Military Wiki
Merkava Mk 4m Windbreaker, fitted with Trophy Active Protection, during Operation Protective Edge
Merkava Mk 4m Windbreaker, fitted with Trophy Active Protection System, during Operation Protective Edge 2014.
Type Main battle tank
Place of origin Israel
Service history
In service 1978–present[1]
Used by Israel Defense Forces
Wars 1982 Lebanon War, South Lebanon conflict, First Intifada, Second Intifada, 2006 Lebanon War, Gaza War, Operation Pillar of Defense, Operation Protective Edge
Production history
Designer MANTAK
Manufacturer MANTAK/IDF Ordnance Corps (assembly)
Unit cost $4.5 million (Merkava IV) (2014 price for sales to other countries)[3]
Produced 1978—present
Number built
Mark I: 250
Mark II: 580
Mark III: 780
Mark IV: 360 in service + 300 units being delivered.[2]
Weight 65 tonnes (143,000 pounds)
Length 9.04 m or 29.7 ft (incl. gun barrel)
7.60 m or 24.9 ft (excl. gun barrel)
Width 3.72 m or 12.2 ft (excl. skirts)
Height 2.66 m or 8.7 ft (to turret roof)
Crew 4 (commander, driver, gunner, and loader)
Passengers Maximum 6 passengers[4]

Armor Classified composite/sloped armour modular design.
120 mm (4.7 in) MG253 smoothbore gun, capable of firing LAHAT ATGM
1 × 12.7 mm (0.50 in) MG
2 × 7.62 mm (0.300 in) MG
1 × 60 mm (2.4 in) internal mortar
12 smoke grenades
Engine 1,500 hp (1,119 kW) turbocharged diesel engine
Power/weight 23 hp/tonne
Payload capacity 48 rounds
Transmission Renk RK 325
Suspension Helical spring
Ground clearance 0.45 m (1.5 ft)
Fuel capacity 1,400 litres
500 km (310 mi)
Speed 64 km/h (40 mph) on road
55 km/h (34 mph) off road

The Merkava (Hebrew: About this sound מרכבה , "chariot") is a main battle tank used by the Israel Defense Forces. The tank began development in 1973 and entered official service in 1978. Four main variants of the tank have been deployed. It was first used extensively in the 1982 Lebanon War. The name "Merkava" was derived from the IDF's initial development program name.

Design criteria include rapid repair of battle damage, survivability, cost-effectiveness and off-road performance. Following the model of contemporary self-propelled howitzers, the turret assembly is located closer to the rear than in most main battle tanks. With the engine in front, this layout is intended to grant additional protection against a frontal attack, especially for the personnel in the main hull, such as the driver. It also creates more space in the rear of the tank that allows increased storage capacity and a rear entrance to the main crew compartment allowing easy access under enemy fire. This allows the tank to be used as a platform for medical disembarkation, a forward command and control station, and an infantry fighting vehicle. The rear entrance's clamshell-style doors provide overhead protection when off- and on-loading cargo and personnel.

It was reportedly decided shortly before the beginning of the 2006 Lebanon War that the Merkava line would be discontinued within four years.[5] However, on November 7, 2006, Haaretz reported that an Israeli General staff assessment had ruled of the Merkava Mark IV that "if properly deployed, the tank can provide its crew with better protection than in the past," and deferred the decision on discontinuing the line.[6] On August 16, 2013, Israeli Defense Minister Moshe Ya'alon announced the decision to resume production of the Merkava main battle tank for the IDF Armored Corps.[7][8]


In 1965, Israel's military establishment began research and development on a domestically produced tank, the "Sabra"[9] (not to be confused with the later model of the same name now in service). Initially, Britain and Israel collaborated to adapt the United Kingdom's Chieftain tank that had entered British Army service in 1966.[10] However, in 1969, Britain decided not to sell the tank to Israel for political reasons.[11]

Israel Tal, who was serving as a brigade commander after the Suez Crisis, restarted plans to produce an Israeli-made tank, drawing on lessons from the 1973 Yom Kippur War, in which Israeli forces were outnumbered by those of the Middle East's Arab nations.[11]

By 1974, initial designs were completed and prototypes were built. After a brief set of trials, work began to retool the Tel HaShomer ordnance depot for full-time development and construction. After the new facilities were completed, the Merkava was announced to the public in the International Defense Review periodical. The first official images of the tank were then released to the American periodical Armed Forces Journal on May 4, 1977. The IDF officially adopted the tank in December 1978. The first Merkava Mk. 1 tanks were supplied to the IDF in April 1979, nearly nine years after the decision to produce the Merkava Mk. 1 tank was taken.

