What type of radar technology is used in Firefinder systems?

Firefinder systems utilize phased array radar technology, which is key to their ability to detect, track, and identify incoming artillery, rockets, and mortars. Phased array radar allows for the electronic steering of the radar beam, enabling rapid changes in direction without the need for physically moving the antenna. This capability enhances the system's coverage and responsiveness in detecting threats, making it highly effective in battlefield situations.

The phased array technology operates by using an arrangement of many small antenna elements that can be controlled individually. This provides significant advantages in terms of tracking multiple projectiles simultaneously and providing accurate data on their trajectories. As a result, these systems can deliver timely fire mission data to artillery units, allowing them to respond quickly to incoming threats.

In contrast, the other radar technologies mentioned have different applications or limitations. Pulse-Doppler radar is typically used for detecting movement and speed, while ground-based radar technology focuses on monitoring specific terrains rather than the broad detection capabilities required by Firefinder. Monopulse radar, although highly accurate for measuring angles, does not offer the multi-target tracking capability that phased array systems do. Hence, the effectiveness and design of Firefinder systems are fundamentally based on the strengths of phased array radar technology.