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India joins Ballistic Missile Defence Club

India to test 'interceptor' missile again-India-The Times of India
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NEW DELHI: India will take another step towards developing a ballistic missile defence (BMD) system in the next few days when it tests an "interceptor" missile against an "incoming enemy" missile over the Bay of Bengal.
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The impending third test from the Wheeler Island off Orissa's coast will be that of an "exo-atmospheric" hypersonic interceptor missile, which will take on "a longer range enemy" missile, in the 2,000-km class, at an altitude of around 80-km this time.

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After the third test, DRDO plans to test both the "exo" and "endo" interceptor missiles together in an integrated mode by September-October. In Phase-I, a BMD system capable of taking on "2,000-km class targets" is being developed. Phase-II, in turn, will be geared towards tackling threats from missiles up to 5,000-km, said sources.

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DRDO chief controller for missiles, V K Saraswat, had earlier told TOI that the BMD system of Phase-I should be ready for deployment by 2011 or so, after several tests against a variety of missiles to ensure "a kill probability of 99.8%".

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Consequently, there have been some Israeli and French imprints in the ongoing development of India's BMD system. The crucial long-range tracking radars (LRTRs) used to detect and track the 'enemy' missile as well as guide the interceptor to it, for instance, can be traced to the two Israeli Green Pine early-warning and fire control radars imported by India in 2001-2002.

Similarly, some guidance and other technologies like IIR (imaging infra-red) seekers will require international collaboration in Phase-II. "Other technologies to be developed include divert and attitude control systems, hypersonic aerodynamics, kill vehicle and the like," said a source.
 
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Some more news about Club:
http://outlookindia.com/pti_news.asp?gid=73&id=594320

India to acquire underwater land attack missiles

India is on the verge of acquiring a strategic capability to strike land targets thousands of miles from its shores by inducting the Russian underwater launched Club-S subsonic cruise missiles.

The missiles will come armed in early August on Indian Navy's new series of upgraded Kilo-class submarine INS Sindhuvijay, according to Naval sources here.

Sindhuvijay will be the first of Kilo-class submarines to be fitted with these land attack versions of the new breaking technology Club-S cruise missiles, which have a flight range of 275 nautical miles.

"The high-precision missile can be launched from standard torpedo tubes from a depth of 35 to 40 meters," Naval sources said.

Sindhuvijay is the fourth Indian Navy's Kilo-class submarine that has been overhauled at Zvezdochka shipyard in northern Russia. Besides the land attack version, the subs are also coming armed with 3M-54EI anti-ship cruise missiles.

Labelled by NATO as one of the quietest submarines in the world, the upgraded Kilo-class subs have undergone extensive changes in the hull as well as getting improved control systems, sonars, new electronic warfare systems and an integrated weapon control system.

The Club-S missiles are new technological weapons still under development in Russia. According to Russian Naval experts, they are simultaneously being fitted in new series of submarines.

Indian Navy signed a 80 million dollar contract with Russia in 2001 to retrofit its entire fleet of ten Kilo-class submarines to enable them for firing Club-S cruise missiles.

India is also asking the Russians to change the design of Kilo-class submarines to undertake test firing of its indegenious underwater launched supersonic Brahmos cruise missiles.

Sindhuvijay was to scheduled be delivered in December last year but the Navy refused to take possession saying that new cruise missiles failed to find their targets in six consecutive test firings in September and November.

"But extensive new trials conducted in mid-July were perfect," Russian sources said.

Naval experts have described the Club-S missiles as "the most versatile weapons" with the capability of swimming out of the sea as well as vertical launch.

The new missiles use an ARGS-5 active radar seeker, new Russian Glosnass satellite and inertial guidance.

Naval sources said Sindhuvijay will start sailing from the Russian shipyard located close to the White sea on August 5 and dock at Western Naval Command base in Mumbai a week later.

Russia Kilo-class diesel-electric submarines have gained a reputation as being extremely quiet vessels and have become part of navies in India, China, Iran, Poland and Alergia.
 
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'2 more versions of BrahMos ready'-India-The Times of India

'2 more versions of BrahMos ready'
1 Aug 2008, 1836 hrs IST,PTI

TIRUCHIRAPPALLI: The BrahMos Aerospace has developed two more versions -- air and underwater -- of its supersonic missile BrahMos and is on course to develop hypersonic missiles that could cruise at speeds of 5-7 Mach, a top scientist has said.

