M230 chain gun

The M230 Cannon is a 30 mm (30×113 mm), single-barrel electrically-driven autocannon, using external electrical power (as opposed to recoil or expanding gas generated by the firing cartridge) to cycle the weapon between shots. It was designed and manufactured originally by Hughes Helicopters in Culver City, California.[1] The company was acquired by McDonnell Douglas Helicopters in 1985, which merged into Boeing Corporation in 1997. In 2002, it was sold again to Alliant Techsystems, which merged with Orbital Sciences Corporation in 2015 to form Orbital ATK and was, in turn, bought out by Northrop Grumman in 2018.[2] As of 2019, it is produced by Northrop Grumman Innovation Systems.[3]

M230 Cannon
An M230 Cannon mounted on a US Army AH-64 Apache at the Berlin Air Show 2018.
TypeChain gun
Place of originUnited States
Service history
In service1983-Present
Used byUnited States, and other countries
WarsPersian Gulf War
War in Afghanistan
Iraq War
Production history
DesignerHughes Helicopters[1]
Designed1973[1]
Manufacturer
ProducedSince 1975[1]
VariantsM230LF
Specifications
Mass59.5 kg (130 lb)[3]
Length2,181 mm (85.9 in)[3]
Width277.2 mm (10.9 in)[3]
Height288.8 mm (11.4 in)[3]

Shell30×113 mmB
  • M788 Target Practice (TP)
  • M789 High Explosive Dual Purpose (HEDP)
  • M799 High Explosive Incendiary (HEI)
Caliber30 millimetres (1.18 in) caliber
ActionOpen bolt
Rate of fire625±25 rpm[3]
Muzzle velocity805 m/s (2,641 ft/s)
Effective firing range1,500 m (1,640 yd)[4]
Maximum firing range4,000 m (4,370 yd)[5]

Development

In 1972, Hughes Helicopters began a company-funded research effort to design a single machine gun to fire the U.S. Army's M50 20 mm round.[6] By April 1973, the program had fired test rounds in more powerful 30 mm WECOM linked ammunition, from a prototype (A model). In January 1975 a model "C" was added, a linkless version for the proposed Advanced Attack Helicopter YAH-64; the helicopter was eventually adopted as the AH-64 Apache, with the model C as standard armament. The linked ammunition version was intended for use on the AH-1S Cobra as the M230E1, but was later dropped.[1]

Design

M789 HEDP 30 mm rounds being loaded into an AH-64D Longbow Apache in April 2007.

Apache and DAP mounts

The M230 Chain Gun is the "Area Weapon System" on the Boeing AH-64 Apache attack helicopter and is also used on the MH-60L Direct Action Penetrator (DAP). The M230 is mounted on the chin turret. It uses a 2 hp (1.5 kW) electric motor to fire 30 mm (1.2 in) linkless ammunition at a rate of 625±25 rounds per minute. The practical rate of fire is about 300 rounds per minute with a 10-minute cooling period as the gun is air cooled.[7] The gun has a positive cook-off safety for open bolt clearing, and double ram prevention. Spent casings are ejected overboard through the bottom of the gun.

The mount on the AH-64 uses secondary hydraulics to move the gun. The elevation is provided via a single hydraulic actuator located on the gun's centerline just forward of the pivot point. The gun is spring-loaded to return to its centerline stowed position with the barrel angled up about eleven degrees in the event of a loss of hydraulic power. This allows the gun, which is mounted below the copilot station, to collapse cleanly into its designed space between the pilot stations in the event of a hard landing. This prevents the gun from entering the pilot's stations and becoming a hazard.

The Apache is capable of carrying up to 1,200 rounds for the gun in a device known as the 12-PAK, designed and manufactured by Meggitt Defense Systems, Inc. However, utilization by the US Army of a special internal fuel tank, the Robertson IAFS (known as the "Robby Tank" to the crews), reduces this capacity to 300 rounds.[8] The ammunition is loaded into the AH-64D Longbow Apache by armament personnel using an aircraft-mounted motorized loader and special ammunition handling tray. The AH-64A requires specialized ground support equipment for loading.[9]

The M230 is capable of firing the 30×113 mm rounds used in the ADEN cannon and DEFA cannon, however, the Lightweight 30 mm rounds (M788, M789, M799) used in the M230 are constructed with a light alloy as opposed to brass (ADEN) or steel (DEFA) cases to save weight and are in use with the US Army. The M230 rounds are not backwards compatible with weapons designed for the ADEN or DEFA rounds. The M788 rounds can be distinguished by the blue band near the nose, the M789 by a yellow stripe atop a black band and the M799 a red stripe atop a yellow band.[10][11] The M799 HEI round is not used by the US Army due to the danger of a round exploding in the gun barrel. The 30 mm M789 High Explosive Dual Purpose (HEDP) ammunition cartridge is the primary tactical round of the Apache AH-64 helicopter, widely used in current combat operations. The Apache's ability to provide accurate air support with minimal collateral damage led to increased use and volume demands for M789 ammunition.

