Monday, March 26, 2012

Top Future Weapons of Israel

Merkava Mark IV MBT Tanks

The Mark IV is the most recent version of the Merkava tank and has been in development since 1999. Its development was announced in an October 1999 edition of the Bamachaneh (At the Camp) military publication. However, new Merkava Mark IIIs continued to be produced until 2003. The first Merkava IVs were in production in limited numbers by the end of 2004.

Design features

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.
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).

Upgraded fire control system

The new fire-control system enables the Merkava to shoot down helicopters and find and destroy armored attack helicopters such as the French Gazelle and the ubiquitous Russian Mil Mi-24, both used by Israel's neighbors.

Upgraded tracks

The Mark IV has the Israeli-designed "TSAWS (Tracks, Springs, and Wheels System)" caterpillar track system, called "Mazkom" by troops. This system is designed to endure the harsh basalt rock conditions of Lebanon and the Golan Heights with minimal "track-shedding".

Digital battlefield management system

The tank carries the Israeli Elbit Systems BMS , a centralised system that 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.

Specifications

Weight 65 tonnes
Length 9.04 m (29.7 ft): rear to muzzle
7.60 m (24.9 ft): without gun
Width 3.72 m (12.2 ft)—without skirts
Height 2.66 m (8.7 ft)—turret roof
Crew 4 (commander, driver, gunner, loader)
Armor Classified composite matrix of laminated ceramic-steel-nickel alloy. Sloped modular design.
Primary
armament 120 mm (4.7 in) MG253 smoothbore gun, capable of firing LAHAT ATGM
Secondary
armament 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/ton
Payload capacity 48 rounds
Transmission Renk RK 325
Suspension Helical spring
Ground clearance 0.45 m (1.5 ft)
Fuel capacity 1400 litres
Operational
range 500 km (310 mi)

Atmos 2000 Artillery System

ATMOS 2000 (Autonomous Truck MOunted howitzer System) is a 155 mm/52 calibre self-propelled (SP) artillery system manufactured by Soltam Systems.
The system is long range, fast moving, truck mounted with a High firepower and mobility, rapid deployment, short response time, operable in all terrain areas. The system is Integrated with a fully computerized systems, providing an automatic control, accurate navigation and target acquisition, the system is offered with various gun calibers, ranging from 39 to 52 calibre, in order to meet different customer requirements.

Capabilities

Range
41 km - 52 calibre
- 49 calibre
- 39 calibre
rate of fire
Burst - 3 round with in 15 sec
Rapid - 5 round with in 1 min
Sustained - >80 round an hour
Aiming resolution - 1 artillery mil
Deployment time - ~1.5 minute to first shot

ASSAULT RIFLES

IMI Tavor TAR-21

The TAR-21 (or simply Tavor) is an Israeli bullpup assault rifle chambered for 5.56x45mm NATO ammunition with a selective fire system, selecting between semi-automatic mode, burst mode, and full automatic fire mode.
The TAR-21 design was created by Zalmen Shebs, with the express purpose of creating a weapon more suited to urban combat than the M16/M4 carbine. It is based on advanced ergonomics and composite materials in order to produce a more comfortable and reliable rifle. The TAR-21 is waterproof and lightweight. The weapon has a built in laser and MARS red dot sight; one of the main advantages of having a built in system is that the weapon does not have to be zeroed after each use, but the TAR-21 can also be mounted with an array of different scopes such as EOTech holographic weapon sights, night vision systems and other electronic devices.
The TAR-21 accepts standard STANAG magazines. It can also be mounted with the M203 grenade launcher. Its ambidextrous fire mode selector above the pistol grip has a semi-automatic mode, burst mode, and a fully automatic mode.

Variants

The Tavor assault rifle comes in different variations:
TAR-21 - standard version intended for multirole infantry.
GTAR-21 - standard version with notched barrel, to accept an M203 40 mm under-barrel grenade launcher.
CTAR-21 - compact short barrel version intended for commandos and special forces.
STAR-21 - designated marksman version with folding under-barrel bipod and Trijicon ACOG 4x magnification sight.
MTAR-21 - see below.
Zittara - Indian locally produced version of the MTAR-21 Micro Tavor modified to use the local 5.56x30mm MINSAS cartridge.

CornerShot

CornerShot is a weapon accessory invented by Lt. Col. Amos Golan of the Israeli Defense Forces in cooperation with American investors.It was designed in the early 2000s for SWAT teams and special forces in hostile situations usually involving terrorists and hostages. Its purpose is similar to that of the wartime periscope rifle; it allows its operator to both see and attack an armed target, without exposing the operator to counterattack.

The Corner shot's shooting range is claimed to be accurate and effective to 100 meters in 9x19mm, .40 S&W, and .45 ACP pistols, and is claimed to be effective to 200 meters with a 5.7x28mm pistol. The device is available in several variations, including the Beretta 92F, a model widely used by US security forces, the Glock, SIG SAUER and CZ, the mechanism can also mount various accessories such as detachable cameras, audio/video transmission kits, visible and IR lasers and tactical flashlights, suppressors and rubber bullets A standard pistol version is available, along with a 40 mm grenade launcher. Because they are fitted with high-resolution digital cameras, any variant can also be used as a surveillance tool. All the models come with the same stock camera and 2.5 in. color LCD monitor, providing a video observation and sighting system with transmission capability. The flashlight and camera lets it operate in either day or night. A variety of optional interchangeable cameras, as well as a folding stock, are available, and a universal accessory rail is standard.

Future versions will be mountable on the US M-16 and a European joint assault weapon. The system can also be remotely emplaced and operated from behind camouflage, with a wire video - out connection sending images to a commander at a distance or saved to a 2-hour 'flash memory' chip attached to the gunstock.

AIR TO AIR MISSILES

AIM-120D

The AIM-120D is an upgraded version of the AMRAAM with improvements in almost all areas, including 50% greater range (than the already-extended range AIM-120C-7) and better guidance over its entire flight envelope yielding an improved kill probability (Pk). Raytheon began testing the D model on August 5, 2008, the company reported that an AIM-120D launched from an F/A-18F Super Hornet passed within lethal distance of a QF-4 target drone at the White Sands Missile Range.