Primary contractors

The lead organization for system integration of the Merkava's main components is Israel Military Industries (IMI). The Israeli Ordnance Corps are responsible for final Merkava assembly. More than 90% of the Merkava 4 tank's components are produced locally in Israel by Israeli defense industries.[12] Contributors to the vehicle include:

  • IMI manufactures the 105 mm and 120 mm main guns and their ammunition;
  • Urdan Industries assembles and constructs the hull, drive- and powertrains, and turret assemblies;
  • Soltam manufactures the 60 mm internal mortar;
  • Elta designs and manufactures the electronic sensors and infrared optics;
  • Elbit delivers the ballistics computer and digital fire-control system (FCS);
  • Tadiran provides cabin air conditioning, crew cabin intercom and radio equipment;
  • El-Op, Elisra and Astronautics implement the optics and laser warning systems;
  • Rafael Advanced Defense Systems builds and installs the Rafael Overhead Weapon Station and Trophy active protection system;
  • L-3 Communication Combat Propulsion Systems produces licensed copies of Germany's MTU MT883 1500 hp diesel engine powerplant and RENK RK325 transmissions;
  • Motorola supplies Tadiran communication encryption systems;
  • DuPont supplies the Nomex, ballistic, and fire-retardant materials used by Hagor;
  • Russia Military Industries helped to design the KMT-4 & -5 anti-mine rollers and the ABK-3 dozer blade, now built by Urdan;
  • FN Herstal supplies 7.62 mm (MAG 58) and 12.7 mm (M2) coaxial and pintle-mounted machine guns;
  • Caterpillar assisted with an Israeli-designed track system.
  • Bental Industries, a TAT Technologies subsidiary, produced the brushless motors used in the Mark IV's turret and gun control system.[13]

General characteristics


The Merkava Mark I and II were armed with a 105 mm M68 gun. The Mark III, Mark III Dor Dalet BAZ kassag, and the Mark IV are armed with an IMI 120 mm smoothbore gun.

Each model of the Merkava has two 7.62 machine guns for anti-infantry defense and a 60 mm mortar.


The tank's 1,500 horsepower turbocharged diesel engine was designed by MTU and is manufactured under license by L-3 Communication Combat Propulsion Systems (formerly General Dynamics). The Mark IV's top road speed is 64 km/h.[citation needed]


Merkava Mark I

Merkava Mark I tank, in 2009

Merkava Mark I at Yad La-Shiryon.

The Mark I, operational since 1978, is the original design created as a result of Israel Tal's decision, and was fabricated and designed for mass production. The Mark I weighed 63 tonnes and had a 900 horsepower (670 kW) diesel engine, with a power-to-weight ratio of 14 hp/ton. It was armed with the 105 millimeter M68 main gun (a licensed copy of the British Royal Ordnance L7), two 7.62 mm machine guns for anti-infantry defense,[14] and a 60 mm mortar mounted externally, with its operator not completely protected by the tank's hull.

The general design borrows the tracks from the British Centurion tank, which had seen extensive use during the Yom Kippur war.

The Merkava was first used in combat during the 1982 Lebanon War, where Israel deployed 180 units. Although they were a success, the M113 APCs that accompanied them were found to have several defects and were withdrawn. Merkavas were converted into makeshift APCs or armored ambulances by taking out the palleted ammunition racks in storage. Ten soldiers or walking wounded could enter and exit through the rear door.

After the war, many adjustments and additions were noted and designed, the most important being that the 60 mm mortar needed to be installed within the hull and engineered for remote firing—a valuable feature that the Israelis had initially encountered on their Centurion Mk3s with their 2" Mk.III mortar.[15] A shot trap was found beneath the rear of the turret bustle, where a well-placed shot could jam the turret completely. The installation of chain netting to disperse and destroy rocket propelled grenades and anti-tank rockets before impacting the primary armor increased survivability.

Merkava Mark II

Merkava Mark II at Yad La-Shiryon.
Merkava Mark II at Yad La-Shiryon.
The Merkava Mark II. Chain netting is installed behind the turret.
The Merkava Mark II. Chain netting is installed behind the turret.
The Merkava Mark II

The Mark II was first introduced into general service in April 1983. While fundamentally the same as the Merkava Mark I, it incorporated numerous small adjustments as a result of the previous year's incursion into Lebanon. The new tank was optimized for urban warfare and low intensity conflicts, with a weight and engine no greater than the Mark I.[16]

The Mark II used the same 105 mm main gun and 7.62 mm machine guns as the Mark I, but the 60 mm mortar was redesigned during construction to be located within the hull and configured for remote firing to remove the need to expose the operator to enemy small-arms fire. An Israeli-designed automatic transmission and increased fuel storage for increased range was installed on all further Mark IIs. Anti-rocket netting was fitted for increased survivability against infantry equipped with anti-tank rockets. Many minor improvements were made to the fire-control system. Updated meteorological sensors, crosswind analyzers, and thermographic optics and image intensifiers gave greater visibility and battlefield awareness.

Newer versions of the original Mark II were designated:

  • Mark IIB, with thermal optics and unspecified updates to the fire control system.
  • Mark IIC, with more armor on the top of the turret to improve protection against attack from the air.
  • Mark IID, with modular composite armor on the chassis and turret, allowing rapid replacement of damaged armor.

