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AIM-54 Phoenix

From Wikipedia, the free encyclopedia

AIM-54 Phoenix
Side-view of the AIM-54C
TypeLong range BVR air-to-air missile
Place of originUnited States
Service history
In service1974–present
Used byUnited States Navy (former)
Iranian Air Force
Production history
DesignerHughes Aircraft Company
Unit costUS$477,131 (1974 FY)
  • AIM-54A/B - 976 lb (443 kg)
  • AIM-54C – 1,015 lb (460 kg)
Length12 ft 9+12 in (3.9 m)
Diameter15 in (380 mm)
Wingspan2 ft 11+12 in (0.9 m)

  • AIM-54A/B - HE continuous rod
  • AIM-54C – HE Mk 82; WDU‐29/B continuous rod
Warhead weight133 lb (60.33 kg)
Proximity fuze

EngineSolid propellant rocket motor
  • AIM-54A/B - 72.9 nmi (135.0 km; 83.9 mi)
  • AIM-54C – 99.4 nmi (184.1 km; 114.4 mi)
Flight ceiling103,500 ft (31.5 km)
Maximum speed
  • AIM-54A/B - Mach 4.3 (1,460 m/s; 4,800 ft/s)
  • AIM-54C – Mach 5 (1,700 m/s; 5,600 ft/s)
Semi-active radar homing and terminal phase active radar homing
Grumman F-14 Tomcat

The AIM-54 Phoenix is an American radar-guided, long-range air-to-air missile (AAM), carried in clusters of up to six missiles on the Grumman F-14 Tomcat, its only operational launch platform.

The Phoenix was the United States' only long-range air-to-air missile. The combination of Phoenix missile and the Tomcat's AN/AWG-9 guidance radar meant that it was the first aerial weapons system that could simultaneously engage multiple targets. Due to its active radar tracking, the brevity code "Fox Three" was used when firing the AIM-54.

Both the missile and the aircraft were used by Iran and the United States Navy. In US service both are now retired, the AIM-54 Phoenix in 2004 and the F-14 in 2006. They were replaced by the shorter-range AIM-120 AMRAAM, employed on the F/A-18 Hornet and F/A-18E/F Super Hornet—in its AIM-120D version, the latest version of the AMRAAM just matches the Phoenix's maximum range.[2]

The AIM-54 has been used in 62 air-to-air strikes, all by Iran during the eight-year Iran–Iraq War.[3][4] Following the retirement of the F-14 by the U.S. Navy, the weapon's only current operator is the Islamic Republic of Iran Air Force.

YouTube Encyclopedic

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  • The AIM-54 Phoenix
  • AIM-54 Phoenix: a class of its own
  • The AIM-54 (Phoenix) Short Documentary.
  • When US Navy F-14 Fired 6 Aim-54 Missiles Simultaneously In 1973 #shorts
  • F-14 Tomcat launching AIM-54 Phoenix missiles




Since 1951, the Navy faced the initial threat from the Tupolev Tu-4K 'Bull' carrying[5] anti-ship missiles or nuclear bombs.

Eventually, during the height of the Cold War, the threat would have expanded into regimental-size raids of Tu-16 Badger and Tu-22M Backfire bombers equipped with low-flying, long-range, high-speed, nuclear-armed cruise missiles and considerable electronic countermeasures (ECM) of various types. This combination was considered capable of saturating fleet defenses and threatening carrier groups.

The Navy would require a long-range, long-endurance interceptor aircraft to defend carrier battle groups against this threat. The proposed Douglas F6D Missileer was intended to fulfill this mission and oppose the attack as far as possible from the fleet it was defending. The weapon needed for interceptor aircraft, the Bendix AAM-N-10 Eagle, was to be an air-to-air missile of unprecedented range when compared to contemporary AIM-7 Sparrow missiles. It would work together with Westinghouse AN/APQ-81 radar. The Missileer project was cancelled in December 1960.


An AIM-54A launched from the NA-3A-testbed in 1966

In the early 1960s, the U.S. Navy made the next interceptor attempt with the F-111B, and they needed a new missile design. At the same time, the USAF canceled the projects for their land-based high-speed interceptor aircraft, the North American XF-108 Rapier and the Lockheed YF-12, and left the capable AIM-47 Falcon missile at a quite advanced stage of development, but with no effective launch platform.

The AIM-54 Phoenix, developed for the F-111B fleet air defense fighter, had an airframe with four cruciform fins that was a scaled-up version of the AIM-47. One characteristic of the Missileer ancestry was that the radar sent it mid-course corrections, which allowed the fire control system to "loft" the missile up over the target into thinner air where it had better range.

