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Complete Information on India's Almaz-Antey 40R6 / S-400 Triumf

Pakistan has brought a bunch of MAR-1 anti radiation missile from Brazil and how mythey can utilized it against S-400.
The range of the missile is Approx 100KM. So any unfriendly aircraft within 250 KM would be detected and shot down.
Does this missile become useless incase of WAR.

Please discuss and understand the impact on PAF, it will definitely give an edge to IAF.

an interesting read

SAM tactical limitations

One limitation is a radar horizon. Since surface of the Earth is curved, aircraft beyond some distance will be hidden by the planet itself. If we take aircraft altitude to be 10 meters, 93KK Osa with 4,2 meter mast will detect it at distance of 21 kilometer, Buk with 21 meter mast will detect it at distance of 32 kilometers and S-400 with 40 meter mast will detect it at 40 kilometers. If aircraft is at altitude of 30 meters, then Osa will detect it at distance of 31 kilometer, Buk will detect it at distance of 41 kilometer and S-400 will detect it at distance of 49 kilometers. Nominal missile ranges are and up to 15 kilometers for Osa, up to 50 kilometers for Buk and up to 400 kilometers for S-400, meaning that neither Buk or S-400 will make use of their longest-ranged missiles.

Another issue are terrain obstacles. Radio waves are disrupted or stopped by solid objects, which means that radars are typically positioned at high vantage points, making them easier to find. This also means that aircraft can use terrain to hide from detection even at relatively short ranges. While this leaves it in danger of MANPADS and optically-aimed AAA, it is a viable tactic for heavily armored CAS aircraft. Not so for thin-skinned fast jets and “attack” helicopters – former take damage too easily, while latter can pull no more than 3 g and cannot be anywhere as protected – in terms of armor, system redundancy or countermeasures – as CAS aircraft can. CAS aircraft such as the A-10 are actually ideal for SAM supression due to their resillience to AAA and long loiter time

Even when aircraft is detected, there is an issue of range. A premier Russian SAM S-400 has an engagement range from 3 to 400 kilometers against an aerodynamic target. With air-to-air missiles, effective range is cut to 1/4 if target is attacked from the rear, to 1/2 if target is maneuvering, and every 100 knots of speed advantage cut effective range by 5-25%. Thus (and this is optimistic in this case due to target aircraft having few thousand meters of altitude advantage over SAMs), an S-300 will have an effective range of against a Mach 0,9 (516 kts at 40k ft) Rafale of 128 km if Rafale does not turn away, and 20 km if it does. S-400 will have an effective range of 255 km if Rafale does not turn away and 38 km if it does. If Rafale speeds up to Mach 1,4 (802 kts at 40k ft), then S-400 will have an effective range against a retreating Rafale of only 33 km. This will allow a pair of Rafales to easily play “peek-a-boo” with S-400, with one Rafale acting as a bait and providing targeting info to another Rafale.

Alternatively, Rafales can simply go in, fire ARMs once SAMs lit up, and leave. Issue is that a radar-guided SAM battery will have to give away its position to launch a missile. This means that aircraft attacked can lob an anti-radiation missile before having to begin evasive maneuvers, since SAMs cannot launch as soon as radar is turned on – targeting process will take at least several seconds.

(This tactic is viable for any aircraft, though as it can be seen, good endurance, low-altitude flight characteristics and supercruise are major advantages if present; only fighter aircraft that combine all three are Rafale and upcoming Gripen NG).

In effect, a “circle of death” so engrained in a public psyche when discussing SAM’s is a myth. However, it is used to promote expensive and typically unnecessary systems, such as stealth aircraft, drones and UCAVs.

Mobile radars are not invulnerable either. Most mobile radars can only scan when deployed (static), and need several minutes to either deploy or pack up. While it is technically possible to design a radar that can scan “on the move”, vibrations and unsteady platform will cause problems. This means that, once they give up their position, they are just as vulnerable as any other SAM.

IR MANPADS are a greater threat: since they do not reveal themselves with active emissions, have excellent maneuverability and IR seeker, and being used to typically attack low-altitude aircraft, they leave little time for reaction – this results in a very high (for a SAM) probability of hit. Optically-aimed AAA have the same advantages.

