In an era where unmanned aerial vehicles (UAVs) have become an integral part of both civilian and military landscapes, the need for robust Counter Drone Sub-systems has never been more critical. Unistring Tech Solutions (UTS) stands at the forefront of innovation, offering cutting-edge solutions to address the evolving challenges posed by drones. Our Counter Drone Sub-systems seamlessly integrate advanced technology, including RF Detection Systems and Soft Kill Jammer Systems, providing unparalleled security and control.
Advanced Jamming Techniques: Directional and omnidirectional jammers disrupt drone navigation effectively.
Customizable Solutions: Tailored to suit various operational needs from border security to urban environments.
Real-Time Data Management: Command center facilitates quick decision-making and threat neutralization.
Frequency Range: ISM bands (433 MHz, 915 MHz, 2.45 GHz, 5.8 GHz) and wide band (100MHz to 6GHz).
Detection Range: Up to 10Km for commercial and military drones.
Angle Coverage: 360° azimuth and 50° elevation.
Frequency Coverage: 433 MHz, 915 MHz, 2.45 GHz, 5.8 GHz, and wideband (400MHz to 6GHz).
Jamming Range: Up to 10 Km.
Architecture: Directional and Omni antennas for comprehensive jamming.
Data Fusion & Command Center: Advanced display of threats and alerts. Map-based integration with spectrum and waterfall screens. Fusion of data from multiple sensors for accurate drone tracking.
Enhanced Capabilities: Multi-Sensor Detection; Integrates RF sensors, radars, and electro-optical systems for complete surveillance.
Advanced Jamming Techniques: Directional and omnidirectional jammers disrupt drone navigation effectively.
Customizable Solutions: Tailored to suit various operational needs from border security to urban environments.
Real-Time Data Management: The Command center facilitates quick decision-making and threat neutralization.
Our commitment to research and develop ensures that our solutions remain cutting-edge and reliable.
The Portable ELINT Module offered by UTS is a sophisticated piece of equipment designed for electronic intelligence applications. It features a wide frequency range from 500 MHz to 6000 MHz across four receive channels.
Key specifications include synchronous channel data processing with up to 600 MHz bandwidth, an integrated RF front-end, high sensitivity, and a Xilinx Zynq Ultrascale MPSOC chip FPGA. The module is equipped with memory features, GPS interface, a stable OCXO 100 MHz onboard, and an Ethernet interface for command and data transfer. It supports various configurations and processing capabilities, including amplitude and phase-based DOA algorithms, high-resolution time stamping, runtime GPS data interface for vehicle-based applications, and IP configuration for network connectivity. Additionally, it is compatible with UTS developed Linux/Windows map applications and supports data streaming and PDW processing.
Introducing the COMINT Electronic Warfare Scenario Simulator – an innovative, state-of-the-art solution for testing and validating communication electronic warfare systems. This real-time simulator is designed to generate realistic EW scenarios, providing an indispensable tool for modern military systems. With the growing complexity of communication intelligence (COMINT) in warfare, our simulator ensures your systems are rigorously tested and ready for any challenge.
Versatile RF Generation: Ranging from 100 MHz to 6000 MHz, the simulator offers an extensive frequency range to cover a wide spectrum of communication channels.
Advanced Digital Baseband Generation: Ensures precise simulation of digital communication signals.
Comprehensive Modulation and Encoding Support: Includes FPGA firmware for source encoding & TDM analog and digital modulation, catering to a variety of signal types.
Intuitive Scenario Creation: A user-friendly GUI allows easy and detailed scenario creation, tailoring simulations to specific requirements.
Configurable EW Entity Parameters: Spatial Properties: Customize azimuth, elevation, radiation patterns, and antenna orientation to simulate real-world conditions.
Dynamic Trajectories: Configure profiles, velocity, and endurance to mirror realistic movement of EW entities.
Electrical Properties: Accurately simulate waveform, modulation types, LPI, spread spectrum signals, TDM, and source encoding.
Monitoring and Analysis RX Testing: Ensure the reliability and accuracy of your receivers under complex scenarios.
Search and DF Testing: Test direction-finding capabilities in various conditions.
Follow-on Jammer Testing: Evaluate jamming techniques and their effectiveness.
LF Testing and COMINT: Test low-frequency systems and improve COMINT capabilities.
User Experience: Operated through a Windows-based application, the COMINT EW Scenario Simulator offers a smooth, graphical interface, making scenario creation and operation straightforward and efficient. Entities within the simulator can move with six degrees of freedom, offering both airborne and ground-based simulation options.