Already four versions -- ship-to-ship, land-to-land, land-to-ship and ship-to-land -- had already been developed by the agency and the two new variants were now ready and in various stages of approval and test firing, BrahMos Aerospace Chief Executive and Managing Director A Sivathanu Pillai told reporters on Thursday.

"We are very close to the launch of the under water version and the Navy had to get ready the requisite platform for the testing," he said.

For air version, the development systems were ready and the integrated test would be undertaken after mock firing.

However, the launch of air version and commercial production would take some time as certain structural modifications were to be made in the Russian-built Sukhoi aircraft.

"We have already completed 15 flights successfully and are waiting for the availability of the modified design in Sukhoi which has to reduce other pay loads," he said.

A special high power committee comprising of experts from the Air Force, the Hindustan Aeronautics Limited and BrahMos Aerospace had been constituted to carry out the modifications.

He said the company would also take up BrahMos II project under a major expansion programme to produce hypersonic missiles that could cruise at speeds of 5-7 Mach. The present versions travels at a speed of 2.8 Mach, (1 Mach is referred to the velocity of sound), Pillai, who was here to address students of various colleges, said.
 
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The Hindu : Front Page : Nag missile testfired

Nag missile testfired
It achieved the maximum range and was bang on target

HYDERABAD: The third generation hit-to-kill anti-tank missile, Nag, was successfully testfired at Pokhran in Rajasthan on Tuesday. The advanced weapon system damaged the target, a stationary tank four km away.

Talking to The Hindu from the launch site, Nag’s project director S.S. Mishra said the missile achieved the maximum range and was bang on target. “We got the bull’s eye,” he said after the missile was launched around 1.20 pm. The test-firing was preceded in the last few days by pre-launch transportation trials in the desert terrain “with full combat load.”

Director, Defence Research and Development Laboratory (DRDL), P. Venugopalan said all the mission objectives were met during the testfiring he described as the “last developmental trial.” He said the changes wanted by the user were incorporated in the missile which could be operated both during the day and night. He said the user trial would be conducted in a couple of months.

S.K. Chaudhuri, associate director, Research Centre Imarat (a key laboratory of the DRDO’s missile complex) and chairman of the Flight Readiness Review (FRR) for the trial, said the missile proved the capability for “highest technology in seeker and control guidance system.” Equipped with Imaging Infrared Seeker and lock-on-after-launch capability, and carrying a real warhead, it was fired from Namica, a dedicated missile carrier.

Within 21 seconds of its launch, it homed in on the target and with the help of a “precursor charge” created a huge hole on the tank, demonstrating its “top attack” capability. Soon after the precursor charge made a hole, the main warhead zoomed into the tank and exploded, causing damage to the derelict vehicle.

The indigenously-developed Nag is a two-stage solid propellant missile and each Namica carries 12 missiles with eight of them in ready-to-fire mode.
 
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Thought to put this here as I think this will help in fielding the BMD system

PIB Press Release

Bharat Electronics Limited (BEL), a Defence Public Sector Undertaking, today handed over the first of the 3-dimensional radar ‘Rohini’ to the Indian Air Force. Shri VVR Sastry, Chairman-and-Managing Director, BEL handed over a ceremonial key to the Chief of Air Staff Air Chief Marshal Fali Homi Major at a function in BEL, Ghaziabad marking its induction into the IAF.

The state-of-the-art Multifunction Medium Range Surveillance Radar has been developed by the Defence Research and Development Organisation’s (DRDO) Electronics and Radar Development Establishment (LRDE), Bangalore and engineered and produced by BEL. It is capable of handling multiple targets simultaneously and also precisely calculate the height at which the projectiles are flying. Mounted on “Tetra’ mobile platform, a heavy duty modified truck built by the public sector Bharat Earth Movers Limited (BEML) and supported by an auxiliary mobile power unit, it enables the Rohini to be easily transported to the battlefront.