It is going to be armed in israel's f35 JSF fighter
range :>130km

Python-5

The Python-5 is currently the most able AAM in Israel's inventory and one of the most advanced AAMs in the world. It has BVR (beyond visual range), LOAL (lock-on after launch), and all-aspect, all-direction (including backward) attack ability. The missile features an advanced electro-optical imaging infrared seeker (IIR or ImIR) which scans the target area for hostile aircraft, then locks-on for terminal chase. With a total of eighteen control surfaces and careful design, the resulting missile is supposed to be as maneuverable as air-to-air missiles with thrust vectoring nozzles. The Python-5 was first used in combat during the 2006 war in Lebanon, when it was used by F-16 Fighting Falcon warplanes to destroy two Hezbollah UAVs.
Length: 310 cm
Span: 64 cm
Diameter: 16 cm
Weight: 105 kg
Guidance: IR + electro-optical imaging
Warhead: 11 kg
Range: >20 km
Speed: Mach 4

IAI EL/M-2075 Phalcon AWACS

The IAI EL/M-2075 Phalcon is an Airborne Early Warning and Control (AEW&C) radar system developed by Israel Aerospace Industries (IAI) and Elta Electronics Industries of Israel. Its primary objective is to provide intelligence to maintain air superiority and conduct surveillance. The Federation of American Scientists stated the Phalcon was the most advanced AEW&C system in the 1999 and 2008 articles.

The EL/M-2075 is a solid-state L-band conformal array radar system for use on a Boeing 707 and other aircraft. Phalcon, as the complete AEW mission suite is referred to, is intended for airborne early warning, tactical surveillance of airborne and surface targets and intelligence gathering. It also integrates the command and control capabilities needed to employ this information. The system uses six panels of phased-array elements: two on each side of the fuselage, one in an enlarged nosecone and one under the tail. Each array consists of 768 liquid-cooled, solid-state transmitting and receiving elements, each of which is weighted in phase and amplitude. These elements are driven by individual modules and every eight modules are connected to a transmit/receive group. Groups of 16 of these eight module batches are linked back to what is described as a prereceive/transmit unit, and a central six-way control is used to switch the pre-transmit/receive units of the different arrays on a time division basis. As used in its Chilean Boeing 707-based application, the lateral fairings measured approximately 12 × 2 m and were mounted on floating beds to prevent airframe flexing degrading the radar accuracy. Each array scans a given azimuth sector, providing a total coverage of 360°. Scanning is carried out electronically in both azimuth and elevation. Radar modes include high PRF search and full track, track-while-scan, a slow scan detection mode for hovering and low-speed helicopters (using rotor blade returns) and a low PRF ship detection mode.

Instead of using a rotodome, a moving radar found on some AEW&C aircraft, the Phalcon uses the Active Electronically Scanned Array (AESA), an active phased array radar. This radar consists of an array transmit/receive (T/R) modules that allow a beam to be electronically steered, making a physically rotating rotodome unnecessary. AESA radars operate on a pseudorandom set of frequencies and also have very short scanning rates, which makes them difficult to detect and jam. Up to 100 targets can be tracked simultaneously to a range of 200 nmi (370 km), while at the same time, over a dozen air-to-air interception or air-to-ground attack can be guided. The radar can be mounted on the an aircraft's fuselage or on the top inside a small dome. Either position gives the radar 360 degree coverage. The phased array radar allows positions of aircraft on operator screens to be updated every 2–4 seconds, rather than every 20–40 seconds as is the case on the rotodome AWACS

Sa'ar 5-class corvette

Sa'ar 5 (Hebrew: tempest? ???) is a class of Israeli Navy corvette, designed based on lessons learned from the Sa'ar 4.5 class ships. Three Sa'ar 5 ships were built by Northrop Grumman Ship Systems (formerly Litton-Ingalls Shipbuilding Corporation of Pascagoula, Mississippi) for the Israeli Navy, based on Israeli designs.
Three such ships have been built, all of which are in service with the Israeli Navy. They are the most powerful warships in Israel's naval fleet. Although they are referred to as "corvettes", their weaponry and speed are comparable to that of a frigate. They are equipped with sonar, torpedoes, missile launchers, electronic warfare capabilities and decoys, a gun mount, and a helipad and helicopter hangar.

General characteristics

Class and type: Corvette

Complement:
64 officers and crewmen
10 aircrew

Sensors and
processing systems:
Elta EL/M-2218S air search radar
Elta EL/M-2221 fire-control radar
EDO Type 796 sonar
Rafael towed sonar array
Electronic warfare
and decoys:
Argon ST AN/SLQ-25 Nixie decoy
Elbit chaff rocket launchers
Rafael RF corner reflector
Elisra NS-9003A/9005 RWR

Armament:
8 RGM-84 Harpoon anti-ship missiles
64 Barak surface-to-air missiles
1 gun mount (Phalanx CIWS or Otobreda 76 mm)
6 Mark 32 torpedo tubes (Mark 46 torpedoes)
Armor: Steel and aluminum
Aircraft carried: Eurocopter Panther, unmanned helicopter
Aviation facilities: Helipad and helicopter hangar

UAVS & USAV

IAI Eitan

The IAI Eitan ("steadfast"), also known as Heron TP, is a reconnaissance Unmanned aerial vehicle (UAV) developed in Israel in the early 21st century by the Malat division of Israel Aerospace Industries.[2] The aircraft is a newer version of the IAI Heron
A medium-altitude, long endurance (MALE) UAV, the Eitan can operate at altitudes above commercial air traffic and features all-weather capability, de-icing systems, automatic takeoff and landing (ATOL) systems, and triple-redundant avionics. It is a high-wing cantilever monoplane with wings of high aspect ratio. Booms extend rearward from the wings and carry twin tails that are joined by a common horizontal stabiliser. The main units of the tricycle undercarriage retract into the tail booms, and the nosewheel retracts into the fuselage. A single turboprop engine is mounted in the rear fuselage, driving a pusher propeller. Construction throughout is of composite materials.

