Radar comes into avionics. :laughing: No need to mention separately. :taunt:
Part of my point.
R-77RVV-AE [AA-12 ADDER]
Note: As per the annual United Nations (U.N.) conventional arms register, the Indian Government reported that it had purchased 30 R-77RVV-AE missiles in 1999 and 120 R-77RVV-AE missiles in 2000. These numbers suggest that the R-77RVV-AE is operational with the IAF, at a minimum with the upgraded MiG-21s and the Su-30s. In October 1998, a locally-upgraded MiG-29 test-fired a R-77RVV-AE air-to-air missile.
Work on the R-77 began in 1982 and was considered quite significant and secret since it represented Russia's first fully multi-purpose missile for both tactical and strategic aircraft for fire-and-forget employment against everything from hovering helicopters to high speed, low altitude aircraft. Gennadiy Sokolovski, General Designer of the Vympel Design Bureau, said that the R-77 missile can be used also against medium and long range air-to-air missiles such as the AIM-120 AMRAAM and AIM-54 Phoenix as well as SAMs such as the Patriot. It can also be used against cruise missiles and even precision-guided munitions (PGMs). First seen in 1992 at the MosAeroshow '92, the R-77RVV-AE was immediately nick-named Amraamski by Western journalists. The Russian-language version of the acronym for the weapon is RVV-AE and is also known as the Izdieliye-170. The missile can also be used from internal carriages where the control fins and surfaces will fold flat until it is catapulted clear of the aircraft for motor ignition.
The aerodynamics are novel, combining vestigial cruciform wings with tail control surfaces of a lattice configuration. Each surface consists of a metal frame containing a blade-like grid assembly which combines a greater control area, and thus lifting force, with reduced weight and size. The development for this control concept took three years of theoretical work and testing. Referred to by the Russians as gas dynamic declination devices, these surfaces require less powerful actuators than conventional fins, and have a lower RCS. The flow separation which occurs at high angles of attack enhances the it's turning ability, giving the missile a maximum turn rate of up to 150ú per second. During the initial flight phase after launch, the missile is controlled by an inertial auto pilot with occasional data link updates from the launch aircraft's radar on changes in spatial position or G of the target. During the terminal phase, the missile shifts to an active-radar mode.
Over short distances, the missile will launch in an active mode. The host radar system maintains computed target information in case the target breaks the missile's lock-on. If the seeker is jammed, it switches automatically to a passive mode and homes on the source of jamming. Development trials have been completed, and the missile is now entering production for use on aircraft such as the Mig-29, Su-27 and Mig-31. Fired against high-altitude non-manoeuvring targets approaching head-on, the R-77RVV-AE has a range of 100 km, with the seeker locking on at around 20 km, and a maximum speed of Mach 4. At short range, it can engage targets manoeuvring at up to 12g.
There are other variants under development. One has an up-rated motor which is intended to boost range at high altitudes to as much as 160 km and is known as the R-77RVV-AE-PD. The 'PD' stands for Povyshenoy Dalnosti, which in Russian means Improved Range. This variant has been test-fired and uses a solid-fuel ramjet engine. Its range puts it in the long-range class and is equivalent to that of the AIM-54 Phoenix. In another version of the R-77, a terminal infra-red homing seeker is offered. The use of IR tracking in the terminal mode might be logical because at extended ranges the data link between the launch fighter and the missile might be interrupted, or the host radar may not detect jamming. It has a laser fuze and an exploding rod warhead that can destroy the variable sized targets from missiles and PGMs to bombers.
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Lets see MKI's avionics and weapons capability.
Avionics: - The Su-30MKI features an all-weather, digital multi-mode, dual frequency, forward facing NIIP N-011M radar which has a 350 km search range and a 200 km tracking range. The radar can track and engage 20 targets and engage the 8 most threatening simultaneously. These targets can include cruise/ballistic missiles and even motionless helicopters. The radar is combined with a helmet mounted sight system, which allows the pilot to turn his head in a 90ú field of view, lock on to a target and launch the TVC-capable R-73RDM2 missile. The radar's forward hemisphere is ñ90ú in azimuth and ñ55ú in elevation. The N-011M ensures a 20 metre resolution detection of large sea targets at a distance up to 400 km, and of small size ones - at a distance of 120 km.
In March 1998, the IAF signed a contract with the French electronics manufacturer, Sextant Avionique, to add six liquid colour displays, five MFD 55s and one MFD 66, for both the pilot and his WSO (Weapons System Officer), the Totem inertial guidance system with the GPS technology and the VEH 3000 holographic HUD. Officials from Sexatant have acknowledged that they have already validated the GPS system on Sukhoi aircraft. The six LCDs have a wide-screen and are shielded to make it readable even in bright sunlight. All the flight information is displayed on these four LCD displays which include one for piloting and navigation, a tactical situation indicator, and two for display systems information including operating modes and overall operation status. The aircraft is fitted with a satellite navigation system, which permits it to make flights in all weathers; day and night. The navigation complex comprises an inertial directional system and short- and long-range radio navigation systems. It also has a laser attitude and a heading reference system. An automatic flight control system makes all phases of its flight automatic, including the combat employment of its weapons.
Weapons: -
The aircraft is fitted with a 30mm GSh-301 single-barrel gun which has a firing rate of 1500 - 1800 rds/min or 25 - 30 rds/sec. The gun has a maximum effective range of 1200 - 1800 meters (3937 - 5906 feet) against air targets and 200 - 800 meters (656 - 2625 feet) against ground targets. Has 170 rounds capacity with 150 rounds loaded. Can carry a variety of ordnance on 12 hard points, which can be increased to 14 by using multi-payload racks. For air-superiority missions, the Su-30MKI can carry air-to-air missiles, like the close-combat R-60MK and R-73RDM2 (up to six), the medium-range R-27RE1/TE1 (up to six/two) and the long-range R-77RVV-AE (up to six).
MiG-29
Avionics: Has a coherent, multimode pulse Doppler look-down/shoot-down engagement radar which has search and tracking capabilities. Has a HUD (head-up display) and helmet mounted target designation system, which is tied in with a laser range finder and an infra-red search & track. The IRST ball is mounted on a three-axis gimballed turret protruding above the nose in front of the cockpit.
The radar is supported by an optical-electronic navigation-attack system, which comprises a sighting system, a navigation system, a digital computer, a weapons control system, and a data presentation system with a HUD. The helmet mounted sight & target designator is available for use with the R-60MK and the R-73RDM2 close-combat missiles.
The navigation system includes a radio compass, a radar altimeter, a marker beacon receiver, and a short-range navigation and instrument landing system. The ground-air & air-ground data link for target indication from land-based radars, is joined by a communications radio. The aircraft also has an IFF transponder & interrogator.
Armament: Fitted with a 30mm GSh-30 gun with 170 rounds capacity and 150 rounds loaded. The gun has a maximum effective range of 1200 to 1800 meters against air targets and 200 to 800 meters against ground targets. It has a maximum firing rate of 25 to 30 rounds per second. IAF MiG-29s can be armed with a range of Russian air-to-air missiles, like the close-combat R-60MK and R-73RDM2, the medium-range R-27RE1/TE1 and the long-range R-77RVV-AE. French air-to-air missiles such as the Super 530D and Magic-II can also be carried.
Morale of the story: - The F-7PG/Mirage-III/V Rose is shot down even before it could see/detect anyone of them.
Miro