In 2015 the IDF had begun a plan to take the old models out of storage and repurpose them as heavy armored personnel carriers. Cannons, turrets, and spaces used to store tank shells inside the hull were removed to create a personnel carrier that outperforms the lighter M113 APC. Converting hundreds of Mark II chassis provides a low-cost way to upgrade support units' capabilities to perform medical, logistical, and rescue missions.[17] By late 2016, after 33 years of service, the last conscripted brigade to operate Merkava IIs will transition to Merkava III and Merkava IV tanks for battlefield missions, relegating the vehicles to reserve forces for border patrols during conflicts and conversion to personnel carriers.[18]

Merkava Mark III

The Merkava Mark III
The Merkava Mark III
The more advanced, Merkava Mark III Baz model, with weaponry highlighted
The more advanced, Merkava Mark III Baz model, with weaponry highlighted
Merkava Mark III Dor Dalet BAZ Kasag, the most advanced Merkava III variant
Merkava Mark III Dor Dalet BAZ Kasag, the most advanced Merkava III variant
Variants of the Merkava Mark III

Merkava IIID Baz fires – the Baz Fire-control system increases the Merkava's accuracy and lethality

Merkava III shooting a shell, FN MAG and smoke grenade. It then turns on the smoke screen system. The demonstration concludes with the throwing a green smoke hand grenade (1 m 16 s).

The Merkava Mark III was introduced in December 1989 and was in production until 2003. As of 2016, the Merkava III is by far the most numerous tank in frontline IDF service. Compared to the Merkava II, it has upgrades to the drivetrain, powertrain, armament, and electronic systems. The most prominent addition was the incorporation of the locally developed IMI 120 mm gun.[19] This gun and a larger 1,200 horsepower (890 kW) diesel engine increased the total weight of the tank to 65 tonnes (143,000 lb), but the larger engine increased the maximum cruising speed to 60 km/h (37 mph).[20]

The turret was re-engineered for movement independent of the tank chassis, allowing it to track a target regardless of the tank's movement. Many other changes were made, including:

  • External two-way telephone for secure communications between the tank crew and dismounted infantry,
  • Upgraded ammunition storage containers to minimize ammunition cook-off,
  • Addition of laser designators,
  • Incorporation of the Kasag modular armor system, designed for rapid replacement and repair in the battlefield and for quick upgrading as new designs and sophisticated materials become available,
  • Creation of the Mark IIIB, with unspecified armor upgrades.

BAZ System

The 1995 Mark III BAZ (Hebrew acronym for ברק זוהר, Barak Zoher, signifying Shining Lightning[21]) had a number of updates and additional systems including:

  • Upgraded fire-control system components, from Electro Optics Industries (EL-OP) and Elbit, provides the tank with the ability to engage moving targets while on the move (an automatic target tracker),
  • NBC protection systems,
  • Locally developed central air-conditioning system,
  • Added improvements in ballistic protection,
  • The Mark IIID has removable modular composite armor on the chassis and turret.


The last generation of the Mark III class was the Mark IIID Dor-Dalet (Hebrew: Fourth Generation), which included several components as prototypes to be introduced in the Mark IV.

  • Upgraded and strengthened tracks (built by Caterpillar, designed in Israel),
  • Installation of the R-OWS.

Merkava Mark IV

Merkava Mark IV

Merkava Mark IV is first introduced to the public at Yad La-Shiryon during Israeli Independence Day celebrations in 2002.
Merkava Mark IV is first introduced to the public at Yad La-Shiryon during Israeli Independence Day celebrations in 2002.
Merkava Mark IV (foreground)
Merkava Mark IV (foreground)
Merkava Mark IV of the 401st Brigade during a training exercise.
Merkava Mark IV of the 401st Brigade during a training exercise.
The Merkava Mark IV

The Mark IV is the most recent variant of the Merkava tank that has been in development since 1999 and production since 2004. The upgrade's development was announced in an October 1999 edition of the Bamachaneh ("At the Camp") military publication. However, the Merkava Mark III remained in production until 2003. The first Merkava IVs were in production in limited numbers by the end of 2004.[22]

The model has a new fire-control system, the El-Op Knight Mark 4. Removable modular armor, from the Merkava Mark IIID, is used on all sides, including the top and a V-shaped belly armor pack for the underside. This modular system is designed to allow for damaged tanks to be rapidly repaired and returned to the field.

Tank rounds are stored in individual fire-proof canisters, which reduce the chance of cookoffs in a fire inside the tank. The turret is "dry": no active rounds are stored in it.

Some features, such as hull shaping, exterior non-reflective paints, and shielding for engine heat plumes mixing with air particles to confuse enemy thermal imagers, were carried over from the IAI Lavi program of the Israeli Air Force to make the tank harder to spot by heat sensors and radar.

The Mark IV includes the larger 120 mm main gun of the previous versions, but can fire a wider variety of ammunition, including HEAT and sabot rounds like the APFSDS kinetic energy penetrator, using an electrical semi-automatic revolving magazine for 10 rounds. It also includes a much larger 12.7 mm machine gun for anti-vehicle operations (most commonly used against technicals).[23]

The Mark IV has the Israeli-designed "TSAWS (Tracks, Springs, and Wheels System)" caterpillar track system, called "Mazkom" (Hebrew: מערכת זחלים קפיצים ומרכובים, מזקו"ם‎) by troops. This system is designed to reduce track-shedding under the harsh basalt rock conditions of Lebanon and the Golan Heights.