IAI Harop

The IAI Harop (or IAI Harpy 2) is an unmanned combat air vehicle (UCAV) developed by the MBT division of Israel Aerospace Industries. Rather than holding a separate high-explosive warhead, the drone itself is the main munition. This hunter-killer is designed to loiter the battlefield and attack targets by self-destructing into them. IAI developed the Harop for suppression of enemy air defense (SEAD) missions

The IAI Harop is a larger version of the IAI Harpy and is launched from ground- or sea-based canisters, but can be adapted for air-launch. Unlike the fully-autonomous Harpy, however, the Harop is controlled in flight by a remote operator. The Harop features two guidance modes: it can either home in on radio emissions by itself with its anti-radar homing system, or the operator can select static or moving targets detected by the aircraft's electro-optical sensor. This latter mode allows the Harop to attack radars that are presently shut down and therefore not providing emissions for the aircraft to automatically home in on

Elbit Hermes 900

The Elbit Systems Hermes 900 is an Israeli medium size multi-payload unmanned aerial vehicle (UAV) designed for medium altitude long endurance (MALE) tactical missions. It has an endurance of over 30 hours, can fly at a maximum altitude of 30,000 feet, with a primary mission of reconnaissance, surveillance and communications relay. The Hermes 900 has a wingspan of 15 m and weighs 970 kg, with a payload capability of 300 kg.

In May 2010, Elbit announced that it had won a US$50 million three-year contract to supply the Hermes 900 to the Israeli Air Force (IAF). The Hermes 900 has full interoperability and maintenance capability with the Elbit Hermes 450 UAVs already in service with the IAF. It is assumed that the UAV will also be adapted for use as an assault UAV.

Elbit Skylark

Elbit Systems Skylark I and Skylark II are small unmanned aerial vehicles developed by Elbit Systems.

Skylark I

Skylark I is a miniature unmanned aerial vehicle. It is designed as a manpacked system for tactical surveillance and reconnaissance. Skylark is launched by hand. The payload consists of daylight CCD or optional FLIR for night operations. During operation, it sends real-time video to a portable ground station. Recovery involves a deep stall maneuver, landing on a small inflatable cushion. It has a range of 10 km.
Skylark is in operation with the militaries of Australia, Canada, Croatia, Czech Republic, Hungary, Israel, Macedonia, Netherlands, Poland, Slovakia and Sweden. It has been deployed in Afghanistan and Iraq. The Skylark I has also been selected by France's Special Forces in March 2008.

Skylark II

Skylark II was unveiled in 2006. It has a range of 60 km and designed to be operated by a two-person crew and deployed using HMMWV class field vehicles. In December 2007, South Korea decided to purchase Skylark II system.

Protector USV

The Protector unmanned surface vehicle (USV) was developed by the Israeli Rafael Advanced Defense Systems in response to emerging terrorist threats against maritime assets such as the USS Cole bombing, and is the first operational combat USV in service. It was first deployed by the Republic of Singapore Navy in support of coalition forces in the Persian Gulf and later in anti-piracy duties in the Gulf of Aden

Based on a 9 metre (30-foot) rigid-hulled inflatable boat, the Protector is stealthy, fast and highly maneuverable. The vessel's low profile upper structure is sealed and aerodynamic, and its modular platform design allows it to be reconfigured to meet changing mission requirements, such as force protection, anti-terror, surveillance and reconnaissance, mine and electronic warfare. The hull is a deep V-shaped planing hull, with the inflatable section providing stability and endurance. A single diesel engine drives water jets, allowing speeds of 50 knots (92.6 km/h; 57.5 mph).

The Protector offers enhanced surveillance, identification and interception capabilities. It is equipped with a Mini-Typhoon stabilized weapon system, a TOPLITE electro-optic surveillance and targeting system with day and night targeting capabilities through the use of forward looking infrared, charge-coupled devices and laser rangefinders, as well as a public address system.

The Protector is remotely controlled and can be operated with guidance from a commander and operator located ashore or aboard a manned vessel.This allows it to provide the first line of defense, inspecting vessels of interest while personnel and capital assets are held at a safe distance.

General specifications

Length: 9 metres (29 ft 6.3 in)
Engine: Diesel
Propulsion: Water jet
Speed: 50 knots (92.6 km/h; 57.5 mph)
Navigation: Radar, GPS and INS
Sensors: TOPLITE electro-optic surveillance and targeting system (incorporating FLIR, Digital CCD surveillance camera and laser rangefinders)
Armament: Mini-Typhoon stabilized weapon system

VIPeR

VIPeR is a military robot developed by the Israeli company Elbit Systems and intended for use in warfare. It was unveiled in March, 2007.
For mobility, the VIPeR uses a pair of combined wheel/track systems (called the "Galileo Wheel" system, a patented technology by Galileo Mobility Instrument of Israel) that change shape to adapt to terrain, and a "tail" which give it the balance to go up stairs, and turn itself over. It can also move around in city environments. Always alert and undeterred by stairs, rubble, dark alleys, caves or narrow tunnels, VIPeR is a highly effective partner for dismounted soldiers, keeping them out of harm's way by detecting IEDs and booby traps and warning them of enemies and dangers ahead.
Another feature of this robot is its ability to be packed small, it is a robot that can be carried by one man, in a backpack, including all of its gear. Elbit had made VIPeR to weigh only around 11 kg.

The intelligent, small-signature VIPeR can also be configured with weapons capability. The system is remotely controlled via a control harness and helmet mounted display. Optional payloads include: P&T, FLIR, observation day/night zoom camera, explosives sniffer, disrupter, 9 mm mini-Uzi with scope and pointer, grenade releaser, 4-foot robotic arm, gripper, in-building mapping and more.

Current plans call for the VIPeR to be used by special forces units and regular infantry, for situations especially dangerous to human soldiers such as exploring caves and tunnels. The robot is remote-controlled, rather than being an autonomous robot

FUTURE MISSILES

Jericho 3

It is estimated that the Jericho III entered service in 2008. The Jericho III is believed to have a three-stage solid propellant and a payload of 1,000 to 1,300 kg. It is possible for the missile to be equipped with a single 750 kg nuclear warhead or two or three low yield MIRV warheads. It has an estimated launch weight of 30,000 kg and a length of 15.5 m with a width of 1.56 m. It may be similar to an upgraded and re-designed Shavit space launch vehicle, produced by Israel Aerospace Industries. It probably has longer first and second-stage motors. It is estimated that it has a range of 4,800 to 11,500 km (2,982 to 7,180 miles), and probably significantly greater with a smaller payload of 350 kg (the size of one smaller Israeli nuclear warhead). It is believed that the Jericho 3 is inertial guided with a radar guided warhead and silo-based with mobile vehicle and railcar capabilities.

