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BGM-71 TOW

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BGM-71 TOW
An M41 tripod-mounted TOW ITAS-FTL with PADS of the U.S. Army in Kunar Province, Afghanistan in May 2009.
TypeAnti-tank missile
Place of originUnited States
Service history
In service1970–present
Used bySee Operators
Wars
Production history
DesignerHughes Aircraft Company
Designed1963–1968
Unit cost$93,640 (2B Aero), $54,956 (Bunker Buster) FY2021[3]
£8,500 (1984)[4]
Specifications
Length1.16–1.17 m with probe folded
1.41–1.51 m with probe extended
(some variants have no probe)
Diameter152 mm
Wingspan0.46 m

Warhead weight3.9–6.14 kg (penetration 430–900 mm RHA)[5]

Operational
range
Basic TOW 3,000 m, most variants 3,750 m
Maximum speed 278–320 m/s
Guidance
system
Optically tracked, wire-guided (Wireless Radio-guided in RF variants)

The BGM-71 TOW ("Tube-launched, Optically tracked, Wire-guided")[6] is an American anti-tank missile. TOW replaced much smaller missiles like the SS.10 and ENTAC, offering roughly twice the effective range, a more powerful warhead, and a greatly improved semi-automatic guidance system that could also be equipped with infrared cameras for night time use.

First produced in 1970, TOW is one of the most widely used anti-tank guided missiles.[7] It can be found in a wide variety of manually carried and vehicle-mounted forms, as well as widespread use on helicopters. Originally designed by Hughes Aircraft in the 1960s, the weapon is currently produced by Raytheon.

History

Previous designs

Late in World War II, the German Army began experimenting with modified versions of the Ruhrstahl X-4 wire-guided missile. Originally developed for the Luftwaffe as an anti-bomber weapon, by changing the warhead to one using a high-explosive anti-tank (HEAT) design, the new X-7 version made an effective anti-armor weapon with a range of hundreds of metres. This would greatly improve the effectiveness of infantry anti-tank operations, which at that time were generally based on smaller weapons like the Panzerfaust and Panzerschreck which were limited to ranges on the order of 150 metres (490 ft) in the best case. X-7 was never fully developed before the war ended.

In the immediate post-war era, the design was picked up by development teams in France and Australia. In France, Nord Aviation's Jean Bastien-Thiry developed an updated version of the X-7 using a solid fuel rocket as the very small and highly portable SS.10. Development started in 1948 with the first rounds fired in 1952. Evaluations by the US Army in 1953 concluded it was not ready for operations, but that its progress should be tracked. They then instructed the Redstone Arsenal to develop their own version of the basic concept, which emerged as the SSM-A-23 Dart, a larger design with roughly double the range of the SS.10. While the development of the Dart continued, Nord delivered a workable version of the SS.10, as well as the extended-range SS.11. In the summer of 1958, development of the Dart was cancelled in favour of purchasing the two French designs.[8]

HAW

In the fall of 1958, the Army's Office of Ordnance Research and Development formed the Ad Hoc Working Group at the Ballistic Research Laboratories (BRL) to define a future replacement for the SS.10 and 11. The team included members from Picatinny Arsenal, Frankford Arsenal, Redstone Arsenal, Watervliet Arsenal, Detroit Arsenal and Harry Diamond Laboratories. The group almost immediately decided not to attempt to define a weapon concept, and instead spend the next two years studying the problem while researching the possibility of using alternative guidance systems and continually watching foreign developments where the US was lagging.[8]

In the early summer of 1961, the Chief of Ordnance asked BRL to deliver a formal definition for what was then known as the "Heavy Assault Weapon for the Long Range Time Period", or HAW for short. They asked for a weapon to be delivered sometime between 1965 and 1970. BRL assigned the work to the Armored Systems Evaluation Branch of the Weapon Systems Laboratory. David Hardison, the Branch Chief, reconvened the Ad Hoc panel to review a long list of twenty-seven design proposals, all of which were found lacking.[8]

Hardison then began preparing a list of the ideal characteristics of a HAW weapon. Of primary importance was the adoption of some form of semi-automatic guidance, as the manual guidance systems (MCLOS) of earlier weapons like SS.11 were found to be difficult to use as the relative movements of the launcher and target increased; MCLOS worked well for stationary launchers and slow-moving targets, but had proven much more difficult to use from moving vehicles, and especially helicopters.[8]