The M789 is typically used in the M230. Each round contains 21.5 g (0.76 oz) of explosive charge sealed in a shaped-charge liner. The liner collapses into an armor-piercing jet of metal that is capable of penetrating 1 in (25 mm) of rolled homogeneous armour at 500 m. Additionally, the shell is also designed to fragment upon impact. The lethal radius against unprotected, standing targets is about 5 ft (1.5 m) under optimum conditions.

Variants

M230LF and MAWS

The M230LF, offered by Orbital ATK, is a more capable version of the Apache autocannon. Features include an anti-hangfire system, a delinking feeder that exploits linked ammunition, and an extended-length barrel, which results in greater muzzle velocity and hitting power from the same M789 HEDP and NATO standard 30 mm ADEN/DEFA projectiles. The rate of fire is reduced to 200 rounds/minute and overall length decreased to 84.0 inches (213 cm). The chain gun can be installed in an enclosed turret on patrol boats and ground vehicles.[12]

The MAWS (Modular Advanced Weapon System) lightweight gun system, developed in partnership with the U.S. Navy, utilizes a remotely operated M230LF in an open mount. It is controlled by a Remote Operator's Console (ROC)—with either dual grips or a joystick—from a touch panel display and extended day color TV.[13][14]

Oshkosh L-ATV in M1278 Heavy Guns Carrier JLTV configuration and fitted with an EOS R-400S-MK2 remote weapon system integrated with Orbital ATK's M230 LF 30 mm lightweight automatic chain gun

In February 2015, Oshkosh Defense and ATK conducted a firing demonstration of the M230LF on an Oshkosh M-ATV MRAP to demonstrate the viability and effectiveness of a medium caliber weapon system for light tactical vehicles. The live fire demonstration showcased improved accuracy in mobile engagements and improved lethality on the M-ATV using the gun, mounted on the R400S-Mk2, a 3-axis stabilized remote weapon station weighing less than 400 kg (880 lb). The addition of the 72.6 kg (160 lb) M230LF stabilized on the RWS provides mobile precise lethality, usually reserved for heavier combat vehicles, with increased off-road mobility and MRAP levels of protection,[15] along with optional Stinger missiles. Oshkosh has also fitted the M230LF to the L-ATV to fulfil the U.S. Army's light reconnaissance vehicle (LRV) role.[16]

Australian company Electro Optical Systems utilises the M230LF for its "Slinger" defensive system. The system is planned for usage against drones by using a radar and a variety of sensors to track and destroy targets with a single shot.[17] All together it weighs less than four hundred kilograms and can be mounted on a flatbed truck, allowing for a more cost effective way of destroying drones compared to missile based systems. On October 2nd 2023 it was confirmed that EOS would send an undisclosed amount of Slingers to Ukraine to combat the growing drone threat. [18] [19]

Stryker A1 M-SHORAD

On 28 February 2018, the US Army announced that Stryker vehicles would be modified with sensors and weapons to fulfill an interim Maneuver-Short-Range Air Defense (M-SHORAD) requirement. This is in response to a capability gap identified in Europe against Russian unmanned aerial vehicles (UAVs). In June 2018, the Army chose Leonardo DRS to supply the mission equipment package, which partnered with Moog Inc. to integrate the Reconfigurable Integrated-weapons Platform (RIwP) onto the vehicle. The system can be fitted with a Stinger pod and Longbow Hellfire missile rails and comes equipped with a 30 mm M230LF chain gun and the 7.62 mm coaxial machine gun, as well as non-kinetic defeat capabilities and a Rada onboard multimission hemispheric radar. The Army chose DRS because of the flexibility of the reconfigurable turret to allow for growth opportunities and alternate weapon options, it posed less intrusion to the existing vehicle platform, as they have a desire to keep the Stryker as common across the fleet as possible, and it provided increased protection as the crew can reload ammunition under armor. All 144 M-SHORAD systems are planned to be delivered by 2022.[20] The turret can mount one four-shot Stinger pod or two Hellfire missiles on either side, and reloading of the M230LF and Stingers can be done through roof hatches giving partial protection. The system can act in a secondary anti-vehicle role, as the 30 mm cannon is larger than the 25 mm gun mounted on the M2 Bradley and the Hellfire has greater range than TOW missiles typically used by ground vehicles.[21]

