C-803
C-803 | |
---|---|
Type | Anti-ship missile |
Place of origin | China |
Service history | |
In service | Late 1990s - present |
Used by | China |
Production history | |
Manufacturer | Norinco |
Produced | Late 1990s - present |
Specifications | |
Weight | 800 kg |
Length | 6.38 m |
Diameter | 0.36 m |
Warhead | 190 kg conventional warhead |
Detonation mechanism | Semi-armour piercing |
| |
Engine |
Solid-fuel rocket boost motor Turbojet engine |
Propellant |
Solid fuel (booster rocket) Liquid fuel (jet engine) |
Operational range | 180 km[1] / 255 km (air launched) |
Flight altitude | 5 to 20 meters |
Speed | Subsonic, Mach 0.8-0.9 |
Guidance system | Infrared homing and MMW Active radar homing |
Launch platform | Aircraft, ships, ground launchers |
The Yingji-83 (or YJ-83 - Chinese: 鹰击-83, literally "Eagle Strike") is a Chinese anti-ship missile based on the earlier YJ-82 model of the same class. It was designed as a supersonic successor to the subsonic YJ-8. The weapon's export designation is C-803.
Development and design
The chief designer for the YJ-83 and the YJ-85 (the latest member of the YJ-8 series) is Huang Ruisong (黄锐松), who succeeded Liang Shoupan (梁守槃) upon his retirement. Ruisong designed the YJ-83 to have an operational range of 180 km when surface-launched. The YJ-83 anti-ship missile appeared in the National Day parade for the first time in 1999, and was only armed with a radar seeker. Seekers for the YJ-82/C-802 upgrade are also available for the YJ-83/C-803, but it is not yet clear if the Chinese have adopted these seekers. The launching and storage unit of the new missile retained the capability to handle earlier missiles, including the CY-1 ASW missile.[2]
The YJ-83 program began in the early months of 1994 and was rumored to be an attempt to stay ahead of Taiwan, which was developing its own supersonic anti-ship missile, the Hsiung Feng III. To speed up development, the original radar seeker and turbojet engine of the C-802 was retained, although significant modifications were needed in order for the systems to be fully compatible with the new missile.
From November 1995 through November 1996, a total of five flight tests were conducted. Three were failures, including a test conducted on 15 November 1995, during which the test missile immediately plunged into the water as soon as it left the launcher. Analysis of the event later revealed that all failures were caused by the missile's propulsion systems. As a result of the failures, a suggestion was made to abandon the project altogether and instead adopt imported Russian systems. This idea was rejected, and after numerous attempts and trials the domestic development and upgrade of the indigenous propulsion systems of these missiles was finally completed. However, the project was still considered to be in limbo due to other minor problems.
In 1997, funding for the project was greatly reduced, resulting in only two test flights that year, both of which failed. The failures were caused by problems with cables that caused the radio altimeter to provide incorrect information. Although the problem was solved by redesign, a new problem appeared soon afterward, this time in production. The rudder control mechanism malfunctioned during quality tests, and it was discovered that instead of using a screw as it was supposed to, a broken drill was used instead. As a result, both the production manager and the project manager were removed from their posts and sent away to be retrained. A new quality goal of "zero defects" was implemented, and everyone was reminded of the quality goal on a basis by reiterating the slogan, "[Z]ero mistakes in work, zero defects in products, zero risks in test flights". In June 1998, a test flight was conducted after the new quality policy was implemented, and was successful. Four months later, two missiles scored direct hits on their targets at the maximum range in test flights. Immediately following these two successes, another three tests were conducted, two of which were completely successful, while the other was considered partially successful. After many more tests, the missile was finally accepted into service.[2]
Work immediately progressed to improve the missile. A datalink antenna was fitted onto the missile to receive midcourse targeting information from naval surveillance aircraft, including the Harbin SH-5 (Y-8X Maritime Patrol Aircraft) and helicopters, including the Aérospatiale Super Frelon and the Eurocopter Dauphin. This feature has become standard for the all missiles currently in production. Unlike the seekers of the YJ-82/C-802 upgrades that were later adopted for the YJ-3/C-803, the datalink was first developed for the YJ-83/C-803, and then later adopted for the YJ-2/C-802 upgrade. However, it is not clear if this datalink is the one that is only compatible with the radar seeker and the dual radar and infrared guidance seeker, or the one that is compatible with all types of seekers.
