Astra | |
Type: | Beyond-visual-range air-to-air missile |
Origin: | India |
Is Missile: | yes<-- Service history --> |
Service: | –present |
Used By: | |
Designer: | Defence Research and Development Organisation(Defence Research and Development Laboratory) |
Manufacturer: | Bharat Dynamics Limited |
Production Date: | 2017 — Present |
Variants: |
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Engine: |
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Filling: | High-explosive pre-fragmented HMX/PU[1] |
Detonation: |
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Vehicle Range: | |
Speed: | Mach 4.5 (Astra Mk 1) [7] |
Guidance: | Mid-course: Fibre-optic gyro based inertial navigation system with mid-course update via datalink. Terminal: Active radar homing |
Propellant: | Solid fuel |
Launch Platform: |
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Ref: | [10] [11] [12] [13] |
Astra (Sanskrit: "Weapon") is an Indian family of all weather beyond-visual-range air-to-air missile, developed by the Defence Research and Development Organisation. Different missiles of this family are capable of engaging targets at varying distances of 500m (1,600feet) up to 340km (210miles).[14] Astra Mk-1 has been integrated with Indian Air Force's Sukhoi Su-30MKI and will be integrated with Dassault Mirage 2000, HAL Tejas and Mikoyan MiG-29 in the future. Limited series production of Astra Mk-1 missiles began in 2017.[10] [15] [16]
Astra Mk-1 is 3.6m (11.8feet) long with a diameter of 178mm and weighs 154kg (340lb). It uses mid-course inertial guidance driven by fibre-optic gyroscope with terminal guidance through active radar homing.[17] It is capable of receiving course corrections through a secure data link. The missile's active radar seeker, with a homing range of 25km (16miles), was designed by Russia's Concern Morinformsystem-Agat but manufactured within India.[18] The seeker can lock-on to a target with a radar cross section of 5 square metres from a distance of 15 km and enables off-boresight launches up to an angle of 45°.[19] Some tests have been conducted in 2017 and 2018 using an indigenous seeker developed by Research Centre Imarat.[20] [21] [22]
Astra Mk-1 is equipped with electronic counter-countermeasures to allow operation even during enemy attempts to jam the seeker using electronic countermeasures. It carries a 15kg (33lb) high explosive pre-fragmented warhead activated by a proximity fuse. It uses a smokeless solid fuelled motor that can propel the missile to a speed of Mach 4.5 and allows operation from a maximum altitude of 20km (10miles). Its maximum range is 20km (10miles) in tail chase mode and 110km (70miles) in head on chase mode.[23] The maximum range is achieved when the missile launched from an altitude of 15km (09miles). When it is fired from an altitude of 8km (05miles), the range drops to 44km (27miles) and when it is launched from sea level, the range drops further to 21km (13miles).[24] It can be launched in both autonomous and buddy mode operation and can lock on to its target before or after it is launched.[25]
Preliminary work on Astra Mk-1 had begun by 1990 with the completion of a pre-feasibility study.[26] It was revealed to the public for the first time at Aero India 1998.[27] It was described as an elongated Matra Super 530D with a smaller diameter in front of the wings.[28] The project to develop the missile was officially sanctioned in 2004 with a budget of .[29] The project was to be led by Defence Research and Development Laboratory with assistance from Hindustan Aeronautics Limited and Electronics Corporation of India Limited.[30] The initial version of Astra Mk-1 reportedly weighed 300kg (700lb) with a range of 25– and was planned to be integrated with HAL Tejas. It was tested for the first time in May 2003.[31]
The missile was redesigned around 2006 due to control issues and performance deficiencies at high altitude. The initial design of four cruciform short-span long-chord wings were replaced by cropped delta wings placed near the nose. The redesigned missile had an improved propulsion system and was tested for the first time in 2008.[32] By 2013, the missile had been redesigned again in response to multiple failures caused by adverse interactions between flight control surfaces.[33] The control, guidance, and propulsion systems were also reconfigured.[34] After the second redesign, the missile was lighter than the initial version by around . It was tested from the ground thrice in December 2012 and captive trials from a Sukhoi Su-30MKI were held in April 2013.[35] [33]
See also: Solid Fuel Ducted Ramjet.