The F-111B was canceled in 1968. Its weapons system, the AIM-54 working with the AWG-9 radar, migrated to the new U.S. Navy fighter project, the VFX, which would later become the F-14 Tomcat.[6]

The AIM-54 Phoenix was also considered by the Royal Air Force to be used on Avro Vulcan bomber planes as part of an air defence aircraft. This missileer conversion would have used 12 missiles onboard and an extensive modification to the Vulcan's radar.[7]

In 1977, development of a significantly improved Phoenix version, the AIM-54C, was developed to better counter projected threats from tactical anti-naval aircraft and cruise missiles, and its final upgrade included a re-programmable memory capability to keep pace with emerging ECM.[8]

Usage in comparison to other weapon systems

The AIM-54/AWG-9 combination had multiple track (up to 24 targets) and multiple launch (up to six Phoenixes can be launched nearly simultaneously) capability; the large 1,000 lb (500 kg) missile is equipped with a conventional warhead.

On the F-14, four missiles can be carried under the fuselage tunnel attached to special aerodynamic pallets, plus two under glove stations. A full load of six Phoenix missiles and the unique launch rails weighs in at over 8,000 lb (3,600 kg), about twice the weight of Sparrows, putting it above the allowable bringback load (which also would include enough fuel for go-around attempts).[9] As such, carrying six Phoenix missiles would necessitate the jettison of at least some of the Phoenix missiles if they were not used. The most common air superiority payload was a mix of two Phoenix, three Sparrow, and two Sidewinder missiles.[citation needed]

Most other US aircraft relied on the smaller, semi-active medium-range AIM-7 Sparrow. Semi-active guidance meant the aircraft no longer had a search capability while supporting the launched Sparrow, reducing situational awareness.

The Tomcat's radar could track up to 24 targets in track-while-scan mode, with the AWG-9 selecting up to six potential targets for the missiles. The pilot or radar intercept officer (RIO) could then launch the Phoenix missiles once parameters were met. The large tactical information display (TID) in the RIO's cockpit gave information to the aircrew (the pilot had the ability to monitor the RIO's display) and the radar could continually search and track multiple targets after Phoenix missiles were launched, thereby maintaining situational awareness of the battlespace.

The Link 4 datalink allowed US Navy Tomcats to share information with the E-2C Hawkeye AEW aircraft. During Desert Shield in 1990, the Link 4A was introduced; this allowed the Tomcats to have a fighter-to-fighter datalink capability, further enhancing overall situational awareness. The F-14D entered service with JTIDS that brought the even better Link 16 datalink "picture" to the cockpit.

Active guidance

AIM-54 Phoenix seconds after launch (1989)

The Phoenix has several guidance modes and achieves its longest range by using mid-course updates from the F-14A/B AWG-9 radar (APG-71 radar in the F-14D) as it climbs to cruise between 80,000 ft (24,000 m) and 100,000 ft (30,000 m) at close to Mach 5. The Phoenix uses this high altitude to maximize its range by reducing atmospheric drag. At around 11 miles (18 km) from the target, the missile activates its own radar to provide terminal guidance.[10] Minimum engagement range for the Phoenix is around 2 nmi (3.7 km); at this range active homing would initiate upon launch.[10]

Service history

U.S. combat experience

An AIM-54 hitting a QF-4B target drone, 1983.
  • On January 5, 1999, a pair of US F-14s fired two Phoenixes at Iraqi MiG-25s southeast of Baghdad. Both AIM-54s' rocket motors failed and neither missile hit its target.[11][12]
  • On September 9, 1999, another US F-14 launched an AIM-54 at an Iraqi MiG-23 that was heading south into the no-fly zone from Al Taqaddum air base west of Baghdad. The missile missed, eventually going into the ground after the Iraqi fighter reversed course and fled north.[13]
An AIM-54 Phoenix being attached to an F-14 wing pylon before the forward fins were installed (2003).

The AIM-54 Phoenix was retired from USN service on September 30, 2004. F-14 Tomcats were retired on September 22, 2006. They were replaced by shorter-range AIM-120 AMRAAMs, employed on the F/A-18E/F Super Hornet.

Despite the much-vaunted capabilities, the Phoenix was rarely used in combat, with only two confirmed launches and no confirmed targets destroyed in US Navy service. The USAF F-15 Eagle had responsibility for overland combat air patrol duties in Operation Desert Storm in 1991, primarily because of the onboard F-15 IFF capabilities. The Tomcat did not have the requisite IFF capability mandated by the JFACC to satisfy the rules of engagement to utilize the Phoenix capability at beyond visual range. The AIM-54 was not adopted by any foreign nation besides Iran, or any other US armed service, and was not used on any aircraft other than the F-14.

Iranian combat experience

Iranian F-14 Tomcats armed with multiple types of air-to-air missiles, including AIM-54 Phoenixes, in 1986.

On January 7, 1974 as part of Project Persian King, the Imperial Iranian Air Force placed an order for 424 AIM-54As, later increasing it by 290 missiles that June.[4] Of the initial order, 274 missiles and 10 training rounds were delivered for US$150 million,[14] until the 1979 Revolution ended deliveries and left the remaining 150 missiles embargoed and the additional order of 290 cancelled.

According to Tom Cooper and Farzad Bishop, during the Iran–Iraq War AIM-54s fired by IRIAF Tomcats achieved 78 victories against Iraqi MiG-21s, MiG-23s, MiG-25s, Tu-22s, Su-20/22s, Mirage F 1s, Super Étendards, and even two AM-39 Exocets and a C-601. This includes two occasions where one AIM-54 was responsible for the downing of two Iraqi aircraft, as well as an incident on January 7, 1981 where a Phoenix fired at a four-ship of MiG-23s downed three and damaged the fourth.[4]

The US refused to supply spare parts and maintenance after the 1979 Revolution, except for a brief period during the Iran–Contra affair. According to Cooper, the Islamic Republic of Iran Air Force kept its F-14 fighters and AIM-54 missiles in regular use during the entire Iran–Iraq War, though periodic lack of spares grounded large parts of the fleet at times. During late 1987, the stock of AIM-54 missiles was at its lowest, with fewer than 50 operational missiles available. The missiles needed fresh thermal batteries that could only be purchased from the US. Iran found a clandestine buyer that supplied it with batteries, which cost up to US$10,000 each. Iran received spares and parts for both the F-14s and AIM-54s from various sources during the Iran–Iraq War, and has received more spares after the conflict. Iran started a program to build spares for the planes and missiles, and although there are claims that it no longer relies on outside sources to keep its F-14s and AIM-54s operational, there is evidence that Iran continues to procure parts clandestinely.[15]

Both the F-14 Tomcat and the AIM-54 Phoenix missile continue in the service of the Islamic Republic of Iran Air Force. Iran claimed to be working on building an equivalent missile[citation needed] and in 2013 unveiled the Fakour-90, an upgraded and reverse-engineered version of the Phoenix.[16]


An AIM-54A "Phoenix" missile on display at Grumman Memorial Park in New York State
Original model that became operational with the U.S. Navy in about 1974, and it was also exported to Iran before the Iran hostage crisis beginning in 1979.
Also known as the 'Dry' missile. A version with simplified construction and no coolant conditioning. Did not enter series production. Developmental work started in January 1972. 7 X-AIM-54B missiles were created for testing, 6 of them by modifying pilot production IVE/PIP rounds. After two successful test firings, the 'Dry' missile effort was cancelled for being "not cost effective".[17]
The only improved model that was ever produced. It used digital electronics in the place of the analog electronics of the AIM-54A. This model had better abilities to shoot down low and high-altitude antiship missiles. This model took over from the AIM-54A beginning in 1986.
AIM-54 ECCM/sealed round
More capabilities in electronic counter-countermeasures. It did not require coolant during flight. The Missile was deployed from 1988 onwards. Because the AIM-54 ECCM/Sealed received no coolant, F-14s carrying this version of the missile could not exceed a specified airspeed.

There were also test, evaluation, ground training, and captive air training versions of the missile; designated ATM-54, AEM-54, DATM-54A, and CATM-54. The flight versions had A and C versions. The DATM-54 was not made in a C version as there was no change in the ground handling characteristics.

Sea Phoenix
A 1970s proposal for a ship launched version of the Phoenix as an alternative/replacement for the Sea Sparrow point defense system.[18] It would also have provided a medium-range SAM capability for smaller and/or non-Aegis equipped vessels (such as the CVV). The Sea Phoenix system would have included a modified shipborne version of the AN/AWG-9 radar. Hughes Aircraft touted the fact that 27 out of 29 major elements of the standard (airborne) AN/AWG-9 could be used in the shipborne version with little modification. Each system would have consisted of one AWG-9 radar, with associated controls and displays, and a fixed 12-cell launcher for the Phoenix missiles. In the case of an aircraft carrier, for example, at least three systems would have been fitted in order to give overlapping coverage throughout the full 360°.[19][page needed] Both land and ship based tests of modified Phoenix (AIM-54A) missiles and a containerised AWG-9 (originally the 14th example off the AN/AWG-9 production line) were successfully carried out from 1974 onwards.[20]
A land based version for the USMC was also proposed. It has been suggested that the AIM-54B would have been used in operational Sea Phoenix systems, although that version had been cancelled by the second half of the 1970s. Ultimately, a mix of budgetary and political issues meant that, despite being technically and operationally attractive, further development of the Sea Phoenix did not proceed.
Fakour 90
In February 2013 Iran reportedly tested an indigenous long-range air-to-air missile.[citation needed] In September 2013 it displayed the Fakour-90 on a military parade. It looked almost identical to the AIM-54 Phoenix.[21] In July 2018 as reported by Jane's, Iran started mass production of the Fakour-90.[22]


Map with current AIM-54 Phoenix operators in blue and former operators in red

Current operators

Former operators


A technical drawing of AIM-54C

The following is a list of AIM-54 Phoenix specifications:[23]

  • Primary function: long-range, air-launched, air-intercept missile
  • Contractor: Hughes Aircraft Company and Raytheon Corporation
  • Unit cost: about $477,000, but this varied greatly
  • Power plant: solid propellant rocket motor built by Hercules Incorporated
  • Length: 13 ft (4.0 m)
  • Weight: 1,000–1,040 pounds (450–470 kg)
  • Diameter: 15 in (380 mm)
  • Wing span: 3 ft (910 mm)
  • Range: over 100 nautical miles (120 mi; 190 km) (actual range is classified)
  • Speed: 3,000+ mph (4,680+ km/h)
  • Guidance system: semi-active and active radar homing
  • Warheads: proximity fuze, high explosive
  • Warhead weight: 135 pounds (61 kg)
  • Users: US (U.S. Navy), Iran (IRIAF)
  • Date deployed: 1974
  • Date retired (U.S.): September 30, 2004

See also

Related lists


  1. ^ Janes (26 February 2021), "AIM‐54 Phoenix", Janes Weapons: Air Launched, Coulsdon, Surrey: Jane's Group UK Limited., retrieved 2 October 2022
  2. ^ "New long-range missile project emerges in US budget". November 2, 2017.
  3. ^ John Stillion. "Trends in Air-to-Air Combat: Implications for Future Air Superiority" (PDF). Center for Strategic and Budgetary Assessments (CSBA). p. 22. Archived (PDF) from the original on 2022-10-09.
  4. ^ a b c Cooper, Tom; Bishop, Farzad. Iranian F-14 Tomcat Units in Combat, p. 85. Oxford: Osprey Publishing, 2004. ISBN 1 84176 787 5.
  5. ^ Zaloga, S.J.; Laurier, J. (2005). V-1 Flying Bomb, 1942–52: Hitler's Infamous "Doodlebug". Osprey Publishing, Limited. ISBN 9781841767918. Retrieved 3 October 2014.
  6. ^ Wragg, David W. (1973). A Dictionary of Aviation (first ed.). Osprey. p. 212. ISBN 9780850451634.
  7. ^ "The National Interest: Blog".
  8. ^ "Raytheon AIM-54 Phoenix". Retrieved 3 October 2014.
  9. ^ Clancy, Tom (1999-02-01). Carrier. Penguin. ISBN 9781101002254.
  10. ^ a b "AIM-54" (2004). Directory of US Military Rockets and Missiles. Retrieved 28 November 2010.
  11. ^ " Transcript: DoD News Briefing January 5, 1999". Archived from the original on December 8, 2015. Retrieved November 30, 2015.
  12. ^ Parsons, Dave, George Hall and Bob Lawson. (2006). Grumman F-14 Tomcat: Bye-Bye Baby...!: Images & Reminiscences From 35 Years of Active Service. Zenith Press, p. 73. ISBN 0-7603-3981-3.
  13. ^ Tony Holmes, "US Navy F-14 Tomcat Units of Operation Iraqi Freedom", Osprey Publishing (2005). Chapter One – OSW, pp. 16–7.
  14. ^ "AIM-54 Phoenix Missile". U.S. Navy.
  15. ^ Theimer, Sharon. "Iran Gets Army Gear in Pentagon Sale". Forbes. Archived from the original on 19 January 2007. Retrieved 17 January 2007.
  16. ^ Cenciotti, David (26 September 2013). "Iranian F-14 Tomcat's 'new' indigenous air-to-air missile is actually an (improved?) AIM-54 Phoenix replica". The Aviationist. Retrieved 8 November 2015.
  17. ^ "Budget estimates descriptive summaries", Supporting data for fiscal year 1983, Department of the Navy.
  18. ^
  19. ^ Weapon Systems, Jane's, 1977.
  20. ^ Tarpgaard, PT (1976), "The Sea Phoenix—A Warship Design Study", ASNE, 88 (2): 31–44.
  21. ^ "Farouk missile", The Avionist, Sep 26, 2013.
  22. ^ "Janes | Latest defence and security news".
  23. ^ "Fact File: AIM-54 Phoenix Missile". U.S. Navy. Archived from the original on 29 June 2011. Retrieved 14 July 2011.

External links

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