Experience with the MGM-51 Shillelagh missile demonstrated that the simplest solution to successfully tracking the missile was to optically track a flare attached to the missile using an infrared seeker. This was essentially identical to a heat seeking missile, but tracking its own missile rather than a separate target. Flares, however, were not ideal illumination sources, especially in the case where multiple rounds might be fired and the optical system might track the wrong one. In place of the flare, the panel selected an infrared (IR) lamp whose output would be modulated with a shutter so each missile would have a unique signal.[8]

Using this style of guidance demanded that the missile be brought into the line-of-sight of the tracking system as soon as possible; in Shillelagh this was almost immediate because the missile was launched from a gun barrel directly into the view of the tracker. Earlier manual weapons like SS.10 and ENTAC flew upwards after launch to clear the ground when being launched by infantry lying on the ground, and thus would not be immediately visible along the line-of-sight. To ensure the HAW could be tracked successfully, it would have to be launched from a tube, like Shillelagh, but one that was lightweight to ensure mobility.[8]

Finally, Shillelagh sent guidance commands to the missile using an infrared link, but this proved relatively unreliable in the field and was subject to countermeasures like random flashing IR lamps. For the shorter ranges envisioned for HAW, wire-guidance was perfectly suitable and both much less expensive and largely immune to countermeasures.[8]

TOW emerges

A U.S. Army soldier in 1964, with the first concept mock-up of Redstone Arsenal's proposed future HAW system (Heavy Antitank Weapon). The HAW ultimately resulted in the modern-day TOW.

The resulting design was tube-launched, optically tracked, and wire-guided. BRL programmer Harry Reed immediately christened it "TOW", a name that the system carried into production.[8]

One problem that was noted early on was that the tube-launch would make it difficult for the missile to be launched from a helicopter unless it was pointed relatively directly toward the target. Earlier systems were manually guided and did not need to be "gathered" quickly, so these were easier to launch at high crossing angles. Seeing this might be a major problem in the short term, TOW simply dropped the helicopter-launch requirement.[8]

When the BRL team returned the HAW/TOW study, the Pentagon gave them six months to come up with an actual requirement instead of a list of desirable features. Reed gathered submissions from industry, and quickly selected three contractors for further details, Hughes Aircraft, Martin Marietta, and McDonnell Douglas. All three companies concluded the concept was able to be produced.[8]

On 12 January 1962, the BRL officially assigned the development of the TOW concept to U.S. Army Missile Command (MICOM), who in turn formed the Antitank/Aircraft Weapons Commodity Office on 19 November 1962. In December 1962, Hughes was instructed to continue development while a development contract was being drawn up. Budget approval for development was granted in January 1963 as the XM65 TOW, and the final development contract, the first 100 percent cost-plus-incentive-fee, was signed on 3 May 1963. This led to the TOW Project Office opening on 1 October 1964.[8]

During 1969, the House Authorization Subcommittee considered ending the TOW program in favor of the Shillelagh. A series of presentations by both missile teams followed, and ultimately the decision was made to continue both programs in September 1970.[8]

Prototypes and delivery

The initial production contract was awarded to Hughes on 28 June 1968, and the final contract on 29 November 1968. On 10 June 1969, Chrysler's Huntsville Division was awarded the second-source contract.[8]

A number of problems emerged with the initial design, notably the early versions of the rocket motors which sometimes ejected bits of fuel still on fire and presented a hazard to the gunners. MICOM suggested a new motor using "head end suspended double base" fuel from the M72 LAW which solved this issue. The IR source also had issues due to its use of a fine metal filament that ignited the arc lamp which often broke during firing, but repeated tests and modifications solved this. Finally, the launch tube was designed to be sealed at both ends, with the rear seal being blown off by the rocket motor and the front by pressurized gas released by the guidance system's gyroscope. In practice, both proved unreliable but remedial action solved the problems.[8]

Production began at USAF Plant #44 and the first production examples were delivered in August 1969. In September 1970 three training battalions had formed up and by 30 September 1970 the TOW had replaced the Army's existing heavy anti-tank weapon, the M40 recoilless rifle. It increasingly replaced the French ENTAC missiles purchased earlier.[8]

Helicopter launch

In December 1963 the issue of helicopter launch was once again considered. The problem with the existing semi-automatic systems was that the missile had to be "gathered" by the optical tracker quickly in order for it to send commands to the missile. In contrast, earlier all-manual systems could be guided by the gunner at any time. With the TOW being launched from a tube, some other system would be needed to ensure it could be guided into the optics field of view after launch. This would be all the more difficult if the helicopter was not flying directly at the target, or was manoeuvring.