MADIS

In September 2020, the US Marines contracted Kongsberg to qualify the XM914 RWS on the JLTV, equipped with an XM914E1 30 mm cannon, 7.62 mm coaxial machinegun, and Stinger missiles to fulfill an air defense role.[22] The Marine Air Defense Integrated System (MADIS) fills the gap left by the retirement of the AN/TWQ-1 Avenger by the USMC in the mid-2000s. It consists of two JLTVs, one with the turret fitted with a 30 mm cannon, 4-round Stinger pod, and an optical sensor and the other with an RPS-42 360-degree radar, 7.62 mm M134 minigun, and EO/IR sensors; both have the Modi II dismounted electronic countermeasures system and shoulder-fired Stingers.[23] The indefinite delivery / indefinite quantity (IDIQ) contract was signed in October 2021.[24]

Agnostic Gun Truck

On 4 April 2023, the United States included "counter-Unmanned Aerial System 30 mm gun trucks" as part of Ukraine Security Assistance Initiative funds during the Russian invasion of Ukraine. The Northrop Grumman Agnostic Gun Truck consists of an M230LF mounted on a civilian pickup truck. Three battery sets each including three gun trucks and one Mobile Acquisition, Cueing and Effector (M-ACE) system will be delivered; M-ACE incorporates a mast-mounted 3D radar that can detect a drone out to 10 km (6.2 mi) as well as tracking and identification cameras. The radar cues the guns onto a target, which fires M1211 High Explosive Proximity Self Destruct rounds capable of engaging UAS up to Class 2.[25]

Aircraft use

See also

References

Notes
  1. Chinn, George M., 1987, pp. 453–454.
  2. "Trademark Assignment Abstract of Title". United States Patent and Trademark Office. 12 November 2018. Retrieved 28 April 2019.
  3. "Northrop Grumman M230 30mm chain gun fact sheet" (PDF). 2018. Retrieved 28 April 2019.
  4. Lee, T.W. (30 December 2008). Military Technologies of the World. ABC-CLIO. p. 118. ISBN 978-0-275-99536-2.
  5. "M230 Chain Gun". www.deagel.com. Retrieved 3 November 2017.
  6. Richardson & Peacock, 1992, pp. 38–40.
  7. "M230 Automatic Gun". globalsecurity.org. 2013. Retrieved 13 October 2013.
  8. "Robertson Aviation: Apache". Archived from the original on April 20, 2009. Retrieved 30 September 2011.{{cite web}}: CS1 maint: unfit URL (link)
  9. "New Boeing Apache Ammunition Loading System Enters Service – December 15, 1998". boeing.mediaroom.com. 2013. Retrieved 13 October 2013.
  10. "30mm Cannon Ammunition". Federation of American Scientists. 8 January 1999. Retrieved 13 October 2013.
  11. Williams, Anthony G. (July 2010). "Military Cartridge Relationships". Military Guns & Ammunition. Archived from the original on 25 October 2012. Retrieved 13 October 2013.
  12. "Northrop Grumman 30mm M230LF Chain Gun" (PDF). 2018. Retrieved 28 April 2019.
  13. "Home" (PDF). www.atk.com. Archived from the original (PDF) on November 4, 2011.
  14. "Mk 51 MAWS" (PDF). National Defense Industrial Association (NDIA): Joint Armaments Conference, Exhibition & Firing Demonstration. May 2010. Archived from the original (PDF) on 21 February 2015. Retrieved 13 October 2013.
  15. Oshkosh, Orbital ATK, EOS unveiled strong integration capabilities during live fire demonstration - Armyrecognition.com, 19 February 2015
  16. Gun Truck: Oshkosh Unveils 30mm Chaingun JLTV For Army Recon - Breakingdefense.com, 9 September 2016
  17. https://eos-aus.com/defence/counter-drone-systems/slinger/
  18. https://www.aerotime.aero/articles/australia-develops-counter-drone-system-for-ukraine
  19. https://www.australiandefence.com.au/defence/unmanned/eos-demonstrates-counter-drone-systems
  20. US Army’s interim short-range air defense solution crystallizes. Defense News. 29 June 2018.
  21. Army Anti-Aircraft Stryker Can Kill Tanks Too. Breaking Defense. 10 July 2018.
  22. Contract for Kongsberg USA to qualify XM914 30mm remote weapon station for US Marine Corps. Army Recognition. 21 September 2020.
  23. "Marine Corps Restores Priority to Ground-Based Air Defense". Seapower Magazine. 23 September 2020. Archived from the original on 9 July 2021.
  24. "U.S. MARINE CORPS C-UAS PROGRAM KICKS OFF U.S. PRODUCTION". Kongsberg. 25 May 2022.
  25. U.S.-Made Counter-Drone Trucks Head for Ukraine. National Defense Magazine. 22 May 2023.
Bibliography
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