Due to the supersonic speed of the missile's terminal stage, it is nearly impossible for the missile to fly in terrain-following mode, and thus the new missile has not yet had the same land attack capabilities against inland targets as its predecessor. Despite its improvement, however, the future of the YJ-83 (C-803) is uncertain, because a more advanced missile (YJ-12) is being developed by the China Haiying Electromechanical Technology Academy (中国海鹰机电技术研究院), with its chief designer being the same designer of the C-803, Huang Ruisong (黄锐松). It is unlikely that the YJ-83 (C-803) will enter service in large numbers due to the availability of more advanced missiles already being developed.
It will be exported to Bangladesh with Type-056 stealth corvette.
Specifications
Specifications for the C-803 are as follows:[1]
- Length: 6.38 m
- Weight: 800 kg
- Diameter: 0.36 m
- Range: 180 km / 250 km (air launched)
- Cruising altitude: 20 m for the initial target approach phase, 5–7 m for the final/terminal phase (~20 km from the target)
- Speed: Mach 0.8-0.9
- Propulsion: Solid-fuel rocket booster and turbojet engine
- Warhead: 190 kg semi-armour-piercing
SALSCM
An advanced successor of the C-803 is in development by the China Aviation Industry Corporation I. This upgrade and replacement of the C-803 was first revealed at the 6th Zhuhai Airshow in 2006, shown in model form carried by the Xian JH-7. SALSCM is an acronym for Standoff Air-Launched Supersonic Cruise Missile, which is drawn heavily on Russian expertise, but sources differ on how foreign help was obtained for the development of the weapon. According to western intelligence, a complete nuclear air-to-surface missile production facility was sold to China in 1995, and this missile production facility was used to manufacture Kh-55/65/RKV-500/AS-15, Kh-15/AS-16, and Kh-31/AS-17 missiles.[3] Many Chinese internet sources also claim that the foreign help was much more to do with the hiring of Russian and Ukrainian missile experts for the AS-15/16/17 missile programs after the collapse of former USSR, rather than the sale of facilities.
The Soviet influence of SALSCM is reflected in the flight paths during its attack on target: after launching, the missile would first climb up to cruise altitude, where it turns into level flight, and at the last moment, dives down on its target, in exactly the same manner as the Soviet Kh-15/AS-16 AShM.[4] The same practice is also adopted on another Chinese AShM YJ-12 which, like SALSCM, can also be used against land targets in addition to ships.[5] SALSCM looks like an enlarged C-803, but the control surfaces of the missile closely resemble the Russian Kh-35, and two can be carried by JH-7, though other platforms such as Xian H-6 can also deploy the weapon.[6]
Specifications of SALSCM:
- Length: 4.18 m
- Diameter: 0.56 m
- Weight: 980 kg
- Warhead: 300 kg
- Minimum launching altitude: 10 km
- Maximum launching altitude: 20 km
- Minimum launching speed: 0.8 Mach
- Maximum launching speed: 1.5 Mach
- Cruise altitude: 10 to 20 km
- Range: 250 km max
- Mid course guidance: combined inertial navigation + satellite navigation
- Terminal guidance: Combined active millimeter wave radar + imaging infrared
Operators
Current operators
Potential operators
- Bangladesh Navy Bangladesh navy may install C-803 missile on their Shadhinota class corvette
See also
- Related development
- Comparable missiles
- Related lists
References
- 1 2 "China's Eagle Strike-Eight Anti-Ship Cruise Missiles: The YJ-83, C803, and the Family Tree - Defense Media Network". