Denel (Atlas) Cheetah

The Denel (Atlas) Cheetah is a South African multirole fighter aircraft developed from the Mirage III, featuring advanced avionics and enhanced combat capabilities.

In brief

The Denel (Atlas) Cheetah is a supersonic multirole fighter aircraft derived from the French Mirage III. It is equipped with a SNECMA Atar 09K50 turbojet engine, providing a maximum thrust of 15,870 lbf (70.6 kN). The aircraft can reach a maximum speed of Mach 2.2 and has a range of 810 miles (1,300 km). The Cheetah is armed with a variety of weapons, including air-to-air and air-to-ground missiles, bombs, and a 30mm DEFA cannon. It features advanced avionics, radar systems, and a reinforced airframe, making it suitable for a wide range of missions, including air superiority, ground attack, and reconnaissance.

History of the Development of the Denel (Atlas) Cheetah

The development of the Denel (Atlas) Cheetah began in the early 1980s, a period marked by significant geopolitical tensions in Southern Africa. South Africa faced increasing military challenges from neighboring countries and internal resistance movements, necessitating a robust and capable air defense system. At the same time, international arms embargoes, particularly those imposed by the United Nations due to apartheid, severely restricted South Africa’s ability to procure advanced military equipment from abroad.

In response to these challenges, the South African government decided to upgrade its existing fleet of Mirage III aircraft, which had been in service since the 1960s. The Mirage III was a proven platform, but advancements in avionics, weapons systems, and airframe technology meant that it needed significant modernization to remain effective in the face of new threats. The decision was made to develop a new variant of the Mirage III, incorporating the latest technologies and capabilities.

The project was undertaken by Atlas Aircraft Corporation, later known as Denel Aeronautics, a South African aerospace company. The objective was to create a multirole fighter that could perform a wide range of missions, including air superiority, ground attack, and reconnaissance. The development program, launched in 1983, aimed to extend the operational life of the Mirage III and provide the SAAF with a cutting-edge combat aircraft.

The first prototype of the Cheetah, designated the Cheetah D, made its maiden flight on July 22, 1986. The Cheetah D was a two-seat variant used primarily for training and conversion purposes. It featured significant upgrades over the Mirage III, including advanced avionics, a more powerful engine, and improved aerodynamics. The successful flight of the Cheetah D marked a significant milestone in the program, demonstrating the feasibility of the upgrades and modifications.

Following the Cheetah D, the single-seat Cheetah E variant was developed. The Cheetah E, which first flew in 1987, was designed for air superiority and ground attack missions. It featured further enhancements, such as a new radar system, advanced electronic warfare capabilities, and compatibility with a wider range of weapons. The Cheetah E entered service with the SAAF in the late 1980s, providing a significant boost to South Africa’s air combat capabilities.

The final variant, the Cheetah C, was introduced in the early 1990s. The Cheetah C represented the pinnacle of the Cheetah program, incorporating the most advanced technologies and systems available. It featured a new glass cockpit, a modern radar system, and an upgraded engine, providing superior performance and combat effectiveness. The Cheetah C also had an improved airframe, allowing for greater maneuverability and endurance.

The NATO reporting name “Cheetah” was assigned to the aircraft, reflecting its agility and speed. The Cheetah program successfully extended the operational life of the Mirage III fleet while significantly enhancing its capabilities. The aircraft played a crucial role in maintaining South Africa’s air defense during a period of regional instability and international isolation.

The development of the Cheetah was not without challenges. The arms embargoes imposed significant limitations on the availability of advanced technologies and components. However, the ingenuity and resourcefulness of South African engineers and technicians enabled the successful integration of available technologies and the development of indigenous solutions.

Design of the Denel (Atlas) Cheetah

The design of the Denel (Atlas) Cheetah is characterized by its advanced avionics, reinforced airframe, and versatile weapon systems, making it a capable multirole fighter aircraft. The Cheetah was developed from the Mirage III, but significant modifications and upgrades were made to enhance its performance and combat effectiveness.

One of the most notable features of the Cheetah is its advanced avionics suite. The aircraft is equipped with a modern glass cockpit, featuring multi-function displays (MFDs) that provide the pilot with real-time information on flight status, navigation, and mission parameters. The MFDs allow for better situational awareness and ease of operation, enabling pilots to manage complex combat scenarios more effectively.

