Drones are increasingly used in military operations for intelligence gathering, electronic jamming, and small-scale attacks, posing threats to traditional defense systems. To counter these threats, drone detection and defeat systems are essential. These systems combine detection, tracking, identification, and jamming capabilities, enabling quick threat assessments and preventing low-altitude drone incursions by addressing gaps in conventional air defense.

Cincoze’s client is a prominent provider of anti-drone technology solutions in the Asia-Pacific region, specializing in advanced detection and defense technologies. They integrated the Cincoze DI-1200 into their reliable and efficient drone detection and defeat system. This integration has improved the detection of low-altitude drones, enhanced the secrecy and safety of operations, and ultimately resulted in increased overall combat effectiveness.

Compact size

Drone detection and defeat systems need to be highly adaptable for installation on different types of carriers. The industrial computer which serves as the system's core, must feature a compact, easy-to-install, and integrated design. This approach helps address challenges such as limited space and complex wiring.

Rugged with industrial-grade protections

Drone detection and defeat systems operate in varied and harsh operating environments. An industrial computer for this task must have industrial-grade protections to endure challenges such as vibrations, shocks, and drastic temperature changes. The best choice is to pass the MIL-STD-810H military standard test to ensure stable operation under various harsh conditions.

Multiple power supply options

Drone detection and defeat systems are mounted on military vehicles, surface craft, and other mobility equipment that operate in various power supply environments with different voltage levels. To ensure the stable operation of these systems, industrial computers must be able to support a wide range of voltage inputs and adapt flexibly to diverse power sources.

Compact size and GNSS support

The DI-1200 is compact, measuring just 203 x 142 x 66.8 mm, making it easy to install in tight spaces, such as roof racks on military vehicles and surface craft. It also supports GNSS for accurate location and trajectory tracking, which is essential for drone detection and target tracking.

The DI-1200 supports the IGN (Power Ignition Sensing) function and has a delayed shutdown function to prevent temporary power outages or unstable power supply in military vehicles or surface craft from causing system damage or data loss.

High-performance and power saving

The DI-1200 features a 12th-generation Intel® Core™ U-series processor (Alder Lake-P Platform), delivering powerful computing performance. It can process large amounts of data from multiple sensors in real-time and perform key tasks, such as target identification and threat assessment. The 15W power-saving design is suitable for power-constrained vehicles and mobility deployment scenarios, effectively balancing performance and energy efficiency.

Rugged design, enhanced mission stability

Drone detection and defeat systems must effectively handle challenges such as vibrations, voltage fluctuations, multiple power sources, and harsh climatic conditions typical of battlefield environments. The DI-1200, at its core, complies with the MIL-STD-810H U.S. military standard, ensuring stable operation even under high levels of vibration and shock. It supports a wide voltage range (9–48 VDC) and can operate in extreme temperatures (-40 to 70°C), allowing it to adapt flexibly to various power supply conditions and battlefield environments. This capability significantly reduces deployment restrictions. Additionally, the system has obtained E-mark certification, confirming its stable performance in high electromagnetic interference environments, meeting the stringent stability and safety requirements for vehicle-mounted systems.