Speaking on the occasion the chief guest Air Chief Marshal Major said the radar would grant the IAF better air surveillance capability, particularly at low altitudes. Operating in a range of upto 170 kilometres and an altitude of 15 kilometres, the radar can track multiple targets like fighter jets and missiles travelling at supersonic speeds of over 3,000 kms per hour, viz around Mach 3. The radar employs an array of Electronic Counter Counter Measure (ECCM) features including frequency agility and jammer analysis. A Secondary Surveillance Radar, IFF, is integrated with the primary radar Rohini, which distinguishes friendly and hostile aircraft.

Handing over the radar, Shri Sastry said he expects around 100 pieces would be built, with around 20 radars being manufactured every year. He said the army has conducted successful trials of a Rohini variant for detecting and tracking missiles. Another variant, ‘Revathi’, is being developed for the Navy, he added. Shri Sastry assured the forces that the BEL has surplus capacity to undertake serialized production and its manufacturing facilities were being currently utilized only to an extent of 70 percent. For the first time the IAF has also awarded an Annual Maintenance Contract for the Rohini radars to the BEL.

Shri M. Natarajan, Scientific Advisor to the Defence Minister and Secretary, Defence R&D, said the Rohini radar is a shining example of the defence-industry synergies, the new age objective of the DRDO. Private sector pioneers Larsen & Toubro (L&T) and Astra Microwave have collaborated with the BEL and DRDO to provide ancillary inputs to development of the Rohini radar, which is almost indigenously developed barring minor critical components. Shri S. Varadarajan, Director, LRDE said changes would be incorporated into the radar time to time based on end user feedback.
 
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Guys another good news:

The Hindu : National : Namica amphibious trial successful

Namica amphibious trial successful

HYDERABAD: Close on the heels of test-firing of the anti-tank Nag missile on stationary and moving targets, DRDO scientists successfully completed an “amphibious trial” of Namica, dedicated carrier of the weapon system, in the Indira Gandhi canal at Nachna in Rajasthan on Thursday.

“This was the first time that such a trial had been carried out,” Nag project director, S.S. Mishra told The Hindu. The carrier, weighing 14.5 tonnes, was in full combat load with eight missiles in the turret and it crossed the canal by demonstrating its “mobility in water.”

In a war scenario, Namica would be required to not only stay afloat but also negotiate and overcome obstacles while moving at seven km an hour, he said.
 
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Guys check this, we can think of something like "Sudarshan Chakra" for our armed forces:
A scramjet that cruises at 17290 km/hr - Newindpress.com

A scramjet that cruises at 17290 km/hr
Saturday August 9 2008 15:53 IST

An Indian double has caught global attention in the hypersonic race for cheap and cost effective launch technology.

Bidding for their rightful place among the world’s majors, two of the country’s premier agencies are in the advanced stages of proving scramjet (supersonic combustion ramjet) technology to meet their respective strategic needs.

While the Indian Space Research Organisation (ISRO) is working on the Reusable Launch Vehicle (RLV) for launching satellites, the Defence Research and Development Organisation (DRDO) is dreaming about a Hypersonic Technology Demonstrator (HSTD) to carry a range of weapons faster and farther.

Both have set a 2010 deadline. And both are in the pre-fabrication stage. But ISRO has the edge as it has already carried out a seven-second experimental combustion of a test engine. To state that both the projects are progressing at somewhat the same pace won’t be far off the mark.

But there’s a remarkable design difference between the RLV and the HSTD. ISRO’s hypersonic plane, being built at the Vikram Sarabhai Space Centre (VSSC), Thiruvananthapuram, is a winged body while the HSTD is a sleeker structure. The only common architecture, perhaps, is the air intake scoop at the front through which atmospheric air will be sucked in before oxygen is separated from it to oxidise the onboard fuel.

This is how the scramjet bypasses the need to carry an oxidiser on board. In a conventional rocket, the fuel and oxidiser are stored separately and burnt in a regulated combustion of eight grams of oxygen to one gram of fuel. But in the scramjet, oxygen is isolated from the air, compressed and introduced to a stream of fuel.

To ensure that sufficient oxygen is ingested for a self-sustaining flight, the scramjet must get to supersonic speeds before going ahead with its designated mission of launching a satellite for ISRO or delivering a warhead for DRDO.