According to an official report which was submitted to the American congress in 2004, it may be that with a payload of 1,000 kg the Jericho III gives Israel nuclear strike capabilities within the entire Middle East, Africa, Europe, Asia and almost all parts of North America, as well as within large parts of South America and North Oceania. The range of the Jericho III also provides an extremely high impact speed for nearby targets, enabling it to avoid any ballistic missile defenses that may develop in the immediate region. On 17 January 2008 Israel test fired a multi-stage ballistic missile believed to be of the Jericho III type reportedly capable of carrying "conventional or non conventional warheads."

Delilah

The Delilah missile is a cruise missile developed in Israel by Israel Military Industries (IMI), built to target moving and re-locatable targets with a CEP of 1 metre (3 ft 3 in).

Delilah is an air-launched stand-off and cruise missile, with a turbo jet engine that allows the ability to loiter in order to enable it to target well-hidden threats, as well as attack moving targets, making it ideal in destroying SAM threats. It has a range of 250 km, and can destroy targets both on sea and on land. An autopilot onboard as well as an INS/GPS navigation system allows the missile to perform its mission autonomously; a data link enables intervention and target validation. The missile can be fitted with a variety of warheads and can be fitted to most aircraft.
It can be fired from aircraft, helicopter, or ground launcher. Its compact dimensions allow it to be carried by the Sikorsky UH-60A and SH-60B helicopters. It carries a small but effective warhead to allow it to destroy the target but minimize collateral damage.

This missile was first used in combat by Israel over Lebanon on July and August 2006, launched by an F-16D fighter aircraft.

The Delilah-GL is a ground-launched variation of the Delilah cruise missile, that has a range of 250 km. It is equipped with a 30 kg conventional explosive warhead but is capable of carrying other payloads, such as infrared target seeking and guidance devices. It is guided by GPS and has the ability to loiter in the target area, before confirming the target through real-time visual intelligence

Specifications
Weight 250 kilograms (550 lb)
Length 3.31 metres (10.9 ft)
Diameter 0.33 metres (1 ft 1 in)
Wingspan 1.15 metres (3 ft 9 in)
Operational
range 250 kilometres (160 mi)
Flight altitude 28,000 feet (8,500 m)
Speed Mach 0.3-0.7 (Dive: Mach 0.85)
Guidance
system CCD\IIR with GPS\INS
Accuracy 1 metre (3 ft 3 in) CEP
Launch platform aircraft, helicopter, ground launcher, sea launcher

Popeye Turbo SLCM

Popeye Turbo - a stretched version developed for use as a submarine launched cruise missile (SLCM), it is approx 6.25 m (20.5 ft) long and is reported to have at least a range of more than 320 km (200 miles) which is the range of the air launched version, a widely reported 2002 test in the Indian Ocean hit a target at 1500km, it can allegedly carry a 200kg nuclear warhead. It is suspected that the stretched Popeye Turbo is a strategic second strike nuclear deterrent weapon used aboard the Israeli Dolphin class submarines.

Naval Barak-8 / Barak-2 / LR-SAM / MR-SAM

Long-range missile and air defense system Capable of multiple simultaneous engagements in complex scenarios, it provides 360° defense, in all weather and day/night conditions, against a wide variety of airborne platforms and munitions from short and medium ranges
India inked a $1.1 billion deal with Israel in April 2009 for joint development of the Barak-8 tactical Air and Missile Defense (AMD).

The deal was announced in June 2009 by an Israeli official.

Deliveries are expected to start in 2017.

Technical Specifications
The Braak-8 missile system features a vertically launched active radar seeker missile with flexible dual pulse smokeless solid fuel motor that provides high maneuver capability at target interception range throughout the missile's wide envelope.

The missile provides all-weather, day/night engagements in complex saturation scenarios. The interceptor is vertically launched from a mobile ground launcher.

The missile's high agility is provided by a tungsten jet vane system for thrust vector control and a highly evolved electro-pneumatic control actuation system and a highly evolved electro-pneumatic control actuation system.

The missile is believed to have a range of 70 / 80 km and a ceiling of 16 km

The missile launcher comprises an eight-round module, three or more of which could make up a typical system.

The system is supported by the new EL/M-2258 Alpha Multi-Function Surveillance, Track & Guidance Radar (MF-STAR). The Active Electronic Steering Array (AESA) Radar System which includes single face rotating S-band Phased Array Antenna.

It uses the same S-band transmit/receive modules as the four-face, static EL/M-2248 developed for the Barak 8 system, but is a single-face radar with both mechanical and electronic scanning in azimuth.

It can deliver an accurate, high quality arena situation picture and discern low Radar Cross Section (RCS) targets even in the toughest environmental conditions (Heavy jamming and dense clutter) using pulse Doppler techniques, multiple beam forming and advanced high-PRF waveforms.

According to Elta, MF-STAR is able initiate tracks against sea-skimming missiles at ranges in excess of 25 km, and out to more than 250 km for a high-flying combat aircraft. It provides mid-course guidance to the Barak-8 missile till its active homing takes over.

The weapon system can engage 12 targets with 24 missiles.

Spyder

The SPYDER (Surface-to-air PYthon and DERby) is an anti-aircraft missile system developed by the Israeli company Rafael Advanced Defense Systems, which is fitted atop a Czech Tatra truck. It implements surface-to-air versions of the Python-5 and Derby missiles of the same company.

SPYDER is a quick reaction medium range missile system that can engage aircraft, helicopters, unmanned air vehicles, drones and precision-guided munitions. It provides air defence for fixed assets and for point and area mobile forces in combat areas.

The SPYDER-SR system has 360° engagement ability and missiles can be launched from the full-readiness state in less than five seconds after target confirmation. The kill range is up to 20 miles and at altitudes from a minimum of 50 ft to a maximum of 120,000 ft. The system can perform multi-target simultaneous engagement and single, multiple and ripple firing, by day and night, in all weathers.

