MOSCOW, August 25. /TASS/. The preliminary trials of the latest Derivatsiya-PVO anti-aircraft artillery system showed its efficiency in shooting down various types of drones, the press office of Uralvagonzavod defense manufacturer (a part of the state tech corporation Rostec) told TASS on Tuesday.
"The anti-aircraft system’s combat vehicle has passed preliminary trials successfully. The trials have confirmed the gun’s potential to fight various types of drones. It will be possible to see specific parameters of the anti-aircraft system’s efficiency after all the trials with newly developed munitions are complete," the press office said.
The 2S38 ‘Derivatsiya-PVO’ anti-aircraft artillery system was unveiled at the Army-2018 international arms show. The self-propelled surface-to-air artillery system is mounted on the chassis of the BMP-3 infantry fighting vehicle and is outfitted with a combat module with a 57mm automatic gun.
The gun is capable of firing programmable burst munitions to fight air targets most effectively. The Derivatsiya-PVO is primarily designated to fight drones, cruise missiles and aircraft weapons in the close-in zone. The anti-aircraft artillery weapon is also capable of striking ground targets.
The Derivatsiya-PVO needs no radar station thanks to its opto-electronic guidance and reconnaissance system and the advanced fire control technology, which boosts its stealth properties: it can effectively spot targets in any conditions with the help of 2S38 TV and thermal imaging channels, while staying invisible for the enemy.
In addition to the gun, the Derivatsiya-PVO is armed with a 7.62mm Kalashnikov PKTM machine-gun with an ammunition load of 500 rounds to fight infantry. A 9T260 transporter-loader vehicle has been created for the Derivatsiya-PVO to deliver several ammunition loads at a time and quickly reload the combat vehicle directly on the battlefield.
The Derivatsiya-PVO anti-aircraft artillery system rolled through Moscow’s Red Square for the first time during the Victory Parade on June 24, 2020.