The Cheetah also features an advanced radar system, providing superior target detection and tracking capabilities. The radar system allows the Cheetah to engage multiple targets simultaneously and operate effectively in both air-to-air and air-to-ground missions. The radar’s advanced features include look-down/shoot-down capability, enabling the Cheetah to detect and engage low-flying targets, such as enemy aircraft and cruise missiles.

The airframe of the Cheetah has been significantly reinforced to enhance its durability and maneuverability. The aircraft features a delta wing configuration, similar to the Mirage III, but with improved aerodynamics and structural strength. The reinforced airframe allows the Cheetah to withstand higher G-forces during combat maneuvers, providing superior agility and survivability.

The Cheetah is powered by a SNECMA Atar 09K50 turbojet engine, which provides a maximum thrust of 15,870 lbf (70.6 kN). The engine is equipped with an afterburner, allowing the aircraft to achieve supersonic speeds. The Cheetah can reach a maximum speed of Mach 2.2 (approximately 1,450 mph or 2,335 km/h) at high altitude, making it one of the fastest aircraft in its class.

The aircraft’s fuel capacity has been increased to extend its range and endurance. The Cheetah can carry up to 1,200 gallons (4,500 liters) of fuel internally, with the option to carry additional external fuel tanks for longer missions. This increased fuel capacity allows the Cheetah to achieve a maximum range of 810 miles (1,300 km) without refueling, providing greater operational flexibility.

The Cheetah’s armament includes a variety of air-to-air and air-to-ground weapons, making it a versatile multirole fighter. The aircraft is equipped with a 30mm DEFA cannon for close-range combat, capable of firing 1,200 rounds per minute. The Cheetah also features multiple hardpoints for carrying missiles, bombs, and rockets. Its air-to-air missile options include the V3B Kukri and V4 R-Darter, providing effective engagement capabilities against enemy aircraft.

For air-to-ground missions, the Cheetah can carry a range of bombs and rockets, including precision-guided munitions for increased accuracy. The aircraft’s advanced avionics and targeting systems enable it to conduct effective ground attacks, including close air support and interdiction missions.

The Cheetah’s electronic warfare capabilities have been significantly enhanced, providing better protection against enemy radar and missile threats. The aircraft is equipped with radar warning receivers (RWRs), electronic countermeasures (ECMs), and chaff/flare dispensers, allowing it to detect and evade incoming threats. These advanced defensive systems increase the Cheetah’s survivability in contested environments.

Despite its many advantages, the Cheetah has some drawbacks. The aircraft’s design, based on the Mirage III, limits its potential for further upgrades compared to more modern fighter platforms. Additionally, the Cheetah’s single-engine configuration, while providing adequate performance, may be seen as less reliable than twin-engine designs in terms of redundancy and safety.

Performance of the Denel (Atlas) Cheetah

The performance of the Denel (Atlas) Cheetah is a key aspect that highlights its capabilities as a multirole fighter aircraft. The combination of a powerful engine, advanced avionics, and versatile weapon systems allows the Cheetah to excel in various combat scenarios, including air superiority, ground attack, and reconnaissance missions.

The Cheetah is powered by a SNECMA Atar 09K50 turbojet engine, which provides a maximum thrust of 15,870 lbf (70.6 kN). This engine is equipped with an afterburner, enabling the aircraft to achieve supersonic speeds. The maximum speed of the Cheetah is Mach 2.2, which is approximately 1,450 mph (2,335 km/h) at high altitude. This high-speed capability allows the Cheetah to engage enemy aircraft effectively and evade potential threats.

The aircraft’s rate of climb is another notable performance characteristic. The Cheetah can climb at a rate of 40,000 feet per minute (203 meters per second), allowing it to reach its operational altitude quickly. The service ceiling of the Cheetah is 58,000 feet (17,700 meters), providing it with the ability to operate at high altitudes and avoid lower-level threats.

The Cheetah’s range and endurance have been enhanced through increased fuel capacity. The aircraft can carry up to 1,200 gallons (4,500 liters) of fuel internally, with the option to carry additional external fuel tanks for extended missions. The maximum range of the Cheetah is 810 miles (1,300 km) without refueling, providing sufficient reach for regional operations. For longer missions, aerial refueling capabilities can be utilized to extend the aircraft’s range and endurance.

The Cheetah’s maneuverability is another key aspect of its performance. The reinforced airframe and delta wing configuration provide excellent agility, allowing the aircraft to perform high-G maneuvers during combat. The aircraft’s design enables it to achieve a maximum G-load of +8 and -3, providing the pilot with the ability to execute tight turns and evasive actions.