The command and control unit is developed by Israel Aerospace Industries. It is housed in a truck-mounted shelter with a mounted Elta EL/M-2106 ATAR radar, identification friend or foe (IFF) interrogator and communication equipment. The VHF/UHF communication system is for internal squadron communication and to upper tier command. The Elta EL/M-2106 ATAR 3D surveillance radar can track up to 500 targets simultaneously. The radar has 360° operation and all-weather day and night ability. The radar includes advanced electronic counter-countermeasures (ECCM) to operate in dense hostile electronic warfare environments.

Specifications

Weight 103.6 kg
Length 3.1 m
Diameter 160 mm
Warhead 11 kg
Detonation
mechanism proximity
Engine solid fuel rocket motor
Wingspan 640 mm
Operational
range Python: >15 km; Derby: >35 km
Flight altitude Python: 9 km; Derby: 16 km
Speed Mach 4
Guidance
system Python: IR + 320×240 pixel dual waveband electro-optical imaging seeker, lock-on after launch, with infrared counter-counter-measures (IRCCM); Derby: active RF radar, infrared seeker
Launch platform Tatra chassis, Mercedes-Benz Actros or MAN TGS for Republic of Singapore Air Force

Tactical High Energy Laser(THEL)

On July 18, 1996, the United States and Israel entered into an agreement to produce a cooperative THEL called the Demonstrator, which would utilize deuterium fluoride laser chemical laser technologies. Primary among the four contractors awarded the project on September 30, 1996 are Northrop Grumman (formerly TRW). THEL conducted test firing in FY1998, and Initial Operating Capability (IOC) was planned in FY1999. However this was significantly delayed due to reorienting the project as a mobile, not fixed design, called Mobile Tactical High Energy Laser (MTHEL). The original fixed location design eliminates most weight, size and power restrictions, but is not compatible with the fluid, mobile nature of modern combat. The initial MTHEL goal was a mobile version the size of three large semi trailers. Ideally it would be further downsized to a single semi trailer size. However, doing this while maintaining the original performance characteristics is difficult. Furthermore, the Israeli government, which had been providing significant funding, decreased their financial support in 2004, postponing the IOC date to at least 2010.
In 2000 and 2001 THEL shot down 28 Katyusha artillery rockets and 5 artillery shells.

On November 4, 2002, THEL shot down an incoming artillery shell. A mobile version completed successful testing. During a test conducted on August 24, 2004 the system successfully shot down multiple mortar rounds. The test represented actual mortar threat scenarios. Targets were intercepted by the THEL testbed and destroyed. Both single mortar rounds and salvo were tested.

Even though military experts such as the former head of the Administration for the Development of Weapons and the Technological Industry, Aluf Yitzhak Ben Yisrael, were calling for the implementation of the THEL, the project was discontinued. During the 2006 Israel-Lebanon conflict, Ben Yisrael, currently the chairman of the Israeli Space Agency, renewed his calls to implement the THEL against.

Iron Dome

Iron Dome is a mobile air defense system in development by Rafael Advanced Defense Systems designed to intercept short-range rockets and artillery shells. The system was created as a defensive countermeasure to the rocket threat against Israel's civilian population on its northern and southern borders. It is designed to intercept very short-range threats up to 70 kilometers in all-weather situations. It was declared operational and initially deployed on March 27, 2011 near Beersheba

Specifications

The system is designed to counter short-range rockets and 155 mm artillery shells with a range of up to 70 kilometers. According to its manufacturer, Iron Dome will operate day and night, under adverse weather conditions, and can respond to multiple threats simultaneously.

Iron Dome has three central components:

Detection & Tracking Radar: the radar system is built by Elta, an Israeli defense company
Battle Management & Weapon Control (BMC): the control center is built by mPrest Systems, an Israeli software company, for Rafael.
Missile Firing Unit: the unit launches the Tamir interceptor missile, equipped with electro-optic sensors and several steering fins for high maneuverability. The missile is built by Rafael.

The system's radar detects the rocket's launch and tracks its trajectory. Then, the BMC calculates the expected hit point according to the reported data, and uses this information to determine whether the target constitutes a threat. If so, an interceptor missile is fired to detonate the rocket far from the expected impact area.

Specifications

Weight 90 kg (200 lb)
Length 3 m (9.8 ft)
Diameter 160 mm (6.3 in)
Detonation
mechanism Proximity fuze
Launch platform Three launchers, each carrying 20 interceptors.

David's Sling

David's Sling, also sometimes called Magic Wand is an Israel Defense Forces military system being jointly developed by the Israeli defense contractor Rafael Advanced Defense Systems and the American defense contractor Raytheon, designed to intercept medium- to long-range rockets and slower-flying cruise missiles, such as those possessed by Hezbollah, fired at ranges from 40 km to 300 km

The interceptor is a two-stage missile, with two targeting and guidance systems installed in its nose-tip (a radar and an electro-optic sensor). In 2006 Rafael was awarded a contract to develop a defense system to counter the threat of medium- to long-range rockets with ranges between 70 km and 250 km. In order to enable Israel to make use of the financial aid provided by the United States to further develop the system and to produce it, a partnership was established with Raytheon which will be developing missile firing unit and overall logistic system and assist Rafael with developing interceptor. In some of Raytheon's publications, the interceptor is referred to as "Stunner." The first live fire test of the missile is scheduled for 2010.

The increasing danger of rocket and missile fire against Israel (Qassam rocket fire from Gaza, Katyusha rocket fire from southern Lebanon, and Iran's ballistic missile arsenal) has led to the development of defense systems to counter this threat. In addition to the David's Sling system, which is designed to intercept medium- and long-range rockets, the Iron Dome system, with which it will be used in conjunction, has also been developed in order to intercept short-range rockets (4–70 km), while the Arrow missile, designed to intercept ballistic missiles, is already in use.