The tank carries the Israeli Elbit Systems BMS (Battle Management System; Hebrew: צי"ד), a centralised system that takes data from tracked units and UAVs in theater, displays it on color screens, and distributes it in encrypted form to all other units equipped with BMS in a given theater.

The Merkava IV has been designed for rapid repair and fast replacement of damaged armour, with modular armour that can be easily removed and replaced. It is also designed to be cost-effective in production and maintenance; its cost is lower than that of a number of other tanks used by Western armies.

Mk IVm Windbreaker

Merkava Mk 4m Windbreaker, fitted with Trophy Active Protection, during Operation Protective Edge

The Merkava Mk 4m Windbreaker is a Merkava Mk IV equipped with the Trophy active protection system (APS) designated "Meil Ruach" (Hebrew: מעיל רוח‎; "Windbreaker" or "Wind Coat"). The system was operational by the end of 2007. The serial production of Merkava Mk 4m tanks started in 2009 and the first whole brigade of Merkava Mk 4m tanks was declared operational in 2011. The Trophy APS successfully intercepted RPG rounds and anti-tank guided missiles, including the 9M133 Kornet, fired by Hamas before and during Operation Protective Edge in 2014.

Specifications of models

Merkava Mark I Merkava Mark II Merkava Mark III Merkava Mark IV
Service history
In active service 1979–? (reserve forces only) 1983– 1990– 2004–
Used by Israel Defense Forces
Wars 1982 Lebanon War, First Intifada, South Lebanon Conflict, Second Intifada, 2006 Lebanon War South Lebanon Conflict, First Intifada, Second Intifada, 2006 Lebanon War, Gaza War South Lebanon conflict, Second Intifada, 2006 Lebanon War, Gaza War, 2014 Israel–Gaza conflict, Operation Protective Edge 2006 Lebanon War, Gaza War, 2014 Israel–Gaza conflict, Operation Protective Edge
Production history
Designer MANTAK (Merkava Tank Office)
Manufacturer MANTAK (Merkava Tank Office)
Produced 1978–83 1982–89 1990–2002 2003–
Number built 250 580 780 360
Weight ≈63 tonnes ≈65 tonnes
Length rear to muzzle: 8.30 m (27 ft 3 in)
without gun: 7.45 m (24 ft 5 in)
rear to muzzle: 9.04 m (29 ft 8 in)
without gun: 7.60 m (24 ft 11 in)
Width 3.70 m (12 ft 2 in) (without skirts) 3.72 m (12 ft 2 in) (without skirts)
Height 2.65 m (8.7 ft) (turret roof) 2.66 m (8.7 ft) (turret roof)
Crew 4 (tank commander, driver, gunner, loader-signaller). May carry infantry as passengers.
Armor Rolled homogeneous armor Spaced rolled homogeneous armor Composite armor, modular design. Composite matrix of laminated ceramic-steel-nickel alloy. Sloped modular design.
Primary armament 105 mm (4.1 in) M68 rifled tank gun with LAHAT ATGM capability. 120 mm (4.7 in) MG251 smoothbore tank gun with LAHAT ATGM capability. 120 mm (4.7 in) MG253 smoothbore tank gun with LAHAT ATGM capability.
Secondary armament 2–3 × 7.62 mm (0.300 in) MG
1 × 60 mm (2.4 in) external mortar
12 smoke grenades
2–3 × 7.62 mm (0.300 in) MG
1 × 60 mm (2.4 in) internal mortar
12 smoke grenades
3 × 7.62 mm (0.300 in) MG
1 × 60 mm (2.4 in) internal mortar
12 smoke grenades
1 × 12.7 mm (0.50 in) MG
2 × 7.62 mm (0.300 in) MG
1 × 60 mm (2.4 in) internal mortar (improved)
12 smoke grenades
Engine Teledyne Continental AVDS-1790-6A 908 hp (677 kW) V12 air-cooled diesel engine Teledyne Continental AVDS-1790-9AR 1,200 hp (895 kW) V12 air-cooled diesel General Dynamics GD883 (MTU883) 1,500 hp (1,119 kW) V12 water-cooled diesel
Power / weight ≈14.5 hp/ton ≈18.5 hp/ton ≈23 hp/ton
Payload capacity 53 to 62 rounds, 6 per container 46 rounds, 5 ready in a mechanical drum 48 rounds, 10 ready in an electrical drum
Transmission Allison Transmission CD850-6BX hydromechanical semiautomatic Ashot Ashkelon hydromechanical automatic, 4 gears. Ashot Ashkelon hydromechanical automatic, 5 gears (licensed copy of Renk RK325).[24]
Suspension Helical spring
Ground clearance 0.53 m (1 ft 9 in) 0.45 m (1 ft 6 in)
Fuel capacity 1,100–1,400 litres 1,400 litres
Operational range 400–500 km (250–310 mi) 500 km (310 mi)
Speed on road 50 km/h (31 mph) 60 km/h (37 mph) 64 km/h (40 mph)