MICOM sent contracts to both Hughes and Philco Ford, makers of the Shillelagh, to develop stabilized launch sights for their respective missile designs. They were in the form of a complete system combining the sighting system, launcher tube assembly and all related equipment as the XM26 weapon system. Hughes won the contest in 1965 and were awarded a second development contract for XM26 in June 1966.[8]

XM26 was initially developed by a separate organization within BRL, the Aircraft Weapons Commodity Office. This was assigned to the TOW Project Office on 5 April 1970.[8]

Replacement

The U.S. Army is seeking a replacement for the TOW through the Close Combat Missile System-Heavy (CCMS-H) effort. Objectives are for a weapon with increased range out to 10,000 m (6.2 mi) or more, as well as greater speed, the ability to fire on the move, and lock on before and after launch capability while retaining similar launcher size and arming distance. The Army hopes to field the CCMS-H sometime between 2028 and 2032.[9]

Design

In 1997, Raytheon Co. purchased Hughes Electronics from General Motors Corporation, so development and production of TOW systems now comes under the Raytheon brand.[10] The weapon is used in anti-armor, anti-bunker, anti-fortification and anti-amphibious landing roles. TOW is in service with over 45 militaries and is integrated on over 15,000 ground, vehicle and helicopter platforms worldwide.

In its basic infantry form, the system breaks down into a number of modules: a folding tripod mount, a launch tube (into the rear of which encased missiles are inserted), a mandatory daysight tracker unit, which can be augmented with an optional AN/TAS-4 or AN/TAS-4/A gas-cooled night sight (or an all-in-one tracker unit on the M41 ITAS version), and a traversing unit, which mounts onto the tripod and carries the launch tube and sight, that also includes the weapon's trigger and the bridging clamp, which mates with the missile's umbilical data connector. In addition to this main assembly, there is a separate fire control system (FCS) module, which performs all guidance calculations, and a battery pack to power the system. These two modules link to each other, with the FCS then linked to the daysight with a cable.

When the target is sighted and the trigger is pulled, there is a 1.5-second firing delay while the missile spins up its internal gyroscope and the thermal battery reaches operating temperature. Once this concludes, the launch motor fires through the rear nozzle propelling the missile from the tube: this soft-launch motor fires for only 0.05 seconds[11] and burns out before the missile has exited the tube. As the missile exits the launch tube, first four wings just forward of the flight motor spring open forwards, followed by four tail control surfaces, which flip open rearwards as the missile completely exits the launch tube. As the wings fully extend at about 7 metres from the launcher, the flight motor ignites, boosting the missile's speed to approximately 600 miles per hour (~1,000 kilometres per hour) during its burn time. At 0.18 seconds after launch, around 65 metres from the launcher, the warhead is armed by G-forces from acceleration by the flight motor, a safety feature intended to protect the operator if the flight motor fails to ignite. The flight motor burns out 1.6 seconds after launch, with the missile gliding for the remainder of its flight time. After the tracker captures the missile, IR sensors bore-sighted to the daysight tracker continuously monitor the position of an IR beacon on the missile's tail relative to the line-of-sight, with the FCS generating course corrections which are sent via the command link to the missile's integral flight control unit. The missile then corrects its flight path via the control surface actuators.[12] The operator keeps the sight's crosshair centered over the target until impact: if the missile fails to strike a target, the command wires are automatically cut at 3,000 metres on the original TOW and 3,750 metres on most current-production TOWs. An automatic wirecut also occurs if the tracker fails to detect the missile's thermal beacon within 1.85 seconds of launching.

A TOW missile cutaway at a museum in Germany

The TOW missile was continually upgraded, with an improved TOW missile (ITOW) appearing in 1978 that had a new warhead triggered by a long probe, which was extended after launch, that gave a stand-off distance of 15 in (380 mm) for improved armor penetration. The 1983 TOW 2 featured a larger 5.9 kg (13 lb) warhead with a 21.25 in (540 mm) extensible probe, improved guidance and a motor that provided around 30% more thrust.[13] This was followed by the TOW 2A/B, which appeared in 1987.[14]

Hughes developed a TOW missile with a wireless data link in 1989, referred to as TOW-2N, but this weapon was not adopted for use by the U.S. military. Raytheon continued to develop improvements to the TOW line, but its FOTT (Follow-On To TOW) program was cancelled in 1998, and its TOW-FF (TOW-Fire and Forget) program was cut short on 30 November 2001 because of funding limitations.[15] In 2001 and 2002, Raytheon and the U.S. Army worked together on an extended range TOW-2B variant, initially referred to as TOW-2B (ER), but now called TOW-2B Aero, which has a special nose cap that increases range to 4.5 km. TOW-2B has top attack capability.[16] Although this missile has been in production since 2004, no U.S. Army designation has yet been assigned. Wireless versions of the TOW-2A, TOW-2B and TOW-2B Aero have been developed that use a "stealthy" one-way radio link, identified with the suffix "RF".[14] These missiles require no special alterations to the launcher, since the RF transmitter is encased along with the missile and uses the standard umbilical data connector.

In 1999, TOW received the Improved Target Acquisition System (ITAS).[14]

The TOW missile in its current variations is not a fire-and-forget weapon, and like most second-generation wire-guided missiles has Semi-Automatic Command Line of Sight guidance. This means that the guidance system is directly linked to the platform, and requires that the target be kept in the shooter's line of sight until the missile impacts. A fire-and-forget TOW variant (TOW-FF) was under development, but was cancelled by the Army in 2002.[14]

In October 2012, Raytheon received a contract to produce 6,676 TOW (wireless-guided) missiles for the U.S. military. Missiles that will be produced include the BGM-71E TOW 2A, the BGM-71F TOW 2B, the TOW 2B Aero, and the BGM-71H TOW Bunker Buster.[17] By 2013, the U.S. Marine Corps had retired the air-launched TOW missile.[18]

Launch platforms

A TOW missile being fired from an M151.
A U.S. Army M1134 Stryker ATGM carrier at the Yakima Training Center fires a TOW missile in May 2011.

TOW is designated as a BGM by the U.S. military: a multiple launch environment (B) surface attack (G) guided missile (M). The B launch environment prefix is used only when the system can be used essentially unmodified when launched from a variety of launch platforms.

The M151 and M220 launchers are used by infantry, but can also be mounted on a number of vehicles, including the M151 jeep, the M113 APC, the M966 HMMWV and the M1045 HMMWV (which replaced the M966). These launchers are theoretically man-portable, but are quite bulky. The updated M151 launcher was upgraded to include thermal optics to allow night time usage, and had been simplified to reduce weight. The M220 was specifically developed to handle the TOW-2 series.

TOW systems have also been developed for vehicle specific applications on the M2/M3 Bradley IFV/CFV, the LAV-AT, the M1134 Stryker ATGM carrier, and the now retired M901 ITV (Improved TOW Vehicle); they are generally referred to as TOW Under Armor (TUA).

In helicopter applications, the M65 system used by the AH-1 series is the primary system deployed, but the XM26 system was developed for the UH-1, and a system was put into development for the later canceled AH-56 helicopter. TOW has also been used with AH.1 (TOW) and AH.7 variants of Westland Lynx helicopters, with the attachment of two pylons, each carrying four missiles.

The M41 TOW improved target acquisition system (ITAS) is a block upgrade to the M220 ground/high-mobility multipurpose wheeled vehicle (HMMWV)-mounted TOW 2 missile system. The TOW ITAS is currently being fielded to airborne, air assault, and light infantry forces throughout the active and reserve components of the U.S. Army and U.S. Marine Corps (where it is called the SABER). The ITAS, in addition to providing better anti-armour capabilities to antitank units, also has capabilities that make it an integral part of the combined arms team. Even when organized in heavy—light task forces, where the preponderance of antiarmor capabilities traditionally has resided in the heavy elements, TOW ITAS-equipped antitank units can not only destroy threat targets but also provide superior reconnaissance, surveillance, and target acquisition (RSTA), rear area protection, and urban operations capabilities.

The TOW ITAS consists of three new line replaceable units: the target acquisition subsystem (TAS), the fire control subsystem (FCS), and the lithium battery box (LBB); a modified TOW 2 traversing unit; the existing TOW launch tube and tripod; and a TOW Humvee modification kit. The TAS integrates into a single housing the direct view optics and missile tracker, a second-generation forward looking infrared (FLIR) night vision sight (NVS), and a laser rangefinder. TAS electronics provide automatic boresighting for these components, eliminating both tactical collimation and 180-day verification requirements. The integral cooling system for the IR optics is a modern SADA-II electrically powered cryocooler, removing the need to carry a supply of high-pressure coolant gas cartridges as was necessary for the previous AN/TAS-4 and AN/TAS-4A night sights.

The most recent addition to the ITAS system is the ITAS-FTL (far target location), which incorporates a new module called PADS (position attitude determination subsystem), a device that attaches to the top of the ITAS sighting unit and uses differential GPS tracking to relay precise coordinate data to the operator.[19]

Service history

In 1968, a contract for full-scale production was awarded to Hughes, and by 1970 the system was being fielded by the U.S. Army. When adopted, the BGM-71 series replaced the M40 106 mm recoilless rifle and the MGM-32 ENTAC missile system then in service. The missile also replaced the AGM-22B then in service as a heliborne anti-tank weapon.

1972: Vietnam: first combat use

One of the captured TOW-launchers, exhibited in the War Remnants Museum in Ho Chi Minh City

On 24 April 1972, the U.S. 1st Combat Aerial TOW Team arrived in South Vietnam; the team's mission was to test the new anti-armor missile under combat conditions.[20] The team consisted of three crews, technical representatives from Bell Helicopter and Hughes Aircraft, members of the United States Army Aviation and Missile Command, and two UH-1B helicopters; each mounting the XM26 TOW weapons system, which had been taken from storage. After displacing to the Central Highlands for aerial gunnery, the unit commenced daily searches for enemy armor.[20] On 2 May 1972, U.S. Army UH-1 Huey helicopters firing TOWs destroyed North Vietnamese People's Army of Vietnam (PAVN) tanks near An Loc. This was heralded as the first time a U.S. unit neutralized enemy armour using American-designed and built guided missiles (in this case, against a captured American-made M41 operated by the PAVN).[21] On 9 May, elements of the PAVN's 203rd Armored Regiment assaulted Ben Het Camp held by Army of the Republic of Vietnam (ARVN) Rangers. The Rangers destroyed the first three PT-76 amphibious light tanks of the 203rd, thereby breaking up the attack.[22][23] During the battle for the city of Kontum, the TOW missile had proven to be a significant weapon in disrupting PAVN tank attacks within the region. By the end of May, BGM-71 TOW missiles had accumulated 24 confirmed kills of both PT-76 light and T-54 main battle tanks.[22][23]

On 19 August, the ARVN 5th Infantry Regiment, 2nd Division abandoned Firebase Ross in the Que Son Valley, 30 miles (48 km) southwest of Da Nang, to the PAVN 711th Division. A dozen TOW missiles were left with abandoned equipment and fell into PAVN hands.[24]

1982: Lebanon War

The Israel Defense Forces used TOW missiles during the 1982 Lebanon War. On 11 June, Israeli anti-tank teams armed with TOW ambushed Syrian armoured forces and destroyed a number of Syrian Soviet-made T-72 tanks. Estimates vary regarding the number of T-72s destroyed by TOWs (vs. the number destroyed by Merkava MBTs), with the lower end at nine and the high end attributing "the majority" of the 30 T-72s destroyed by Israeli forces in the war to Yossi Peled's anti-tank TOW units.[25] This was probably the first encounter of the American anti-tank missile with the newer Soviet tank.[26]

Iran–Iraq War

Two Iranian soldiers with a BGM-71 TOW mounted on a Toyota Landcruiser during the Iran-Iraq war.

In the Iran–Iraq War of the 1980s, the Islamic Republic of Iran Army used TOW missiles purchased before the Iranian Revolution in 1979, as well as those purchased during the Iran–Contra affair.

Of the 202 AH-1J Internationals (export variant of the AH-1J SeaCobra) that Iran purchased from the US, 62 were TOW-capable. Iranian AH-1Js managed to slow down Iraqi tank advances into Iran. During the "dogfights" between Iranian SeaCobras and Iraqi Mil Mi-24s, Iranians achieved several "kills", usually using TOW missiles.[27]

1991: Persian Gulf War

TOW was used in multiple engagements during Operation Desert Storm in the 1991 Persian Gulf War. During the war, both the M2 Bradley Infantry fighting vehicle (IFV) and the M3 Bradley Cavalry Fighting Vehicle (CFV) carried TOW missiles. The M2 can also carry seven additional rounds, while the M3 can carry twelve.[28] The M2 and M3 medium-weight Bradley Fighting Vehicles destroyed more Iraqi tanks during the war than the M1A1 Abrams heavy Main Battle Tanks.[citation needed]

The British Army also deployed TOW-armed, Westland Lynx helicopters to the conflict, where they were used to attack Iraqi armoured vehicles. This was the first recorded use of the TOW missile from a British helicopter.

1993: Somalia

On 5 June, 24 Pakistani soldiers were slaughtered by members of Mohamed Farrah Aidid's Habr Gidr militia; some were skinned.[29] Subsequently, the United Nations called for the arrest of those responsible. Weeks later they would formally place the blame on Aidid, leader of the Habr Gidr clan. Subsequently, U.N. troops hunted Aidid. Incidents between the two sides worsened, with fighting back and forth. On 12 July, three months prior to the Battle of Mogadishu, the United Nations and United States attempted to defeat Aidid's organization by attacking a strategy meeting of his native Habr Gidr clan under Operation Michigan. The Washington Post described the event as a "slaughter" in which a "half-dozen" AH-1 Cobra attack helicopters fired 16 TOW missiles and 2,000 rounds from their 20 mm cannons into the meeting of the elders and senior combat commanders. The first TOW missile destroyed the stairs, preventing escape. In the aftermath, it was revealed that Aidid was not in the meeting. The Red Cross claimed that 54 people had been killed, Admiral Jonathan T. Howe reported that 20 had died, while Aidid's Somali National Alliance produced a list of 73 people who they claimed had been killed.[30]

2001: War in Afghanistan

TOW missiles were used during the War in Afghanistan.[31]

2003: Iraq War

10 Humvee-mounted TOW missiles were used by U.S. forces in Iraq during the 22 July 2003 assault that killed Uday and Qusay Hussein.[32] Although TOW missiles are generally used against armored vehicles, these missiles were used on the house the two men were in.

2011: Syrian Civil War

A member of the Free Syrian ArmySouthern Front's Sword of al-Sham Brigades prepares to launch a BGM-71E TOW at a Syrian Arab Army position in southern Syria (December 2014)
An Army of Glory fighter firing a BGM-71 TOW at a Syrian Army target north of Hama, Syria, in March 2017

The weapon was spotted as early as April 2014 in at least two videos that surfaced showing Syrian opposition forces in the Syrian Civil War using BGM-71 TOWs, a weapon previously not seen in use by the opposition.[33] Such a video, showing a BGM-71E-3B with the serial number removed, can be seen in a 27 May 2014 episode of the PBS series Frontline.[34]

In February 2015, The Carter Center listed 23 groups within the Southern Front of the Free Syrian Army that have been documented using US supplied TOWs.[35]

A sudden influx of TOWs were supplied in May 2015, mostly to Free Syrian Army affiliated factions, but also independent Islamist battalions; as a requirement of being provided TOWs, these Syrian opposition groups are required to document the use of the missiles by filming their use, and are also required to save the spent missile casings.[36] Groups provided with TOWs include the Hazzm Movement, the 13th Division, 1st Coastal Division, Syria Revolutionaries Front, Yarmouk Army, Knights of Justice Brigade, and the 101st Division.[37] Free Syrian Army battalions widely and decisively used TOWs in the 2015 Jisr al-Shughur offensive.[38][39][40] Russia attempted a rescue operation after a Su-24M was shot down at the Syria–Turkey border on 24 November 2015, a video of Free Syrian Army 1st Coastal Division using a TOW missile to destroy a disabled Russian helicopter on the ground after its crew had retreated was posted on YouTube.[41][better source needed] In October 2015, Saudi Arabia delivered 500 TOW missiles to anti-Assad rebels.[42] A video produced through Bulgarian Television provides evidence of non rebel use of this weapon by Islamic affiliated fighters.[43]

Reports indicate that small number of TOW missiles have ended up in the hands of al-Qaeda in Syria and Islamic State of Iraq and the Levant.[44][45]

