KSTAM consists of sensor fuzed smart munition, flight stabilization wing assembly, and base detonation fuze. Sensor fuzed smart munition consists of an
EFP warhead made of
tantalum, a safety and loading device, a multimode sensor and signal processing system consisting of
millimeter band radar and
infrared, and a flight and descent stabilization system. In addition, KSTAM consists of multimode sensors that combine
MMW sensors and
Infrared sensors, enabling attacks on targets that move without being affected by bad weather and
jamming. The flight and descent stabilization system consists of a decelerating parachute and an autorotating parachute. The autorotating parachute is designed in a special canopy form through aerodynamic analysis to maintain a constant inclination angle, rotational speed, and descent speed when the sensor fuzed smart munition descents and search for targets. The sensor fuzed smart munition is separated from the wing assembly during flight at its highest altitude, the deceleration parachute deploys and descents at a speed of about 75 m/s. After the autorotating parachute is deployed, the sensor fuzed smart munition searches for the target while spirally descending at an inclination angle of 30 degrees, a rotation speed of 3 rps (180 rpm), and a descent speed of 13 m/s. The
warhead serves to penetrate the top of the target from a long distance after detonation. The material of the liner is
tantalum and forms a penetrator under the
pressure generated by the detonation of
explosives. The
explosively formed penetrator contains high kinetic energy, and after hitting the upper surface of the tank at a speed of about 2000 m/s, the lethal effect is maximized by "Behind armor fragmentation effect" in which not only the penetrator but also the inner armor of the tank destroyed by the penetrator forms fragments. ==Usage==