Python (missile)


The Rafael Python is a family of air-to-air missiles built by the Israeli weapons manufacturer Rafael Advanced Defense Systems, formerly RAFAEL Armament Development Authority. Originally starting with the Shafrir series, the Shafrir-1 missile was developed in 1959, followed by the Shafrir-2 in early 1970s. Subsequently, the missiles were given the western name of "Python" by the parent company for export purposes, starting with the Python-3 in 1978. Since then, it has been further developed and evolved into the Python-4, Python-5, Derby and also, the SPYDER, an advanced ground-based air-defence system. Currently, the missiles are in service with the armed forces of over fifteen countries from around the world.

Design and development

In the 1950s, the Israeli Air Force submitted requirements for a domestically made air-to-air missile, to promote domestic defense industry and reduce reliance on imports. Rafael Armament Development Authority was contracted to develop the Shafrir in 1959. The missile entered operational status with Israeli Mirage jets in 1963, but the IAF was unhappy with its performance and no air combat kills were achieved with it during the Six-Day War, kills being made with guns instead. The improved Shafrir-2 was soon introduced in 1971, and it proved to be one of the most successful air-to-air missiles ever made. During the 1973 Yom Kippur War, the IAF launched 176 Shafrir-2 missiles, destroying 89 enemy aircraft. The Shafrir-2 was exported along with Israeli-made aircraft to South American countries.
After the Shafrir-2, the new missiles made by Rafael were given the western name of Python. This is why the next missile built by Rafael in early 1970s was named Python-3, but there is no Python-1 or Python-2. The Python-3 has improved range and all-aspect attack ability, it proved itself before and during the 1982 Lebanon War, destroying 35 enemy aircraft. The People's Republic of China was impressed with its performance and license-built the Python-3 as the PiLi-8 AAM.
Further improvements to the Python-3 led to the development of Python-4 in mid-1980s, which added the option for helmet-sight guidance. In the 1990s Rafael started development on the Python-5 AAM, which was equipped with an advanced electro-optical imaging seeker with lock-on after-launch ability. The new missile was show-cased in 2003 Paris Air Show, and intended for service with IAF the F-15I Ra'am and the F-16I Sufa.
The Python-5 is said to have full sphere launch ability or is an all-aspect missile, meaning it can be launched at a target regardless of the target's location relative to the direction of the launching aircraft. It can lock onto targets after launch, even when they are up to 100 degrees off the boresight of the launching aircraft.

Variants

Shafrir-1

The Shafrir-1 was developed in 1959–1964 to fulfill IAF's requirement for a domestic air-to-air missile. It was intended to build the domestic defense industry's abilities, and reduce reliance on foreign imports. The fear of foreign dependence was later proven when France banned arms export to Israel.
The Shafrir-1 was intended for use on French-built Mirage III jets. The first testing took place in France in 1963. However the missile's performance was so poor that work immediately started on the next improved version, the Shafrir-2.
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  • Guidance: IR
  • Warhead: blast explosive, later
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  • Speed: Mach 1.7

    Shafrir-2

The Shafrir-2 was credited with 89 kills in the 1973 Yom Kippur War. During its whole service life, it is credited with a total of 106 kills.
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  • Speed: Mach 2.1

    Python-3

The Python-3 is a much-improved AAM with all-aspect attack ability, higher speed, range, and performance. It performed well before and during the 1982 Lebanon War, scoring 35 kills.
China's People's [Liberation Army Air Force|PLAAF] was quite impressed with this missile, and paid for licensed production as the PL-8 AAM in the 1980s. The program code named "Number 8 Project" and formally started on September 15, 1983. From March 1988 to April 1989, technology transfer to China was complete while license assembly and license built parts continued, and by the spring of 1989, the complete domestic Chinese built missile received state certification. The major supplier of the missile was Xi'an Eastern Machinery Factory located at Xi'an, and China is also reported to have developed a helmet-mounted sight system for the PL-8.
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  • Guidance: IR
  • Warhead:, active proximity fuse
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  • Speed: Mach 3.5

    Python-4

The Python-4 is a 4th generation AAM with all-aspect attack ability, and integration with a helmet-mounted sight system. It entered service in the 1990s, and like its predecessor Python-3, it is integrated with the Elbit Systems DASH HMS system for Israeli F-15s and F-16s, Chilean F-16s, F-5E/F Tiger III, South American Kfirs and the SAAB JAS 39 Gripen. The missile's seeker is reported to use dual band technology array similar to that of US FIM-92 Stinger, with IRCCM ability to reduce background IR radiation to reduce the effectiveness of enemy flares.
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  • Guidance: IR
  • Warhead:, active laser proximity fuse with back-up impact fuse
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  • Speed: Mach 3.5 or more

    Python-5

The Python-5 is currently the most capable visual range air-to-air missile in Israel's inventory. As a short range air-to-air missiles, it is capable of "lock-on after launch", and has full-sphere/all-direction attack ability. The missile features an advanced seeker which includes an electro-optical and imaging infrared homing seeker which scans the target area for hostile aircraft, then locks-on for terminal chase, and a complex design utilizing a total of eighteen aerodynamic surfaces. The Python-5 was first used in combat during the 2006 Lebanon War, when it was used by F-16 Fighting Falcons to destroy two Iranian-made Ababil UAVs used by the Hezbollah.
On 13 May 2021, an Israeli F-16 shot down a Hamas operated Shahed suicide drone with a Python-5 air-to-air missile.
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  • Guidance: IR + electro-optical imaging
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  • Speed: Mach 4

    Other Python developments

Derby

Also known as the Alto, the Derby missile is a BVR, medium-range active radar homing missile. Though technically not part of the "Python" family, the missile is an enlarged version of the Python-4 with an active-radar seeker.
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  • Speed: Mach 4

    I-Derby ER

In June 2015, Rafael confirmed the existence of the I-Derby-ER, an extended range version of the Derby that increases range to, after a "Python 6" version based on an air-launched Stunner missile was abandoned. To achieve greater range, a dual-pulse solid rocket motor is added, where the secondary pulse of energy as the missile nears the target extends flight time. It also combines the seeker and fuse into an integrated sensor and fusing system to make room for the new motor.
In May 2019, it was reported that India was planning to arm its Sukhoi Su-30MKI fighters with I-Derby ER missiles to replace its R-77 missiles. Previously, in 2018, it had already been selected for the Indian Air Force's HAL Tejas fighter.

SPYDER

The SPYDER is an advanced ground-based anti-aircraft missile system developed by Rafael that uses surface-to-air versions of the Python-5 and Derby missiles.

Operators

Current operators

  • – Shafrir-2.
  • – Python-3.
  • – Python-3, Python-4 and Derby.
  • – Shafrir-2, Python-3, Python-4 and Derby.
  • – Python-3 |PiLi-8.
  • – Shafrir-2, Python-3/4, Python-5 and Derby.
  • – Shafrir-2, Python-3/Python-4, Python-5 and Derby.
  • – Shafrir.
  • – Python-5 and Derby missiles delivered as part of SPYDER system.
  • – Shafrir-2.
  • – Python-4 and Python-5 and I-Derby ER.
  • – Shafrir-1/2, Python-4 and Python-5,.
  • – Python-5 and Derby with solid rocket booster.
  • – Python-3.
  • – Python-4 and Python-5 and Derby missiles. As of 2023, Python-V are used on RSAF F-16C/D+ fighters.
  • – Shafrir-2.
  • – Python-4.
  • – Python-4.
  • – Python-5 and Derby.

    Former operators

  • – Python-3, Derby.

    Future operators

  • – I-Derby ER.