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Krasnopol (weapon system)

The 2K25 Krasnopol[12][13][14] is a Soviet 152/155 mm cannon-launched, fin-stabilized, base bleed-assisted, semi-automatic laser-guided artillery weapon system. It automatically 'homes' on a point illuminated by a laser designator, typically operated by a drone or ground-based artillery observer. Krasnopol projectiles are fired mainly from Soviet self-propelled howitzers such as the 2S3 Akatsiya and 2S19 Msta-S and are intended to engage small ground targets such as tanks, other direct fire weapons, strong-points, or other significant point targets visible to the observer. It can be used against both stationary and moving targets (providing these remain within the observer's field of view).

Krasnopol
30F39 Krasnopol guided projectile
TypeGuided artillery shell
Place of originSoviet Union/Russia
Service history
In service1986–present
Used bySoviet Army
Russian Army
Syrian Arab Army
Indian Army
Wars
Production history
ManufacturerKBP Instrument Design Bureau
Produced1986–present[6]
Variants2K25 Krasnopol
2K25M Krasnopol-M
K155M Krasnopol-M2
Krasnopol-d
Specifications
Mass50 kg (110 lb)
K155M: 54 kg (119 lb)[7]
Length1,300 mm (51 in)[7]
Diameter152 mm and 155 mm

Caliber152 mm and 155 mm
Effective firing rangeKrasnopol: 20 km (12 mi)[8]
K155M: 25 km (16 mi)[9]
Krasnopol-D: 43 km (27 mi) (with 2S19 gun) or 60 km (37 mi) (with 2S35 gun)[10]
WarheadHigh explosive
Warhead weightKrasnopol: 6.50 kg (14.33 lb)[11]
Krasnopol-M: 11.00 kg (24.25 lb)[citation needed]
K155M: 11 kg (24 lb)[7]

Guidance
system
Laser guidance
K155M: GLONASS-GPS, Semi-active laser homing[7]

Development

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The weapon system was developed in the Tula-based KBP Instrument Design Bureau under the supervision of A. G. Shipunov [ru]. Work on the project was initiated in the 1970s. In February 1986 the Krasnopol system was adopted by the Soviet Army under the designation 3OF39, and began mass production in Izhmash and Izhmeh factories.[15] Since 2002, it is augmented by the 120- and 122 mm Kitolov-2 laser-guided system.[16]

A 155 mm variant of the project was also developed to access the commercial markets, which can be fired from howitzers such as the G6 and M109A6. Besides Russia, the Krasnopol is also manufactured by Chinese defence industry conglomerate Norinco.

On July 28, 2022, Russian news agency TASS reported that Kalashnikov Group is working on an modernization of Krasnopol with increased range, better at striking small-size targets, enhanced warhead and raised efficiency during clouds and strong wind.[17]

In early 2023, it was reported that Russia had increased the production of Krasnopol "several times" for the needs of the war in Ukraine.[18]

The development and trial use of a drone-carried version was reportedly completed as of May 22, 2023.[19] Supplies of a modernized version began in August 2023[20] and its application in November 2023.[21]

Description

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The 2K25 Krasnopol system[22] consists of the 3OF39 precision shell, a 1D22, 1D20, or 1D15 laser target designator (LTD), and the 1A35 shot synchronization system. The laser designation system has a range of 5 kilometres (3.1 mi), while the projectile itself has a range of 20 kilometres (12 mi)[23] and a target seeker radius of 1 kilometre (0.62 mi).[22] The two-part projectile is divided into the following sections: target seeker, guidance module, warhead and rear compartment. The seeker and guidance module are stored as a single component in sealed container, as is the rear section with warhead; this allows the oversized projectile to be loaded and transported inside existing ammunition containers in legacy self-propelled howitzers. The two components are joined immediately prior to firing.

The system functions as follows. The observer determines the target location (e.g. map coordinates or bearing and distance from their own position), ensures that their laser target designator can 'mark' the target and requests or orders a fire mission against the target using Krasnopol. A gun is then aimed at the target location and a guided shell is fired. The firing unit uses their 1A35K command device to send a signal via a communications link confirming the firing of the projectile to the 1A35I observation post device with the observer. The laser target designator is then used to illuminate the target and the in-flight projectile detects the radiant laser energy reflected by the target and the navigation system steers the shell towards the point of greatest incident energy—the designated target with top attack pattern. The iris of the optical seeker head is protected by a cap which is ejected by a mechanical timer upon firing. The guidance module contains an inertial reference system, a power source, various electric motors and controls and four folding wings used to execute command guidance signals. The warhead is a high explosive fragmentation type which can also be used against heavily armored vehicles such as tanks owing to the steep trajectory of the projectile which allows it to defeat the relatively thin roof armor on most vehicles. Behind the warhead is a rear compartment which houses four folding stabilizers. Krasnopol system can also fire a salvo from multiple artillery pieces on one target using a single laser designator.

After destruction of the initial target, the LTD operator may request or order another target. If these subsequent targets are close together they should be upwind (from the previous target) to reduce smoke and dust interference with the designator.[22]

Krasnopol is capable of hitting targets moving at speeds up to 36 km/h (22 mph).

Performance problems in India

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India originally purchased a number of Krasnopol systems from Russia at a price of $40,000 a piece, and used them in the 1999 Kargil War. During the war, Krasnopol was used to strike bunkers where the army wanted to avoid avalanches and hitting surrounding pathways and their use was important for encouraging the development of the M982 Excalibur System from the United States.[24]

In December 2006, the Indian Express reported that India's Russian Krasnopol 155 mm laser-guided shells have exhibited defective performance during Army test-firing in the Mahajan ranges in Rajasthan in 2004 and 2005.[25] In March 2007, Defence Minister Shri AK Antony confirmed the extent of the problem.[26]

In a June 2009 report the Comptroller and Auditor General of India said, "Krasnopol proved to be a complete dud during testing at high altitudes, as it was woefully short on both range and accuracy. 'Such procurement of defective quality ammunition adversely impact the Army's operational preparedness,' "[27]

The performance issue of the shell appears to be linked to the unique high altitude environments the Indian army has to conduct operations in. An environment not envisioned when designing the shell. "The problem is that the ammunition works when fired in the plains but goes totally inaccurate when it's being fired from, say, 11,000 feet to a target at 17,000 feet," sources said. The Army is hoping that the Russian team will find a way to correct the defect in the munitions.".[28] The age of some of the stockpile has also been cited as a source of the problem "The Indian army attributed these problems to age related decline in the ammunition and a newer batch was ordered in 2002, "The performance of the first lot of quantity 1000 rounds of projectiles procured in 1999 has deteriorated over the years, recently during test firing by the Army, it was observed that the performance was not up to the mark".[29]

The Russian Academy of Sciences established the following findings. "Krasnopol projectile was developed for use at heights of up to 3000 m...the highest range in the Northern Caucauses at a height of 2500 m." The Indian army tested the round at 4500 m. "Two Krasnopol projectiles fired at the range appeared to be short of the homing head lock on zone due to incorrect firing tables." and the use of NATO charges instead of Russian contributed to the fault, "standard NATO propellant charges used in the FH-77B artillery system at zero and sub zero temperatures have unstable characteristics, particularly the muzzle velocity". "To exclude abnormal operation of the Krasnopol projectile in highland conditions the Instrument Design Bureau has developed and introduced improvements... which provide equal accuracy in the highlands and plains." Listed improvements were: Replace NATO propellent charges with Russian ones that have a temperature range of -50 °C to +60 °C. Adjustment of sustainer ignition timing from 7.0 s to 0.3 s after firing. The projectile was tested in the Jammu and Kashmir ranges at heights up to 4500 m and over 1000 m height differences between target and fire position. "Targets were directly hit and completely destroyed." "Each target was killed with a single Krasnopol projectile."[30]

Since 2019 India uses the M982 Excalibur 155 mm extended range guided artillery shell developed by the US Army, in addition to the Krasnopol.[31] A 2018 competitive assessment by the Indian Army of various available 155 mm precision-guided rounds selected the M982 Excalibur for purchase. It did not include Krasnopol in the comparison. It's believed that the more expensive M982 will eventually replace Krasnopol in the Indian inventory.[32]

2022 Russian invasion of Ukraine

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Krasnopol has been widely used by Russian forces since the beginning of the invasion of Ukraine; its compatibility with various Russian artillery systems such as D-20 and 2A65 Msta-B towed howitzers, and self-propelled 2S3 Akatsiya, 2S19 Msta-S and 2S35 Koalitsiya-SV howitzers make it a common sight on all fronts and more popular than the smaller Kitolov-2M 120 mm - 122 mm guided munition system. It has been used against all kinds of targets, including infantry, fortifications, towed artillery pieces but also self-propelled guns and mobile targets like tanks and transport vehicles.

