The S-400 Triumf (Russian: C-400 Триумф – Triumf; translation: Triumph; NATO reporting name: SA-21 Growler), previously known as the S-300 PMU-3,[2] is a mobile, surface-to-air missile (SAM) system developed in the 1990s by Russia's Almaz Central Design Bureau for Marine Engineering as an upgrade to the S-300 family.
Mobile surface-to-air missile air defense
"S-400" redirects here. For other uses, see S400.
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The S-400 went into service on 28 April 2007. The first battalion of the newest surface-to-air missile systems assumed combat duty on 6 August.
Development
The development of the S-400 system began in the late 1980s and was announced by the Russian Air Force in January 1993.[3] On 12 February 1999 successful tests were reported at Kapustin Yar in Astrakhan, and the S-400 was scheduled for deployment by the Russian army in 2001.[4] Dr. Alexander Lemanskiy of Almaz-Antey was the Chief Engineer on the S-400 project.
In 2003, it became apparent that the system was not ready for deployment. In August, two high-ranking military officials expressed concern that the S-400 was being tested with "obsolete" interceptors from the S-300P system and concluded that it was not ready for deployment.[4] The completion of the project was announced in February 2004. In April, a ballistic missile was successfully intercepted in a test of the upgraded 48N6DM missile.[5][6] In 2007, the system was approved for service.[7] Russia had accepted for service the 40N6 long-range missile for the S-400 air-defence system, a source in the domestic defense industry told TASS news agency in October 2018.[8]
S-400 missile systems are organized around the 30K6E administration system, which can coordinate eight divisions (battalions).[11][12][13]
The 55K6E is a command and control center based on the Ural-532301. The 91N6E[11] is a panoramic radar detection system with a 600-kilometre (370mi) range and protection against jamming, and is mounted on an MZKT-7930.[citation needed] Six battalions of 98ZH6E surface-to-air missile systems (an independent combat system)[14] can track no more than six targets on their own,[15] with an additional two battalions if they are within a 40-kilometre (25mi) range. The 92N6E (or 92N2E) is a multi-functional radar with a 400-kilometre (250mi) range, which can track 100 targets.[16] 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 missiles have been authorized by a Russian presidential decree.[17]
Optional elements of the S-400 (98ZH6E)[14][18] include the 15I6ME–98ZH6E, which extends coverage 30, 60 and 90km (19, 38 and 57mi) from that provided by the 30K6E. The 96L6E[19] has a 300-kilometre (190mi) 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 (250mi) range.[20] The Moscow-1 passive sensor is 2+1⁄2 times more effective than the Protivnik, with a 400-kilometre (250mi) range[21] Orion[22] for a target-designation on-the-air defense system, and the Avtobaza-M[23] and Orion+ Avtobaza add high-precision detection. The 1RL220BE[14][24] versions were reportedly used for jamming.[25] The 400-kilometre (250mi)-range S-200D Dubna (SA-5c) missiles and S-300 P-family radar systems can be used without additional command-and-control centers.[26] S-300 (SA-20A, SA-20B) missiles may also be guided.[27]A-50 and A-50U[11] aircraft provide early warning and command-and-control target designation.[28]
The 30К6Е control system can be integrated with the[14] 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. 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 radar cross-section (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.[29]
The Gamma-C1E SHF mobile radar station has a 300-kilometre (190mi) detection range.[30] The Nebo-M VHF mobile radar station and the Resonance-NE radar station have a detection range of 400 kilometres (250mi), and 40 kilometres (25mi) to a height of 500 metres (1,600ft). All Nebo-family locators are doubled for army air defense.[31] During the 1970s, the long-range mobile UHF 5H87, and SHF 5H69 low-altitude locators were used.[32] A goal of the 1980s was detection at a height of 10 metres (33ft) at a distance of 40km (25mi).[33] The Elbrus-90 computer is used to control the system.[34]
Components
The 91N6E panoramic radar[35] has a declared anti-stealth targeting range of 150km (93mi)[36]
Maximum targeting ranges (detection ranges are wider) are:
For a ballistic target (speed of 4800m/s and a RCS of 0.4 square metres): 200km
For a target with RCS of 4 square metres: 390km
For targeting of strategic-bomber sized types: 400km
The 96L6 high-altitude detector (TSBS)[37][38] radar and equipment operates independently of the 96L6E low-level radar detector. The 96L6E2 export version can track a maximum of 100 targets, and is resistant to false returns of clutter in mountainous terrain. It can perform the functions of a command post for battalions of S-300 (SA20/20A/20B)[39] or S-400. The 96L6-1[40] serves as command of S-400 and S-500 batteries.