Combat history

File:Merkavah Tank of Tzur Maor and his Crew.jpg

An Israeli Merkava 1 in Lebanon after being hit, 1982

1982 Lebanon War

The Merkava was used widely during the 1982 Lebanon War. The tank outperformed contemporary Syrian tanks (mostly T-62s) and proved largely immune to the anti-tank weapons of the time (the AT-3 Sagger and RPG-7) that were used against it. It was judged to be a significant improvement over Israel's previously most effective main battle tank, the Centurion.[25] 34 Merkava tanks were lost during the war[26][page needed]

Second Intifada

In February 2002, a Merkava III was destroyed by a roadside bomb near Netzarim in the Gaza Strip. The tank was lured into intervening in an attack on a settler convoy. The tank went over a heavy mine (estimated 100 kg TNT), which detonated and totally destroyed the tank. Four soldiers were killed in the blast. This was the first main battle tank to be destroyed during the Second Intifada.[27] A second Israeli tank, a Merkava II or Merkava III, was destroyed a month later in the same area and a further three soldiers were killed. A third Merkava II or III tank was destroyed near the Kissufim Crossing, when one soldier was killed and two wounded.[28]

The AT-14 Kornet anti-tank laser-guided missile

2006 Lebanon War

During the 2006 Lebanon War, five Merkava tanks were destroyed.[29] Only the minority of the tanks used during the war were Merkava Mark IVs, as by 2006 they had still only entered service in limited numbers. Hezbollah fired over 1,000 anti-tank missiles during the conflict against both tanks and dismounted infantry.[29] Some 45 percent of all tanks and armoured vehicles hit with antitank missiles during the conflict suffered some form of armour penetration.[29] In total, 15 tank crewmen were killed by these ATGM penetrations.[30] The penetrations were caused by tandem warhead missiles. Hezbollah weaponry was believed to include advanced Russian RPG-29 'Vampir', AT-5 'Konkurs', AT-13 'Metis-M', and laser-guided AT-14 'Kornet'[31] HEAT missiles. The IDF reported finding the state-of-the-art Kornet ATGMs on Hezbollah positions in the village of Ghandouriyeh.[32] Several months after the cease-fire, reports have provided detailed photographic evidence that Kornet ATGMs were indeed both in possession of, and used by, Hezbollah in this area.[33][34] Another Merkava IV tank crewman was killed when a tank ran over an improvised explosive device (IED). This tank had additional V-shaped underside armor, limiting casualties to just one of the seven personnel (four crewmen and three infantrymen) on board. In total, five Merkava tanks (two Merkava IIs, one Merkava III, and two Merkava IVs) were destroyed.[29] Of these two Merkava Mark IVs, one was by powerful IEDs, and the other by Russian AT-14 'Kornet' missiles. The Israeli military said that it was satisfied with the Merkava Mark IV's performance, and attributed problems to insufficient training before the war.[35][36] In total, 50 Merkava tanks (predominantly Merkava IIs and IIIs) were damaged, eight of which remained serviceable on the battlefield. 21 tanks suffered armour penetrations (15 from missiles, and 6 from IEDs and anti-tank mines).[29]

After the 2006 war, and as the IDF becomes increasingly involved in unconventional and guerrilla warfare, some analysts say the Merkava is too vulnerable to advanced anti-tank missiles, that in their man-portable types can be fielded by guerrilla warfare opponents.[37][38] Other post-war analysts, including David Eshel, disagree, arguing that reports of losses to Merkavas were overstated and that "summing up the performance of Merkava tanks, especially the latest version Merkava Mark IV, most tank crews agree that, in spite of the losses sustained and some major flaws in tactical conduct, the tank proved its mettle in its first high-saturation combat."[39] On a comparison done by the armor corps newsletter, it was shown that the average number of crewmen killed per tank penetrated by missile/rocket was reduced from 2 during the Yom Kippur War to 1.5 during the 1982 Lebanon War to 1 during the 2006 Lebanon War proving how, even in the face of the improvement in anti-tank weaponry, the Merkava series tanks provide increasingly better protection to its crew. The IDF wanted to increase orders of new Merkava Mark IV tanks, and planned to add the Trophy (countermeasure) to Merkava Mark IV tanks, and to increase joint training between crews and Israeli antitank soldiers.[40][41]

Merkava IV with Trophy (countermeasure)

Operation Cast Lead

The Merkava IV was used more extensively during the Gaza War, as it had been received by the IDF in increasing numbers since 2006, replacing more of the Merkava II and III versions of the tank that were in service. One brigade of Merkava IVs managed to bisect the Gaza strip in five hours without Israeli casualties. The commander of the brigade stated that battlefield tactics had been greatly revised since 2006. Tactics had also been modified to focus on asymmetric or guerilla war threats, in addition to the conventional war scenarios that the Merkava had primarily been designed to combat.[42]