Specifications
Propellant two-stage missile
Guidance
system radar and an electro-optical

Arrow (I,II &III)

The Arrow system consists of the joint production hypersonic Arrow anti-missile interceptor, the Elta EL/M-2080 "Green Pine" early-warning AESA radar, the Tadiran Telecom "Golden Citron" ("Citron Tree") C3I center, and the Israel Aerospace Industries "Brown Hazelnut" ("Hazelnut Tree") launch control center. The system is transportable, as it can be moved to other prepared sites.

By August 2008 the United States and Israeli governments have initiated development of an upper-tier component to the Israeli Air Defense Network, known as Arrow 3, "with a kill ratio of around 99 percent". The development is based on an architecture definition study conducted in 2006-2007, determining the need for the upper-tier component to be integrated into Israel's ballistic missile defense system.

The new component will also require the integration of longer range detection, tracking and discrimination capability, beyond what the "Green Pine" and "Super Green Pine" radars employed with the Arrow 2 are providing. Among the advanced sensors considered for Israel's future multi-tier system, are airborne electro-optical sensors deployed on high flying unmanned aerial vehicles and future enhanced "Green Pine" radars, as well as the AN/TPY-2 radar already deployed in Israel, and operated by U.S forces.

Israel Aerospace Industries announced in June 2009, that the Arrow 3 patented exoatmospheric interception method includes a two-stage interceptor, like the Arrow 2, but purely based on hit-to-kill technology. Unlike most kill vehicles, which use liquid or gas propulsion, the new Israeli kill vehicle will be propelled by an ordinary rocket motor equipped with a thrust-vectoring nozzle.It will also be fitted with a gimbaled seeker for hemispheric coverage. By measuring the seeker’s line-of-sight propagation relative to the vehicle’s motion, the kill vehicle will use proportional navigation to divert its course and line up exactly with the target’s flight path.

According to numerous Israeli experts, namely Prof. Yitzhak Ben Yisrael, former director of the Israeli Administration for the Development of Weapons and Technological Infrastructure and currently the chairman of the Israeli Space Agency, it is also possible that the Arrow 3 could serve as an anti-satellite weapon.

Specifications

Warhead Directed high explosive fragmentation
Warhead weight 150 kg (330 lb)
Detonation
mechanism Proximity fuze

Engine Two-stage
Wingspan 820 mm (32 in)

Propellant Solid propellant

Operational
range 90 km (56 mi) – 148 km (92 mi)
Flight ceiling 50 km (31 mi) – 60 km (37 mi)

Speed Mach 9, means 2.5 km/s (1.6 mi/s)

Guidance
system Dual mode: passive infrared seeker and active radar seeker

Steering
system Thrust vectoring and four aerodynamic control moving fins

Accuracy Within 4 m (13 ft) of the target

Launch
platform Six canisters per trailer-mounted erector–launcher

Spike

Spike is a fourth generation man-portable fire-and-forget anti-tank guided missile with tandem-charged HEAT warhead, developed and designed by the Israeli company Rafael Advanced Defense Systems and in service with a number of nations.

Lockheed Martin F-35I

F-35A with Israeli modifications. A senior Israel air force official stated "the aircraft will be designated F-35I, as there will be unique Israeli features installed in them". The United States will not allow for the integration of Israel's own electronic warfare systems into the aircraft’s built-in electronic suite. However, a plug-and-play feature added to the main computer will allow for use of Israeli electronics in an add-on fashion. Israel will be able to fit its own external jamming pod and plans to install its own air-to-air missiles and guided bombs in the F-35’s internal weapon bays
Specifications

General characteristics
Crew: 1

Armament
Guns: 1 × General Dynamics GAU-22/A Equalizer 25 mm (0.984 in) 4-barreled gatling cannon, internally mounted with 180 rounds
Hardpoints: 6 × external pylons on wings with a capacity of 15,000 lb (6,800 kg) and 2 internal bays with 2 pylons each for a total weapons payload of 18,000 lb (8,100 kg)[ and provisions to carry combinations of:

Missiles:
Air-to-air missiles:
AIM-120 AMRAAM
AIM-132 ASRAAM
AIM-9X Sidewinder
IRIS-T
MBDA Meteor (Pending further funding)
JDRADM (after 2020)

Air-to-surface missiles:
AGM-154 JSOW
AGM-158 JASSM
Brimstone missile
Joint Air-to-Ground Missile
Anti-ship missiles:

JSM

Bombs:
Mark 84, Mark 83 and Mark 82 GP bombs
Mk.20 Rockeye II cluster bomb
Wind Corrected Munitions Dispenser capable
Paveway-series laser-guided bombs
Small Diameter Bomb (SDB)
JDAM-series

Avionics
Northrop Grumman Electronic Systems AN/APG-81 AESA radar
Northrop Grumman Electronic Systems AN/AAQ-37 Distributed Aperture System (DAS) missile warning system

ISRAEL'S own avionics & electronic warfare suite.

F-16I Sufa

The F-16I nicknamed "Sufa" (Storm) is manufactured by "Lockheed Martin" and equipped with a "Pratt & Whitney" engine as well as advanced systems developed in Israel according to the IAF's specifications by the country's defense industries.
Conformal Fuel Tanks (CFT) - These tanks are manufactured by the "Israel Aircraft Industries" and increase the aircraft's amount of internal fuel by 50%. Their purpose is to significantly prolong the aircraft's flight range and ability to remain in the air. The tanks are installed the plane's back and conform to it's figure.

AGP-68(V)X Radar - Synthetic aperture radar (SAR) enabling the tracking of ground targets day or night, at any type of weather. The radar improves target-tracking performance and allows for automatic targeting instead of manual, thus saving valuable time. The radar also features improvements in the field of aerial targets including aquistion range and tracking quality.

Helmet Mounted Cueing System - An Israeli development. On top of the goggles which F-16I pilots and navigators wear is displayed various aircraft information such as height, speed and weapon systems data. This data be linked to the system, enabling the weapons to be launched on an enemy target using sight only. In addition, a camera mounted in the helmet records that which the pilot views allowing examining what the pilot saw in flight during debriefing.

Dorsal spine Avionics Compartment - An integral part of the advanced systems installed in the plane was developed precisely to the IAF's specifications by the country's defense industries. According to the IAF's traditions, The F-16I is equipped with advanced electronic warfare systems developed in Israel. These systems are improved models based on those installed in the F-15I. The aircraft features advanced Israeli communication systems as well.

