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Russian Anti-Aircraft Missile System Buk-M2 Shoots Down A Ukrainian MiG-29!
The Russian anti-aircraft missile system Buk-M2 hit an air target in the Kharkov region.
The command post of the air defense battery later reported that the Ukrainian MiG-29 near Izyum was shot down.
Buk-M2 Anti-Aircraft Missile System Information 👇
The Buk missile system is the successor to the NIIP/Vympel 2K12 Kub (NATO reporting name SA-6 "Gainful").
The first version of Buk adopted into service carried the GRAU designation 9K37 Buk and was identified in the west with the NATO reporting name "Gadfly" as well as the US Department of Defense (DoD) designation SA-11.
With the integration of a new missile the Buk-M1-2 and Buk-M2 systems also received a new NATO reporting name Grizzly and a new DoD designation SA-17.
Since 2013, the latest incarnation "Buk-M3" is currently in production and active service with a new DoDdesignation SA-27.
A naval version of the system, designed by MNIIRE Altair (currently part of GSKB Almaz-Antey) for the Russian Navy, received the GRAU designation 3S90M and will be identified with the NATO reporting name Gollum and a DoD designation SA-N-7C, according to Jane's Missiles & Rockets.
The naval system was scheduled for delivery in 2014.
Development
Development of the 9K37 "Buk" started on 17 January 1972 at the request of the Central Committee of the CPSU.
The development team included many of the same institutions that had developed the previous 2K12 "Kub" (NATO reporting name "Gainful", SA-6), including the Tikhomirov Scientific Research Institute of Instrument Design (NIIP) as the lead designer and the Novator design bureau, which was responsible for the development of the missile armament.
Agat were employed to develop radar-homing capacities in addition to the land-based system, a marine system was to be produced for the Navy: the 3S90 "Uragan" (Russian: "Ураган"; hurricane) which also carries the SA-N-7 and "Gadfly" designations.
The Buk missile system was designed to surpass the 2K12 Kub in all parameters, and its designers, including its chief designer Ardalion Rastov, visited Egypt in 1971 to see Kub in operation.
Both the Kub and Buk used self-propelled launchers developed by Ardalion Rastov.
As a result of this visit, the developers came to the conclusion that each Buk transporter erector launcher (TEL) should have its own fire control radar, rather than being reliant on one central radar for the whole system as in Kub.
T tryhe result of this move from TEL to transporter erector launcher and radar (TELAR) was development of a system able to shoot at multiple targets in multiple directions at the same time.
In 1974 the developers determined that although the Buk missile system is the successor to the Kub missile system, both systems could share some interoperability.
The result of this decision was the 9K37-1 Buk-1 system.
Interoperability between Buk TELAR and Kub TEL meant an increase in the number of fire control channels and available missiles for each system, as well as faster entry of Buk system components into service.
The Buk-1 was adopted into service in 1978 following completion of state trials, while the complete Buk missile system was accepted into service in 1980 after state trials took place between 1977 and 1979.
The naval variant of the 9K37 "Buk", the 3S90 "Uragan," was developed by the Altair design bureau under the direction of chief designer G.N. Volgin.
The 3S90 used the same 9M38 missile as the 9K37, though the launcher and associated guidance radars were exchanged for naval variants.
After the 9S90 system was tested, between 1974 and 1976 on the Kashin-class destroyer Provorny, it was accepted into service in 1983 on the Project 956 Sovremenny-class destroyers.
No sooner had the 9K37 "Buk" entered service than the Central Committee of the CPSU authorised the development of a modernised 9K37 which would become the 9K37M1 Buk-M1, adopted into service in 1983.
The modernisation improved the performance of the system radars, its "probability of kill" and its resistancesystem radars, its "probability of kill" and its resistance to electronic countermeasures (ECM).
Additionally a non-cooperative threat classification system was installed, relying on analysis of returned radar signals to purportedly identify and clearly distinguish civilian aircraft from potential military targets in the absence of IFF.
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