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| finspan =
| finspan =
| speed = Mach 4+{{sfn|Wood|Yang|Cliff|2020|p=38}}
| speed = Mach 4+{{sfn|Wood|Yang|Cliff|2020|p=38}}
| vehicle_range = {{convert|70-100|km|mi}}<ref name="Medeiros_p93">Medeiros et al.: page 93</ref><ref name="Fisher_2010-02-21">{{cite web |url=http://www.strategycenter.net/research/pubID.224/pub_detail.asp |title=The Air Balance on the Taiwan Strait |last1=Fisher |first1=Richard D. Jr. |date=21 February 2010 |website=[[International Assessment and Strategy Center]] |access-date=1 November 2016 }}</ref>
| vehicle_range = {{convert|70-100|km|mi}}<ref name="Medeiros_p93">Medeiros et al.: page 93</ref><ref name="Fisher_2010-02-21">{{cite web |url=http://www.strategycenter.net/research/pubID.224/pub_detail.asp |title=The Air Balance on the Taiwan Strait |last1=Fisher |first1=Richard D. Jr. |date=21 February 2010 |website=[[International Assessment and Strategy Center]] |access-date=1 November 2016 }}</ref><br/>>{{convert|120|km|mi}} (PL-12AE)<ref>https://forum-en-cdn.warthunder.com/original/3X/d/6/d66870a1e517515f2af2d96e0cbb609f1bb13167.jpeg</ref>
| ceiling =
| ceiling =
| altitude =
| altitude =
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;PL-12: Domestic version with 60<ref name="theprint">{{cite web|url=https://theprint.in/defence/how-china-is-fast-catching-up-with-the-west-in-the-race-for-air-to-air-missile-superiority/597206/ |title=How China is fast catching up with the West in the race for air-to-air missile superiority |website=The Print |first=Sameer |last=Joshi |date=6 February 2021}}</ref> to 100 km{{sfn|Wood|Yang|Cliff|2020|p=39}} range.
;PL-12: Domestic version with 60<ref name="theprint">{{cite web|url=https://theprint.in/defence/how-china-is-fast-catching-up-with-the-west-in-the-race-for-air-to-air-missile-superiority/597206/ |title=How China is fast catching up with the West in the race for air-to-air missile superiority |website=The Print |first=Sameer |last=Joshi |date=6 February 2021}}</ref> to 100 km{{sfn|Wood|Yang|Cliff|2020|p=39}} range.
;PL-12A: NATO reporting name is '''CH-AA-7A'''.<ref>{{cite web|last=Barrie |first=Douglas |date=9 September 2022 |title=Air-to-air warfare: speed kills |url=https://www.iiss.org/blogs/military-balance/2022/09/analysis-air-to-air-warfare-speed-kills |website=Military Balance Blog |publisher=International Institute for Strategic Studies |access-date=6 November 2022}}</ref> Improved PL-12 with a modified seeker and digital processor. Reportedly fitted with passive mode for anti-radiation missions.<ref name="the_drive" />
;PL-12A: NATO reporting name is '''CH-AA-7A'''.<ref>{{cite web|last=Barrie |first=Douglas |date=9 September 2022 |title=Air-to-air warfare: speed kills |url=https://www.iiss.org/blogs/military-balance/2022/09/analysis-air-to-air-warfare-speed-kills |website=Military Balance Blog |publisher=International Institute for Strategic Studies |access-date=6 November 2022}}</ref> Improved PL-12 with a modified seeker and digital processor. Reportedly fitted with passive mode for anti-radiation missions.<ref name="the_drive" />
;PL-12AE: Export variant of the PL-12A with a range of >{{convert|120|km|mi}}.<ref>https://forum-en-cdn.warthunder.com/original/3X/d/6/d66870a1e517515f2af2d96e0cbb609f1bb13167.jpeg</ref>
;PL-12C: Variant with folded control fins, designed to fit inside the J-20 weapons bay. Did not enter service and used to develop the [[PL-15]].{{sfn|Bronk|2020|p=36}}
;PL-12C: Variant with folded control fins, designed to fit inside the J-20 weapons bay. Did not enter service and used to develop the [[PL-15]].{{sfn|Bronk|2020|p=36}}
;PL-12D: Variant powered by [[China Aerospace Science and Technology Corporation]]<ref>{{cite web|url=https://www.popsci.com/chinas-new-ramjet-engine-triple-range-missiles/ |title=This new ramjet engine could triple the range of Chinese missiles |website=Popular Science |date=12 June 2017 |first1=Jeffrey |last1=Lin |first2=P.W. |last2=Singer }}</ref> [[ramjet]]. Did not enter service and used to develop the [[PL-15]].{{sfn|Bronk|2020|p=36}}
;PL-12D: Variant powered by [[China Aerospace Science and Technology Corporation]]<ref>{{cite web|url=https://www.popsci.com/chinas-new-ramjet-engine-triple-range-missiles/ |title=This new ramjet engine could triple the range of Chinese missiles |website=Popular Science |date=12 June 2017 |first1=Jeffrey |last1=Lin |first2=P.W. |last2=Singer }}</ref> [[ramjet]]. Did not enter service and used to develop the [[PL-15]].{{sfn|Bronk|2020|p=36}}

Revision as of 00:50, 11 June 2025

For the Australian aircraft, see Transavia PL-12 Airtruk.
PL-12
PL-12AE mockup at Zhuhai Airshow 2024
TypeMedium-range, active radar homing air-to-air BVR missile
Place of originPeople's Republic of China
Service history
In service2005-present[1]
Used byPeople's Liberation Army Air Force

People's Liberation Army Naval Air Force
Pakistan Air Force

Myanmar Air Force
Specifications
Mass180 kilograms (400 lb)[2]
EngineDual thrust solid fuel rocket[3]
Operational
range
70–100 kilometres (43–62 mi)[4][5]
>120 kilometres (75 mi) (PL-12AE)[6]
Maximum speed Mach 4+[3]
Guidance
system
Active radar homing[7]
Launch
platform
Aircraft

The PL-12 (Chinese: 霹雳-12; pinyin: Pī Lì-12; lit. 'Thunderbolt-12', NATO reporting name: CH-AA-7 Adze[8][9]) is an active radar-guided beyond-visual-range air-to-air missile developed by the People's Republic of China. It is considered comparable to the US AIM-120 AMRAAM and the Russian R-77.[7]

History

A model of an export version of the PL-12, SD-10A, (bottom-left corner) with a Pakistan Air Force JF-17 on display at the Farnborough Airshow 2010.

Development of the PL-12 (SD-10) began in 1997.[1] The first public information on the PL-12 – then called the SD-10 – emerged in 2001.[10] Development was assisted by Vympel NPO and Agat of Russia.[11] Liang Xiaogeng is believed to have been the chief designer.[12] Four successful test firings were made in 2004.[11] The missile entered People's Liberation Army Air Force (PLAAF) service in 2005.[1]

Design

The early batches of PL-12 missiles reportedly used the 9B-1348 radar seeker designed for the R-77 missile. The development process was assisted by Vympel NPO and Tactical Missile Corporation and benefited from Russian technology transfers.[3] But as of 2018, the PL-12 was no longer reliant on Russian components for missile production.[3]

The guidance system comprises data-linked mid-course guidance and active radar homing for terminal guidance.[3] The missile uses a Chinese rocket motor[10] and airframe.[13] The PL-12 may have a passive homing mode for use against jammers and AEW aircraft.[10] The maximum range is estimated to be 100 kilometres (62 mi).[14]

PL-12's overall dimension is larger than AIM-120 AMRAAM. Per PLAAF assessment, PL-12's capability sits between AIM-120B and AIM-120C, and the improved PL-12A is claimed to be comparable with the AIM-120C-4. The domestic version of the PL-12 features a variable-thrust rocket motor with a range of 70–100 kilometres (43–62 mi), while the export variant SD-10 features a reduced range of 60–70 kilometres (37–43 mi).[15] According to the Royal United Services Institute, the range performance of PL-12 stands between AIM-120B and AIM-120C-5.[16]

Variants

SD-10A on display with the JF-17 light-weight fighter at the Farnborough International Airshow 2010.
PL-12
Domestic version with 60[17] to 100 km[14] range.
PL-12A
NATO reporting name is CH-AA-7A.[18] Improved PL-12 with a modified seeker and digital processor. Reportedly fitted with passive mode for anti-radiation missions.[15]
PL-12AE
Export variant of the PL-12A with a range of >120 kilometres (75 mi).[19]
PL-12C
Variant with folded control fins, designed to fit inside the J-20 weapons bay. Did not enter service and used to develop the PL-15.[16]
PL-12D
Variant powered by China Aerospace Science and Technology Corporation[20] ramjet. Did not enter service and used to develop the PL-15.[16]
SD-10A (ShanDian-10, 闪电-10)
Export version of the PL-12 with a reduced maximum launch range of 37–44 miles (60–71 km).[21]
SD-10B
Enhanced SD-10A with better anti-jamming capability.[22][17]
LD-10
Anti-radiation missile based on SD-10.[23]

Operators

Map with PL-12 operators in blue

Current operators

 People's Republic of China
 Pakistan
 Myanmar

See also

References

  1. ^ a b c Wood, Yang & Cliff 2020, p. 19.
  2. ^ O'Rourke: page 21
  3. ^ a b c d e Wood, Yang & Cliff 2020, p. 38.
  4. ^ Medeiros et al.: page 93
  5. ^ Fisher, Richard D. Jr. (21 February 2010). "The Air Balance on the Taiwan Strait". International Assessment and Strategy Center. Retrieved 1 November 2016.
  6. ^ https://forum-en-cdn.warthunder.com/original/3X/d/6/d66870a1e517515f2af2d96e0cbb609f1bb13167.jpeg
  7. ^ a b Cliff: page 8
  8. ^ Barrie, Douglas (8 October 2021). "China fires longer-range AAM at export market". International Institute for Strategic Studies.
  9. ^ The International Institute for Strategic Studies (15 February 2023). "6 Asia". The Military Balance 2023. London: Routledge. doi:10.4324/9781003400226. ISBN 9781003400226.
  10. ^ a b c Fisher, Richard D. Jr. (2 February 2008). "China's Emerging 5th Generation Air-to-Air Missiles". International Assessment and Strategy Center. Archived from the original on 21 October 2009. Retrieved 1 November 2016.
  11. ^ a b Medeiros et al.: page 92
  12. ^ Fisher, Richard D. Jr. (18 September 2015). "Chief designer reveals data on China's new Luoyang PL-10 AAM". janes.com. Archived from the original on 5 January 2016. Retrieved 15 May 2015.
  13. ^ Fisher, Richard D. Jr. (21 November 2002). "Military Sales to China: Going to Pieces". International Assessment and Strategy Center. Retrieved 1 November 2016.
  14. ^ a b Wood, Yang & Cliff 2020, p. 39.
  15. ^ a b Newdick, Thomas (1 September 2022). "A Guide To China's Increasingly Impressive Air-To-Air Missile Inventory". The Drive.
  16. ^ a b c Bronk 2020, p. 36.
  17. ^ a b Joshi, Sameer (6 February 2021). "How China is fast catching up with the West in the race for air-to-air missile superiority". The Print.
  18. ^ Barrie, Douglas (9 September 2022). "Air-to-air warfare: speed kills". Military Balance Blog. International Institute for Strategic Studies. Retrieved 6 November 2022.
  19. ^ https://forum-en-cdn.warthunder.com/original/3X/d/6/d66870a1e517515f2af2d96e0cbb609f1bb13167.jpeg
  20. ^ Lin, Jeffrey; Singer, P.W. (12 June 2017). "This new ramjet engine could triple the range of Chinese missiles". Popular Science.
  21. ^ Newdick, Thomas (1 September 2022). "A Guide To China's Increasingly Impressive Air-To-Air Missile Inventory". The Drive. Retrieved 18 April 2023.
  22. ^ Jennings, Gareth (4 March 2015). "Bulgaria to be offered JF-17 fighter by Pakistan". Jane's Defence Weekly. Archived from the original on 2 July 2015. Retrieved 15 May 2015.
  23. ^ "LD-10 Anti-radiation Missiles". CN Defense.
  24. ^ "Transfers of major weapons: Deals with deliveries or orders made for 1950 to 2021 (China to Pakistan, missiles)". Stockholm International Peace Research Institute. Retrieved 26 January 2023. (750) PL-12 BVRAAM (2006) 2010-2021 (575) For JF-17 combat aircraft
  25. ^ "Transfers of major weapons: Deals with deliveries or orders made for 1950 to 2021 (China to Myanmar, missiles)". Stockholm International Peace Research Institute. Retrieved 26 January 2023. (60) PL-12 BVRAAM (2015) 2018-2019 (24) For JF-17 combat aircraft
Bibliography

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