After the deployment of Astra Mk-1, several offshoot versions are being planned, including an imaging Infra-red homing missile tentatively classified as Astra-IR, a longer-range Astra Mk-2 version and a further development called Astra Mk-3.[36]
India's DRDO is undertaking work on a Mk-2 version of the Astra missile and has planned to enhance its range using an in-house developed dual-pulse rocket motor by May 2022.[37] The missile will have a similar design as well as share the smokeless propulsion of its predecessor Mk-1, boast a laser proximity fuze and some newer technologies like a home-grown AESA radar seeker.[38] DRDO plans to extend the range of the Mk-2 version to, rivalling the American AIM-120D AMRAAM.[39] [40] India is planning to carry out the first test of the Astra Mark 2 missile in next few months.[41]
A future Mk-3 variant based on a Solid Fuel Ducted Ramjet (SFDR) engine is being jointly developed by India and Russia.[42] The missile was first tested on 30 May 2018 and further test was carried out on 8 February 2019.[43] [44] The aim of the program to develop an indigenous missile rivalling the AIM-260 JATM and MBDA Meteor.
See main article: VL-SRSAM. To fulfill the need of Indian Navy's replacement of Barak-1 short range surface-to-air missile system, DRDO successfully test fired two VL-SRSAM on 22 February 2021 at Odisha coast. The maiden launch tested the efficacy of vertical launch system and missile's maximum and minimum range. Both the missile successfully intercepted their target with pin point accuracy.[45]
VL-SRSAM supersedes the cancelled Maitri missile project undertaken jointly by MBDA and DRDO based on the work done on MICA and Trishul.[46] The missile will arm Indian Navy ships like tḥe Kamorta-class corvette as a short range air defense system. The missile uses jet vane based thrust vectoring control for high maneuverability. The missile may be guided by the Revathi radar which is being used extensively in Indian Navy ships like the Kamorta-class corvette.[47]
Indian Air Force may also sport VL-SRSAM in truck-based launchers to supplement its Akash surface-to-air missile as a quick reaction system, similar to the Norwegian/American NASAM 2.[48] [49]
Astra Mk-1 went through a series of ground tests from 2003 till 2012 in three different configurations to validate the airframe, propulsion system, control system, dual mode guidance and night firing capability. Carriage trials were carried out in 2009 and 2013 on Sukhoi Su-30MKI.[50] [51] In May 2014, it was fired for the first time in air.[52] On 18 March 2015, it successfully performed manoeuvre of upto 30g while engaging the target.[53] The missile was fired in public during Iron Fist 2016 exercise from Sukhoi Su-30MKI.[54] During a series of seven tests in September 2017, Astra Mk-1 was tested twice with an indigenous seeker.[55] During user trials in 2019, it hit a target at a distance of .[56]
Astra Mk-1 with an indigenous seeker (instead of a Russian variant supplied by AGAT) is expected to be tested for the first time in May 2022.[57]
Astra Mk-1 was successfully fired from HAL Tejas aircraft on 23 August 2023.[58]
During an annual press conference on October 4, 2022, IAF released footage of an Astra Mk-2 launched from a Su-30MKI using Unified Common Launcher developed by DRDO with industry partners for air-to-air missiles.[59]
Reports released in April 2024 suggested that the missile will be tested in first half of 2024 with an initial target range of around 130 km.[60] [61] [62]
See also: Solid Fuel Ducted Ramjet. As per Ministry of Defence's Year End Review, Astra Mk-3 with solid fuel ducted ramjet (SFDR) propulsion was flight tested in 2023 which enabled the missile to intercept aerial threats over a far greater distance at supersonic speed. The missile was configured with nozzle-less booster, thrust modulation system and a sustainer engine to deliver specific impulse in ramjet mode.[63]
Astra completed final development trials in September 2017 and was cleared for production by Bharat Dynamics Limited (BDL). The missile will be manufactured at Bhanur, Telangana for an initial order of 50 missiles. Additional order of 248 missiles were placed for Indian Air Force (200) and Indian Navy (48) for use on various platforms like Sukhoi Su-30MKI, HAL Tejas, MiG-29 / MiG-29K.[64]
On 31 May 2022, Ministry of Defence (MoD) signed contract with BDL worth ₹2,971 crore (US$383 million) to produce 350+ units of Astra Mk-1 for Indian Air Force and Indian Navy under high priority Indian Designed, Developed and Manufactured (IDDM) category.[65] DRDO already started the process of transferring technology of the missile and associated systems to BDL. Each missile will cost ₹7–8 crore.[66] Astra Mk-1 along with other variants of this missile will progressively replace all Russian origin long range air to air missile in Indian fleet.[67]
On 14 January 2024, Minister of State for Defence, Ajay Bhatt flagged off the first batch of production Astra Missiles for the Indian Air Force from Bharat Dynamics Limited's Kanchanbagh Unit in Hyderabad.[68] [69] The missile received full-rate production clearance on 4 August 2024. The clearance was granted by Air Force Deputy Chief Air Marshal Ashutosh Dixit on hist visit to Hyderabad unit of BDL.[70] [71]
It was published in August 2023 that Brazil was exploring possibility of equipping its Gripen fighters with Astra Mk-1 missiles as a cost-effective option.[72]
Technical: