Rafale News

SuperEtendard

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French next-generation fighter. France decided to developed its own fighter, rejecting the European EFA as too heavy for carrier use and too costly for export. Rafale is also a canarded delta, but has less angular lines than EFA. Extensive use was made of composite materials. Rafale A was the prototype, Rafale B is the two-seat version, Rafale C the single-seater, and Rafale M carrier fighter version. Four prototypes were flying in early 1997. Orders for 272 production aircraft for the French armed forces are expected.

France chose to produce the Rafale, which will begin operation in 1999, instead of the Eurofighter. The Rafale is lighter and smaller than the Eurofighter. It will be produced in three versions: Rafale M, Rafale C, and Rafale D. The M is the carrier version, with a spring-loaded nose wheel to help it into the air when launching. The C is a one-seater and the D it a somewhat stealthy version for the air force.

Type: Rafale C
Country: France
Export: N/A
Function: Multi-role fighter
Year: (1997)
Crew: 1
Engines: 2 * 77 kN SNECMA M88-2

Wing Span: 10.90 m
Length: 15.30 m
Height: 5.34 m
Wing Area: 46.0 m2
Wing Aspect Ratio: 2.6
Canard Area: Unknown
Tail Plane Area: N/A

Empty Weight: 9060 kg
Max.Weight: 19500 kg
Internal Fuel: 4000 kg

Speed: Mach 2.0
Ceiling: 18290 m
Ferry Range: 3125 km
Combat Radius: 925 km
G-limits: 9/-3.2
Maximum instantenous turn rate: 30 degrees/second
Maximum sustained turn rate: Unknown
Rollrate: 270 degrees/sec
TWR(50% fuel, 2 EM A2A missile, 2 IR A2A missile): 1.3:1
TWR(100% fuel, 2 EM A2A missile, 2 IR A2A missile): 1.10:1

Armament: One internal 30 mm Giat DEFA 791B cannon. Normal external load up to 6000 kg (13,230lb) on 6 underwing, 2 wingtip, 2 centerline, and 4 underfuselage stations. Options include an ASMP nuclear standoff missile, up to 8 Matra Mica AAMs, AM 39 Exocets, LGBs, AS 30L LGASMs, or Apache dispensers with antiarmour or anti runway munitions.

Unit cost: 50 million USD



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KILLER ANGELS BY BILL SWEETMAN (November 2002)



France's Rafale has fire, but will glory remain a mirage?
The Dassault Rafale is a relatively small airplane (it does not need folding wings to fit on a carrier) that carries a very heavy load. The Rafale has an operating empty weight of around 22,000 pounds and was initially designed with a maximum take-off weight of 49,600 pounds. That figure has now been increased to 54,000 pounds, and Dassault is preparing a further jump to 60,000 pounds.

Without fuel or weapons, a Rafale weighs some 3,000 pounds more than a F-16C, but it can take off 10,000 pounds heavier. This allows the Rafale to carry as much as 21,000 pounds of external stores in addition to 9,000 pounds of internal fuel. With twin conformal fuel tanks holding a total of 600 US gallons of fuel - designed and flight-tested by Dassault during its campaign to win Korea's fighter contest - the Rafale can perform a 1,000-nm-radius strike mission, carrying both heavy air-to-surface weapons and air-to-air missiles. Despite these capabilities, the Rafale has failed to win a single export order to date, although it entered hard-fought campaigns in the United Arab Emirates and Korea. Singapore is getting close to a decision on a future high-end fighter aircraft. The Lockheed Martin F-35 Joint Strike Fighter (JSF) has apparently scooped much of the available world market, at least for now, so Singapore, which wants airplanes before the JSF is ready, is a unique opportunity for European contenders, such as the Eurofighter Typhoon and its French rival, the Rafale.

Meanwhile, in late August, the Rafale's older stable mate, the Mirage 2000, remains in the running for an initial 24-aircraft order in Brazil, with another 36 aircraft likely to be sold in a follow-on deal. Since the early 1990s, the Mirage has been infused with much of the technology originally developed for Rafale - and even some more advanced features - and the Mirage and Sweden's Gripen (see "Lion of the Sky,"JED , April 2002) have been the most successful challengers to a US monopoly in the fighter business.

The Rafale, like most of its contemporaries, has taken longer to develop than expected. The Rafale A technology demonstrator made its first flight in July 1986. After the breakdown of discussions between France and the four Eurofighter nations, the French Government decided to proceed unilaterally with full-scale development and production of Rafale in 1987. The first of four production-type prototypes flew in 1991.

Unlike the Gripen, the Rafale is an entirely national program with all-new, French-developed airframe, propulsion, avionics, and weapons. The only way to render such a program affordable, given the size of the French armed forces, was to designate the Rafale as the replacement for every combat aircraft in service, from the Navy's ancient Vought F-8E(FN) Crusaders to the Air Force's Mirage IVP strategic reconnaissance aircraft. The result has been a very expensive program, which has competed with other projects - the Navy's nuclear-powered aircraft carrier Charles de Gaulle and the Army's Tiger helicopter, for instance - for a finite and fluctuating budget, leading to a long delay in funding production.

However, the Navy's needs are urgent, and the carrier-based Rafale M has become the first Rafale variant to be delivered. The first Rafale squadron, Flotille 12F, was formed in May 2001 and is now working up aboard the Charles de Gaulle . Seven aircraft were deployed on the carrier in the Indian Ocean earlier this summer, and the squadron is expected to be declared fully operational shortly, with ten aircraft. According to French executives, some unofficial training engagements have already taken place between Rafales and US Navy F/A-18s. On June 9, 2002, Rafale Ms of the French Navy operating from the Charles de Gaulle participated in a joint patrol with American fighters. Although the assignment was for reconnaissance over the tense India-Pakistan border and no shots were fired, it marked the official combat debut of the aircraft (see "It Takes Two to Interoperate,"JED , August 2002).

An order for 20 aircraft announced at the end of 2001 brings total firm orders to 61 aircraft (36 for the French Air Force and 25 for the Navy). Deliveries of the first 13-aircraft batch - comprising ten operational Rafale Ms for the Navy and three two-seat Rafale Bs for Air Force testing - are nearly complete. Another 28 aircraft should be delivered by January 2006, and 20 more should follow by February 2007. The first operational aircraft will reach the French Air Force in March 2004, and the first operational squadron is due to form in 2006.

The total domestic requirement for Rafale is 294 aircraft: 60 Rafale M and BM for the Navy, 139 two-seat land-based aircraft and 95 single-seat Air Force variants. The current plan calls for deliveries to continue until 2019.


Fire on High
The Thales RBE2 radar is of the passive electronically-scanned-array (ESA) type, like the B-1's Northrop Grumman APQ-164, with a single power source, transmitter, receiver, and a physically fixed array of phase-shifter modules to steer the beam. The radar has a single beam - unlike the active ESA used on the F-22 and JSF - but it can be pointed instantly in any direction so that it can use a wide variety of interleaved modes. Dassault describes it as the difference between "track while scan" and "track here while scan there." For example, the RBE2 can readily track airborne targets while searching for a target on the ground or providing a ground profile for terrain-following flight.

The passive ESA sacrifices range and sensitivity compared with an active array or the modern mechanically scanned radars used on the Gripen and Typhoon. However, according to Dassault, the passive array was chosen for the initial versions, because the customer wanted the ability to interleave different modes, and the active array was far from mature. Also, the French Air Force operates AWACS early-warning aircraft, and the Navy has E-2C Hawkeyes, with the result that extreme detection range is less important.

The radar is backed up by optical and passive electronic-detection systems. Located immediately behind the radar is the front-sector optronic (FSO) system, produced by Thales. The FSO has two optical heads. On the right is a long-range infrared search and track (IRST), operating in the long-wave IR band, which detects point IR sources over a wide field of view. On the left is a combat-identification sensor, which combines an imaging sensor (daylight video on the prototype and mid-wave IR in production aircraft) and a laser rangefinder. It can track a single target in the front sector and display an enlarged image in the cockpit, and is normally aimed automatically at the most threatening target. If the rules of engagement require visual identification, the Rafale pilot can declare a target as hostile well outside normal visual range.

Information from the Spectra EW suite, the radar, and the OSF are brought together through modular mission computers and presented to the pilot and back-seater via a modern cockpit with 160 square inches of active display space - a close second to the 180 square inches on the larger F-22 and rather more than the Typhoon.

The Rafale cockpit hardware includes a number of unusual or unique features. The large central screen, which normally hosts the main tactical-situation display, is collimated at infinity. The physical optics of the "head-level display" (HLD) are designed so that the top of the HLD is directly below the head-up display (HUD). (On most other fighters, there is a small up-front control panel under the HUD and above the main central display.) Imagery from the identification sensor can be displayed on a window in the HLD. This system allows the pilot to switch from the short-term HUD view to the larger tactical picture without refocusing his eyes or dropping his gaze below the head-up display (HUD).

Contrary to US or other European practice, the Rafale cockpit uses touch-screen panels. The 6-x-6-in. screens on either side of the HLD are touch-sensitive, and there is a touch-control cursor panel beneath the HLD. One advantage of touch-screen is that it provides more glass area in the same space by eliminating the ring of bezel switches around each screen. The Rafale pilot will be issued special silk-lined leather gloves, with no stitching on the fingertips, and a chamois insert, for wiping the screens, above the fingers.

The entire fighter is highly automated, with a single all-electric throttle for both engines and a single start switch. A direct-voice-input (DVI) system is incorporated, with a 50-300-word vocabulary, and Sextant's Topsight helmet-mounted display will be incorporated from the mid-2000s.

The fused tactical display is reminiscent of the F-22's, with a "god's-eye" view of the battle replacing separate sensor displays. Different colors and shapes are used to distinguish hostiles from friendlies, and targets are automatically prioritized. Complementing the god's-eye view is an inset display which shows the relative altitude of the Rafale and its targets.

Despite all this automation, the French air force decided in the early 1990s that most of its operational Rafales would be Rafale B two-seaters. According to Dassault executives, this was not a matter of the pilot-vehicle interface failing to measure up to expectations. Rather, the service concluded that many Rafale missions would be longer and flown in more complex environments than expected. The French Navy is following suit, and as many as 40 of its 60 aircraft will be two-seat Rafale BM fighters.

Like most current combat aircraft, the Rafale is being delivered in successively improved versions. The first operational Rafales are to the F1 standard, providing an early air-to-air capability for the French Navy. A contract for development of the F2 standard-identified as Block 05 for export-was awarded in January 2001. It introduces air-to-surface radar modes and the FSO system. It will also be equipped to carry the Thales Damocles laser-designation pod. Damocles is a lightweight, slim-line pod incorporating a mid-wave focal-plane array infrared imager, and can be fitted with a navigation FLIR in the pylon.

In early 2001, the Rafale International team (Dassault, Snecma, and Thales) committed to the development of an active AESA (AESA) for the Thales RBE2 radar and the uprated M88-3 engine, both of which will be ready for the F3/Block 10 version in 2006. The AESA will be based on technology developed under the Thales/BAE Airborne Multi-mode Solid-state Active-array Radar (AMSAR) program, and will provide greater range and reliability than the passive ESA on the early Rafale. It will be able to be retrofitted to existing aircraft. Another feature introduced with the Block 3 will be a high-resolution synthetic-aperture-radar (SAR) mode for use with GPS/inertially guided weapons.

Another F3/Block 10 feature is the Thales Recce NG (new generation) reconnaissance pod, now under development and being offered for export. Recce NG is a near-real-time system that incorporates the pod and a complete ground segment, including mission planning, a mobile ground terminal, and an exploitation station. With a rotating head, visible and IR focal-plane arrays and a high-speed IR scanner, the Recce NG pod covers night and day reconnaissance from both high and low altitudes.


Teeth of the Wind
The Rafale EW suite, known as Spectra, is one of the most powerful systems installed on a fighter aircraft and is intimately associated with the unique approach to stealth and survivability designed into the Rafale. Dassault executives describe the Rafale as discreet rather than being stealthy in the sense of a F-22. To avoid detection, it combines avionics, tactics, and reduced radar reflectivity with some techniques that have not been directly revealed and are apparently unique.

The first element of discretion is that Spectra's receiver system and the FSO help detect and track targets without using radar. Spectra incorporates a radio-frequency (RF) detection system, a missile-approach warning sensor, and a laser-warning system and provides full 360-degrees coverage. The RF detection subsystem uses prominent square-section antennas, mounted on the lower corners of the engine inlets and in the rear of the fin-top pod, covering 120 degrees each. The receiver antennas use interferometric techniques to measure a signal's angle of arrival within less than 1 degree and are designed so that they do not have a large radar-cross-section (RCS) contribution.

The Rafale is also designed to use terrain masking, particularly at night or in bad, weather when visually cued short-range surface-to-air weapons are less effective. With its maneuverability and a high degree of cockpit automation, the fighter is designed to fly a terrain-avoidance/threat- avoidance profile at 5.5 g and 100 feet in altitude. The RBE2 and a terrain-referenced navigation system, using stored terrain data, are used to provide redundant flight guidance.

Rafale makes extensive use of radar-absorbent material (RAM) in the form of paints and other materials, Dassault engineers have said. RAM forms a saw-toothed pattern on the wing and canard trailing edges, for instance. The aircraft is designed to so that its untreated radar signature is concentrated in a few strong "spikes," which are then suppressed by the selective use of RAM.

Spectra's active jamming subsystem uses phased-array antennas located at the roots of the canards. Dassault has stated that the EW transmit antennas can produce a pencil beam compatible with the accuracy of the receiver system, concentrating power on the threat while minimizing the chances of detection.

But there is more to Spectra than conventional jamming. Pierre-Yves Chaltiel, a Thales engineer on the Spectra program, remarked in a 1997 interview that Spectra uses "stealthy jamming modes that not only have a saturating effect, but make the aircraft invisible... There are some very specific techniques to obtain the signature of a real LO [low-observable] aircraft." When asked if he was talking about active cancellation, Chaltiel declined to answer.