The IDF also deployed the Merkava II and III during the war.[43]

Gaza Border areas

By October 2010, the IDF had begun to equip the first Merkava IVs with the Trophy active protection system, to improve the tanks' protection against advanced anti-tank missiles which use tandem-charge HEAT warheads.[44][45] Added protection systems included an Elbit laser-warning system and IMI in-built smoke-screen grenades.[22]

In December 2010, Hamas fired an AT-14 Kornet anti-tank missile at a Merkava Mark III tank stationed on the Israel-Gaza border near Al-Bureij. It had hitherto not been suspected that Hamas possessed such an advanced missile. The missile penetrated the tank's armour, but caused no injuries among its crew. As a result of the attack, Israel decided to deploy its first Merkava Mark IV battalion equipped with the Trophy (countermeasure) along the Gaza border.[46]

On March 1, 2011, a Merkava MK IV stationed near the Gaza border, equipped with the Trophy active protection system, successfully foiled a missile attack against it, marking the system's first operational success.[47]

Operation Protective Edge 2014

IDF Merkava Mk. IVm tank pictured on the Gaza border. It has the Trophy APS installed, which have become operational in the IDF since 2011.

No tanks were damaged during Operation Protective Edge. The Merkava Mk. IVm tanks, fitted with the Trophy Active Protection system, intercepted anti-tank missiles and RPGs on dozens of different occasions during the ground operation.[48] During the operation, the system intercepted anti-tank weapons, primarily Kornet, as well as Metis-M and RPG-29. The new active defense system proved to be invulnerable against man-portable anti-tank weapons.[49] By identifying the source of fire, Trophy also allowed tanks to kill the Hamas anti-tank team on one occasion.[49]

Giora Katz, head of Rafael's land division, stated that it was a "breakthrough because it is the first time in military history where an active defense system has proven itself in intense fighting."[50]

401st Brigade (equipped with Merkava Mk. IVm tanks) alone killed between 120-130 Hamas militants during the ground fighting phase of Operation Protective Edge, according to the IDF.[51]


In September 2011, Turkey suspended a 5 billion dollar deal for 1,000 Merkava Mk 3 tanks because of political reasons.[52]

In May 2012, Israel offered procurement of Merkava IV tanks to the Colombian Army. The sale would include 25–40 tanks at an approximate cost of $4.5 million each,[3] as well as a number of Namer APCs. With the threat of the expanding Venezuelan military, it would strengthen Colombian armored forces against Venezuelan T-72 tanks.[53][54]


Following the Second Intifada the Israel Defense Forces modified some of their Merkava's to satisfy the needs of urban warfare.

Merkava LIC

These are Merkava Mark III BAZ or Mark IV tanks, converted for urban warfare. The LIC designation stands for "Low intensity conflict", underlining its emphasis on counter-insurgency, street-to-street inner-city asymmetrical type warfare of the 21st century.[55]

The Merkava is equipped with a turret 12.7 mm caliber coaxial machine gun, which enables the crew to lay down fairly heavy cover fire without using the main gun (which is relatively ineffective against individual enemy combatants). Like the new remote-operated weapon station, the coaxial machine-gun is fired from inside the tank without exposing the crew to small-arms fire and snipers.

The most sensitive areas of a tank, its optics, exhaust ports and ventilators, are all protected by a newly developed high-strength metal mesh, to prevent the possibility of explosives charges being planted there.[55]

Rubber whip pole-markers with LED tips and a driver's rear-facing camera have been installed to improve navigation and maneuverability in an urban environment by day or by night.

Merkava Tankbulance

Some Merkava tanks have been fitted with full medical and ambulance capabilities while retaining their armament (but carrying less ammunition than the standard tank). The cabin area has been converted for carrying injured personnel and has had two stretchers and life support medical station systems added with a full medical team complement to operate under combat conditions with a Merkava battalion. The vehicle has a rear door to facilitate evacuation under fire, and can provide covering fire.

The "tankbulance" is not an unarmed ambulance and as such is not protected by the Geneva Conventions provisions regarding ambulances, but it is far less vulnerable to accidental or deliberate fire than an ambulance or armored personnel carrier.

Merkava IFV Namer

Namer in Yad La-Shiryon 62nd Independence Day exhibition.

Namer CEV in Yad La-Shiryon 68th Independence Day exhibition.