PBU 55K6E command center[41] with a maximum distance between the command center and the battalion of 98ZH6E when re-transmitters are being used is 100km (62mi).
Missiles are launched from 5P85TE2 self-propelled launchers or 5P85SE2 trailer launchers operating in conjunction with a BAZ-64022 or MAZ-543M tractor-trailer. A new type of transporter was introduced in 2014 to improve mobility while reducing fuel consumption. The cost of transporters in 2014 is 8.7million rubles.[42]
Missiles
One system comprising eight divizion (battalions) can control 72 launchers, with a maximum of 384 missiles[43] (including missiles with a range of less than 250km[160mi]).[44][45] A gas system launches missiles from launch tubes. At 30 metres (98ft) downrange rocket motor ignition activiates.[27] In April 2015, a successful test firing of the missile was conducted at an airborne target at a range of 400km (250mi);[46][47]Transporter Erector Launchers (TELs) carrying the long-range 40N6 may only hold two missiles instead of the typical four due to their large size.[48] Another test recorded a 9M96 missile using an active radar homing head that reached a height of 56km.[49] All missiles are equipped with directed explosion warheads, which increases the probability of complete destruction of targets.[50] In 2016, Russian anti-aircraft missile troops received upgraded guided missiles for S-300 and S-400 defense systems.[51] The anti-aircraft version of the missile system, designed to destroy aircraft, cruise, and ballistic missiles, can also be used against ground targets.[52] The S-400 is able to intercept cruise missiles at a range of only about 40km due to their low-altitude flight paths.[53]
High hit probability with one missile against fast, maneuvering targets. Aircraft = 0.9; UAV = 0.8; Missile = 0.7.[11][59] Load factor of more than 20g at 30km altitude greatly increases the probability to destroy short- to medium-range ballistic missiles.[26]
Targeting at the radio horizon, with homing action to aid interception of low-flying targets at long range.
The anti-ballistic missile (ABM) capabilities of the S-400 system are near the maximum allowed under the (now void) Anti-Ballistic Missile Treaty.
The new anti-ballistic missiles 77N6-N and 77N6-N1 to enter service in 2014 supposedly add inert/kinetic anti-ballistic capability to the system.[63] The same missiles will also be used by the S-500, which has a clearly stated anti-ICBM role.[64]
A separate independent air defense system, the 42S6 Morfey (Morpheus) is being developed. This system is designated as a short-range air defense system to protect the S-400 from various threats during its terminal phase, and will also act together with the S-350E as a supplement to the S-400. Together, these systems form part of the Russian Aerospace Defence Forces.[65]
Development of Morfey started in 2007 and was planned to be introduced in 2013, but was delayed until at least 2015.[66][67][68] The missile system consists of omnidirectional 29YA6 radar and 36 missiles.[65] The missiles have up to 10km range and an altitude of up to 3500m.[65][69]
An external independent target system is in the works (RLS "Niobium"). Mobility looks to be in the 5 minute range. It uses multiple frequency capability (band S and UHF) with a declared detection parameter of a 1 square meter RCS at 430km including a target speed of 8000km/h (4791 mph, Mach 6.35). The detection system requires the operator to transfer command of targeting to subordinate systems; in this application, the maximum target speed is obtained by use of the subordinate systems.[70]
All-purpose maximum radial velocity is 4.8 kilometres per second (17,000km/h; 11,000mph; Mach14); absolute limit 5 kilometres per second (18,000km/h; 11,000mph; Mach15),[60] the minimum is zero.[14]
The complex can move on roads at 60km/h (37mph) and off-road at speeds up to 25km/h (16mph).[76]
According to the Pravda state newspaper, the price of one battalion (about 7–8 launchers) is US$200million.[86]
Deployment history
Russia
A regular S-400 battalion consists of up to eight launchers with 32 missiles and a mobile command post.[87] On 21 May 2007 the Russian Air Force announced that S-400 systems would be put on combat duty around Moscow and Central Russia by 1 July 2007.[88] The S-400 was also deployed near the town of Elektrostal.[89]