Conclusion

Primary element in surviving a SAM threat is situational awareness. Most aircraft that have been shot down by SAMs have been unaware; if pilots attempted to evade SAMs they were typically successful, especially if SAMs in question were radar-guided. Since most modern fighter aircraft are equipped with missile approach warners – many of them of IR or UV variety – SAM success rate can be expected to be far less than it was in any war previous to Gulf War I.

Most important impact that radar SAMs have is the effort required (or believed to be required) to defeat them.

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The spyder, akash and pantsirs provide a very detailed multilayer protection.. Particularly the pantsirs.. Whose work is a dual mode of defending via guns n missiles.. TBH pantsirs systems actual work is to ensure such terrain hugging CM or ARM are taken out close ranged the most..

As per the read, the capability of an aircraft to fly even at 30m wit a EW suite to jam and infiltrate deep and then locking onto S400 and foxone into it will need a very advanced jet. PAF is a good combination but JF17 or F16 52 are not in the league of Rafale or Gripen NG. Thus the Mar 1 missiles about 100 odd won't be used in a scenario enlisted above which seems to be presenting the best case here.

The situation would change if a far more advanced bird comes into PAF and definitely this job is not for a flanker.. You don't want enemy radar screens lighting up bcz of huge rcs negating terrain hugging type flying..

And pls don't quote a spectra equivalent in PAF or in RuAF or Chinese AF.. That is an advanced piece of tech no doubt.
 
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No-Fly Zone: Russia's Lethal S-400 Goes Global
S-400_SAM_during_the_Victory_parade_2010.jpg

Dave Majumdar
December 18, 2015

India is set to buy five Almaz-Antey S-400 Triumf air and missile defense systems from Russia, it was reported this week. New Delhi is the second foreign customer for the powerful missile system after Beijing, which is also buying six S-400 batteries.

According to the Times of India, even though the word of the sale comes just before a Christmas Eve summit between Russian president Vladimir Putin and Indian prime minister Narendra Modi, an actual contract will take time to negotiate. It is therefore unlikely that the two leaders will formally announce a deal in Moscow. “It will take a few years for the S-400 systems to be actually inducted. The plan is to deploy three in the west and two in the east to seriously bolster the nation's air defence capability,” a source told the Indian daily.

Should the Russians and Indians reach a final agreement, the S-400 sale could be worth as much as $6 billion. But while the Indians are eager to acquire the S-400, Moscow has not yet confirmed if it will sell the weapon to New Delhi.

The proliferation of weapons like the S-400 and its S-300 predecessor pose a serious challenge of U.S. and allied air power. Both weapons systems are highly mobile, thoroughly networked and can protect vast areas. Effectively, weapons like the S-400 and S-300 make an entire region inaccessible to conventional non-stealthy combat aircraft. It’s a problem that is only going to get worse over time as countries like Iran acquire such system. In fact, Tehran has already started to receive a version of the S-300.

According to manufacturer Almaz-Antey, the S-400 “baseline” system can engage targets at ranges of more than 155 miles at altitudes up to 90,000ft. Also of note, the S-400 can support at least three types of missiles with differing capabilities. According to Western sources, some versions of those missiles are capable of engaging targets as far way as 250 miles. The S-400 can track 300 targets simultaneously and engage thirty-six of those at any one time.

Meanwhile, the S-300PMU-2 Favorit has a range of more than 120 miles and can hit targets as high as 100,000ft. The system can engage half-a-dozen or more targets simultaneously. Either version of the weapon is extremely capable and could render entire swaths of territory nearly invulnerable to attack via conventional strike aircraft. As one senior U.S. Marine Corps aviator told me earlier in the year, the S-300 series is a deadly threat to everything except the most advanced stealth fighters and bombers. “A complete game changer for all fourth-gen aircraft [like the F-15, F-16 and F/A-18]. That thing is a beast and you don’t want to get near it,” he said.

Only the Lockheed Martin F-22 Raptor, F-35 and Northrop Grumman B-2 Spirit stealth bomber would be able to operate inside areas protected by those weapons. But even those aircraft could be challenged if there were enough S-300 or S-400 batteries operating as part of an integrated air defense network.

The exact number and location of the S-300s and S-400s would make a huge difference. The problem is further compounded by the fact that both systems are mobile—and can move at a moment’s notice. “If they’re all over every square inch of the country, then it doesn’t matter what you put out there—it’s going to be a challenge,” a senior Air Force official with extensive stealth experience told me earlier in the year.

