Ukrainian drone strike damages key Russian radar station

Over-the-horizon radars are one of the pillars of Russia's security. With a range measured in thousands of miles, they are intended to detect threats in advance – primarily ballistic missiles. One of the four such stations was severely damaged by Ukrainians.

On Thursday, May 23, Ukraine carried out an unprecedented attack on strategically significant installations located in Russia. The target of the Ukrainian drones was the radar station in Armavir (Krasnodar Krai, 44°55'32.0"N 40°59'02.0" E), consisting of two 77Ya-6DM Voronezh-DM over-the-horizon radars.

These radars are the size of multi-story buildings, so they were not destroyed due to their dimensions. However, available recordings confirm that both were severely damaged.

This is a critical success for the Ukrainians, not only in a propaganda dimension. A successful attack was carried out on one of the few facilities that were critically crucial to Russia's strategic security. Each radar costs approximately 4.5 billion rubles (approximately £39 million), and its construction and commissioning require many years.

The Russian early warning network consists of four Voronezh-DM stations with UHF band radars (one of which was just damaged), four with VHF band radars, and one Voronezh-WP radar, also operating in the VHF band.

These radars are distributed on the edges of Russia, including the Kaliningrad Oblast. According to Russian sources, each station is capable of detecting an object the size of a football from a distance of 3,000-4,000 miles and simultaneously tracking up to 500 detected targets. In practice, this means controlling the airspace over Europe and part of the Atlantic.

Voronezh-DM has such an extensive range because It is an over-the-horizon radar (similar to, for example, Duga radars, which include the famous Moscow Eye). This device uses the ionosphere's properties (one of the atmospheric layers stretching approximately 60 km high).

Plasma results from the ionisation of gas molecules, enabling the ionosphere to act as a considerable screen reflecting radar waves. A signal sent at an appropriate angle by the over-the-horizon radar—reflecting off the ionosphere and the ground—can reach far beyond the horizon, enhancing the range of ordinary radars.