The Cheetah’s avionics suite significantly enhances its combat performance. The aircraft is equipped with a modern glass cockpit, featuring multi-function displays (MFDs) that provide real-time information on flight status, navigation, and mission parameters. The advanced radar system, with look-down/shoot-down capability, allows the Cheetah to detect and engage multiple targets simultaneously. The radar’s range and resolution provide effective target tracking and engagement capabilities, enhancing the aircraft’s situational awareness.

In terms of armament, the Cheetah is equipped with a variety of weapons for both air-to-air and air-to-ground missions. The aircraft’s primary air-to-air weapon is the V3B Kukri short-range missile, which provides effective engagement capabilities against enemy aircraft. For longer-range engagements, the Cheetah can be equipped with the V4 R-Darter missile, offering extended reach and precision targeting.

The Cheetah’s air-to-ground capabilities include a range of bombs and rockets, including precision-guided munitions for increased accuracy. The aircraft’s advanced targeting systems enable it to conduct effective ground attacks, including close air support and interdiction missions. The 30mm DEFA cannon, with a firing rate of 1,200 rounds per minute, provides the Cheetah with a formidable close-range weapon for both air and ground targets.

The electronic warfare capabilities of the Cheetah further enhance its performance. The aircraft is equipped with radar warning receivers (RWRs), electronic countermeasures (ECMs), and chaff/flare dispensers. These systems provide effective protection against enemy radar and missile threats, increasing the aircraft’s survivability in contested environments.

When compared to other aircraft in its class, the Cheetah’s performance is competitive. For example, the F-16 Fighting Falcon, a widely used multirole fighter, has a maximum speed of Mach 2.05 and a range of 2,622 miles (4,220 km) with drop tanks. While the F-16 offers a longer range, the Cheetah’s advanced avionics and weapon systems provide comparable combat effectiveness. Additionally, the Cheetah’s STOL (short takeoff and landing) capabilities enable it to operate from shorter runways, providing greater operational flexibility.

The Cheetah’s performance has been demonstrated in various real-world scenarios. The aircraft has been used extensively by the South African Air Force for air defense, ground attack, and reconnaissance missions. Its versatility and reliability have made it a valuable asset in maintaining air superiority and supporting ground operations.

Despite its impressive performance, the Cheetah has some limitations. The aircraft’s single-engine configuration, while providing adequate power, may be seen as less reliable than twin-engine designs in terms of redundancy and safety. Additionally, the Cheetah’s design, based on the Mirage III, limits its potential for further upgrades compared to more modern fighter platforms.

Variants of the Denel (Atlas) Cheetah

The Denel (Atlas) Cheetah has several variants, each designed to meet specific operational requirements and enhance the aircraft’s versatility. These variants include modifications and upgrades that cater to different roles and missions.

1. Cheetah D: The Cheetah D is a two-seat variant used primarily for training and conversion purposes. It features advanced avionics, a reinforced airframe, and the same SNECMA Atar 09K50 turbojet engine as the single-seat variants. The Cheetah D provides a platform for pilot training and operational conversion, ensuring that pilots are fully prepared to operate the aircraft in combat scenarios.
2. Cheetah E: The Cheetah E is a single-seat variant designed for air superiority and ground attack missions. It features a new radar system, advanced electronic warfare capabilities, and compatibility with a wider range of weapons. The Cheetah E provides enhanced combat capabilities compared to the Mirage III, making it a formidable multirole fighter.
3. Cheetah C: The Cheetah C is the most advanced variant, incorporating the latest technologies and systems available. It features a modern glass cockpit, a new radar system, and an upgraded engine, providing superior performance and combat effectiveness. The Cheetah C represents the pinnacle of the Cheetah program, offering the highest level of capability and versatility.

Military Use and Combat of the Denel (Atlas) Cheetah

The Denel (Atlas) Cheetah has been widely used in military operations, demonstrating its versatility and effectiveness as a multirole fighter aircraft. Its advanced avionics, powerful engine, and comprehensive armament make it suitable for various combat scenarios, including air superiority, ground attack, and reconnaissance missions.

Armament

The Cheetah is equipped with a variety of weapons, providing it with significant combat capabilities. The aircraft’s primary air-to-air weapon is the V3B Kukri short-range missile, which is effective against enemy aircraft. The Kukri missile has a range of approximately 8 miles (13 km) and is equipped with an infrared homing seeker, allowing it to engage targets with high accuracy.