On 6 August 2007 the first regiment equipped with S-400 systems entered active service in Moscow Oblast near Elektrostal, according to Channel One Russia. The regiment was the 606th Guards Anti-air Rocket Regiment, 9th PVO Division, 1st PVO Corps, of the Special Purpose Command.[90]
On 8 February 2008 Lt. Gen. Vladimir Sviridov announced that Russia would be replacing the S-300 systems in the Northwest of Russia with the S-400. Military experts expect Russia's use of the system as a major component of their ballistic missile defense until 2020.[91]
In September 2006 Deputy Prime Minister Sergei Ivanov announced the purchase of 18 S-400 battalions for internal defense for the period 2007–15.[92]
On 17 March 2009 Russia's defense minister announced that a second regiment equipped with advanced S-400 Triumf air defense missile systems had been put into combat service.[93]
On 26 August 2009 the General Staff said S-400 systems had been deployed in the Russian Far East to counter possible North Korean missile tests and prevent fragments from falling onto Russian territory.[87]
In February 2011 a second unit of S-400 missile systems was deployed at Dubrovki, north of Moscow. The 210th Air Defense Regiment consists of two battalions, each deploying eight launch points of four missiles.[94] In February 2011, it was also announced that the missile system will be deployed in the southern Kuril Islands "to protect Russia's sovereignty in the Far East".[95]
The Baltic Fleet in Kaliningrad received S-400 SAM systems which went into operational status in April 2012.[96] One S-400 divizion is deployed on combat duty in the Russian far east city of Nakhodka.[97]
As of 2012, one system (in Electrostal) was operational, with three more S-400 battalions being deployed. All 56 battalions will be delivered by 2020.[98][needs update] Russia is also setting up two regiments of S-400 in the Eastern Military district.[99]
As of September 2013 the Russian Armed Forces had five S-400 regiments: two in Moscow, one in the Pacific fleet, one in the Baltic Fleet, and one in the Southern Military District. Starting in 2014, the army was to receive two to three sets of regimental units of S-400 systems every year.[citation needed] Another S-400 regiment was to be put on combat duty around Moscow by the end of 2013. Russia eventually plans to deploy 28 S-400 regiments by 2020, each comprising two or three battalions with four systems each.[citation needed]
Russia plans to recommission the Kirov-class battlecruiser Admiral Nakhimov in 2018. Plans called for the installation of the 48N6DMK anti-aircraft missile derived from the land-based S-400. This will extend the Kirov's air defense from 100km (62mi; 54nmi) to 250km (160mi; 130nmi).[100][needs update] Adm. Vladimir Korolev stated at that time that Russia's Northern Fleet's Coastal Forces had deployed S-400s.[101][102]
On 1 March 2016 the acting commander of the 14th Air Force and Air Defense Army, major general Vladimir Korytkov, said that six S-400 units had been activated at the air defense formation in Russia's Novosibirsk Oblast.[103] TASS also reported that as of the end of 2015, a total of eleven Russian missile regiments were armed with S-400, and by the end of 2016 their number was expected to increase to sixteen.[103]
2015 Russian military intervention in Syria
Main article: Russian military intervention in the Syrian Civil War
It was reported in November 2015 that S-400s would be deployed to Syria along with the contingent of Russian troops and other military hardware in the course of the air campaign conducted by the Russian forces in support of the Syrian government.[104] However, those claims were refuted by Russia.[105] On 25 November 2015 the Russian government announced it would deploy S-400s in Syria as a response to the downing of its Su-24M jet by Turkey.[106] By the next day, deployment of S-400 air defense systems to Syria was underway.[107] The first S-400 unit was activated at the Khmeimim Air Base in Latakia Governorate.[108] In April and July 2017 a second S-400 unit was activated 13km northwest of Masyaf, Hama Governorate.[108] Although these systems are located in Syria, they are under the command of the Russian military and not the Syrian (nor Iranian) military,[109] making the Russian government liable if used against another state (that is, its use would be considered an attack by Russia rather than Syria).