For the United States, the solution is to move forward with next-generation systems like the F-35, the Next Generation Jammer, Long Range Strike-Bomber and potentially a stealthy new naval unmanned combat aircraft. New next-generation cruise missiles are also going to be needed to penetrate an ever more dense threat environment. Further, both the U.S. Navy and the U.S. Air Force might consider pressing forward with sixth-generation platforms and new armaments.


No-Fly Zone: Russia's Lethal S-400 Goes Global | The National Interest Blog

Xposting

With S-400 deployment first casualty is seen here

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According to Reuters, a spokesman with the US military’s European Command has confirmed that the US will withdraw 12 F-15 Eagles and Strike Eagle fighters from Turkey.The spokesman said that the aircraft had completed temporary deployment, despite having only been moved to Incirlik air base one month ago.

What’s Behind Washington Pulling 12 Fighter Jets From Turkish Base?
Ora Obama scarica Erdogan: ritirati i caccia dalla Turchia - IlGiornale.it
 
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People who wanted to know does India also have S300?

s6rud5.jpg


Check the operators and source and date...

Now you know why India did not buy outright too many S400 regiments. Perhaps the legacy units command center may be wired to be under new command centers...


Can i get positive rating/ratings for officially proving it?? :smitten::smitten::smitten:
 
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S400 X band.png


92N2E Grave stone in SA-21 is S-400 - Pink line

So an avg 3m2 RCS detection range is approximate 150 NMI meaning = 277 Kms approx
Imagine say 1m2 RCS so thats around 135 NM meaning 250 Km detection approx

Tomahawk RCS - 0.5m2 so its detected at around 85 NMI implying 157 Km detection

A typical cruise missile with UAV-like characteristics has an RCS in the range of 1 m2; the Tomahawk ALCM, designed in the 1970s and utilizing the fairly simple low-observable technologies then available, has an RCS of less than 0.5 m2.

Radar Cross Section (RCS)

Even if the low flying terrain hugging missile has just 0.1m2 RCS its detection is 70-75 NMI approx thats 130 kms.

Enough for launching the 2 of the engagement ranged missiles 30km and 120km ones and also activating Pantsirs for beyond that layered protection...
 
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This is the detail i got

Russian structure
1 regiment = 4 battalions
1 battalion == 1 command post
1 Battalion = 16 launchers 64 missile ready to fire and equal number in reloads
4 Battalions = 64 launchers 256 missiles ready to fire and equal number in reloads - 512 missiles and 4 command post


Each S400 battalion has 1 Pantsir-S battalion
1 Pantsir-S battalion = 6 launchers
Each Pantsir-S launcher has 12 missiles RTF and 12 for reload
1 Pantsir Battalion = 72 RTF+ 72 Reloads = 144
1 regiment = 4 S400 Battalion = 4 Pantsir Battalion = 4*144=576 missiles

So 1 full S400 regiment has 512 + 576 = 1088 Missiles in total comprising of 544 RTF and 544 reloads

Based on Indian News of 5 Systems (read regiments)
So 5 full Regiments = 5440 missiles (RTF+ Reloads)
Spare missiles = 560 missiles

@Immanuel - You can help me out on this..

Post edited after information provided by Immanuel

See:

India have ordered 5 battalion.

1 battalion have 8+ launchers. So its 40+ launchers & 960+ missiles
 
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See:

India have ordered 5 battalion.

1 battalion have 8+ launchers. So its 40+ launchers & 960+ missiles

Sir,

That information is not entirely correct.

Reason being, the original initial regiment of Russia had just 2 battalions.. By 6th and 7th regiment they changed the config to battalions. The latest is now 4 battalions
The command center of S-400 allows upto 8 battalions per Command vehicle. So baaed on threat perception and area under coverage, this number will get upgraded for Russia. They plan to have at least 27-30 regiments and thats a huge number of Battalions which cannot be fulfilled right away. Thus, the 2, 3 and now 4 battalions per regiment.
 
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Sir,

That information is not entirely correct.