For longer-range engagements, the Cheetah can be equipped with the V4 R-Darter missile. The R-Darter is a beyond-visual-range (BVR) air-to-air missile with a range of up to 37 miles (60 km). It is equipped with an active radar seeker, providing the Cheetah with the ability to engage targets at extended ranges.

The Cheetah’s air-to-ground capabilities include a range of bombs and rockets, including precision-guided munitions for increased accuracy. The aircraft can carry Mk 82 and Mk 83 bombs, as well as various types of rockets and guided bombs. These weapons enable the Cheetah to conduct effective ground attacks, including close air support and interdiction missions.

The aircraft is also equipped with a 30mm DEFA cannon, capable of firing 1,200 rounds per minute. The cannon provides the Cheetah with a formidable close-range weapon for both air and ground targets. The combination of missiles, bombs, rockets, and a cannon makes the Cheetah a versatile multirole fighter capable of handling various combat scenarios.

Military Use

The Cheetah has been used extensively by the South African Air Force (SAAF) for a wide range of missions. Its primary roles in military operations include:

• Air Superiority: The Cheetah’s advanced avionics, radar system, and air-to-air missiles make it a capable air superiority fighter. The aircraft is used to maintain control of the airspace, intercept enemy aircraft, and engage in dogfights. The Cheetah’s speed and maneuverability provide it with an advantage in air-to-air combat.
• Ground Attack: The Cheetah’s air-to-ground capabilities enable it to conduct effective ground attacks. The aircraft is used to provide close air support to ground forces, strike enemy positions, and destroy infrastructure and vehicles. The precision-guided munitions and advanced targeting systems enhance the accuracy and effectiveness of these missions.
• Reconnaissance: The Cheetah is also used for reconnaissance missions, gathering intelligence on enemy positions and movements. The aircraft’s advanced radar and sensors provide valuable information for planning and executing military operations.

Examples of Military Use

The Cheetah has been involved in various military operations, showcasing its versatility and combat effectiveness. Notable examples include:

• Border Conflicts: The Cheetah was used by the SAAF during border conflicts in Southern Africa. The aircraft conducted air superiority and ground attack missions, providing critical support to ground forces and maintaining control of the airspace.
• Training and Exercises: The Cheetah has been used extensively for pilot training and military exercises. The aircraft’s advanced avionics and systems provide a realistic training environment for pilots, preparing them for combat scenarios.

Competing Aircraft

The Cheetah faces competition from other multirole fighters, such as the F-16 Fighting Falcon and the Mirage 2000. Each of these aircraft has its own unique features and capabilities, but the Cheetah’s combination of advanced avionics, powerful engine, and versatile weapon systems makes it a competitive option.

• F-16 Fighting Falcon: The F-16 is a widely used multirole fighter with a maximum speed of Mach 2.05 and a range of 2,622 miles (4,220 km) with drop tanks. The F-16 offers a longer range and more modern systems, but the Cheetah’s STOL capabilities and advanced avionics provide comparable combat effectiveness.
• Mirage 2000: The Mirage 2000 is another multirole fighter with a maximum speed of Mach 2.2 and a range of 963 miles (1,550 km). The Mirage 2000 offers similar performance to the Cheetah, with advanced avionics and weapon systems.

International Use and Sales

The Cheetah has been sold to various countries and used by both military and civilian operators worldwide. Some of the notable operators include:

• Ecuador: The Ecuadorian Air Force acquired several Cheetah aircraft, using them for air defense and training missions. The aircraft have been used to enhance Ecuador’s air combat capabilities and provide advanced training for pilots.
• Chile: The Chilean Air Force also acquired Cheetah aircraft, using them for similar purposes. The Cheetah’s advanced avionics and systems provide Chile with a capable multirole fighter for various missions.

Current Status

The Cheetah remains in service with several air forces and continues to be used for a wide range of missions. While production has ceased, the existing fleet continues to be maintained and upgraded to ensure operational readiness. The Cheetah’s unique capabilities and versatility ensure its continued relevance in modern military operations.

–

The Denel (Atlas) Cheetah is a versatile and reliable multirole fighter aircraft developed from the Mirage III. Powered by a SNECMA Atar 09K50 turbojet engine, the Cheetah can achieve a maximum speed of Mach 2.2 and carry a variety of air-to-air and air-to-ground weapons. Its advanced avionics, radar systems, and reinforced airframe provide superior performance and combat effectiveness. While it has some limitations, such as a single-engine configuration, the Cheetah remains a valuable asset for the South African Air Force and other operators. Its adaptability and performance ensure its continued relevance in modern military aviation.

Back to the Fighter Jet section