600-gallon wing tanks - Improving the aircraft's range and persistence. The tanks are mounted on unejectable supports.

Satellite communication - The F-16I features two new communication devices manufactured by Elta and Rafael, including a UHF radio with new encoding methods and long distance relay capabilities

Primary Role:

Multi-role fighter

Dimensions:

Wingspan - 9.45 meters, With missiles - 10 meters. Length - 14.93 meters. Height - 5.10 meters

Capabilities:

High altitude speed - Over Mach 2, Low altitude speed - 1,440 KPH

Weight:

Empty - 10,000 Kg. Typical combat take-off (Fully fueled, with missiles and cannon ammunition ) - 12.8 tons. Maximum takeoff\touchdown weight: 23.5 tons.

Power Plant:

One Pratt & Whitney F100-PW-229 with a maximum trust of 29,1000 Lbs, Engine weight - 1,680 Kg, Thrust/Weight ratio - 8:1

Producer: Lockheed Martin

Service_year: 2004

Weapon:

Python 5 heat seeking air-to-air missiles by Rafael. AMRAM (AIM-120) Radar guided missiles, Lightning targeting and naviagation pod, LANTIRN navigation pod, JDAMs bomb.Delilah Stand-Off Precision Strike Missile,Popeye Lite (Have Lite)

Air-to-Surface Stand-Off Missile,Spice Stand-Off Precision Guidance Munition (PGM) Kit

Dolphin class AIP-capable OR "Dolphin II" class submarines

In 2005 Israel ordered two submarines, which are to be delivered in 2011 and 2012. These two new boats are similar to the highly advanced German U212 submarine and feature an air-independent propulsion (AIP) system. Israel is currently discussing a possible third submarine with Germany.

The submarines are believed to be capable of launching cruise missiles carrying nuclear warheads, despite statements by the German government in 2006, in confirming the sale of the two vessels, that they were not equipped to carry nuclear weapons. The two new boats are an upgraded version of the old Dolphins, and equipped with an Air-independent propulsion system, that allow them to remain submerged for longer periods of time than the three nuclear arms-capable submarines that have been in Israel's fleet since 1999. In October 2009 it was reported that the Israeli navy sought to buy a sixth Dolphin class submarine.

Various reports indicate that these submarines are equipped with Popeye Turbo cruise missiles that can deliver nuclear warheads with extremely high accuracy. The proven effectiveness of cruise missiles of its own production may have been behind Israel’s recent acquisition of these submarines which are equipped with torpedo tubes suitable for launching long-range (1500–2400 km) nuclear-capable cruise missiles that would offer Israel a second strike capability. Israel is reported to possess a 200 kg nuclear warhead, containing 6 kg of plutonium, that could be mounted on cruise missiles. The missiles were reportedly test launched in the Indian Ocean near Sri Lanka in June 2000, and are reported to have hit their target at a range of 1500 km.In June 2002, former State Department and Pentagon officials confirmed that the U.S. Navy observed Israeli missile tests in the Indian Ocean in 2000, and that the Dolphin-class vessels have been fitted with nuclear-capable cruise missiles of a new design.It is believed by some to be a version of Rafael Armament Development Authority’s Popeye turbo cruise missile while some believe that the missile may be a version of the Gabriel 4LR that is produced by Israel Aircraft Industries. However, others claim that such a range implies an entirely new type of missile.

This submarine performs the role of sea based nuclear deterreance for israel against IRAN & rightfully deserves NO-1 position.

Trophy (countermeasure)

Trophy (also known as ASPRO-A. is an active protection system (APS), designed to supplement the armor of both light and heavy armored fighting vehicles. It intercepts and destroys incoming missiles and rockets with a shotgun-like blast. Trophy is the product of a ten-year collaborative development project between the Rafael Advanced Defense Systems and Israel Aircraft Industries' Elta Group.

The system is currently being integrated onto Israeli Merkava main battle tanks in the Israeli Army. The design includes the Elta EL/M-2133[1] F/G band fire-control radar with four flat-panel antennas mounted on the vehicle, with a 360-degree field of view. When a weapon is fired at the vehicle, the internal computer uses the signal from the incoming weapon and calculates an approach vector. Once the incoming weapon is fully classified, the computers calculate the optimal time and angle to fire the neutralizers. The response comes from two rotating launchers installed on the sides of the vehicle. The launchers fire the neutralizing agents, which are usually small metal pellets like buckshot. The system is designed to have a very small kill zone, so as not to endanger troops adjacent to the protected vehicle.

The system is designed to work against all types of anti-tank missiles and rockets, including handheld weapons such as rocket propelled grenades. The system can simultaneously engage several threats arriving from different directions, is effective on stationary or moving platforms, and is effective against both short and long-range threats. Newer versions of the system include a reload feature for multiple firings. The Trophy development roadmap includes an enhanced countermeasure unit to be available in the future for protection against kinetic energy penetrators.

Advantages
The primary role of Trophy is defense against missile strikes, particularly for lighter armored personnel carriers, which are very vulnerable to rocket attacks. Use of Trophy on the Stryker vehicle will remove the need for the heavy slat armor to defend against high explosive antitank (HEAT) warheads, and allow a battle-ready vehicle to fit into a C-130 Hercules cargo aircraft; Slat armor must be removed before the vehicle is loaded into the plane and reattached at the destination. This process in turn takes over 100 hours of cutting and welding, making it impractical under combat conditions. In addition, the newer, smaller size will improve the vehicle's ability to negotiate urban areas.

Iron Fist (countermeasure)

Iron Fist is a hard-kill active protection system (APS) designed by Israel Military Industries (IMI), with a modular design allowing adaptation to a range of platforms ranging from light utility vehicles to heavy armoured fighting vehicles. The concept was revealed by IMI in 2006 and was expected to enter Israel Defense Forces tests by mid 2007. The system has already been successfully tested against a wide variety of threats including rocket-propelled grenades, anti-tank guided missiles and tank-fired HEAT ammunition and kinetic energy penetrators.