Reason being, the original initial regiment of Russia had just 2 battalions.. By 6th and 7th regiment they changed the config to battalions. The latest is now 4 battalions
The command center of S-400 allows upto 8 battalions per Command vehicle. So baaed on threat perception and area under coverage, this number will get upgraded for Russia. They plan to have at least 27-30 regiments and thats a huge number of Battalions which cannot be fulfilled right away. Thus, the 2, 3 and now 4 battalions per regiment.
Sir,

Regiment size is immaterial for India. India have ordered just 5 battalions

23px-Flag_of_India.svg.png
IndiaIndian Defense Ministry approved purchase of 5 battalions of the S400 missile in December 2015.[136]
 
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Sir,

Regiment size is immaterial for India. India have ordered just 5 battalions

23px-Flag_of_India.svg.png
IndiaIndian Defense Ministry approved purchase of 5 battalions of the S400 missile in December 2015.[136]


Sir, that is factually incorrect.
Russia domestic per battalion cost is $200-220 Mn in 2013. Chinese bought S400 Battalions for $500 Mn. IF India just bought 5 battalions then its cost would be around $1 Bn per battalion.
And according to the link cited in Wiki
Индия купит у России пять ЗРК С-400 «Триумф» - Телеканал «Звезда»

Air defense systems S-400 "Triumph", which said today at a press conference, Vladimir Putin will travel to India.
According to the Indian press, Moscow and New Delhi agreed to supply five anti-aircraft missile systems. The contract value is estimated at six billion dollars.
The document may be signed after the first state visit of the Prime Minister of India in Russia. He is scheduled for December 23.
The deal also provides for the purchase of six thousand missiles for the complexes.
Photo: Ministry of Defense of Russia

The word used is systems which is used create ambiguous nature of the deal.

If what you are saying comes out true, then only rational explanation may be this

At various sites on the internet it has been stated that a S400 set/system/battalion will be exported by Russia for $500 million presumably with the standard components (including 48 missiles) . The $6 billion i.e. Rs 40,000 crores figure mentioned in news articles indicates a purchase of $500x12 battalions = $6 billion. But the news articles also state that Indian MOD reduced the number of systems to be bought down to 5 from the 12 that were proposed by the armed forces.
That is meaningless unless context is provided as to what elements of the S400 were procured by China. What radars, what missiles, and what missile mixes. India could simply be buying more sensor coverage etc. There is too little known about the Chinese deal to make a valid comparison. But from the wantchinatimes article we know that a conventional battalion has 8 TEL's, a radar and 16 spare missiles for a total of 48 missiles. They bought (as per WCT) 6 such units giving them 48 TEL's and 288 Missiles in total for $3 Billion (apparently) since the same article said a cost of one such unit was $500 Million.
If you simply double this you get 96 TEL's, double the radars, double the missiles and double the cost i.e. $6 Billion for 12 'units' with 96 launchers and nearly 600 missiles.
Or you could simply see a situation in which India is getting wider sensor coverage, multiple radars for discrimination and early warning and more of a Ballistic Missile Defense like setup that would warrant longer ranged coverage.


Credit to original poster KaranM, Idev and brar
 
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@PARIKRAMA

Till the Time S 400 are delivered we can see more progress on our own BMD

Any way Follow on orders can be placed anytime
Or S 500 may be available
 
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@PARIKRAMA

Till the Time S 400 are delivered we can see more progress on our own BMD

Any way Follow on orders can be placed anytime
Or S 500 may be available

Very true. Our own BMD is in progress..
S300 systems are there protecting Delhi Mumbai and 3 more bases all in western border already.
S400 will be placed 3 in Western and 2 in eastern as part of Phase 1 purchase
Phase 2 purchase may see either 400 or 500 but MII part

This implies, a total blanket multi tier shield placement. Of course we do require more advance versions like S500 and its equivalent in Indian BMD context to make the shield more effective.
 
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Introduction
The Almaz S-400 Triumf or SA-21 system is the most recent evolution of the S-300P family of SAM systems, initially trialled in 1999. The label S-400 is essentially marketing, since the system was previously reported under the speculative label of S-300PMU3. At least one report claims that funding for the development of the Triumf was provided in part by the PLA. The principal distinctions between the S-400 and its predecessor lie in further refinements to the radars and software, and the addition of four new missile types in addition to the legacy 48N6E/48N6E2 used in the S-300PMU2 Favorit.