On 22 May 2018 Israeli Air Force commander, Major General Amikam Norkin, reported that Israel became the first country in the world to use the F-35I Adir in combat during recent clashes with Iran in Syria.[110] In mid-2020, several media outlets, including Turkish media, questioned the combat capability of the S-400 air defense system.[111] In late December 2021, the Israeli Air Force flew military jets over areas protected by S-400 and Pantsir SAM in Syria and bombed Iran-backed Hezbollah militia based in Latakia.[112] Russia operates a naval base in the port of Tartus, 85km to the south near the port of Latakia.[113][114] Considering the engagement range advertised by the Russians, the S-400 could have engaged Israeli aircraft but did not. Neither Russian fighter jets nor the S-400 systems attempted to intercept the Israeli aircraft.[109] It is widely believed that Russia and Israel have an agreement that Israel will guarantee the safety of Russian personnel and assets during its strikes on non-Russian targets in Syria and in return, Russia will not target Israeli aircraft nor repel Israeli strikes.[109]
2022 Russian invasion of Ukraine
Main article: 2022 Russian invasion of Ukraine
According to Ukrainian sources, on 25 February 2022, the Su-27 of Ukrainian Col. Oleksandr Oksanchenko was shot down by an S-400 over Kyiv.[115]
Ukrainian Presidential advisor, Mykhaylo Podolyak, claims that HIMARS missiles can’t be intercepted by the S-400. Saying during a press conference: “Russia wants to show that she has powerful weapons superior to anything else in the world. You all [independent media] have seen that the famous S-400 system intercepts rockets, like the Russian national soccer team catches soccer balls.”[118]
On 15 October 2022, a S-400 missile crashed or was shot down in the Grayvoronsky District of Belgorod Oblast, Russia.[119]
Belarus
In 2011 State Secretary of the Union State of Russia and Belarus Pavel Borodin stated that Russia will supply the S-400 air defense system to Belarus.[120] On 1 December 2021 Belarus President Alexander Lukashenko, in response to a reporter's question, replied that a Belarusian training center already has S-400 systems. The president said: “Yes. We train our guys in this training center. I'd like to ask the president [of Russia] to leave this system here.”[121] In May 2022 Lukashenko further announced the country bought an undisclosed number of S-400 air defense missile systems.[122]
China
In March 2014, it was announced that Russian President Vladimir Putin had given authorization to sell the S-400 system to China.[citation needed] On 13 April 2015, the chief executive of the Russian state-run arms trader Rosoboronexport confirmed that China secured a contract for the purchase of the S-400 air defense system.[123] Delivery of the system began in January 2018.[124] China test fired Russian S-400 systems for the first time in early August 2018.[125][126] Deliveries were reportedly postponed after the delivery of two S-400 units. [127]
The acquisition of S-400, reported to initially consist of six batteries, improves China's air space defense. A reported 400km (250mi) coverage range would allow China's defense of the Taiwan Straits and the Diaoyu Islands. Taiwan plans countermeasures using signals intelligence units to locate and destroy S-400 systems before they can be used.[128]
Turkey
In late 2017 Turkish and Russian officials signed a US$2.5billion agreement for delivery of the S-400 air defense system to Turkey.[129][130] The US Secretary of State raised concerns over the deal,[131] which were rebuffed by President Erdogan and other Turkish officials, citing the US refusal to sell the upgraded MIM-104 Patriot to Turkey. Turkey received its first installment of the Russian S-400 missile defense system on 12 July 2019.[132] On 17 July 2019, Turkey was suspended from the F-35 program, the US stating "F-35 cannot coexist with a Russian intelligence collection platform that will be used to learn about its advanced capabilities"[133] and on December 14, 2020, the US imposed CAATSA sanctions on Turkey.[134] As of 2020, 4 batteries consisting of 36 fire units, and 192+ missiles were delivered to Turkey.[135]
Turkey has tested the S-400 air defense system against drones and F-16 fighter jets at low altitudes. According to Turkish media, the Turkish military has identified some deficiencies against a slow-moving object at low altitude.[136][137]
India