It senses incoming threats via a fixed radar sensor developed by RADA Electronic Industries and an optional passive infrared detector developed by Elbit's Elisra. When a threat is imminent, an explosive projectile interceptor is launched towards it. The interceptor explodes very near the threat, destroying or deflecting and destabilizing it without detonating its warhead. For this, only the blast effect of the explosive is used. The interceptor casing is made of combustible materials so no fragmentation is formed in the explosion, helping minimize collateral damage.

Iron Fist is a hard-kill active protection system (APS) designed by Israel Military Industries (IMI), with a modular design allowing adaptation to a range of platforms ranging from light utility vehicles to heavy armoured fighting vehicles. The concept was revealed by IMI in 2006 and was expected to enter Israel Defense Forces tests by mid 2007. The system has already been successfully tested against a wide variety of threats including rocket-propelled grenades, anti-tank guided missiles and tank-fired HEAT ammunition and kinetic energy penetrators.

It senses incoming threats via a fixed radar sensor developed by RADA Electronic Industries and an optional passive infrared detector developed by Elbit's Elisra. When a threat is imminent, an explosive projectile interceptor is launched towards it. The interceptor explodes very near the threat, destroying or deflecting and destabilizing it without detonating its warhead. For this, only the blast effect of the explosive is used. The interceptor casing is made of combustible materials so no fragmentation is formed in the explosion, helping minimize collateral damage.

Matador

MATADOR (Man-portable Anti-Tank, Anti-DOoR) is a 90 mm (3.5 in) man-portable, disposable anti-armor weapon system developed in a collaboration between Singapore and Israel. It is an updated version of the German Armbrust design, and operates on the same principles.

Lahat

The LAHAT (Laser Homing Attack or Laser Homing Anti-Tank, also a Hebrew word for incandescence) is a third generation semi-active laser homing low-weight anti-tank guided missile developed since 1992 and manufactured by Israel Aerospace Industries. It was designed primarily to be fired by Merkava tanks' 105 mm and 120 mm tank guns, though it matches all types of 105 mm and 120 mm guns, including low recoil guns, low-weight guns of military armoured cars. Also suitable for patrol ships, possibly modified for 105-106 mm recoilless rifles, UAVs, HMMWVs, SPAAGs.[1] Unlike other tank rounds, LAHAT does not need a tank gun for operation.

Pilum

Israel and Germany are jointly developing a smart missile that could be sold together with the Eurofighter currently in service worldwide, including in Saudi Arabia.

The air-to-ground missile, called PILUM, is under development by Israel’s Rafael Advanced Defense Systems and Germany’s Diehl, and is based on Rafael’s Spice missile which has the reported ability to hit targets while aircraft are positioned at a standoff range of 100 kilometers away.

The twin-engine Eurofighter is currently in use in the UK, Germany, Italy, Spain, Austria and Saudi Arabia. It was unclear if the new missile would be offered to all Eurofighter operators – including Saudi Arabia – or if Israel would condition its participation in the development on banning the missile from being sold to Arab countries.

The new missile is unique in its ability to hit targets by using a GPS satellite guidance system, or alternatively with electro-optical guidance – meaning that the pilot or navigator can direct the missile towards its target by watching live video footage as the missile speeds towards it.

Diehl said that the dual-targeting systems make the PILUM an ideal weapon for use in operations when targets are on the move. The Spice is operational in the Israeli Air Force and is configured to be launched from F- 16 and F-15 fighter jets.

The PILUM, Diehl said, could be used against ships, enemy radar positions as well as air defense systems.

“It opens new possibilities of flexible mission planning and execution in view of rapidly changing air-to-ground scenarios,” the German company said.

A decision to develop the new missile was concluded a few months ago and a sketch of it was unveiled in late June at the Paris Air Show.

The primary advantage of the missile is the ability to use two different systems to bomb targets. For example, in the event that satellite systems are not working during a future conflict, an operator will be able to upload a picture of a target into the missile, which, using unique scene-matching algorithms, adjusts the missile’s flight path to find the target.positioned at a standoff range of 100 kilometers away.

Spice

The "SPICE" (Smart, Precise Impact, Cost-Effective) is an Israeli-developed, EO\GPS-guided guidance kit for converting air-droppable unguided bombs into precision guided bombs.

he "Spice" munition is more advanced than most EO-guided bombs (GBU-15, for example), since it combines the advantages of satellite guidance (such as the ability to engage camouflaged and hidden targets; to provide a "drop-and-forget" option for several such targets simultaneously; and to operate in all weather and lighting conditions) and those of electro-optical guidance (such as the ability to provide "man-in-the-loop" guidance for extremely high precision; the ability to engage relocatable targets; lower CEP than that of satellite-guided munitions; and independence from external information sources like satellites) into one bomb – reducing the amount of munitions (and hence, payload) that an aircraft has to carry for a given strike mission, increasing its combat radius and maneuverability. This multiple guidance methods selectability is especially important in an "information warfare" battlefield, where an aircraft might approach a surface target while it is, for example, masked with smoke (in which case satellite guidance would be required) or moving around (in which case electro-optical guidance would be required).

Another advantage of the "Spice" is its ability to be fed, preflight, with up to 100 different targets it may have to engage. The one target it will actually engage may then be selected, inflight, by an aircrewman.

Since it has a total of 12 control surfaces in 3 groups (fore, mid-body and tail), the "Spice" has a relatively very long glide range, of about 60 kilometers. This allows a striking aircraft to release a bomb at a target without entering the threat envelope of most short- and medium-range air defense systems which might protect it. This is achieved while saving the higher costs associated with propelled munitions

Tammuz

The advanced weapon was developed and designed by Rafael Advanced Defense Systems Ltd., and is currently being used by the Artillery Corps in the Gaza Strip.

The Tammuz is an electro-optical rocket capable of transmitting photos mid-flight, tracking the target and changing the flight accordingly, all with the help of wireless communication.
“The missile had been fired in the past at dozens of targets and found to be very useful against terror units and armored facilities both during day and night,” a senior Artillery Corps officer said.

Aside from the Tammuz missile, the Artillery Corps introduced other weapons during an exhibition Monday including the Unmanned Aerial Vehicle Skylark.


Defence.pk

1 comment:

  1. amazing weapons of israel which india can go a long way in joint venture for procuring for the three indian forces

    ReplyDelete

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