Earlier this year, Thales and European missile-builder MBDA disclosed that they were working on active-cancellation technology for cruise missiles and had already tested it on a small unmanned aerial vehicle, using a combination of active and passive techniques to manage radar signature. This revelation makes it considerably more likely that active cancellation is already being developed for Rafale.

Active cancellation is a LO technique in which the aircraft, when painted by a radar, transmits a signal which mimics the echo that the radar will receive - but one half-wavelength out of phase, so that the radar sees no return at all. The advantage of this technique is that it uses very low power, compared with conventional EW, and provides no clues to the aircraft's presence; the challenge is that it requires very fast processing and that poorly executed active cancellation could make the target more rather than less visible.

The complexity of active cancellation could account for Spectra's high price tag, estimated in 1997 as "several billion francs" (equivalent to the high hundreds of millions of US dollars) for research and development. One of four Rafale prototypes was dedicated to Spectra tests, along with a Falcon 20 flying testbed. Four new large anechoic chambers were built to support the Spectra project, including one which is large and well equipped enough to operate the complete system in a fully detailed electromagnetic environment.
Spectra's RF systems are backed up by a laser-warning system, an optical missile-launch-warning system, and a full range of expendable countermeasures. There is no towed decoy system.

On the weapons side, the F2/05 Rafale will carry the IR version of the MBDA MICA air-to-air missile. The Rafale is unique in being designed around a single missile, MICA, which has been developed in active-radar and IR versions. Both versions feature a data-link to provide mid-course guidance (like AMRAAM) and vectored thrust for short-range agility. Unlike other IR missiles, therefore, MICA can be launched before the seeker locks, on and can perform a completely silent beyond-visual-range attack. The F2/05 will also carry the MBDA Storm Shadow/Scalp cruise missile.

Whether AESA will be fitted to French F3 aircraft remains to be seen. The French Government may decide to stay with the current RBE2 for cost reasons but is supporting the development of the AESA for export customers.

However, the F3/Block 10 will introduce the Sagem AASM (armement air-sol modulaire, or modular air-to-surface weapon). With a maximum weight of 750 pounds, AASM combines a standard bomb body with a tail kit that incorporates a small rocket booster and a nose section with steerable canard fins. The nose section incorporates either a GPS/inertial guidance system or a GPS/inertial system plus an imaging-IR seeker.

The IR seeker can be programmed before launch with a template of the target derived from reconnaissance imagery. This, according to Sagem, makes the AASM less susceptible to GPS jamming or outages than most weapons in its class, and gives it meter-class accuracy against precision targets. With rocket boost, the weapon has a maximum range of 27 nm. It is due to enter service in 2005. The Rafale will be fitted with a three-point "smart rack" developed by Rafaut, allowing it to carry up to six independently targeted AASMs.

Dassault, Thales, and Snecma have no doubts that the Rafale embodies world-class technology, and its failure to secure export orders is clearly a source of frustration, as evidenced by Dassault's attempt to file a lawsuit against the Korean government following Korea's choice of the F-15. There are, however, a number of factors that have held the Rafale back. Along with the Typhoon, which has won a single contest in Austria, it is one of the more capable and expensive aircraft on the market. The Rafale team argues persuasively that its unique features work and address operational needs, but some customers may prefer the tried US-type approach to missile armament or cockpit ergonomics. Above all, the French government's drip-feed of funds into the program does not engender confidence that the necessary upgrades will be carried out - even though the program is, in reality, as secure as any. Singapore will indeed be an important test for the aircraft.

Source jedonline.com

Sera:D

Saludos

PD: En otro momento lo traduzco, o si alguna alma generosa tiene las ganas y el tiempo se agradece:D . Ya tengo el documento de los precios, lo paso al criollo y lo subo.
 
A pesar de no haber ganado ningun contrato para la exportacion, parece que si hay fondos para desarrollar y montar el AESA y los M-88-3 o M-88-4, esta aeronave va a dar que hablar. Yo creo que con los nuevos motores y el AESA pronto, el Rafale sera irresistible y gran candidato en proximas licitaciones (siempre que el gobierno frances este a la altura de las negociaciones). Pero es probable que ria ultimo. Es que al parecer, podria estar tranquilamente un escalon por encima del EFA, a menor costo y con tecnologia 5 años avanzada.
Saludos
 
A mí lo del Rafale y algunos de sus seguidores sin mentar a nadie y con todo respeto, y considerando que es un gran avión me hace gracia.

Antes el Rafale presumía de estar mucho más desarrollado que el EFA, y se dejaba a este con las dudas en el aire de su efectividad, cuando la evidencia de que no era así y hasta la propia Dassault lo reconoció retrasos de hasta 4 años con respecto al EFA resulta que todo lo que se le va a poner a un hipotético Rafale de exportación de la que no hay ninguna compra en firme, y que los propios franceses no montarán como el control por voz, designadores laser, etc., van a ser la leche, los motores que eran la repera resulta que son mucho menos potentes que otros, incluso preocupantemente poco potentes.

Se dice que es mucho más barato que el EFA, pero los propios informes de la asamblea nacional francesa lo desmienten, hasta las informaciones de venta a Brasil por 55M$ causaban risa en la propia Dassault, pues sus seguidores siguen diciendo que los casi van a regalar para exportación, y seguimos con especulaciones poco claras y casi nada objetivas en base a informaciones indirectas y sin datos oficiales que las sostengan, eso ya sin entrar a valorar las virtudes del Spectre que por cierto lógicamente son reservadas y nadie conoce, de todas maneras el Rafale si tiene algo importante, seguidores con mucha mucha fe.
 

Cocker

Colaborador
Colaborador
Je Je, Rafale a muerte......ya vendrán las exportaciones, paciencia, todo llega y espero que lleguen a Brasil y luego Argentina:)
 

JQ01

Colaborador
Colaborador
¿De qué año es esa propaganda de Dassault? Porque afirma:

The F2/05 will also carry the MBDA Storm Shadow/Scalp cruise missile.

Es decir el F2/05 llevará el misil de crucero MBDA Storm Shadow/Scalp

Aunque ¿Cual es la versión actual del Rafale? Sabemos que es el F2, per ¿Qué block? Sabemos que no es lo msiimo eun Eurofighter Tranche 1 Block 1 que un Block 2, un Block 2b o un Block 5. Es decir, ¿Hay diferentes blocks dentro del F2?

Por otra parte, niega algo que afirmaste hace unos días, y es la capacidad actual de operar el AASM

However, the F3/Block 10 will introduce the Sagem AASM (armement air-sol modulaire, or modular air-to-surface weapon).

Sin embargo, el F3/Block 10 introducirá el Sagem AASM

Y diría que el F3 todavía no está ni en producción, ¿verdad?

Otra cosa que me extraña es que se afirme que dispone de DVI, ya que se afirmó hace semanas que aunque se había desarrollado, los aparatos de serie no disponían de él por razones de coste.

Por último, la trola sobre la escisión francesa de programa EFA. No es porque no les pareciese adecuado, sino porque ellos querían hacer el rafale y que el resto de socios se lo financiásemos y luego se lo comprásemos.

Es extraño que todavía se cuente otra versión, ya que la pedorreta de los socios a la propuesta francesa se oyó desde Australia :cool:
 

JQ01

Colaborador
Colaborador
Buscando información sobre el F2/05 he encontrado el artículo posteado por Super. La fecha es noviembre de 2002. Es decir, como si ahora pusiésemos un artículo sobre lo que hará el EF T2 Block 15, cuando lo que está en producción es el Block 8 y en vuelo el Block 5.
 

Wolf

Colaborador
Rafale

Insisto, Rafale gran avión pero desgraciadamente es Francés......

Saludos


pd: Si se cae la venta de los EF a A.Saudita sería LA oportunidad para los Galos con Rafale...:cool:
 
El Rafale es una máquina bestial, pero carucha y limitada y poco amigable en cuanto a portar otros armamentos que no sean galos. Me encantaría en la FAA y COAN; en éste caso voy con Herr Mendo y la family SU, para cambiar un poco, vio?:D
 
JQ01 dijo:
Buscando información sobre el F2/05 he encontrado el artículo posteado por Super. La fecha es noviembre de 2002. Es decir, como si ahora pusiésemos un artículo sobre lo que hará el EF T2 Block 15, cuando lo que está en producción es el Block 8 y en vuelo el Block 5.

Exacto, el artículo refiere al llamadol "Rafael de papel" que le fue ofrecido a Corea del Sur. Muchas de ésas mejoras jamás se concretaron e incluso actualmente ni están previstas para un futuro cercano, ya que posiblemente se avance cuando el avión llegue a su vida media.

Si Dassault "abriera" el avión a requerimientos del cliente y aceptara que el mismo utilice quizás aviónica y armamento no francés, seguramente la suerte de la "ráfaga" sería otra.
 
spirit666 dijo:
Exacto, el artículo refiere al llamadol "Rafael de papel" que le fue ofrecido a Corea del Sur. Muchas de ésas mejoras jamás se concretaron e incluso actualmente ni están previstas para un futuro cercano, ya que posiblemente se avance cuando el avión llegue a su vida media.

Si Dassault "abriera" el avión a requerimientos del cliente y aceptara que el mismo utilice quizás aviónica y armamento no francés, seguramente la suerte de la "ráfaga" sería otra.

Dassault, humildemente lo pienso, se metio en un callejon sin salida, si abre
el avion a requirimientos del cliente, como meter mano a los codigos, tener
buses de datos compatibles con armamento israeli o americano, terminaria con
este escenario: Un cliente comprando el avion a Dassault y los dientes en
otra parte y eso no creo que le guste a la gente de Dassault. En ese sentido
viendo como la industria israeli le metio mano a los Mirage V y III, convirtiendo
a Finger, Cheetah, Pantera, etc... hizo que Dassault quisiera evitar que le
pase eso desde el M2k y ahora el Rafale.

Fijense el precio que tendria que pagar Brasil por la actualizacion de los M2k,
apuesto que los israelies lo hacen por menos precio y hasta les bailan una samba...

saludos
 

Cocker

Colaborador
Colaborador
En el NATO Tiger Meet realizado del 25 al 30 de septiembre de 2006 participaron dos Rafale F2 del escuadrón 05/330 " Côte d'argent "
"Nuestra presencia satisfizo un doble objetivo", explica el Teniente Coronel Norbert Pages, el comandante del 05/330. "Un objetivo fue añadir operatividad, en un contexto de operaciones interaliadas, mediante el uso de transferencia de información mediante enlaces link con el satélite Syracuse.

El otro objetivo de la misión fué un éxito perfecto, al comprobar los resultados obtenidos por el automonitoreo del avión, siendo enviados cada día al Centro de Mantenimiento de Rafale IT Server en Sanit Dizier (sistema de información Amasis)".

El avión estuvo 100 % disponible a lo largo de la semana de ejercicios y los motores M88-2 de Snecma (Safran Group) respondieron con gran éxito a través de una amplia gama de misiones: de interceptación supersónica en alta altitud a incursiones a baja altitud.
Los Rafales fueron utilizados diariamente en dos misiones: defensa aérea por la mañana y misiones de ataque por la tarde.



"La primera lección a ser aprendida de estos vuelos proviene de la calidad notable del sistema de armas. Fuimos capaces de verificar que la fusión de sensores sofisticados y el empleo del enlace de transmisión L16, que permite el intercambio de datos digitales sin el empleo de la radio, nos permitió obtener una superioridad significativa para entender situaciones tácticas”.

"El Frontal Sector Optronics (FSO) suministrado por Sagem Défense Sécurité (una rama del Grupo Safran), en particular es apreciado por los tripulantes, ya que esto les permite obtener la identificación positiva de sus objetivos desde una mayor distancia, en comparación a otros aviones y en este negocio, la distancia es sinónimo de seguridad”.

Durante los ejercicios, los Rafales, gracias a su sistema de control de combate, tuvieron la posibilidad de realizar el uso simulado del misil AASM en misiones aire-tierra. El misil AASM entrará en servicio a comienzos de 2007..
 

Guitro01

Forista Sancionado o Expulsado
Bueno es una sana costumbre la de los aviones franceses el lograr una alta disponibilidad operativa, los mismisimos Mirage 2000C desplegados en la primer guerra del Golfo lograron un ratio operativo del 96% y un 94% sobre la ex yugoslavia ...
 
S

SnAkE_OnE

claro....ahora puramente el F2 cuenta con simulaciones on board del AASM , el año q viene ya va a ser operacional
 

Cocker

Colaborador
Colaborador
JQ01 dijo:
Es decir que a día de hoy NO ESTÁ EN SERVICIO.

No, al día de hoy no está en servicio, así también al día de hoy el Rafale es el único caza europeo operativo, con radar de escaneo pasivo y el único con una versión para portaviones.....fruto del esfuerzo y la inteligencia de los franceses.
 

SuperEtendard

Colaborador
Colaborador
NEW MILESTONES FOR THE RAFALE TRIALS​

Rigorous evaluation

From mid-May to early June 2006, the French Flight Test Centre successfully conducted the final evaluation of the Standard F2 Rafale. Prior to the qualification of the Standard F2 and its official acceptance by the Defence Procurement Agency, French Air Force and French Navy test pilots and
engineers flew the variant in a demanding environment to make sure that it could enter service without any restrictions.
Two aircraft were involved in a series of complex sorties, simulating various mission profiles: deep strikes with Scalp cruise missiles, close air support attacks with AASM precision weapons, battlefield air interdiction bombings (also with AASMs), and air-to-air engagements with radar and infraredguided
Mica missiles. Severe electronic warfare environments were replicated, and
the Rafales were pitted against a wide range of opponents: Mirage 2000-5F fighters, Crotale surface-to-air missiles and the threat generators /simulators of the multinational electronic warfare training range, in Eastern France. The
French AWACS fleet actively participated in the trial campaign, and the Rafale aircrews routinely utilised their Link 16 datalink to exchange data with
both the AWACS and their wingmen.

