Quick Reaction Surface to Air Missile successfully tested
With this successful launch the trials of Quick Reaction Surface to Air Missile system are over and the weapon system is expected to be ready for induction by 2021
Defence Watch Bureau
December 23, 2019
Quick Reaction Surface to Air Missile (QRSAM) system was successfully flight-tested from Integrated Test Range, Chandipur off the Odisha coast. The system developed by the Defence Research and Development Organisation (DRDO
) was tested at 11:45 am on Monday. The missile was flight-tested with the full configuration in deployment mode intercepting the target mid-air, meeting the mission objectives. The entire event was monitored by Ground Telemetry Systems, Range Radar Systems, Electro-Optical Tracking System.
"With the successful flight-testing the developmental trials of the Quick Reaction Surface to Air Missile system are successfully completed and the weapon system is expected to be ready for induction by 2021"
The Quick Reaction Surface to Air Missile weapon system
, which operates on the move, comprises of fully automated Command and Control System, Active Array Battery Surveillance Radar, Active Array Battery Multifunction Radar and Launcher. Both radars are four-walled having 360-degree coverage with the search on move and track on move capability. The system is compact with a minimum number of vehicles for a firing unit. The single-stage solid propelled missile has a midcourse inertial navigation system with two-way data link and terminal active seeker developed indigenously by DRDO. The missile successfully engaged the aerial target establishing its capability. Director General (Missiles and Strategic Systems) MSR Prasad was present during the trial.
With this mission, the developmental trials of the missile system are successfully completed and the weapon system is expected to be ready for induction by 2021.
Defence Minister Rajnath Singh
and Secretary, Department of Defence R&D & Chairman DRDO Dr G Satheesh Reddy have congratulated the teams involved in the flight trials and development of QRSAM.