Russia’s Mi-28 Attack Helicopter Has a New Mission

September 17, 2021 Topic: Russian Military Region: Russia Blog Brand: The Reboot Tags: Attack HelicopterMi-28NM

Russia’s Mi-28 Attack Helicopter Has a New Mission

Much of the technology now incorporated into the chopper has been on Western attack helos for many years.

 

Here's What You Need to Know: The latest update of the Russian Mi-28 attack helicopter has new technologies and sensors that amplify its capability.

Prowling the skies of Syria is the “Night Superhunter.”

 

It’s not a comic book superhero, but the newest Russian attack helicopter.

The Mi-28NM, the latest upgrade of the Mi-28 (NATO code name “Havoc”), is equipped with advanced sensors that enable it to conduct night operations, according to Russia’s Izvestia newspaper.

“The main novelty of the Mi-28NM is the N025E radar, which was previously installed only on export models,” Izvestia says. “The antenna receiving and transmitting part of the radar is located above the rotor of the helicopter. From the side it looks like a ball - it is a special fairing made of radio-permeable material. Such an arrangement of the radar gives a circular view, and also allows you to receive a radar image of the terrain, hiding in uneven terrain behind artificial and natural obstacles while remaining invisible to the enemy. On the battlefield, the radar station can effectively operate from ambush, the first to strike unexpected blows at the enemy.”

The Mi-28, the successor to the chunkier Cold War Mi-24 Hind and the counterpart of the Apache, is an early 1980s design. The Mi-28N debuted in the 1990s, with the NM model its latest iteration. The 9-ton Mi-28NM has a top speed of 300 kilometers per hour (186 miles per hour), a range of 450 kilometers (280 miles), and can carry 2,300 kilograms (5,100 pounds) of ordnance, according to Izvestia. Armament includes a 30-millimeter cannon, 9M120 Ataka anti-tank missiles, and rocket pods.

Significantly, given Russia’s recent willingness to deploy military force abroad, the Izvestia article emphasized that the Mi-28NM’s VK-2500P-01/PS engine can operate in harsh climates: “New design solutions guarantee reliable operation in areas not only with a temperate climate, but also in desert areas with high temperatures, as well as in conditions of high mountains, such as, for example, in Syria.”

In addition, the newest Havoc has networking capabilities. “Electronics will allow pilots to receive target designations from advanced aircraft designers and intelligence units, which will greatly increase the effectiveness of interaction with ground forces, since the detected targets can be destroyed almost instantly,” says Izvestia.

The Mi-28NM is part of Russia’s plan to modernize its attack helicopters. “In addition to the Mi-28NM, it will also touch the MI-35 series,” Izvestia says. “This year, the program for upgrading Mi-35M helicopters to Mi-35MV starts: new armor, engines and long-range optics will be installed on them, which will allow them to find targets and destroy them at any time of day and in any weather at a distance of several kilometers. Helicopters will also receive an electronic warfare system and protection from man-portable air defense systems. The new equipment will turn the helicopter into a modern flying airborne assault vehicle.”

What’s interesting is how much of the technology touted by Izvestia is commonplace in Western militaries. For example, since the late 1990s, the U.S. AH-64D Apache Longbow has had a radar mounted to the top of its mast (the vertical shaft to which the rotor is attached). Tactical networking, in which a vehicle or aircraft can pass on targeting data to another platform that launches a missile, is also common. U.S. Apaches have sophisticated radar and thermal sensors for nocturnal operations.

Still, the Mi-28NM indicates that Russia continues to improve its attack helicopter capabilities.

 

Michael Peck is a contributing writer for the National Interest. He can be found on Twitter and Facebook.

This article first appeared in July 2019.

Image: Wikipedia.