Difference between revisions of "AIM-54A Phoenix"

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== History ==
 
== History ==
''Examine the history of the creation and combat usage of the weapon in more detail than in the introduction. If the historical reference turns out to be too long, take it to a separate article, taking a link to the article about the weapon and adding a block "/History" (example: <nowiki>https://wiki.warthunder.com/(Weapon-name)/History</nowiki>) and add a link to it here using the <code>main</code> template. Be sure to reference text and sources by using <code><nowiki><ref></ref></nowiki></code>, as well as adding them at the end of the article with <code><nowiki><references /></nowiki></code>.''
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<!--''Examine the history of the creation and combat usage of the weapon in more detail than in the introduction. If the historical reference turns out to be too long, take it to a separate article, taking a link to the article about the weapon and adding a block "/History" (example: <nowiki>https://wiki.warthunder.com/(Weapon-name)/History</nowiki>) and add a link to it here using the <code>main</code> template. Be sure to reference text and sources by using <code><nowiki><ref></ref></nowiki></code>, as well as adding them at the end of the article with <code><nowiki><references /></nowiki></code>.''-->
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Development of an American long-range air-to-air missile trace back to the 1958, when Hughes was awarded a contract by the United States Air Force for the GAR-9 missile (designated in 1962 as the "AIM-47"), which was to have a range of 160 kilometers (100 miles) and a 45 kg (100 lb) warhead. Due to the long-distance required, the missile was given an active radar seeker in order to attack their target. The US Navy, seeking a fleet-defense weapon since the late 1950s, took interest in the GAR-9 design as a potential candidate and contracted Hughes in 1962 to develop a new long-range air-to-air missile for their fleet interceptor, designated "AAM-N-11" and would be later designated in June 1963 as the '''AIM-54A Phoenix'''.<ref name="AirVector">Goebel 2021</ref>
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Compared to the preceding AIM-47, Hughes' AIM-54 featured an AN/DSQ-26 semi-active radar homing seeker for cruising while receiving updates on target position. The missile switches over to active radar homing for the terminal attack around 18 km from the interception point. The AIM-54 featured a Rocketdyne Mk47 or Aerojet Mk60 rocket motor that helped propelled the missile more than Mach 4. The missile maintain the range specification of 160 km and was to be able to attack both aircraft and cruise missiles. The warhead is a 60 kg (132 lb) MK 82 blast-fragmentation warhead that was trigger by a fuse system consisting of radar proximity, IR proximity, and an impact fuse.<ref name="DS_Phoenix">Parsch 2004</ref>
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Flight tests of the prototype (''XAIM-54A'') started in 1965, with the first interception tests taking place on 08 September 1966 at the Navy Pacific Missile Range, fired from a Douglas A-3A Skywarrior.<ref name="USN">Naval Air Systems Command 2017</ref> The aircraft platform for the AIM-54 Phoenix was originally the F-111B, an aircraft intended to have commonality with the US Air Force's F-111 Aardvark, but this was cancelled in 1968. The US Navy set to work building a new fleet-defense fighter to their specifications on 03 February 1969, which produced the [[F-14A Early|F-14A Tomcat]], which was to carry six AIM-54 missiles linked with its AN/AWG-9 radar, allowing the aircraft to fire all six AIM-54 missiles simultaneously at separate targets.<ref name="AirVector"/>
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Hughes received a production contract for the AIM-54 missile in December 1970 as more tests with the missiles continue to show its capabilities. During November 1973, the missile passes its technical evaluation and is slated to be ready for deployment with the F-14A. The F-14A's capability with the AIM-54 was shown during an exercise on 21 November 1973, with the missile officially adopted into the US Navy service the same year and ready to be operationally deployed with the F-14A in November 1974. At the time, the missile costed $477,131 USD, which is roughly $3 million USD in 2022 adjusted for inflation.<ref name="USN"/>
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Other variants of the AIM-54A developed, primarily for training purposes, were the ''ATM-54A'' with an inert warhead for firing exercises, the ''CATM-54A'' as a non-launching missile for target acquisition practice, the ''DATM-54A'' for ground-handling training, and the ''AEM-54A'' that contained telemetry electronics for test and evaluation purposes.<ref name="DS_Phoenix"/>
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The AIM-54A would continue production until 18 November 1980 with a total of 2505 units as it was replaced by the improved AIM-54C Phoenix missile.<ref name="USN"/>
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The AIM-54A Phoenix would never be used in combat in F-14As piloted by American crew. Instead, most of the AIM-54A aerial victories were scored by the nation Iran, which ordered F-14s and AIM-54A Phoenix missiles in 1972 and acquired them prior to the Islamic Revolution. During the Iran-Iraq War, it is reported that the Islamic Republic of Iran Air Force (IRIAF) is credited with 62 victories with the use of AIM-54 Phoenixes.<ref name="CSBA">Stillion 2015, 22</ref>
  
