Drone Countermeasure System
By emitting high-power electromagnetic waves to control drones in flight, the connection between drones and remote controllers is cut off at a long distance, ensuring the safety of low altitude airspace in the area. By using our drone radar detection system in conjunction, we can expand the scope of airspace control and solve air safety hazards.
Drone countermeasures system
With the popularization of drones, they have rapidly penetrated into various civilian and military fields. The increase in the number of users has led to increased regulatory difficulties, bringing great pressure to security and other work. In the absence of sound drone regulation, Yingxin Technology has launched the QR series drone countermeasures system. By emitting high-power electromagnetic waves to control drones in flight, the connection between drones and remote controllers is cut off at a long distance, ensuring the safety of low altitude airspace in the area. By using our drone radar detection system in conjunction, we can expand the scope of airspace control and solve air safety hazards.
The drone countermeasures system is a collection of technologies and measures aimed at preventing or mitigating potential threats posed by drones, such as privacy infringement, security threats, illegal transportation, etc. These systems can be applied in both military and civilian fields to protect critical infrastructure and important areas from drone interference. Here are some key points about drone countermeasures:
Technical Overview: Unmanned aerial vehicle countermeasure technology includes soft killing methods such as radio interference, GPS deception, communication signal interception, network attacks, and acoustic countermeasures, as well as hard killing methods such as missiles, directed energy weapons, or explosive devices.
Integration of AI for autonomous threat assessment and real-time decision-making.
Machine learning algorithms for continuous improvement in detection and countermeasures.
Use of big data analytics for pattern recognition and predictive analysis.
Multi-Sensor Detection: Utilizing radar, electro-optical/infrared sensors, acoustic sensors, and Lidar for 360-degree surveillance.
RF Interference: Advanced radio frequency jamming capabilities to disrupt drone communication links.
GPS Spoofing: Techniques to confuse drone GPS systems, forcing them off course or back to base.
Cybersecurity Measures: Protection against cyber threats by securing communication channels and data integrity.
Directed-Energy Weapons: High-energy lasers or microwaves for precise targeting of drone components.
Kinetic Solutions: When necessary, the use of physical measures like net guns or interceptor drones.
Detection and Tracking: The anti drone system utilizes technologies such as radar, photoelectric/infrared sensors, acoustic sensors, and lidar to detect and track drones.
Communication technology and artificial intelligence: Modern anti drone technology relies on the progress of communication technology and the integration of artificial intelligence to improve the real-time response ability, data processing speed, and decision support of the system.
1. QR-07S3 (Drone countermeasures system)
parameters | |||
control distance | 1500 m | working time | 100-120 min |
weight | ≤4 kg | trigger lifespan | ≥ 10,000 times |
operating ambient temperature |
-25℃-60℃ |
portable operation | One or two handed |
control model | One click switching function allows the drone to land in place or return to the starting point | ||
size | L746 x H288 x W79 mm (±2mm) | ||
power supply mode | 6.8AH 24V high-capacity lithium battery/ 3.4AH * 2.24V high-capacity lithium battery | ||
2. QR-Mini (Portable drone countermeasure system)
parameters | |||
control distance | 1500 m | working time | 100-120 min |
weight | ≤4 kg | trigger lifespan | ≥ 10,000 times |
operating ambient temperature | -25℃-60℃ | portable operation | One handed or fixed |
size | L320 x H180 x W100 mm (±2mm) | ||
power supply mode | 6.8AH 24V high-capacity lithium battery | ||
3. QR-11 (Vehicle mounted drone countermeasure system)
Technical Characteristics:
a. Install an ultra wideband jammer in the car: 20MHz-6000MHz
b. Continuous and simultaneous interference with commonly used frequency bands of RF signals
c. The equipment adopts a waterproof and shockproof outer box design, which moves like a manual box and is easy to handle
d. The maximum total weight of the host equipment is 90KG
e. Equipped with a high-power generator, with good low-noise operating performance
f. The device can be equipped with a backup battery system, ensuring long-term silent operation and fast startup
g. Integrated intelligent start-up cooling system inside the equipment to ensure the continuous operation of the host
h. Design an operating platform system next to the driver for easy operation, providing start/stop switches for each individual frequency band
i. The vehicle has undergone special RF shielding modifications to fully protect the safety of the driver and VIP passengers
Product parameters
frequency range | 20-6000 MHz (5725-5850 MHz |
Interference distance | Omnidirectional class radius 500-1500 m (field strength around -75 dBm) |
Total power | Maximum 1300-1500W |
Number of modules | 18-24 |
Number of frequency segments | Up to 50-70 segments |
Temperature control | intelligent temperature control system |
Protection system | Standing wave ratio, overcurrent, overvoltage protection system |
Controller | Driver centralized control |
Antenna | High gain omnidirectional antenna |
Power supply system | Generating system 5800-7000 W |
Working temperature | -35℃-65℃ |
Working intensity | Maximum 80% |
4. Radar detection system
Technical Characteristics:
a. Detect unmanned aerial vehicle (UAV) targets flying within a designated airspace within 5 kilometers (with a azimuth beam width of 15 °)
b. Can be linked with photoelectric turrets
c. Reserve ATE interface for radar overall detection
weight | ≤55 kg (exclude computer) |
range resolution | ≤20 m |
power dissipation | ≤300 W |
size | ≤φ1005*850 |
working temperature | -25℃-60℃ |
radar system | FM continuous wave system |
range accuracy | ≤12 m |
radar chennel | X channel |
target radial velocity | ≥3m/s |
number of tracking targets | ≤64 |
detection zone | 360°,270°,180°,90° (optional) |
beam coverage | look down/up ≥7° (scalable 17°) |
power interface | 220V/50Hz |
external interface | EtherNet RJ45, Network Protocol TCP/IP |
5. QR-12 Position based drone reconnaissance and electro-optical strike system
Application scope
Surrounding security points and lines designed for political core areas, executive residences, foreign affairs activities, and other major security tasks, flammable and explosive hazardous areas such as nuclear power plants, refineries, and oil storage facilities, as well as venues for major events.
product parameters | |
frequency range | Radio signal link frequency band based on civilian grade drones: detection range 300-6000MHz |
longest detection distance | not less than 8 km |
single station detection area diameter | not less than 6 km (transmission power 0.1 W) |
component weight | detect component weight:15.40 kg system host weight:14.56 kg |
component size | detect component size:φ690 x H450 mm system host size:L460 x W230 x H350 mm |
equipment power supply method | AC220V / gasoline generator |
detection angle | 360 ° airspace in all directions |
first interception time | not more than 5s |
last withdrawal time | not more than 5s |
detect and intercept quantity | not less than 40 aircraft |
ambient temperature | -35℃-85℃ |
working environment humidity | 80±3% |
