Russian anti-aircraft divisions successfully test the S-400 missile systems (video)

Subscribe to Google News

MOSCOW, (BM) – Anti-aircraft division of the Southern Military District used the S-400 Triumph anti-aircraft missile systems for eight low-flying high-speed maneuverable targets during training at the Kapustin Yar training ground.

The targets were target missiles “Boar”, “Bekas” and “Armavir”. Turning around in the positional area and stepping on duty, the units repelled a conditional airstrike of planes and helicopters with anti-aircraft missile launches.

What S-400 anti-aircraft missile system is?

The S-400 Triumf previously known as the S-300PMU-3, is an anti-aircraft weapon system developed in the 1990s by Russia’s Almaz Central Design Bureau as an upgrade of the S-300 family. It has been in service with the Russian Armed Forces since 2007. In 2017 the S-400 was described by The Economist as “one of the best air-defence systems currently made”. According to Siemon Wezeman Senior Researcher of SIPRI the S-400 “is among the most advanced air defence systems available”.

Read more: S-400 Missile System Will be Part of Joint Russian-Serbian Exercise

The 30K6E is an administration system which manages eight divizion (battalions). The 55K6E is a command and control centre based on the Ural-532301. The 91N6E is a panoramic radar detection system (range 600 km) with protection against jamming which is mounted on an MZKT-7930.

The S band system can track 300 targets. Six battalions of 98ZH6E surface-to-air missile systems (an independent combat system) can track no more than six targets on their own, with an additional two battalions if they are within a 40-kilometre (25 mi) range. The 92N6E (or 92N2E) is a multi-functional radar with a 400-kilometre (250 mi) range which can track 100 targets. The 5P85TE2 launcher and the 5P85SE2 on a trailer (up to 12 launchers) are used for launch. The 48N6E, 48N6E2, 48N6E3, 48N6DM, 9M96E, 9M96E2 and the ultra-long-range 40N6E are authorised by a Russian presidential decree. According to the Russian government, the S-400 utilises an active electronically scanned array.

Optional elements of the S-400 (98ZH6E) include the 15I6ME–98ZH6E, with coverage of 30, 60 and 90 km beyond the 30K6E coverage. The 96L6E has a 300-kilometre (190 mi) detection range. The 40B6M is housing for the 92N6E or 96L6E radar. The Protivnik-GE is an anti-stealth UHF radar with a 400-kilometre (250 mi) range. The Moscow-1 passive sensor is ​2 1⁄2 times more effective than the Protivnik, with a 400-kilometre (250 mi) range Orion for a target-designation on-the-air defence system, and the Avtobaza-M and Orion+ Avtobaza adds high-precision detection.

Read more: Turkey Will Use Its S-400 Missile Defense Systems, Minister Said

The 1RL220BE versions were reportedly used for jamming. The 400-kilometre (250 mi)-range S-200D Dubna (SA-5c) missiles and S-300 P-family radar systems can be used without additional command-and-control centres. S-300 (SA-20A, SA-20B) missiles may also be guided. A-50 and A-50U aircraft provide early warning and command-and-control target designation.

The 30К6Е control system can be integrated with the S-400 Triumf 98ZH6E system; the S-300PMU2 (through the 83М6Е2 control system); the S-300PMU1 (through the 83М6Е control system); the Tor-M1 through the Ranzhir-M battery-command post; the Pantsir-S1 through the lead battery vehicle.

The Protivnik-GE and Gamma-DE radars, integrated with the 92H6E radar system, enables communication between each battery with Baikal-E senior command posts and similar types; nearby 30К6Е, 83М6Е and 83М6Е2 administration systems; the Polyana-D4М1 command post; fighter-aircraft command post, and mobile long-range radars. The system’s VHF component provides sector search and tracking, with the X- and L-band components providing fine-tracking capability.

Read more: India’s purchase of S-400 missile systems is an independent decision and should be respected

Good placement of the radars relative to the threat axis enables the L- and X-band components to illuminate the incoming target from angles where the target RCS is sub-optimal. The RLM-S and RLM-D have better elevation-tracking accuracy than the RLM-M, and the Nebo M should be capable of producing high-quality tracks suitable for mid-course guidance of modern surface-to-air missiles and trajectory guidance of legacy SAMs.

The Gamma-C1E SHF mobile radar station has a 300-kilometre (190 mi) detection range. The Nebo VHF mobile radar station and the Resonance-NE radar station have a detection range of 1,200 kilometres (750 mi) and 65 kilometres (40 mi) to a height of 500 metres (1,600 ft). All Nebo-family locators are doubled for army air defence. During the 1970s, the long-range mobile UHF 5H87 and SHF 5H69 low-altitude locators were used a 1980s goal was detection at a height of 10 metres (33 ft) at a distance of 40 km (25 mi). The Elbrus-90 computer is used to control the system.

For export to foreign customers, with the purpose of integrating existing customer air defence systems, additional work on improvement of the 30K6E administration system for information technology pairing with anti-kets is in progress.

Read more: A German Journalist Called the Russian Missile Complexes S-400 “A Nightmare for NATO”

Follow us everywhere and at any time. BulgarianMilitary.com has responsive design and you can open the page from any computer, mobile devices or web browsers. For more up-to-date news from us, follow our YouTube, Reddit, LinkedIn, Twitter and Facebook pages. Do not miss the chance to subscribe to our newsletter. Subscribe and read our stories in News360App in AppStore or GooglePlay or in FeedlyApp in AppStore or GooglePlay

>>Be a reporter: Write and send your article.<<

BulgarianMilitary.com
Editorial team
Source: Wikipedia, YouTube, MoD of the Russian Federation

This website uses cookies to improve your experience. We'll assume you're ok with this, but you can opt-out if you wish. Accept Read More