S-400-Battery-Composition-Diagram.gif

A 2008 diagram published by Almaz-Antey showing the composition of an S-400 battery. Notable points include the integration of external low band NNIIRT Protivnik GE and VNIIRT Gamma DE L-band radars, and a range of passive emitter locating systems. All have the angular accuracy to provide midcourse guidance updates for missile shots.

As a result an S-400 battery could be armed with arbitrary mixes of these weapons to optimise its capability for a specific threat environment. The 30N6E2 further evolved into the more capable 92N6E Grave Stone, carried by a new 8 x 8 MZKT-7930 vehicle. The additional range required a significantly uprated transmitter tube to provide the higher power-aperture performance needed, in additional to an improved exciter and automatic frequency hopping capability. The 96L6 is offered as an 'all altitude' battery acquisition radar, also carried by a 8 x 8 MZKT-7930 vehicle. A new 3D phased array acquisition radar is employed, the 91N6E derived from the 64N6E2, and the 40V6M/MD mast is an available option. The 55K6E command post is employed, carried by an 8 x 8 Ural 532361 truck.

Optional acquisition radars cited for the S-400 include the 59N6 Protivnik GE and 67N6 Gamma DE in the L-band, but also the 1L119 Nebo SVU in the VHF band, and the multiband Nebo M. The Nebo SVU/M have a claimed capability against stealth aircraft. In addition to further acquisition radar types, the S-400 has been trialled with the Topaz Kolchuga M, KRTP-91 Tamara / Trash Can, and 85V6 Orion / Vega emitter locating systems, the aim being to engage emitting targets without emitting from the acquisition radars, or if the acquisition radars have been jammed. In June, 2008, the manufacturer disclosed the integration of the 1RL220VE, 1L222 and 86V6 Orion emitter locating systems with the S-400.
TEL options include the baseline 5P85TE2 semitrailer, towed by a 6 x 6 BAZ-64022, the improved 5P90S self-propelled TEL hosted on the BAZ-6909-022 and intended to carry a heavier missile payload than the legacy MAZ-79100 series TELs, and a new heavyweight towed TEL to be designated the 5P90TMU.

Imagery of the 5P90S self-propelled TEL shows a new gantry design, a new elevating folding mast with a directional antenna, and a state-of-the-art NK Orientir precision navigation system, with an increased baseline for the satnav antennas, compared to the installation on the S-300PMU2 vehicles.

Long term planning is to host all S-400 battery components on BAZ Voschina series vehicles, with the 92N6 Grave Stone and 96L6-1 carried on the 10 x 10 BAZ-69096 chassis, and a new BAZ-6403.01 8 x 8 tractor is to be used to tow the 91N6 Big Bird battle management radar, and 40V6M/T series mobile mast systems. The 55K6E battery command post will be hosted on the BAZ-69092-012 6 x 6 chassis, a flatbed variant of which will be used to tow the 63T6A power converter and 5I57A power generator. The 8 x 8 BAZ-69096 chassis is also intended for future use in the 96K6 Pantsir S1 / SA-22 SPAAGM.
1. Unfortunately it lacks the detail of later Almaz-Antey disclosures on the S-300PMU2 Favorit, but does provide a good discussion of the rationale behind the S-400 design design, and its key design features.

Lemanskiy et al state that definition of the S-400 design was performed jointly by the designers and the Russian MoD, with specific capability foci in:

  • Defeating threats at low and very low flight altitudes;
  • Dealing with the overall reduction of target signatures resulting from the pervasive use of stealth technology;
  • Dealing with the increase in target quantities resulting from the widspread use of UAVs;
  • Applying all means to defeat advanced jammers employed by opponents;
  • Surviving in an environment where PGMs are used widely;
  • Accommodating an environment where an increasing number of nations are deploying TBMs and IRBMs.
Lemanskiy et al observed that several key imperatives were followed during the design process:



    • An open system architecture with a high level of modularity, intended to permit follow-on capability growth in the design;
    • Multirole capabilities and the capacity for integration with legacy IADS technologies;
    • Suitability for the air defence of fixed infrastructure targets, as well as manoeuvre forces;
    • Suitability for integration with naval surface combatants;
    • The ability to exploit legacy missile rounds already in operational use;
    • High operational mobility and deployability;
    • High lethality and jam resistance;
There imperatives were applied to the design of configurations for the Russian Armed Forces and for export clients.