In August 2016 footage of the Syrian military inspecting a captured BGM-71E missile system in Bani Zeit district, Aleppo, was leaked online.[46] On 2 September 2016, rebels released a video of a BGM-71 TOW destroying a French-manufactured Syrian Air Force Aérospatiale Gazelle as it was landing on an airstrip near Khattab in Northern Hama.[47]

Reports say that the TOW missile has successfully hit Russian T-90s in Syria, which are equipped with active defences designed to defeat such missiles.[48] However, a Russian report claims the tank shows "very little damage" and was still operable.[49]

Variants

Raytheon has taken over for Hughes in recent years, and now handles production of all current variants, as well as TOW development.

Designation Description Length Diameter Wingspan Launch weight Warhead Armor penetration (est.) Range Speed
XBGM-71A/BGM-71A Hughes Tube launched Optically tracked Wire command link guided (TOW) Missile 1.16 m 0.152 m 0.46 m 18.9 kg 3.9 kg (2.4 kg HE) HEAT 430 mm (exact value) 65–3,750 m (2.33 mi) 278 m/s[citation needed]
BGM-71B BGM-71A variant; improved range
BGM-71C BGM-71B variant; Improved TOW (ITOW) w/ improved shaped-charge warhead 1.41 m (probe extended)
1.17 m (probe folded)
19.1 kg 630 mm (exact value)
BGM-71D BGM-71C variant; TOW-2, improved guidance, motor and enlarged main warhead 1.51 m (probe extended)
1.17 m (probe folded)
21.5 kg 5.9 kg
(3.1 kg HE) HEAT
900 mm
BGM-71E BGM-71D variant; TOW-2A optimized to defeat reactive armor with tandem warheads 22.6 kg 900 mm (behind a layer of ERA)
BGM-71F BGM-71D variant; TOW-2B top-down attack variant using explosively formed penetrators 1.168 m 6.14 kg EFP[50] no data 200–4,500 m (2.8 mi)[N 1][51]
BGM-71G BGM-71F variant; different AP warhead; not produced no data no data no data no data no data
BGM-71H BGM-71E variant; "bunker buster" variant for use against fortified structures no data no data no data 200 mm double reinforced concrete[51] 65–4,200 m (2.6 mi)[51]

Original armor penetration estimates were 600 mm for BGM-71A/B and 700–800 mm for BGM-71C. However, according to a now declassified CIA study, the true penetration values against a vertical target are much lower—just 430 mm for basic TOW and 630 mm for Improved TOW.[52]

Time to target at maximum range is 20 seconds therefore giving an average speed of 187.5 m/s.[53]

International

Iran has reverse engineered the type from examples acquired before 1979 and currently manufactures duplicate TOW missiles. These carry the Iranian designation of Toophan.[54]

Operators

Map with BGM-71 operators in blue

Current

Former

See also

Notes

  1. ^ 4,200m for TOW-2B Aero, 3,750 m for TOW-2B.

References

  1. ^ FUNKER530 - Veteran Community & Combat Footage (28 December 2011). "DOUBLE BARREL TOW MISSILE HEADED FOR INSURGENTS - NO SLACK". Archived from the original on 25 November 2013 – via YouTube.{{cite web}}: CS1 maint: numeric names: authors list (link)[better source needed]
  2. ^ a b c "Etat islamique: comment les djihadistes emploient les missiles antichars pour appuyer leurs offensives". France-Soir (in French). 4 May 2017. Archived from the original on 6 September 2018. Retrieved 6 September 2018.
  3. ^ "Missile Procurement, Army (FY2021)" (PDF).
  4. ^ Pattie, Geoffrey. "Weapons and Equipment (Costs)". millbanksystems. millbanksystems. Archived from the original on 17 June 2016. Retrieved 21 May 2016.
  5. ^ ARG. "TOW Anti-Tank Guided Missile - Military-Today.com". www.military-today.com. Archived from the original on 22 September 2017.
  6. ^ "Official US Army history of TOW (9th paragraph)". Archived from the original on 3 July 2015.
  7. ^ "M-220 Tube-launched, Optically-tracked, Wire-guided missile (TOW)". fas.org. Archived from the original on 3 November 2013. Retrieved 2 November 2013.
  8. ^ a b c d e f g h i j k l m n o p q AMCOM.
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