On 15 October 2016, during the BRICS Summit, India and Russia signed an Inter-governmental Agreement (IGA) for the supply of five S-400 regiments to India.[138] The US$5.43billion deal (₹40,000crore) was formally signed on 5 October 2018, ignoring the threat of US sanctions.[139] The deliveries are expected to commence by the end of 2020[140][141][142] and brought into service in October 2020.[143]
In March 2021, U.S. Secretary of Defense Lloyd Austin discussed India's planned purchase of Russia's S-400 air missile system and warned that the purchase of S-400 could trigger CAATSA sanctions.[144]
In November 2021, Russia stated that it had begun delivery of S-400 missiles to India and that deployment was proceeding as scheduled.[145][146]
India has already received two S-400 system from Russia and third squadron will be delivered in November 2022.[147] According to reports, that system was delivered in November 2021. Alexander Mikheyev, Rosoboronexport CEO, said “The contract with India is being implemented successfully. In the near future, we will supply a second regiment. The first one has been provided already. More than 200 specialists have been trained. All five regiments will be supplied by the end of 2023”.[148]
Foreign interest
Saudi Arabia
In September 2009 the S-400 was reportedly part of a US$2billion arms deal between Russia and Saudi Arabia.[149] The Saudi's wanted to acquire the more advanced S-400, but Russia was only willing to sell S-300 air defense system at the time.[150] By November 2019 the deal had still not been finalized.[151] Saudi Arabia is no longer considering the Russian S-400 air defense system, following the kingdom’s deal for an American alternative. The American Terminal High Altitude Area Defense (THAAD) system has been cleared for sale to the Saudis by the U.S. State Department cleared the THAAD estimated at $15 billion in 2017 dollars.[152]
Iran
In June 2019 some Iranian officials expressed interest in procuring the S-400 missile system to further improve its defense capabilities along with the previously purchased S-300PMU2. Russia stated at the time it was ready to sell the S-400 system to Iran if an official request was made.[citation needed]
Egypt
In February 2017 Sergey Chemezov, CEO of Rostec, stated that Egypt was interested in the S-400 air defense system. He explained that Russia offered to sell Egypt either the Antey-2500 or S-400. According to Chemezov, the negotiations were delayed due to Egypt's financial issues.[153]
Iraq
In February 2018 Iraqi Minister of Foreign Affairs Ibrahim al-Jaafari confirmed ongoing rumors that his country had shown interest in the S-400 and that negotiations with Russia were underway.[154][155][156] In May 2019 Iraq's ambassador to Russia, Haidar Mandour Hadi, said the Iraqi government had decided to procure the S-400 air defense system.[157]
Qatar
In January 2018 Russian state media TASS reported that Qatar was in an advanced state of talks to procure the S-400 air defense system.[158][159]
United States
In June 2020 United States senator John Thune proposed an amendment to the (ultimately unsuccessful) Senate version of the 2021 National Defense Authorization Act to allow the US Department of Defense to purchase Turkey's S-400 system with funds from the U.S. Army's missile procurement account,[160] thus negating Turkey's contravention of the Countering America's Adversaries Through Sanctions Act of 2017.[161] This was an attempt to allow Turkey to re-enter the F-35 Lightning II acquisition and ownership program.[161]
Serbia
Serbia has also expressed interest in the system.[162][163]
Foreign variant
South Korea
South Korea is developing a simplified medium range SAM system, M-SAM Cheolmae-2, based on technology from the 9M96 missile and with help of the Almaz. The prime contractor is Samsung Thales, a joint venture between Samsung and Thales.[164] The M-SAM will be composed of an X band multi-function radar vehicle built by Samsung Thales in technical cooperation with Almaz,[165] fire-control vehicles, and transporter erector launchers built by Doosan.[166] Missiles are to be provided by LIG Nex1.[167]
Belarusian Armed Forces – Contract signed in May 2022.[122]
China
People's Liberation Army – Contract signed in September 2014, deliveries of units began in January 2018, and are being inducted.[173][174][168]
India
Indian Armed Forces – A contract was signed in October 2018 during an official meeting between Russia's President Vladimir Putin and India's Prime Minister Narendra Modi in New Delhi. The deal, worth of $US5.43 billion, includes delivery of the 1st regiment of the S-400 beginning November 2021. India plans to deploy the 1st regiment of the S-400 by April 2022.
