|From Fighter Planes|
10: Mirage 2000
Mirage 2000-5 is available as a single-seater or two-seater multirole fighter. The aircraft has hands-on throttle and stick (HOTAS) control. Mirage 2000-5 incorporates the Thales VEH 3020 head-up display and five cathode ray tube multifunction advanced pilot systems interface (APSI) displays.
The combined head-up / head-level display is collimated at infinity, and presents data relating to flight control, navigation, target engagement and weapon firing. Sensor and system management data is presented on two coloured lateral displays.
Mirage 2000 has nine hardpoints for carrying weapon system payloads: five on the fuselage and two on each wing. The single-seat version is also armed with two internally mounted, high-firing-rate 30mm guns.
Air-to-air weapons include the MICA multitarget air-to-air intercept and combat missiles, and the Magic 2 combat missiles, both from MBDA (formed out of a merger between Matra BAe Dynamics, EADS Aerospatiale and Alenia Marconi Systems). MICA supports a maximum operating range of 60km. The aircraft can carry four MICA missiles, two Magic missiles and three drop tanks simultaneously. The Mirage 2000-5 can fire the MBDA Super 530D missile or the MBDA Sky Flash air-to-air missile as an alternative to the MICA missile.
Mirage 2000 has an upgraded digital weapon delivery and navigation system (WDNS). The aircraft is fitted with a TV/CT CLDP laser designation pod from Thales Optronics, which provides the capability to fire laser-guided weapons by day and night. A number of French Air Force Mirage 2000D aircraft were fitted with the Damocles laser designation pod with thermal imaging camera, also from Thales Optronics, under a contract awarded in July 2008.
Mirage 2000-5 is equipped with a multi-mode Thales RDY doppler radar which provides multi-targeting capability in the air defence role and the radar also has look down / shoot down mode of operation. The radar can simultaneously detect up to 24 targets and carry out track while scan on the eight highest priority threats.
Mirage 2000 is equipped with an SNECMA M53-P2 turbofan engine, which provides 64kN thrust and 98kN with afterburn. The air intakes are fitted with an adjustable half-cone-shaped centre body, which provides an inclined shock of air pressure for highly efficient air input.
The Mirage 2000 can climb at the rate of 285m/s. The maximum and approach speeds of the aircraft are 2,530km/h and 259km/h respectively. The ferry range is 3,335km. The range and service ceiling are 1,550km and 17,060m respectively.
|From Fighter Planes|
Developed by General Dynamics, as a multirole jet fighter aircraft, the F-16 is called as the “Viper,” among pilots. Some of the best features of this fighter plane are Relaxed Static Stability, seat leant back 30 degree to cut the g-force on the pilot, bubble canopy for improve visibleness and most importantly, side-mounted control stick to facilitate control while channelizing.
In an air combat role, the F-16's maneuverability and combat radius (distance it can fly to enter air combat, stay, fight and return) exceed that of all potential threat fighter aircraft. It can locate targets in all weather conditions and detect low flying aircraft in radar ground clutter. In an air-to-surface role, the F-16 can fly more than 500 miles (860 kilometers), deliver its weapons with superior accuracy, defend itself against enemy aircraft, and return to its starting point. An all-weather capability allows it to accurately deliver ordnance during non-visual bombing conditions.
In designing the F-16, advanced aerospace science and proven reliable systems from other aircraft such as the F-15 and F-111 were selected. These were combined to simplify the airplane and reduce its size, purchase price, maintenance costs and weight. The light weight of the fuselage is achieved without reducing its strength. With a full load of internal fuel, the F-16 can withstand up to nine G's -- nine times the force of gravity -- which exceeds the capability of other current fighter aircraft.
The cockpit and its bubble canopy give the pilot unobstructed forward and upward vision, and greatly improved vision over the side and to the rear. The seat-back angle was expanded from the usual 13 degrees to 30 degrees, increasing pilot comfort and gravity force tolerance. The pilot has excellent flight control of the F-16 through its "fly-by-wire" system. Electrical wires relay commands, replacing the usual cables and linkage controls. For easy and accurate control of the aircraft during high G-force combat maneuvers, a side stick controller is used instead of the conventional center-mounted stick. Hand pressure on the side stick controller sends electrical signals to actuators of flight control surfaces such as ailerons and rudder.
Avionics systems include a highly accurate enhanced global positioning and inertial navigation systems, or EGI, in which computers provide steering information to the pilot. The plane has UHF and VHF radios plus an instrument landing system. It also has a warning system and modular countermeasure pods to be used against airborne or surface electronic threats. The fuselage has space for additional avionics systems.
|From Fighter Planes|
No other fighter in the history of aerial combat has a record that even comes close to the Eagle's. The F-15 is far superior to most of its brethren - way better than the F-4 - accelerating better, turning better, handling better.
In fact, such is the reputation of the F-15 that during the opening phase of Operation Iraqi Freedom, Saddam Hussein's air force simply refused to get in the air. They knew the F-15 would just knock them out of the sky.
The Eagle's air superiority is achieved through a mixture of unprecedented maneuverability and acceleration, range, weapons and avionics. It can penetrate enemy defense and outperform and outfight any current enemy aircraft. The F-15 has electronic systems and weaponry to detect, acquire, track and attack enemy aircraft while operating in friendly or enemy-controlled airspace. The weapons and flight control systems are designed so one person can safely and effectively perform air-to-air combat.
The F-15's superior maneuverability and acceleration are achieved through high engine thrust-to-weight ratio and low wing loading. Low wing-loading (the ratio of aircraft weight to its wing area) is a vital factor in maneuverability and, combined with the high thrust-to-weight ratio, enables the aircraft to turn tightly without losing airspeed.
A multimission avionics system sets the F-15 apart from other fighter aircraft. It includes a head-up display, advanced radar, inertial navigation system, flight instruments, ultrahigh frequency communications, tactical navigation system and instrument landing system. It also has an internally mounted, tactical electronic-warfare system, "identification friend or foe" system, electronic countermeasures set and a central digital computer.
The pilot's head-up display projects on the windscreen all essential flight information gathered by the integrated avionics system. This display, visible in any light condition, provides information necessary to track and destroy an enemy aircraft without having to look down at cockpit instruments.
The F-15's versatile pulse-Doppler radar system can look up at high-flying targets and down at low-flying targets without being confused by ground clutter. It can detect and track aircraft and small high-speed targets at distances beyond visual range down to close range, and at altitudes down to treetop level. The radar feeds target information into the central computer for effective weapons delivery. For close-in dogfights, the radar automatically acquires enemy aircraft, and this information is projected on the head-up display. The F-15's electronic warfare system provides both threat warning and automatic countermeasures against selected threats.
A variety of air-to-air weaponry can be carried by the F-15. An automated weapon system enables the pilot to perform aerial combat safely and effectively, using the head-up display and the avionics and weapons controls located on the engine throttles or control stick. When the pilot changes from one weapon system to another, visual guidance for the required weapon automatically appears on the head-up display.
The Eagle can be armed with combinations of different air-to-air weapons: AIM-120 advanced medium range air-to-air missiles on its lower fuselage corners, AIM-9L/M Sidewinder or AIM-120 missiles on two pylons under the wings, and an internal 20mm Gatling gun in the right wing root.
The F-15E is a two-seat, dual-role, totally integrated fighter for all-weather, air-to-air and deep interdiction missions. The rear cockpit is upgraded to include four multi-purpose CRT displays for aircraft systems and weapons management. The digital, triple-redundant Lear Siegler flight control system permits coupled automatic terrain following, enhanced by a ring-laser gyro inertial navigation system.
For low-altitude, high-speed penetration and precision attack on tactical targets at night or in adverse weather, the F-15E carries a high-resolution APG-70 radar and low-altitude navigation and targeting infrared for night pods .
|From Fighter Planes|
7:F/A-18 Super Hornet
It is a Supersonic carrier-capable fighter aircraft. There is a single-seat variant as well as a tandem-seat variant which is larger and more advanced derivatives of the F/A-18C and D Hornet. The Super Hornet has an internal 20 mm gun and can carry air-to-air missiles and air-to-surface weapons. Additional fuel can be carried with up to five external fuel tanks and the aircraft can be configured as an airborne tanker by adding an external air refueling system. It is used by the US Navy since 1992.
Day/night strikes with precision-guided weapons
Close air support
Suppression of enemy air defense
Forward air control
The Super Hornet's versatility applies to its weapon stations and payload types:
11 weapon stations
Supports a full complement of smart weapons, including laser-guided bombs
Carries a full spectrum mix of air-to-air and air-to-ground ordnance
The Super Hornet is powered by two General Electric F414-GE-400 engines:
Distinctive caret-shaped inlet to provide increased airflow and reduced radar signature
22,000 pounds (98 Kn) of thrust per engine, 44,000 pounds (196 Kn) per aircraft
Highly departure resistant through its operational flight envelope.
Unlimited angle-of-attack and carefree flying qualities for highly effective combat capability and ease of training.
Reconfigurable digital flight-control system detects and corrects for battle damage.
|From Fighter Planes|
6: JAS 39 Gripen NG
Comprising eight hardpoints to convey several missiles and bombs, the JAS 39 Gripen is a lightweight fighter plane best known for its delta wing-canard design and high manoeuvrability. This fighter plane supports a sophisticated PS-05/A pulse-doppler X-band radar which is capable of observing and identifying targets 120 km away. It can also attack targets beyond visual range by channelizing air-to-air missiles.
* An electronically-scanned array (AESA) radar based on the PS-05/A, now being developed by Ericsson. An AESA consists of an array of programmable "transmit-receive (TR)" modules that can operate in parallel to perform separate or collaborative functions, performing, for example, jamming and target acquisition at the same time. The AESA will provide enhanced multimode capabilities, as well as extended range for beyond visual range missiles. It is scheduled for introduction in the 2005:2010 timeframe.
* Improved defensive countermeasures, including new towed decoys and missile and laser warning systems.
* The "OTIS" infrared search and track (IRST) system now under development by Saab Dynamics and being tested on a Viggen. OTIS will provide multiple modes for both air to air and air to ground combat.
* The Thales "Guardian" helmet-mounted display (HMT), now being evaluated on the Gripen for cueing the IRIS-T and other smart weapons.
|From Fighter Planes|
A lethal air supremacy fighter widely known for its unparalleled air-to-air combat capabilities, Rafale is a product of Dassault Aviation, a French aircraft manufacturer of military and business jets. This fighter plane supports an electronic warfare system, SPECTRA, which defends the aircraft from ground and airborne threats. This fighter plane also assists the real time generation of three-dimensional maps that are used in long-range interception and targeting. Rafale is a twin-jet combat aircraft capable of carrying out a wide range of short and long-range missions, including ground and sea attack, air defence and air superiority, reconnaissance, and high-accuracy strike or nuclear strike deterrence.
The aircraft were developed for the French Air Force and Navy. The French Air Force and Navy ordered 294 (234 for the air force and 60 for the navy); 82 aircraft had been delivered by the end of 2009.
The Rafale entered into service with French Navy in December 2000, and with the French Air Force in 2004. Ten aircraft are operational on the Charles de Gaulle aircraft carrier.
Rafale B and C entered service with the French Air Force in June 2006, when the first squadron was established. The second air force squadron was set up in 2008.
The Rafale can carry payloads of over 9t on 14 hardpoints for the air force version, and 13 for the naval version. The range of weapons includes: Mica, Magic, Sidewinder, ASRAAM and AMRAAM air-to-air missiles; Apache, AS30L, ALARM, HARM, Maverick and PGM100 air-to-ground missiles; and Exocet / AM39, Penguin 3 and Harpoon anti-ship missiles.
For a strategic mission the Rafale can deliver the MBDA (formerly Aerospatiale) ASMP stand-off nuclear missile. In December 2004, the MBDA Storm Shadow / Scalp EG stand-off cruise missile was qualified on the Rafale.
|From Fighter Planes|
4: SU-30 MKI : Super Sukhoi
SU-30MKI`s not initially designed to carry nuclear or strategic weapons, but newly developed IAF will receive 40 upgraded Su-30MKIs capable of carrying the BrahMos cruise missile possibly by 2012. In addition, there are also plans to integrate the nuclear-capable Nirbhay missile with the aircraft as well. In May 2010, Russia had won a large contract to upgrade 40 Su-30MKI fighters with new radars, onboard computers, electronic warfare systems and the ability to carry the BrahMos missile. The first two prototypes with the 'Super-30' upgrade will be delivered to the Indian Air Force in 2012, after which the same upgrades will be performed on the last batch consisting of 40 production aircraft. The exact value of the contract is undisclosed.
India is planning to upgrade its Su-30MKI fighters with Russian Phazotron Zhuk-AE Active Electronically Scanned Array AESA radars. The X-band radar can track 30 aerial targets in the track-while-scan mode and engage six targets simultaneously in attack mode. AESA technology offers improved performance and reliability compared with traditional mechanically scanned array radars. Indian Defense Minister A.K Antony proposed several upgrades for the Su-30MKI to the Indian Parliament, which included fitting the fighters with Russian Phazotron Zhuk-AE AESA radars starting in 2012. These upgrades will make Sukhoi-30 MKI to " SUPER SUKHOI`s" and in future will bring them to number 3 or 2 position.
|From Weapons and technology|
3: Eurofighter Typhoon
Designed and built by a syndicate of four different companies from UK, Italy, Spain and Germany, this fighter plane holds a long track of laurels in warfare. The Eurofighter Typhoon uses a sophisticated integrated defense system “Praetorian” which monitors air-to-air and surface-to-air dangers and can responds multiple threats concurrently.
Eurofighter Typhoon has a foreplane/delta wing configuration that is aerodynamically unstable in the subsonic range. The "delta canard" design shape of the aircraft is driven by a need for:
Subsonic/supersonic instantaneous and sustained turn rate performance
Lift and STOL (Short take-off and landing)
Combining this with a low wing loading, high thrust-to-weight ratio, excellent all-round vision and carefree handling results in a truly exceptional aircraft.
Low observability technology is incorporated in the basic design. The combination of low visual detection; low radar reflection; use of passive, systems; defensive aids; secure communications and the capability of supercruise supported by a cockpit, that gives the pilot a clear tactical picture and continuous and instant control over the level of emissions from the aircraft, ensure that the Eurofighter Typhoon has high survivability and the ability to operate independently from ground and airborne control agencies in dense electronic warfare environments. The Eurofighter Typhoon is, by any standard, a low observability aircraft with a fleet effectiveness superior to any other competitor.
The airframe is constructed mainly from Carbon Fibre Composites (CFCs), lightweight alloys, titanium and Glass Reinforced Plastics (GRP).
The instability of the aircraft is derived from the position of a theoretical “pressure point” on the longitudinal axis of the aircraft. This is calculated from the contribution to lift from each of the aircraft components (the wings, the canards, fuselage etc). If the pressure point is in front of the centre of gravity on the longitudinal axis, the aircraft is aerodynamically unstable and it is impossible for a human to control it.
With the Eurofighter Typhoon, in subsonic flight the pressure point lies in front of the centre of gravity, therefore making the aircraft aerodynamically unstable, and is why Eurofighter Typhoon has such a complex Flight Control System – computers react quicker than a pilot.
When Eurofighter Typhoon crosses into supersonic flight, the pressure point moves behind the centre of gravity, giving a stable aircraft.
The advantages of an intentionally unstable design over that of a stable arrangement include greater agility – particularly at subsonic speeds - reduced drag, and an overall increase in lift (also enhancing STOL performance).
|From Fighter Planes|
The Sukhoi Su-35 is a single-seat, twin-engined supermaneuverability multirole fighter. It is a derivative of the Su-27 'Flanker', and was initially known as the Su-27M. More than a dozen of these were built with some used by the Russian Knights aerobatic demonstration team.
What is new in the Su-35? First off, the fighter will get an improved airframe, which will dramatically increase its service life to 6,000 hours, 30 years of operation (the time before the first test and recondition and the between-repairs period has been increased to 1,500 hours, or 10 years of operation). Aerodynamically it is similar to the Su-27. But unlike the Su-30MKI it will feature no canard fins. All the three channels will have electrically signaled control without mechanical cabling. The use of a new integrated control system (developed by MNPK Avionika Moscow-based Research and Production Association) simultaneously performing functions of several systems – remote control, automatic control, limiting signals system, air signals system, chassis wheels braking system – will enhance the fighter’s handling capability and maneuverability.
Among the Su-35 design features, worth of note is the absence of an overhead brake flap, a standard characteristic of the Su-27. Its functions are performed by an active rudder. The Su-35 chassis has been reinforced because of the increased takeoff and landing weight of the aircraft. For the same reason, the front bearing has two wheels. The improved radar stealth reduces the reflectance of the Su-35 in the X radio waveband and in the angle range of ±60°.
Another important difference of the Su-35 from predecessors from the Su-27 family is the use, in its power plant, of new engines with an increased thrust. Those engines, known as 117S.
1 – N035 Irbis-E PESA (Passive Electronically Scanned Array) Radar, a follow-on to the Bars-M.
2 – No canards
3 – Rear-looking self-defense radar in shorter tail sting
4 – AL-37FU/ 117S thrust-vectoring turbofan engines rated at 142-147kN
5 – Extended high-lift devices with large flaperon occupying the full trailing edge of the wing
6 – L175M Khibiny-M electronic-warfare self-defense system
7 – Reduced-area empennage
8 – Larger Air Intakes
9 – New and lighter systems, including quadruple digital fly-by-wire flight-control system.
10- New man-machine interface with fully-glass cockpit with two large LCD screens and helmet mounted display.”
|From Weapons and technology|
The deadliest fighter aircraft of the world and the most critical component of the United States Air Force, F-22 Raptor is a fifth generation fighter plane, widely appreciated for its super-agility, sensor fusion, supercruise speed and lethal attacking capabilities on highest possible operational altitude.
A combination of sensor capability, integrated avionics, situational awareness, and weapons provides first-kill opportunity against threats. The F-22 possesses a sophisticated sensor suite allowing the pilot to track, identify, shoot and kill air-to-air threats before being detected. Significant advances in cockpit design and sensor fusion improve the pilot's situational awareness. In the air-to-air configuration the Raptor carries six AIM-120 AMRAAMs and two AIM-9 Sidewinders.
The F-22 has a significant capability to attack surface targets. In the air-to-ground configuration the aircraft can carry two 1,000-pound GBU-32 Joint Direct Attack Munitions internally and will use on-board avionics for navigation and weapons delivery support. In the future air-to-ground capability will be enhanced with the addition of an upgraded radar and up to eight small diameter bombs. The Raptor will also carry two AIM-120s and two AIM-9s in the air-to-ground configuration.
Advances in low-observable technologies provide significantly improved survivability and lethality against air-to-air and surface-to-air threats. The F-22 brings stealth into the day, enabling it not only to protect itself but other assets.
The F-22 engines produce more thrust than any current fighter engine. The combination of sleek aerodynamic design and increased thrust allows the F-22 to cruise at supersonic airspeeds (greater than 1.5 Mach) without using afterburner -- a characteristic known as supercruise. Supercruise greatly expands the F-22 's operating envelope in both speed and range over current fighters, which must use fuel-consuming afterburner to operate at supersonic speeds.
The sophisticated F-22 aerodesign, advanced flight controls, thrust vectoring, and high thrust-to-weight ratio provide the capability to outmaneuver all current and projected aircraft. The F-22 design has been extensively tested and refined aerodynamically during the development process.
The F-22's characteristics provide a synergistic effect ensuring F-22A lethality against all advanced air threats. The combination of stealth, integrated avionics and supercruise drastically shrinks surface-to-air missile engagement envelopes and minimizes enemy capabilities to track and engage the F-22 . The combination of reduced observability and supercruise accentuates the advantage of surprise in a tactical environment.
The F-22 will have better reliability and maintainability than any fighter aircraft in history. Increased F-22 reliability and maintainability pays off in less manpower required to fix the aircraft and the ability to operate more efficiently.
Fighters which didn't Make the List :
|From Weapons and technology|
MIG-29 - Production and up gradation have stopped and there is no new customer of this Aircraft. This MIG Corp is already under now Sukhoi Corp and will work with in near future.
|From Weapons and technology|
J-10 / J-11 - This is old copy of russian aircraft with unproven technology. Avionics and radars lacks as compared to other aircraft , though production of many fighters have been stopped in above list but still they proven in past and still the best as compared to newly developed J-10 , J-11 series.
Note:this list is taken from:http://weapons.technology.youngester.com/2011/12/top-modern-fighter-planes-2011.html