Namer (Hebrew: leopard, which is also an abbreviation of "Nagmash (APC) Merkava"), is an infantry fighting vehicle based on the Merkava Mark IV chassis. In service since 2008, the vehicle was initially called Nemmera (Hebrew: leopardess), but later renamed to Namer.[citation needed]

Namer is equipped with a Samson Remote Controlled Weapon Station (RCWS) armed with either a .50 M2 Browning Heavy Machinegun or a Mk 19 Automatic Grenade Launcher. It also has a 7.62 mm MAG machine gun, 60 mm mortar and smoke grenades. Like the Merkava Mark IV, it is optimized for high level of crew survival on the battlefield. The Namer has a three-man crew (commander, driver, and RCWS gunner) and may carry up to nine infantrymen and a stretcher. An ambulance variant can carry two casualties on stretchers and medical equipment.[citation needed]

The Golani Brigade used two Namer IFVs during Cast Lead operation. During Operation Protective Edge more than 20 vehicles were operated with great success and post operation analysis recommended procuring more of them.[citation needed]

Merkava ARV Nemmera

The Merkava armored recovery vehicle initially called Namer (Hebrew: leopard), but subsequently renamed Nemmera (Hebrew: leopardess). It is an armored recovery vehicle based on a Merkava Mark III or IV chassis. It can tow disabled tanks and carries a complete Merkava back-up power pack that can be changed in the field in under 90 minutes.

There are two versions of Nemmera: the heavier equipped with a 42 ton-meter crane and a 35 ton-meter winch, and the smaller equipped with a smaller crane.

Merkava Howitzer Sholef

Sholef in Beit ha-Totchan, Zikhron Ya'akov, Israel.

Two prototypes of Sholef ("Slammer", Hebrew slang for "Gunslinger") 155 mm self-propelled howitzer with automatic loading system were built by Soltam in 1984–1986. The 45-ton vehicle had a long 155 mm gun barrel giving a range of 45+ km. Using GPS, inertial navigation, and an internal fire control computer, it was also capable of direct fire while on the move. It never entered production.[56]

The Slammer is a heavily armored artillery gun mounted on a modified Merkava Mk 1 chassis. Many of these vehicles are Merkava Mk 1 that were retired after the Merkava Mk 2 and Merkava Mk 3 came into service. The Slammer has a long 52-caliber gun barrel that allows +10% range. Reload speed may be decreased to 1 for one minute every 10 minutes through use of an automatic loader. Ammunition racks are large. The Slammer is ready for autonomous operation (without an FDC) if the target's location is known within 15 seconds of a halt, using GPS, inertial navigation, and an internal fire control computer.

The Slammer 155 mm self-propelled howitzer is based on a modified Merkava MBT chassis fitted with a new welded steel turret, designed by Soltam Systems.

Development commenced in the 1970s. The project was considered of high national priority and incorporated the newest technological developments. Instead the Israeli Defense Forces selected an upgraded version of American M109 howitzer.

The Sholef's chassis, aside from a few minor modifications, is identical to that of the Merkava Mk.III. The glacis plate is unchanged, except for the addition of a support bracket for the gun tube, which is folded down when not in use. As such, the Sholef and Merkava series share a large percentage of common components. The front-left side of the chassis has a prominent exhaust louver, along with a much smaller port just in front of it; the exact function of this port is uncertain, though the soot seen around it in photos of the Sholef suggests it may be a new or additional exhaust port, or perhaps an outlet for a smoke generator.

The Sholef can be ready to fire only 15 seconds after coming to a complete stop, and fire three projectiles in only 15 seconds. It is compatible with standard NATO 155mm ammunition, and a total of 75 projectiles can be stowed in one Sholef, 60 of which are ready for combat.

The Sholef's 155mm/52 gun is an original design created by Soltam, though it bears a resemblance to South Africa's G5 Howitzer. It has a fume extractor and muzzle brake, and is kept stationary by a travel lock while the vehicle is on the move. This gun has a maximum rate of fire of 9 rounds/min, and a range in excess of 40,000 m when firing an ERFB-BB round. Though loaded automatically, the gun may be cycled and fire manually if the need arises. While the gun is normally carried by a travel lock as with most other self-propelled howitzers while the Sholef is on the move, the weapon is stabilized and can actually be used for direct-fire while the vehicle is moving, giving it much greater self-defense capability than most other vehicles of its type.

A crew of 4 is required to fully operate the Sholef. Air conditioning and heating for the crew are provided, as is a ration heater.

The hull has the same ballistic protection as the Merkava Mk.III. The armor on the turret is sufficient to defeat small arms fire, shell splinters, blast overpressure, and most heavy machine gun rounds. The armor is augmented by spall liners, and the same overpressure NBC system as the Merkava Mk.III is fitted. There is also a back-up collective NBC system.

The running gear consists of 6 unevenly spaced rubber-tired roadwheels on each side, and 5 return rollers, the second from the rear of which is noticeably larger than the others. The drive sprocket is forward, and the conspicuously spoked idler is rear. These may be partially obscured by track skirts, of which the Merkava Mk.III has 10 panels, with a wavering underside, and little coverage of the sprocket or idler.

The ordnance is fitted with a fume extractor and a double-baffle muzzle brake. When travelling, the ordnance is held in position by a travel lock that is mounted on the forward part of the glacis plate and this is remotely operated from the crew compartment.

Firing an ERFB-BB projectile, the 155 mm 52 calibre ordnance has a maximum range of 40,000+ m.