Russia
Russian Armed Forces – There were 57 battalions (divizion) deployed with at least 25 regiments as of September 2019.[170]
22T6 loader-launcher from S-400 and S-300 systems.
5P85SM2-01 TEL launcher from the S-400 system.
ТЗМ 22Т6 on the Ashuluk proving ground in 2017.
S-400 at the 2013 Moscow Victory Day Parade.
S-400 surface-to-air missile systems during the Victory parade 2010.
An S-400's 5P85SM2-01 missile launcher mounted on a MAZ-543M chassis.
S-400 system during a rehearsal for Russia's 2009 Victory Day parade in Moscow.
Russian 15.00 rubles stamp commemorating the 150th anniversary of the Obukhov State Plant.
9M83ME and 9M82ME SAM for S-300VM Antey-2500 missile system and 48N6E3 SAM for S-400 system.
The self-propelled launch vehicle 5P90S on a BAZ-6909-022 chassis for the S-400 system.
The all-altitude detection radar 96L6E of S-300/400 systems, mounted on the chassis of MZKT-7930.
The BAZ-69092-021 towing vehicle for the 5I57A power generator and the 63T6A power converter for the S-400 system.
76N6 Clam Shell FMCW acquisition radar is used to support the Flap Lid SA-10 fire control radar. NATO code name: "Clam Shell."
The BAZ-69092-021 towing vehicle for the 5I57A power generator and the 63T6A power converter for the S-400 system.
Two 5P85SM surface-to-air missile launchers and a 92Н6 radar guidance at Russia's Khmeimim airbase in Syria.
All-weather acquisition radar 96L6 pictured in the far right in the background at Russia's Khmeimim airbase in Syria.
Area-denial anti-access bubble created by Iskander-M and S-400 systems deployed at Russia's Khmeimim airbase in Syria. Red – ballistic missile range (700 km). Blue – maximum range of the S-400 system with 40N6 missile (400 km).
Members of Commander, U.S. Naval Forces Europe Band prepare to perform during the 2010 Victory Day Parade. Two S-400 SAMS are driving in front of the band.
S-400 launch vehicle on Tverskaya Street in Moscow.
External links
Wikimedia Commons has media related to S-400 Triumf.
Sudakov, Dmitry (25 September 2017). "Russia's S-400 air defence systems for NATO armies". Pravda Report. Archived from the original on 27 October 2018. Retrieved 3 November 2018. The S-400 works equally well in 360 degrees of activity area. Its phased array radar antenna with Elbrus-90 computer ensures the detection range of up to 600 kilometres.
Kopp, Carlo (May 2009). "Fakel 48N6E3 and 40N6 Surface to Air Missiles". Almaz-Antey 40R6 / S-400 Triumf Self Propelled Air Defence System / SA-21: 1. Archived from the original on 25 June 2015. Retrieved 11 January 2016– via AusAirpower.com.
Kopp, Carlo (May 2009). "Fakel 9M96E and 9M96E2 Surface to Air Missiles". Almaz-Antey 40R6 / S-400 Triumf Self Propelled Air Defence System / SA-21: 1. Archived from the original on 25 June 2015. Retrieved 14 November 2014– via AusAirpower.com.
"S-500 Prometheus". Missile Threat. Archived from the original on 29 October 2013. Retrieved 14 November 2014.