This speed is achieved by coupling the scramjet to a conventional rocket during the initial phase of the flight. "We will mount the RLV prototype on a sounding rocket (S9). The rocket will speed it up to Mach 5 before the body is allowed to surf and suck air for onboard combustion. This process fires the scramjet and propels the payload to the desired orbit at speeds between Mach 8 and 10," says VSSC director K Radhakrishnan.

The DRDO plans to use a core-alone Agni stage (S1). The capsule containing the HSTD will ride on Agni to stratospheric heights. After the first stage separates, the capsule shifts to a horizontal alignment and opens up to allow the HSTD to skim the atmosphere and breathe air.

“We’re in an advanced stage. The shock tunnel test will soon be conducted. Our plan is to have a 400-second flight by 2009,’’ says M S Sundareshan, technical adviser at the Defence Research and Development Laboratory, Hyderabad. The DRDL is currently firing its test engine in a ground facility.

“The initial results are promising. We achieved significant thrust value,” says Sundareshan, adding that achieving hypersonic levels is a challenge that no nation except the US has met. The DRDO needs such speeds for weapon delivery at very great distances. The job is now done by Inter Continental Ballistic Missiles.

But like space rockets, ICBMs are a very costly chemical proposition. “The hyperplane can fly in at fast speeds, fire the missile or launch the warhead and return. The reusability will reduce our costs significantly,” says DRDL director Dr Venugopalan.

Cost figures in ISRO’s calculus as well. “The cost of launching a satellite using conventional rockets like the PSLV or GSLV is $25,000 to $28,000 per kg. The scramjet can reduce it to $500. This will make any nation with such a technology a launch destination,” says Radhakrishnan.

One great attraction is that the RLV can be brought back and reused. “The conventional rocket is expendable. Each stage burns out as the payload soars. But the RLV will come back after its mission,” he says.

ISRO will land the RLV on the sea using parachutes. But a project to facilitate its landing like an unmanned aircraft is on the anvil. DRDO also plans to land it like an aircraft. “We’ve a few UAV projects going where this technology is being experimented with. It can be integrated with the HSTD,” sources say.

Another frontier that scramjet research has opened up is advanced metallurgy. “We’re talking about a craft that moves at great speeds, breaks off from the atmosphere and re-enters, weathering high temperatures and atmospheric friction. There are several new alloys being developed. Apart from their use in scramjet vehicles, this research will impact the whole gamut of strategic metallurgy,” says Dr G Malakondaiah, director of the Defence Metallurgical Research Laboratory, Hyderabad.

India is experimenting with silica-carbon-silica and nickel-based alloys to cover the scramjet. Both alloys have high thermal resistance. A prototype using these alloys will be subjected to wind tunnel tests to gauge their strength against the vagaries of the atmosphere and beyond.

It is but natural for anyone to wonder why two Indian agencies are developing the same technology in parallel, with so much, except the sophisticated nature of the end-use, in common. ISRO insiders blame it on the absence of a pro-active culture within DRDO’s portals; the latter finds fault with ISRO’s big brother attitude.

“It’s the typical Indian defence story,” says one former top gun of ISRO. “In a way, it’s a blessing in disguise. Whoever proves it first will attract global attention. With the country inching closer to the concept of aerospace strategic forces, there will be a lot of give and take once the technology is proved indigenously,” he adds.

And the scramjet will place India in a league of nations that includes the US, Japan, China, Russia, Australia and Europe where this nascent technology is the latest scientific fad.
 
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Guys check this:

LiveFist: The Truth about the Rohini radar (from Prasun K Sengupta)

FORCE Magazine/Tempur defence writer Prasun K Sengupta wrote in a few days ago to say, "Before DRDO and BEL take us all to Cloud 9 regarding the Rohini and Revathi 3-D radars, Rohini and Revathi 3-D radars are derivatives of the Polish TRS-19 radar, developed by Poland's Przemyslowly Instytut Telekomunikacji SA. What the DRDO has done in fact is buy all the IPRs and manufacturing licences from the two Polish companies. I had written about this way back in late 2006."