Standard F3

In May 2006, two-seater B302, the second production Rafale, was rolled out from the Dassault Aviation facility, at Istres, after a short conversion programme that brought it to full Standard F3 configuration. Under current
plans, Standard F3 Rafales will enter service with the French Air Force and the French Navy in 2008 . They will offer expanded combat capabilities
thanks to the introduction of the Exocet anti-ship missile, of the ASMP-A nuclear missile, of the Pod Reco NG reconnaissance pod and of various
improvements to the Thales RBE electronic-scanning radar and to the Thales Spectra selfdefence suite. Flight testing of the improved standard started in May 2006, and initially focused on the radar / digital terrain following modes. By October 2006, the in-flight testing of the new Pod Reco NG will have begun, and trials with Exocet missiles will follow soon afterwards. Four
Rafales, B301, B302, C101 and M02, will take part in the Standard F3 development programme, with 400 test sorties to be logged between May
2006 and early 2008.

Fuente: Rafale International

AASM

The Rafale programme reached a significant milestone on Wednesday 26 July 2006 when single-seat Rafale C101 fired an AASM stand-off weapon off the French Missile Test Centre, in the South-West of France. The revolutionary AASM (Armement Air-Sol Modulaire, or Modular Air-to-Surface Armament) is a lowcost, all-weather, fire-and-forget weapon optimised for highaccuracy attacks at long ranges. Designed and produced by Sagem, the AASM can be utilised for an extremely large
range of strike missions. Thanks to its modular architecture, it offers unmatched destructive capabilities against soft and hard targets. Depending on the tactical situation, the required precision to avoid collateral damage, and the importance of the target, the Air Force and Naval commanders
can choose between two types of state-of-the-art guidance kits: - a combined Inertial Measuring
Unit / GPS receiver navigation system for all-weather attacks with a 10 m class accuracy - a combined Infrared Imager seeker / Inertial Measuring Unit / GPS receiver for day and night attacks with metric precision.
For long distance engagements, the AASM is equipped with a bolt-on tail unit / range extension
kit which comprises a solid rocket motor and flip-out wings. Range exceeds 50 km for a high-altitude release, or 15 km for a low-level firing. Even more significant is the capability to engage targets at high off-boresight angles: with the AASM, the Rafale does not have to overfly the target to carry out its attack with deadly accuracy, and it can safely remain out of reach.

TEST FIRING

The firing was completed off the French Atlantic Coast and the overall trial was under the responsibility of the Centre d'Essais en Vol, the French Flight Test Centre of the Délégation Générale de L'Armement, the Defence Procurement Agency. The weapon was of the INU / GPS
variant that offers 10 m-class precision. Commandant Sylvain Guiraud, a test pilot from the French Air Force Evaluation Centre, flew the 26 July sortie and carried out the firing. “We wanted to test the AASM in an operational environment, with representative delivery profiles that will be used by French Air Force and French Navy frontline Rafale squadrons, he said.
Our main goal was to test a fully functioning instrumented round to make sure that the armament and the aircraft could share targeting data in a satisfactory way.”
Rafale C101 took off from Cazaux Air Base at 11 h 00 local. “The AASM was fired at low-level over the sea, at 1500 feet and 450 knots in level flight, explained Sylvain Guiraud. The weapon hit the
target with chirurgical precision. Prior to the attack, the coordinates of the target had been transferred to the Rafale via the Link 16 datalink. I used the Rafale’s Front Sector Optronics system to watch the impact in real time. In a combat scenario, the FSO could be used for battle damage assessment.”

Fuente: Rafale International

INTERNATIONAL AIR DEFENCE WEEK​

From 03 to 07 July 2006, Flottille 12F, the first French Navy Rafale unit, organised for the first time a week-long intensive air defence exercise from its Landivisiau Naval Air Station home-base, in Brittany, Western France. « From Landivisiau, we routinely train with the Super Etendard strike fighters of the French Carrier Air Wing, but in order to be fully proficient,air-defence pilots need to regularly train against other air defence assets such as F/A-18 Hornet, F-16 Fighting Falcon, Mirage 2000 and Typhoon fighters, stresses Commander Jérôme Puech, Officer Commanding Flottille 12F. But we are rather isolated in Brittany. For instance, for a two-hour sortie, we only have 20 to 25 minutes of ‘playtime’ in the TSA 43 area, in Central France, due to the distance involved. It is not a very effective way to train. There are only two solutions to this problem: either travel to outside bases, or invite other squadrons here and fight in our superb training areas. »