Export variants of the S-400 Triumf are intended to destroy opposing stand-off jammer aircraft, AWACS/AEW&C aircraft, reconnaissance and armed reconnaissance aircraft, cruise missile armed strategic bombers, cruise missiles, Tactical, Theatre and Intermediate Range Ballistic Missiles, and any other atmospheric threats, all in an intensive Electronic Counter Measures environment.

Lemanskiy et al describe the system composition as four core components:



    • The 30K6E battle management system, comprising the 55K6E Command Post and 91N6E Big Bird acquisition radar;
    • Up to six 98Zh6E Fire Units, each comprising a 92N6E Grave Stone “multimode” engagement radar, up to twelve 5P85SE2 / 5P85TE2 TELs, each TEL armed with up to four 48N6E2/E3 missiles;
    • A complement of SAM rounds, comprising arbitrary mixes of the 48N6E, 48N6E2 and 48N6E3;
    • The 30Ts6E logistical support system, comprising missile storage, test and maintenance equipments.
All system components are carried by self-propelled wheeled all-terrain chassis, and have autonomous power supplies, navigation and geo-location systems, communications and life support equipment. Mains power grid converters are installed for fixed site operations.

The design permits all equipment vans to be separated from the vehicle chassis for installation and operation in hardened shelters.

The 55K6E is employed to control all components in the group of batteries, and can collect and present status information from all components. It can also control the operating modes of the 91N6E Big Bird acquisition and battle management radar, including its IFF/SSR functions. A comprehensive C3 /datalink package is installed, and an Elbrus-90 mikro central processor is used to execute the dataprocessing and system management code. Sharing hardware with the S-300PMU2 54K6E 2 CP, the 55K6E uses 18 inch LCD panels for all crew stations.

Five common consoles are installed, with unique software driven presentation for the five person crew of the CP, the latter comprising:



    • 1 x Air Defence Unit Commander
    • 1 x Air Situation Management Officer
    • 2 x Fire Control Officers
    • 1 x Engineering Officer
While Lemanskiy et al did not detail the 55K6E any further, the high level of commonality suggests that more recent Almaz-Antey disclosures on the 54K6E2 CP also apply to the 55K6E2.

The 92N6E departs from the specialised engagement and fire control functionality of earlier radars in the Flap Lid family, exploiting abundant computing power no differently than Western AESAs. It is intended to provide autonomous manual and automatic sector searchs, target acquisition and tracking, in adverse weather, Electronic Counter Measures, chaff and low altitude clutter environments. The radar is equipped with an IFF capability.

The 92N6E Grave Stone will automatically prioritise targets, compute Launch Acceptable Regions for missile launches, launch missiles, capture missiles, and provide midcourse guidance commands to missiles while tracking the target and missile. Missile guidance modes include pure command link, semi-active homing, and Track via Missile (TVM) / Seeker Aided Ground Guidance (SAGG), where missile semi-active seeker outputs are downlinked to the Grave Stone to support the computation of missile uplink steering commands.

The radar can track 100 targets in Track While Scan mode, and perform precision tracking of six targets concurrently for missile engagements. data exchanges between the 92N6E Grave Stone and 30K6E battle management system are fully automatic.

The 92N6E Grave Stone data processing subsystem is designed around the Elbrus-90 mikro SPARC multiprocessor system, like the S-300PMU2 30N6E2 Tomb Stone variant. Computing power is exploited to support a diverse range of modes and waveforms. These including:



    • Sniffing waveforms at varying power levels to establish the presence of interfering emitters at a given angle and frequency;
    • Adaptive beam control reflecting immediate operational conditions;
    • Variable PRFs and scan rates for missile and target tracking;
    • Defeat of high power active noise jammers by the use of “radical measures” in the design.
New Electronic Counter Counter Measures technology was employed in the design of the 92N6E Grave Stone, but was neither described nor named.

Lemanskiy et al described the 48N6E3 missile in some detail, but did not include any disclosures beyond what is already public knowledge.

The authors did state that increased radar power-aperture product performance in both the 92N6E Grave Stone and 91N6E Big Bird increases the capability of the S-400 Triumf to engage low signature or stealth targets, but their cryptic claim of 50 percent of the engagement range remains difficult to interpret.