On 14 November 2023, the UK MoD reported that Russia has increased its production of 152mm Krasnopol shells. These shells are laser guided however they are affected by winter weather, with clouds able to stop any laser guidance. The increase in the production of this weapon is due to a possible emphasis on efficiency of their artillery.[33]

Variants

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  • 2K25 Krasnopol

The original model of the Krasnopol was designed to be used with former Soviet-Bloc artillery systems of 152 mm (6.0 in), such as D-20, 2S3 Akatsiya, 2A65 (Msta-B). Krasnopol carries a 20.5 kilograms (45 lb) high explosive fragmentation warhead. The entire missile weighs 50 kilograms (110 lb). However, its length made it incompatible with the autoloader of the 2S19 152 mm Self-Propelled Gun.

 
From left to right: 122 mm Kitolov-2M, 120 mm Gran and 155 mm Krasnopol-M2.
  • 2K25M Krasnopol-M

The Krasnopol-M was a miniaturized version of the projectile, developed in the mid-1990s by Shipunov's team at the KBP Design Bureau taking advantage of new electronics technology acquired in the design of the 120 mm Kitolov-2 guided projectile (similar in construction and purpose; this is in essence a smaller model of the Krasnopol to be used with the 2S9 NONA 120 mm mortar and designated 3OF69 and a related projectile for 122 mm howitzers designated Kitolov-2M 3OF69M) was made with a shorter length to enable it to be used with autoloader-equipped self-propelled guns without having to be disassembled into two parts. It also comes in an alternate 155 mm (6.1 in) caliber to allow it to be used with NATO-standard 155 mm howitzers. Besides the reduced total length, the Krasnopol-M also has a different protective cap for the optical seeker.

  • K155M

Krasnopol-155M is a further development based on Krasnopol-M, is a 155 mm artillery projectile designed to engage armored targets. It uses a semi-active laser (SAL) guidance system in the terminal phase of its trajectory.[34][12] Krasnopol-155М GAP (Guided Artillery Projectiles) was developed to be used with artillery systems such as M109A1-6, G5/G6, FH77, M777, TRF1 among others.[35]

  • GP1 and GP6: Chinese versions of Krasnopol.[36][37]

Users

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See also

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References

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  1. ^ "Artillery: "One Shot, One Kill" May Not be Worth It".
  2. ^ "Russia Now Using Guided Artillery Shells Against Syrian Militants". 20 August 2016. Retrieved 4 July 2018.
  3. ^ "Russian military eliminates militants who shelled Hmeymim airbase December 31". TASS. 12 January 2017. Retrieved 4 July 2018.
  4. ^ Yuri Lyamin; N.R. Jenzen-Jones (10 November 2017). "Chinese GP1 series guided artillery projectiles in Libya". The Hoplite. Armament Research Services. Retrieved 4 July 2018.
  5. ^ "Russian army destroys Ukraine's S-300 system with smart artillery shell — military". tass.com. 2022-03-24. "An unmanned aerial vehicle identified the position of a Ukrainian air defense system, which was attacked with a smart artillery shell Krasnopol. The shell was targeted by a laser-equipped drone," the Defense Ministry said.
  6. ^ "ЦАМТО / / "Калашников" завершил поставки "Краснополь-М2"". armstrade.org (in Russian). 2023-12-27. Retrieved 2023-12-28.
  7. ^ a b c d "Krasnopol-M2 155-mm shell with semi-active laser guidance". Archived from the original on 2022-07-08.
  8. ^ "2K25". Retrieved 4 July 2018.
  9. ^ "155mm "Krasnopol-M2" artillery guided weapon system KM-1M". roe.ru. Retrieved 2023-07-12.
  10. ^ "Long-range "Krasnopol-D" in artillery duels with Western SAU. Can we expect triumph".
  11. ^ "Threat Update Krasnopol--A Laser-Guided Projectile for Tube Artillery". fas.org. Retrieved 4 December 2019.
  12. ^ a b Krasnopol-M2 Retrieved 4 July 2018.
  13. ^ International Electronic Countermeasures Handbook. Horizon House. 2004. ISBN 9781580538985. ISSN 1091-9422.
  14. ^ "Krasnopol, Kitolov Precision Guided Artillery Munition". Defense Update. 26 January 2005. Retrieved 4 July 2018.
  15. ^ Юбилей тульского создателя высокоточных артиллерийских боеприпасов [Anniversary of the Tula creator of high-precision artillery munitions] (in Russian). KBP Instrument Design Bureau. Archived from the original on 9 September 2019. Retrieved 4 July 2018.
  16. ^ Китолов-2 [Kitolov-2]. Archived from the original on 9 September 2019. Retrieved 4 July 2018.
  17. ^ "Russian defense firm to boost Krasnopol smart munition's firepower". Archived from the original on 2022-08-09.
  18. ^ "ЦАМТО / / В России в разы нарастили выпуск управляемых артиллерийских снарядов "Краснополь"". armstrade.org. Retrieved 2023-10-27.
  19. ^ "Rostec completes trial use of drone-based guided artillery munition". TASS. Retrieved 2023-10-27.
  20. ^ "ЦАМТО / / "Ростех" начал поставки в войска модернизированных снарядов "Краснополь"". armstrade.org. Retrieved 2023-10-27.
  21. ^ "ЦАМТО / / Российские войска начали применять в зоне СВО модернизированный управляемый снаряд "Краснополь"". ЦАМТО / Центр анализа мировой торговли оружием (in Russian). 2023-11-08. Retrieved 2023-11-11.
  22. ^ a b c FAS Williams, Walter, Threat Update: Krasnopol--A Laser-Guided Projectile for Tube Artillery Foreign Military Studies Office, Fort Leavenworth
  23. ^ Jane's Ammunition Handbook 1994 (Alexandria: Jane's Information Group Inc., 1993), p. 210. ISBN 0-7106-1167-6.
  24. ^ "Artillery: "One Shot, One Kill" May Not Be Worth It". www.strategypage.com. Retrieved 2024-09-16.
  25. ^ "Most of Krasnopol ammo for Bofors guns turn out duds". 26 November 2006. Archived from the original on 2022-07-18.
  26. ^ "Defects in Krasnopol Inventory". Archived from the original on 2022-07-18.
  27. ^ "CAG blasts Dhruv project, Krasnopol purchase". The Times of India. 11 July 2009. Archived from the original on 2022-05-24.
  28. ^ "Precision ammo fails test at high altitudes". Indian Express.
  29. ^ "Defects in Krasnopol Inventory".
  30. ^ Sengupta, Prasun K. (July 19, 2009). "TRISHUL: The Truth About Krasnopol-M Firing Trials In India".
  31. ^ "Indian Army now has US-built smart artillery weapon". The Week. Archived from the original on 2019-10-17.
  32. ^ "The Indian Army(IA) has started the process of procuring an initial 1,200 Raytheon Missile developed M982 Excalibur precision-guided artillery shells from the US". 25 October 2019. Archived from the original on 2020-08-13.
  33. ^ YURI ZORIA (14 November 2023). "UK: Russia to boost laser-guided artillery shell production amid wider ammo shortfalls". Euromaidanpress. Retrieved 15 November 2023.
  34. ^ ""KRASNOPOL-M2" 155 MM KM-1M GUIDED WEAPON SYSTEM". Archived from the original on 2021-07-16.
  35. ^ "Artillery Guided Weapon Systems". Archived from the original on 2021-07-16.
  36. ^ "Smart ammo: precision-guided munitions for field artillery" (PDF). Jane's Defence Weekly. Archived from the original (PDF) on 12 January 2020. Retrieved 4 July 2018.
  37. ^ Arnaud Delalande (13 November 2017). "Somebody's Popping Off Laser-Guided Shells in Libya". Was is Boring. Retrieved 4 July 2018.
  38. ^ "Сверхточный "Краснополь" натовского калибра замечен в Алжире". Российская газета. 17 August 2020. Retrieved 2021-01-06.
  39. ^ "Russia, Greece clinch new arms deal". Archived from the original on 2022-07-18.
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External videos
on Zvezda live13.0 Official YouTube Channel(in Russian)
video icon  Military acceptance. "Krasnopol" is highly accurate. on YouTube