I quote from the article Prasun's referes to from FORCE Magazine in late 2006, titled "Flights of Fire":

By late 2001 the DRDO had inked a comprehensive technologytransfer-cum-design rights buyout package with Radwar and PIT under which the DRDO would obtain and transfer the production technology for the PIT-developed TRS-17 S-band, 3-D radar with 240kmrange, and Radwar-developed N-22 Sband, 2-D 100km-range gapfiller radar, their respective antennae hoisting mechanisms, microwave line-of-sight signals relay antennae and related command-andcontrol consoles to the MoD-owned Bharat Electronics Ltd (BEL) who in turn would call them the Central Acquisition Radar (CAR) and the Battery Surveillance Radar (BSR).

While the CAR would be used along with a Group Control Centre for tracking up to 120 targets and providing fire-direction for up to three Batteries (each comprising four
launchers, with each launcher carrying three missiles) of the Akash MSAM, the BSR and its Battery Control Centre will be able to track 72 airborne targets and will be linked to the BEL-built Rajendra target engagement radar, whose main antenna array will comprise 2,000 ferrite phase shifters and will be able to track 64 targets out to 60km, and engage four airborne targets simultaneously with 12 missiles. For the Army and Air Force variants of the Trishul SHORADS, the DRDO opted for Radwar’s S-band, 40kmrange 3-D mobile multi-beam search radar as the principal tactical early warning sensor.

Armed with these technology-transfer deals, the DRDO had by 2003 reinvigorated the Akash’s R&D phase and on 7 December 2005 conducted Akash’s 50th test-firing which, according to DRDL Director Dr Prahlada, was the first test-firing conducted with a fully functional Battery-level command, control and communications system.
 
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Guys check this:

LiveFist: The Truth about the Rohini radar (from Prasun K Sengupta)

FORCE Magazine/Tempur defence writer Prasun K Sengupta wrote in a few days ago to say, "Before DRDO and BEL take us all to Cloud 9 regarding the Rohini and Revathi 3-D radars, Rohini and Revathi 3-D radars are derivatives of the Polish TRS-19 radar, developed by Poland's Przemyslowly Instytut Telekomunikacji SA. What the DRDO has done in fact is buy all the IPRs and manufacturing licences from the two Polish companies. I had written about this way back in late 2006."

I quote from the article Prasun's referes to from FORCE Magazine in late 2006, titled "Flights of Fire":

By late 2001 the DRDO had inked a comprehensive technologytransfer-cum-design rights buyout package with Radwar and PIT under which the DRDO would obtain and transfer the production technology for the PIT-developed TRS-17 S-band, 3-D radar with 240kmrange, and Radwar-developed N-22 Sband, 2-D 100km-range gapfiller radar, their respective antennae hoisting mechanisms, microwave line-of-sight signals relay antennae and related command-andcontrol consoles to the MoD-owned Bharat Electronics Ltd (BEL) who in turn would call them the Central Acquisition Radar (CAR) and the Battery Surveillance Radar (BSR).

While the CAR would be used along with a Group Control Centre for tracking up to 120 targets and providing fire-direction for up to three Batteries (each comprising four
launchers, with each launcher carrying three missiles) of the Akash MSAM, the BSR and its Battery Control Centre will be able to track 72 airborne targets and will be linked to the BEL-built Rajendra target engagement radar, whose main antenna array will comprise 2,000 ferrite phase shifters and will be able to track 64 targets out to 60km, and engage four airborne targets simultaneously with 12 missiles. For the Army and Air Force variants of the Trishul SHORADS, the DRDO opted for Radwar’s S-band, 40kmrange 3-D mobile multi-beam search radar as the principal tactical early warning sensor.

Armed with these technology-transfer deals, the DRDO had by 2003 reinvigorated the Akash’s R&D phase and on 7 December 2005 conducted Akash’s 50th test-firing which, according to DRDL Director Dr Prahlada, was the first test-firing conducted with a fully functional Battery-level command, control and communications system.
 
