aircraft.
Comparative Analysis: Employ a mathematical equation to predict the maximum operational distance of the jammer. The formula is: Theoretical maximum range of drone remote control * (actual effective range of jammer field test / actual remote control range of the drone).
Assessment of Failures: During testing, monitor whether the drone – remote control malfunctions, if positioning (including GPS/GLONASS failure) is compromised, and whether the image transmission signal is disrupted.
Technical Specifications
| Weight | Approximately 10 kg (excluding internal battery) |
| Dimensions | 120??90??10mm |
| Antenna Length | 60mm |
| Battery Type | Integrated lithium battery, operational duration 2 hours |
| Charging Method | AC adapter (AC 220V-DC 27V or 24V/45 AMP) |
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