The 155 mm 52 calibre ordnance and recoil system is of the companies well-proven type already used in its towed weapons. The breech block assembly is of the semi-automatic wedge type that contains an automatic primer feeding system that enables manual reloading of the primer without opening the breech. Turret traverse and weapon elevation is hydraulic, with manual controls for emergency use.

A maximum rate of fire of 9 rds/min can be achieved due to the automatic computerised loading system, and a burst rate of fire of three rounds in 15 seconds.

The high rate of fire can be achieved using the onboard ammunition supply or from ground-piled ammunition. The loading cycle is operated by two turret crewmen only, with the commander operating the computer and charge loader.

The automatic loader has five main subsystems: projectile storage system; projectile transfer system; loading tray with flick rammer; charge loading tray and elevator for external charge supply; and projectile elevator for reloading the external storage or directly loading the gun.

The internal projectile storage contains 60 projectiles ready for automatic loading with the remaining 15 stored in other locations. The system enables the handling of all kinds of projectiles in use without any adaptation.

Charge loading is accomplished manually using a loading tray with the ignition primer being inserted automatically. All systems have a manual back-up so that, in the case of failure, the loading system may be operated partly or completely manually by only three crewmen, so allowing a continuous firing rate of 4 rds/min. The computer also controls the functioning of the gun. The Loader Control System (LCS) consists of five main units: The commander's panel provides the means for the commander to control the automatic loader and has a dedicated keyboard and supporting electronic circuits

The Central Control Unit (CCU) is based on the 286 CPU-8086 and produces all of the system's logic equations. The unit transfers commands through the serial communications (RS-422) to the computerised units and controls the display on the commander's panel

The Terminal Units (TUs) are based on the 8031 controller for purposes of independent control of the drive elements according to a functionally determined division. With the assistance of the terminal unit, a local mode can also be used in working with selected elements

For guiding operators and making round identification and fuzing, the Operator's Panel (OP) includes an LCD display with fixed instructions and one dot matrix line The Loader Keyboard Panel (LKP) includes breech block closing switch, fire and local activation of the trays.

The main operational roles are: firing from internal storage; firing for elevator - ground-piled ammunition; loading from elevator - external pile; synthesising fire programs; unloading; manual firing; identification; and fuzing and checks.

Standard equipment includes an NBC system of the overpressure type and an inertial navigation and aiming system designed for autonomous operations.

According to Soltam Systems, the 155 mm/52 calibre ordnance and automatic loader, or parts of the system, could be installed in other self-propelled artillery systems and used to upgrade other self-propelled systems such as the US-designed and built 155 mm M109 and M44.


On July 14, 2011, The Jerusalem Post reported that the IDF had begun developing a successor for the Merkava series of tanks. The development was started in part by the arrival of the Trophy active protection system. With the system's ability to intercept threats at a stand-off distance, there was a review of the need for vehicles like the Merkava to have thick, heavy layers of armor.[57] The Merkava Tank Planning Directorate set up a team to study principles for a future tank and present ideas for an armored fighting vehicle to provide mobile firepower on a future battlefield. The team reviewed basic design principles including lessening its weight, armor thickness compared to an APS to intercept anti-tank threats, reducing the crew size, and the type of main gun. Horsepower capabilities and heavy and light track systems compared to a wheeled chassis were also considered. With future battlefield condition developments affecting design features, the vehicle may not be considered a "tank" in the traditional sense.[58] By July 2012, details began to emerge of considerations for developing technologies for the new design. One possibility is the replacement of the traditional main gun with a laser cannon or an electromagnetic pulse cannon. Other improvements could include a hybrid-electric engine and a reduced crew of two. The goals of the new tank are to make it faster, better protected, more interoperable and lethal than the current Merkava.[59]

The 65-ton Merkava is not regarded as useful for missions other than conventional warfare. The Israeli Army Armored Corps wants a lighter and highly mobile vehicle for rapid-response and urban warfare situations that can fill multiple roles. In 2012, the Defense Ministry drafted a program for development of a new family of light armored vehicles called Rakiya (Horizon), a Hebrew acronym for "future manned combat vehicle" (FMCV). The FMCV is planned to weigh 35 tons and have sufficient armor and weapons for both urban and conventional military operations. Instead of one multi-mission chassis, separate vehicles in distinct variants will perform different roles with all vehicles using common components. Vehicles are likely to be wheeled to maneuver in urban environments and move troops and equipment around in built-up areas. While the FMCV will be a fifth-generation vehicle as a follow-on to the Merkava IV, it will not be a replacement for the tank. The Merkava and Namer heavy tracked vehicles will remain in service for decades, while FMCV vehicles are to address entirely different operational requirements. Although the program seems similar to the American Future Combat Systems effort, which failed to produce a family of rapidly deployable lightweight ground vehicles, program officials say they learned from the American experience and that the FMCV was more focused and driven by simpler and more reasonable requirements based on cost considerations. Officials expect requirements for a range of configurations for FMCV light armored vehicles to be approved in 2014 and solicited to Israeli and American companies. The IDF hopes for the FMCV family of vehicles be operational by 2020.[60][61]


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Further reading

External links