 
== Media ==
 
== Media ==
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== External links ==
 
== External links ==
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* ''topic on the official game forum;''
 
* ''topic on the official game forum;''
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* ''other literature.''-->
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===References===
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;Citations:
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<references />
  
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;Bibliography:
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* Goebel, Greg. 2021. "[1.0] Falcon & Sidewinder." Air Vectors. Last modified July 01, 2021. [http://www.airvectors.net/avusaam_1.html Website] ([https://web.archive.org/web/20220107173258/http://www.airvectors.net/avusaam_1.html Archive]).
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* Naval Air Systems Command. 2017. "AIM-54 Phoenix Missile." United States Navy. Last modified March 10, 2017. [https://www.navy.mil/DesktopModules/ArticleCS/Print.aspx?PortalId=1&ModuleId=724&Article=2168381 Website] ([https://web.archive.org/web/20220722043513/https://www.navy.mil/DesktopModules/ArticleCS/Print.aspx?PortalId=1&ModuleId=724&Article=2168381 Archive]).
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* Parsch, Andreas. 2004. "AIM-54." Directory of U.S. Military Rockets and Missiles. Last modified October 08, 2004. [https://www.designation-systems.net/dusrm/m-54.html Website] ([https://web.archive.org/web/20220722043903/https://www.designation-systems.net/dusrm/m-54.html Archive])
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* Stillion, John. 2015. ''Trends in Air-to-Air Combat: Implications for Future Air Superiority.'' Washington, DC: Center for Strategic and Budgetary Assessments.
 
{{Missiles}}
 
{{Missiles}}
  
 
[[Category:Suspended armaments]]
 
[[Category:Suspended armaments]]

Revision as of 05:18, 22 July 2022

Description

The AIM-54A Phoenix is an American active radar homing missile. It was introduced in Update "Danger Zone". The AIM-54A Phoenix is the first active-radar homing missile to be introduced in War Thunder.

Vehicles equipped with this weapon

General info

Missile characteristics
Mass 447 kg
Guidance ARH+IOG+DL
Signal CW
Lock range 16 km
Launch range 150 km
Maximum speed 4.3 M
Maximum overload 16 G
Missile guidance time 100 secs
Explosive mass 60.54 kg TNTeq

Effective damage

The AIM-54 is equipped with a 60 kg TNT warhead, capably of destroying targets with wide proximity fuze.

Comparison with analogues

Compared to the 2nd longest range missile in the game, AIM-7F Sparrow, the Phoenix has much longer range, but sacrifices manoeuvrability heavily.

Usage in battles

While taking more than 2 of these missiles isn't recommended in regular RB maps, an F-14 pilot can climb to about 5000 meters after take off and launch at any target it sees, preferably high altitude targets. Backing up to their team right after. In EC maps, this missile can be launched in groups to different targets at very long ranges by F-14 pilots.

Pros and cons

Pros:

  • Has an active radar homing (ARH) seeker, which gives it fire-and-forget capability
  • Can reach ranges that no other weapon system in the game can reach, if high enough in altitude can hit targets beyond 50 km
  • Extremely fast at high altitudes after some acceleration
  • Can be launched in TWS, which gives target no radar lock notification until the missile goes pitbull
  • Has decently wide proximity radius which the missile can explode

Cons:

  • Can only pull 16Gs, anybody paying attention can easily dodge by changing directions
  • Only usable in long ranges, won't even track in close ranges
  • Extremely heavy, it takes a lot of time to reach the speeds that its effective at
  • May lose track right after the launch if TWS lock is lost

History

Development of an American long-range air-to-air missile trace back to the 1958, when Hughes was awarded a contract by the United States Air Force for the GAR-9 missile (designated in 1962 as the "AIM-47"), which was to have a range of 160 kilometers (100 miles) and a 45 kg (100 lb) warhead. Due to the long-distance required, the missile was given an active radar seeker in order to attack their target. The US Navy, seeking a fleet-defense weapon since the late 1950s, took interest in the GAR-9 design as a potential candidate and contracted Hughes in 1962 to develop a new long-range air-to-air missile for their fleet interceptor, designated "AAM-N-11" and would be later designated in June 1963 as the AIM-54A Phoenix.[1]

Compared to the preceding AIM-47, Hughes' AIM-54 featured an AN/DSQ-26 semi-active radar homing seeker for cruising while receiving updates on target position. The missile switches over to active radar homing for the terminal attack around 18 km from the interception point. The AIM-54 featured a Rocketdyne Mk47 or Aerojet Mk60 rocket motor that helped propelled the missile more than Mach 4. The missile maintain the range specification of 160 km and was to be able to attack both aircraft and cruise missiles. The warhead is a 60 kg (132 lb) MK 82 blast-fragmentation warhead that was trigger by a fuse system consisting of radar proximity, IR proximity, and an impact fuse.[2]

Flight tests of the prototype (XAIM-54A) started in 1965, with the first interception tests taking place on 08 September 1966 at the Navy Pacific Missile Range, fired from a Douglas A-3A Skywarrior.[3] The aircraft platform for the AIM-54 Phoenix was originally the F-111B, an aircraft intended to have commonality with the US Air Force's F-111 Aardvark, but this was cancelled in 1968. The US Navy set to work building a new fleet-defense fighter to their specifications on 03 February 1969, which produced the F-14A Tomcat, which was to carry six AIM-54 missiles linked with its AN/AWG-9 radar, allowing the aircraft to fire all six AIM-54 missiles simultaneously at separate targets.[1]

Hughes received a production contract for the AIM-54 missile in December 1970 as more tests with the missiles continue to show its capabilities. During November 1973, the missile passes its technical evaluation and is slated to be ready for deployment with the F-14A. The F-14A's capability with the AIM-54 was shown during an exercise on 21 November 1973, with the missile officially adopted into the US Navy service the same year and ready to be operationally deployed with the F-14A in November 1974. At the time, the missile costed $477,131 USD, which is roughly $3 million USD in 2022 adjusted for inflation.[3]

Other variants of the AIM-54A developed, primarily for training purposes, were the ATM-54A with an inert warhead for firing exercises, the CATM-54A as a non-launching missile for target acquisition practice, the DATM-54A for ground-handling training, and the AEM-54A that contained telemetry electronics for test and evaluation purposes.[2]

The AIM-54A would continue production until 18 November 1980 with a total of 2505 units as it was replaced by the improved AIM-54C Phoenix missile.[3]

The AIM-54A Phoenix would never be used in combat in F-14As piloted by American crew. Instead, most of the AIM-54A aerial victories were scored by the nation Iran, which ordered F-14s and AIM-54A Phoenix missiles in 1972 and acquired them prior to the Islamic Revolution. During the Iran-Iraq War, it is reported that the Islamic Republic of Iran Air Force (IRIAF) is credited with 62 victories with the use of AIM-54 Phoenixes.[4]

Media

Images

See also

Links to the articles on the War Thunder Wiki that you think will be useful for the reader, for example:

  • reference to the article about the variant of the weapon;
  • references to approximate analogues by other nations and research trees.

External links

References

Citations
  1. 1.0 1.1 Goebel 2021
  2. 2.0 2.1 Parsch 2004
  3. 3.0 3.1 3.2 Naval Air Systems Command 2017
  4. Stillion 2015, 22
Bibliography
  • Goebel, Greg. 2021. "[1.0] Falcon & Sidewinder." Air Vectors. Last modified July 01, 2021. Website (Archive).
  • Naval Air Systems Command. 2017. "AIM-54 Phoenix Missile." United States Navy. Last modified March 10, 2017. Website (Archive).
  • Parsch, Andreas. 2004. "AIM-54." Directory of U.S. Military Rockets and Missiles. Last modified October 08, 2004. Website (Archive)
  • Stillion, John. 2015. Trends in Air-to-Air Combat: Implications for Future Air Superiority. Washington, DC: Center for Strategic and Budgetary Assessments.
Missiles
USA 
AAM  AIM-54A Phoenix · AIM-54C Phoenix · ATAS (AIM-92) · AIM-120A · AIM-120B · Fakour-90 · Sedjeel
Sparrow  AIM-7C · AIM-7D · AIM-7E · AIM-7E-2 · AIM-7F · AIM-7M
Sidewinder  AIM-9B · AIM-9C · AIM-9D · AIM-9E · AIM-9G · AIM-9H · AIM-9J · AIM-9L · AIM-9M · AIM-9P
AGM  AGM-22 · APKWS II (M151) · APKWS II (M282) · BGM-71D TOW-2
Bullpup  AGM-12B Bullpup · AGM-12C Bullpup
Hellfire  AGM-114B Hellfire · AGM-114K Hellfire II
Maverick  AGM-65A · AGM-65B · AGM-65D · AGM-65E2 · AGM-65G · AGM-65L
ATGM  LOSAT/MGM-166A
TOW  BGM-71 · BGM-71A · BGM-71B · BGM-71C
SAM  FIM-92 Stinger · MIM-72 · MIM146
Naval SAM  RIM-24A
Germany 
AAM  AIM-9B FGW.2 Sidewinder · AIM-9L/I Sidewinder · Flz Lwf 63 · Flz Lwf 63/80
AGM  9M14M Malyutka · Flz Lwf LB 82 · HOT-1 · HOT-2 TOW · HOT-3 · PARS 3 LR
AShM  AS.34 Kormoran
ATGM  HOT-K3S · Spike-LR II
SAM  Roland
Naval SAM  Strela-2M
USSR 
AAM  9M39 Igla · R-3R · R-3S · R-13M1 · R-23R · R-23T · R-24R · R-24T · R-27ER(1) · R-27ET(1) · R-27R(1) · R-27T(1) · R-60 · R-60M · R-60MK · R-73(E) · R-77
AGM  9K127 Vikhr · 9M17M Falanga · 9M120 Ataka · 9M120-1 Ataka
  Kh-23M · Kh-25 · Kh-25ML · Kh-29L · Kh-29T · Kh-29TE · Kh-29TD · Kh-66 · S-25L · S-25LD
ATGM  3M7 · 9M14 · 9M113 Konkurs · 9M114 Shturm · 9M123 Khrizantema · 9M133 · 9M133FM3 · 9M133M-2
SAM  95Ya6 · 9M311 · 9M311-1M · 9M331 · 9M37M
Naval SAM  Volna-M
Britain 
AAM  Fireflash · Firestreak · Red Top · Skyflash · Skyflash SuperTEMP · SRAAM · R-Darter
AGM  AGM-65E · AS.12 · ZT-6 Mokopa
AShM  AJ.168
ATGM  BAe Swingfire · MILAN · MILAN 2 · ZT3
SAM  Starstreak
Japan 
AAM  AAM-3 · AAM-4
AGM  Ki-148 I-Go Model 1B
ATGM  Type 64 MAT · Type 79 Jyu-MAT
SAM  Type 81 SAM-1C · Type 91
China 
AAM  PL-2 · PL-5B · PL-5C · PL-5EII · PL-7 · PL-8 · PL-12 · SD-10(A) · TY-90
AGM  AKD-9 · AKD-10 · Fire Snake 90A · HJ-8A · HJ-8C · HJ-8E · HJ-8H
ATGM  302 · HJ-73 · HJ-73E · HJ-9 · QN201DD · QN502CDD
SAM  HN-6
Italy 
AAM  Aspide-1A · MAA-1 Piranha
AGM  AGM-65H · CIRIT · L-UMTAS · Spike ER
ATGM  Spike-LR II
Naval AShM  Nettuno
SAM  Mistral SATCP
France 
AAM  AA-20 Nord · Matra R511 · Matra R530 · Matra R530E · Matra Super 530D · Matra Super 530F · Matra R550 Magic 1 · Matra R550 Magic 2 · Mistral · MICA-EM
AGM  9M14-2 Malyutka-2 · AS-20 Nord · AS-30 Nord · AS-30L Nord · HOT-1 · HOT-2 TOW · HOT-3 · Spike ER
ATGM  HOT · SS.11
SAM  Roland · VT1
Sweden 
AAM  RB24 · RB24J · RB71 · RB 74 · RB 74(M) · RB 99
AGM  Rb05A · RB 53 Bantam · RB 55B Heli TOW · RB 55C Heli TOW · RB 75 · RB 75T
ATGM  Rbs 55 · Rbs 56
SAM  Rbs 70
Israel 
AAM  Shafrir · Shafrir 2 · Python 3 · Derby
ATGM  Spike-LR II
  AAM = Air-to-Air Missile   AGM = Air-to-Ground Missile   AShM = Anti-Ship Missile   ATGM = Anti-Tank Guided Missile (Ground mounts)   SAM = Surface-to-Air Missile