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now this is interesting nag is in three variants:enjoy:


DRDO developing two new variants of the Nag for the IAF

By Prasun K. Sengupta July (2008)
Feature / Report
Modest Presence
Snipers Beware!
Fired up
Amphibious Operations
War Within



At press time the Defence Research & Development Organisation (DRDO) was gearing up for conducting the definitive developmental trials of the ‘Nag’ anti-armour guided-missile (ATGM) at the firing range in Pokhran. The 4km-range ‘fire-and-forget’ ATGM, under development since the late Eighties at a cost of three billion rupees and thus far being subjected to more than 60 test-firings since November 1990 (with the first fully-functional test-firing being conducted on September 9, 1997), will be subjected to seven test-firings over a two-day period starting July 27 against both stationary and moving targets in both daytime and at night. Subject to the test-firings being successful, final user’s trials of the ATGM will be carried out this October, following which series production will get underway by the year’s end at the Hyderabad-based production facilities of state-owned Bharat Dynamics Ltd (BDL). The Indian Army is likely to place an initial order for 443 ‘Nag’ ATGMs, along with 13 ‘NAMICA missile launch vehicles, which are modified BMP-2 tracked infantry combat vehicles each of which houses an inclined swiveling launcher containing eight ATGMs, 12 missile reload rounds, and a target acquisition system using a second generation thermal imager and a laser rangefinder, both with a range of 5.5km. The 42kg ‘Nag’ ATGM makes use of an airframe built out of aluminium alloys, and a DRDO-developed cadmium zinc telluride-based imaging infra-red (IIR) seeker for giving the missile a lock-on before launch capability. It has a flight speed of 230 metres per second, is armed with a 8kg tandem shaped-charge warhead, has a rocket motor using nitramine-based smokeless extruded double band sustainer propellant, has a single-shot hit probability of 0.77 and a CEP of 0.9 metres, and has a 10-year maintenance-free shelf-life. Efforts are now on to develop a mast-mounted missile launcher that will be hydraulically raised out to a height of five metres to enable the NAMICA to acquire its targets out to a distance of 8km.

The DRDO is now developing two new variants of the ‘Nag’ for the Indian Air Force (IAF): the 8km-range ‘Helina’, which will be launched from twin-tube stub wing-mounted launchers on board the armed ‘Dhruv’ ALH and Light Combat Helicopters that will be produced by state-owned Hindustan Aeronautics Ltd (HAL); and a 10km-range variant that will be launched from tactical interdiction aircraft like the upgraded Jaguar IS. The ‘Helina’ will, like the ‘Nag’ make use of an IIR seeker for target engagement, while the Jaguar IS-launched ATGM will use a nose-mounted millimetric-wave active radar seeker. User trials of these two variants of the ‘Nag’ will be conducted by late 2010. All three variants of the ‘Nag’ will have top-attack capabilities, thanks to the incorporation of a digital autopilot for automatic trajectory shaping. All in all, about 4,000 ATGM rounds of all types (vehicle-, helicopter- and air-launched) are expected to be produced by BDL.

In another development aimed at optimising its single-seat Jaguar IS strike aircraft for undertaking tactical interdiction/anti-armour missions (which were once the missions for the MiG-23BNs now being retired from service), the IAF has awarded a 24 billion rupees contract to HAL for refurbishing and upgrading an initial 68 licence-built Jaguar IS. Work involves airframe life extension and addition of a fixed inflight refuelling probe on the nose of each aircraft, plus installation and integration of the DARIN-3 navigation-and-attack system, which has been indigenously developed by the DRDO’s Inertial Navigation-Attack Systems Integration Organisation (IIO) and the Defence Avionics Research establishment (DARE). Making use of the MIL-STD-1553B digital databus, the DARIN-3 suite includes an AMLCD-based digital map generator, one AMLCD-based multi-functional display, a mission computer, digital flight data recorder, and a SIGMA-95 ring laser gyro-based inertial navigation system coupled to a GPS receiver. For target acquisition, use will be made of a belly-mounted Litening-2 target acquisition/laser designator pod supplied by Israel’s RAFAEL Armament Authority. Earlier, between 2000 and 2007, HAL had supplied the IAF with 37 new-build DARIN-3-equipped Jaguars, of which 20 were single-seaters and 17 were tandem-seaters. Both the new-build and upgraded Jaguars will remain in service until 2018.
 
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Hey thanks a lot for sharing the info, kindly post the link also.

can you hv some more info regarding this

and a 10km-range variant that will be launched from tactical interdiction aircraft like the upgraded Jaguar IS. The ‘Helina’ will, like the ‘Nag’ make use of an IIR seeker for target engagement, while the Jaguar IS-launched ATGM will use a nose-mounted millimetric-wave active radar seeker.
 
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