TTSK-AY-13: Advanced GNSS Spoofing & Anti-Drone Defense System for Infrastructure Protection| Drone Spoofer
The TTSK-AY-13 is an industry-leading GNSS spoofing device engineered for secure, reliable, and scalable counter-drone operations. Utilizing advanced navigation satellite signal simulation, it transmits realistic GNSS signals that seamlessly integrate with target UAV systems, enabling precise control over drone behavior—from diversion and deterrence to forced landing or controlled termination.
Ideal for oil & gas facilities, power plants, public security, and military installations, the system supports all major global navigation constellations (GPS, BDS, GLONASS, Galileo) and offers extensive configurability through external command interfaces. With customizable deception ranges, flexible trajectory programming, and robust environmental durability, the TTSK-AY-13 provides a future-ready, non-kinetic solution for airspace security in high-risk environments.
Product Specifications| Parameter | Details |
|---|---|
| Model | TTSK-AY-13 |
| GNSS Support | GPS, BDS, GLONASS, Galileo |
| Deception Range | Configurable (5km, 10km, 20km options) |
| Output Power | 5W–50W (range-dependent) |
| Frequency Bands | B11, B1C, B21, B31, L1 C/A, L2, L5, E1, E5a, E6, L1, L2 |
| Attenuation Adjustment | 80dB range, 1dB resolution |
| Startup Time | ≤60 seconds |
| Signal Sync Time | <180 seconds |
| Input Voltage | AC 110–300V |
| Dimensions | 430 × 370 × 175 mm (without antenna) |
| Weight | <20 kg |
| Operating Temperature | –40°C to +50°C |
| Storage Temperature | –40°C to +70°C |
| Protection Rating | IP65 |
1) Supports signal reception and simulated transmission from the four major global navigation satellite systems and commonly used navigation frequencies in Japan and India.
2) Can perform navigation deception on UAVs that rely on satellite navigation and positioning systems, achieving objectives such as forced landing, heading guidance, takeoff prohibition, and navigation satellite signal interference;
3) Supports external direction finding modules to identify target azimuth and use heading guidance functions to control the target UAV's horizontal forward, backward, left, and right movements.
4) Supports external command control of arbitrary navigation signal combinations for transmission;
5) Supports setting arbitrary position coordinates (longitude, latitude, altitude) via external commands, and can also use built-in fixed coordinates;
6) Supports setting simulated parameters such as signal delay, motion speed, and acceleration via external commands;
7) Supports setting preset trajectories such as linear motion and circular motion via external commands;
8) Supports externally added motion trajectories; the module calculates and outputs the corresponding navigation satellite signals based on the input information;
9)Supports real-time ephemeris mode and permanent ephemeris mode;
10)Supports satellite navigation signal suppression and interference output
11) Provides a network secondary development control interface;
Prisons/Judicial Units: Strengthening the Supervisory Defense Line
• Accurately detects low-altitude, slow-moving, and small drones within 1-3 km of the perimeter fence;
• Forces drones to land, locates and apprehends the operators;
• Can interface with security systems.
Energy Facilities: Protecting Critical Assets
• 24/7 unattended operation, stable operation even in adverse weather conditions;
• Directional and omnidirectional interference with drone signals;
• Records event data.
Large-Scale Events: Maintaining Public Order
• Deployment in multiple modes including vehicle-mounted, portable, and fixed locations;
• Silent operation, without disturbing the site.
Border/Classified Units: Safeguarding Core Secrets
• Anti-interference capabilities, resisting drone signal camouflage;
• Encrypted transmission, no storage of sensitive data, meeting confidentiality requirements;
• Full-chain protection of "detection-response-tracing".