Encouraging results
For the 2006 edition of the Flottille 12F Air Defence Week, three units and a total of eight aircraft deployed to Landivisiau:
- two French Air Force Mirage 2000Cs from Escadron de Chasse 1/5 ‘Vendée’
- four Belgian F-16 MLUs belonging to 349 Fighter Squadron
- two Royal Navy Sea King ASaC Mk 7s from 849 Naval Air Squadron.
Additionally, Super Etendards from Flottilles 11F and 17F took part in the exercise on a daily basis, while Flottille 4F E-2C Hawkeyes and French Air Force E-3F AWACS were also heavily involved.
« Flottille 12F Air Defence Week seeks to familiarise aircrews with the employment of advanced air-defence tactics, explains Jérôme Puech.We knew we could host a fair number of aircraft at Landivisiau. This is why we invited quite a large number of French and foreign units: French Mirage 2000s, Spanish and Swiss F/A-18s, Belgian, Italian, Dutch and Portuguese F-16s, British Typhoons and Hungarian
MiG-29s. We wanted to make sure that every participant would get the best training opportunity: our goal was not to set up a bilateral squadron exchange, but to organise a large-scale multinational exercise with complex scenarios.
This year, only three units responded positively, but this is really encouraging and we will do better next year. »
With its numerous training areas, Landivisiau Naval Air Station is perfectly positioned to accommodate such an exercise.
« Our D12, D14 / D15, and D5 / D7 areas are just a few minutes flying time away, continues Commander Puech. We can fly at supersonic speeds without any risk of damaging private properties with our ‘bangs’, and we can use our flares and chaffs without any restriction. Moreover, our training areas are large enough to simulate long-range engagements, and we can split to accurately replicate tactics we use with our radar-guided, fire-and-forget Mica missiles. »

Obvious advantage

During their stay, each pilot flew several missions every day and, for all Mirage 2000 and F-16 aircrews involved, the exercise was their first encounter with the Rafale.
Needless to say, they were all impressed by the latest Dassault fighter.
« In a dogfight, using only our guns and short range missiles, it is indeed very difficult for a Mirage 2000 pilot to win the day against a Rafale, admits Commandant Jean-Roch Piselli, the ‘ Boss ’ of E C 1 / 5 Detachment. Considering the imposed rules of engagement during the first phase of the exercise, our only real opportunity was to fire first, just after the crossover. Even though the Mirage 2000 is equipped with notoriously effective fly-bywire controls, it does not offer the same level of performance in terms of manoeuvrability and engine thrustand response. We have to select full afterburner as soon as the fight begins while the Rafale pilot can throttle back and even remain in full dry, military power: we burn more fuel and our infrared signature is significantly higher whereas he can reaccelerate very rapidly if needed. »
Flottille 12F was declared fully operational in June 2004, and the Rafale pilots now perfectly know how to handle their aircraft to quickly win the fight:
« we always devise a ‘game plan’ to exploit both the Rafale’s fantastic acceleration and its outstanding agility, explains Lieutenant-Commander Pascal Cassan. Against a F-16, the Rafale is more powerful in the whole flight envelope, and is considerably more manoeuvrable below 300 knots.
Ideally, after the crossover, I Hill climb into the sun to force him to slow down. I will constantly threaten him by pointing the Rafale’s nose in his direction. That will force him to tighten his turn even more, and his speed will wash out very rapidly. On the contrary, the F-16 pilots will do what they can to keep their speed and energy up. »
Numerous ‘beyond visual range’ (BVR) engagements were simulated during the week, and the Rafale proved as deadly in the long-range arena as in a dogfight: « I think that our RBE2 electronic scanning radar is very good, indicates Lieutenant Le Bars. Against a F-15 or a F-16, two aircraft types that have enormous radar cross-sections because of their massive airintakes, our detection ranges are excellent. In a BVR scenario, we always try to engage at high level and fire our lethal Mica missiles at high altitude to give them the longest possible range. Ideally, we will ‘loft’ the radar-guided Micas
to boost their range before diving down to low level while simultaneously opening left or right. In doing so, we deny the opponent any opportunity to fire back. When in the ‘merge’, we quickly gain the upper hand against a F-16: with our large delta wing and our canard foreplanes, we have considerably more authority in pitch and we can turn more tightly, the Rafale offering better sustained turn rates than the F-16 at low, medium and high levels. Our Snecma M88-2 turbofans are so powerful that we often
have to reduce power to avoid overtaking our prey.»
All participants agreed that this first edition of the Flottille 12F Air Defence Week was a total success. Flottille 12F specialists are already busy preparing the 2007 event which should attract a larger foreign contingent. By July 2007, the first four Standard F2 Omnirole Rafale fighters will be in service with the unit, and they are likely to articipate
in the exercise too.

Fuente: Rafale International
 
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