Home / India News / India test-fires Rudram 1, its first anti-radiation missile to kill enemy radarsRudram 1, the New Generation Anti-Radiation Missile, was test-fired at about 10.30 am, people familiar with the development said.
india Updated: Oct 09, 2020 14:23 ISTFILE PHOTO: Prime Minister Narendra Modi speaks to the media inside the parliament premises on the first day of the winter session in New Delhi, India, November 18, 2019. REUTERS/Altaf Hussain/File Photo(REUTERS)
India on Friday successfully test-fired Rudram 1, the tactical anti-radiation missile that the Indian Air Force can launch from its Sukhoi-30MKI fighter jets to take down enemy radars and surveillance systems. The missile has a launch speech of up to 2 Mach, twice the speed of sound, people familiar with the matter said.
The Defence Research and Development Organisation developed the new generation weapon. It was tested at the interim test range Balasore, off the coast of Odisha in the Bay of Bengal, at about 10.30 am.
“This is a huge step forward,” a senior government official said about the DRDO’s successful test firing. “The IAF will now have the capability to perform SEAD (Suppression of Enemy Air Defence) operations deep into enemy territory to destroy enemy air defence setup,” the official said.
This would allow the IAF’s strike aircraft to carry out their mission unhindered effectively. This test demonstrates the capability of an Anti-Radiation Missile with large stand-off ranges.
The New Generation Anti-Radiation Missile, or NGARM, is integrated on Su-30MKI fighter aircraft. Its range depends on the height at which the fighter jet is flying. It can be launched from a height ranging from 500 metres to 15 km and can hit radiation emitting targets within a range of 250 km.
All radars and Electro Optical Tracking System tracked the launch and point of impact, a senior government official told Hindustan Times.
The tactical, air-to-surface anti-radiation missile is equipped with a passive homing head that tracks sources of radiation of a wide range of frequencies. It can lock into a target not only before launch but also after it has been launched.
Thank you for subscribing to our daily newsletter.