What is evident is that the fully digital S-400 Triumf displays most if not all of the typical capability gains seen in the latest generation of fully digital systems of Western design.
48N6E3-Cutaway-Almaz-Antey-1S.jpg

48N6E3 SAM Cutaway. Note the TVC vanes in the exhaust nozzle. The seeker is labelled as 'semi-active radar' (Almaz-Antey)

Fakel 48N6E3 and 40N6 Surface to Air Missiles
The first missile added to the system is the 48N6E3/48N6DM (Dal'naya - long range), an incrementally improved 48N6E2 variant with a range of 130 nautical miles. It is deployed using the standard TEL, the 5P85TE2/SE2.

The second missile added to the S-400 is the new 40N6, a long range weapon with a cited range of 215 nautical miles, equipped with an active and semi-active homing seeker, intended to kill AWACS, JSTARS and other high value assets, such as EA-6B/EA-18G support jammers. Further details of this weapon remain to be disclosed. The range improvement to around twice that of the 48N6E2 suggests a two stage weapon, or a much larger motor casing with a larger propellant load. Russian media reports citing PVO senior officers in 2010 indicated that 40N6 range may be a great as 240 nautical miles, and the missile completed State Trials (Russian OpEval) in 2010, and was to enter production. To date no images of the 40N6 missile, launcher container or TEL have been made public.

S-400-SAM-Specs.jpg


S-400 48N6E2/E3 SAM specifications.

Extended range missile shots typically involve ballistic flight profiles with apogees in excess of 40 km. The protracted development of the 40N6 suggests that directional control through the upper portions of the flight profile may have presented difficulties. One advantage of such flight profiles is that the missile converts potential energy into kinetic energy during the terminal phase of its flight, accelerating as it dives on its target. This provides higher endgame G capability in comparison with flatter cruise profiles used in legacy designs.

Do you research this yourself ?
 
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India ordered 5 full scale regiments, that equals 20 Battalions. Russia's own order book is around 28 Regiments, Initial regiment sizes weren't full scale but over the year the typical size of a full scale range has grown. A typical full scale regiment now has 4 battalions (2 regimental sets)
 
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India will spend $6.1 billion dollars for five S-400 Missile Systems

Monday, March 14, 2016



After a rare intervention by Defence Minister Manohar Parrikar, India's Air Defence Acquisition plans for the next decade has been altered helping the country save 49,300 crores of taxpayers money.

Defence Minister Manohar Parrikar ordered a review of the 15 year long term plan to purchase new air defence systems upto 2027.

The concluded review which involved a technical study and an evaluation of all available air defence systems in the world has resulted in a decision by the air force to induct the Russian S-400 Missile System to protect Indian skies for the next decade.

Air defence strategy hinges around three layers - a short range system that protects high value installations upto 25 km, a medium range system that covers an area of around 40 km and a long range system for threats coming from further.

The review and evaluation suggest that with the S400 acquisition, the long term acquisition plan for over 100 each Medium and Short range systems have been cut down. The Air Force would not need greater number of Medium and Short Range Missiles if threats could be eliminated by the S-400 at longer ranges.

Defence Minister Manohar Parrikar is in favour of inducting the S-400 that can cover a larger area compared to other Medium and Short Range Missile Systems.


Five S-400 Systems to be inducted for $6.1 bn ::

With the current review process completed, the Ministry of Defence has come to a conclusion of inducting five Russian S-400 Missile Systems at a total cost of $6.1 billion.

It will be the most expensive air defence system ever bought by India.

A price tag of $6.1 billion may seem to be staggering but on a per square km covered basis, the S-400 is the cheapest of all known systems available globally.

Source: India will spend $6.1 billion dollars for five S-400 Missile Systems
 
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MOSCOW, October 13. /TASS/. Russia will sign an agreement with India on October 15 on the delivery of S-400 Triumf antiaircraft missile systems, Russian presidential aide Yuri Ushakov said on Thursday.

"Following the results of the negotiations between our president and [Indian Prime Minister Narendra] Modi, an agreement will be signed on the delivery of S-400 Triumf antiaircraft missile systems to India, as well as some other documents," he said.

"Part of the documents will be signed behind closed doors," he said.

The Kremlin aide declined to comment on the details of the deal, suggesting that first the document should be signed.

 
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