"С-400 против MEADS"[S-400 against MEADS]. Правда.Ру (in Russian). 27 February 2013. Archived from the original on 6 October 2014. Retrieved 14 November 2014.
Denisov, Anton (26 August 2008). "Russia deploys S-400 air defense systems in Far East". RIA Novosti. Archived from the original on 26 April 2011. Retrieved 9 December 2010. A regular S-400 battalion comprises at least eight launchers with 32 missiles and a mobile command post.
"Systém S-400 připraven k obraně Moskvy"[The S-400 is ready to defend Moscow]. ATM online (in Czech). CS. RIA Novosti. 31 May 2007. Archived from the original on 3 July 2007. Retrieved 9 December 2010. …S-400 will be given to full combat readiness to defend Moscow and central Russia (near the town of Elektrostal in the Moscow region) on 1 July 2007.
"Russia to Belarus fearing of Ukraine". Charter 97.org. 15 April 2008. Archived from the original on 27 September 2011. Retrieved 10 December 2010. …sources report the regiment based at Elektrostal is the 606th Guards Anti-air Rocket Regiment, 9th PVO Division, 1st PVO Corps, of the Special Purpose Command
"Russia moves to longer-range interceptors". United Press International. 8 February 2008. Archived from the original on 12 February 2008. Retrieved 9 December 2010. Russian military experts expect the S-400 to be the backbone of the country's missile defenses through at least 2020.
Оружия не хватит – Для переоснащения армии нет средств[The Army cannot afford enough weapons for retooling]. Vedomosti (in Russian). 8 August 2008. Archived from the original on 30 June 2009. Retrieved 9 December 2010. LG-2015 provides for… the purchase of… 18 anti-aircraft missile battalions of S-400
"When Israel bombs Syria, Russia turns a blind eye | Nikola Mikovic". AW. 3 January 2022. Retrieved 9 January 2022. That night, neither Russia’s S-400 nor Syria’s air defence systems attempted to hit the Israeli planes. The truth is, Russia never activates its air defence systems against Israeli jets. Such passivity is believed to be part of a wider deal between the two countries. After the Kremlin started its military adventure in Syria in 2015, it reached an agreement with the Jewish State: Israel reportedly pledged to guarantee the safety of Russian citizens and military installations in Syria during its strikes on Iranian militias and Syrian military targets. In return, Moscow promised not to use its weapons to repel Israeli attacks. [...] Although the Russian military operating in Syria has the power to prevent Israel from hitting Iranian and Syrian targets, Russia constantly turns a blind eye to Israel’s activity in Syria. The attack on Latakia port was no exception.
Beirut, Agence France-Presse in (28 December 2021). "Israeli airstrike sets port of Latakia ablaze, says Syrian media". the Guardian. Retrieved 9 January 2022. The Syrian government’s other major ally, Russia, operates a naval base in the port of Tartus, 53 miles (85km) to the south.
"Israeli attack on Syria port causes 'significant material damage'". www.aljazeera.com. Retrieved 9 January 2022. Russia, which has been President Bashar al-Assad’s most powerful ally during the war, alongside Iran, operates an airbase at Hmeimim, some 20km (12 miles) south of the city.
Dominguez, Gabriel (18 January 2018). "Russia begins delivering S-400 air defence systems to China, says report". Jane's Information Group. Archived from the original on 20 January 2018. Retrieved 19 January 2018. Russia has begun delivering the Almaz-Antei S-400 Triumf self-propelled surface-to-air missile (SAM) system to China under the terms of a contract signed in 2014, TASS news agency cited an unnamed source close to the Russian military-industrial complex as saying on 18 January.
Gould, Joe (29 June 2020), "US could buy Turkey's Russian-made S-400 under Senate proposal", Defense News website, retrieved 2 September 2022, Senate Majority Whip John Thune, R-S.D., has proposed an amendment to the 2021 National Defense Authorization Act that would allow the purchase to be made using the U.S. Army’s missile procurement account. The move comes a year after the U.S. expelled NATO ally Turkey from the multinational F-35 program because it received the S-400 in a $2.5 billion deal.
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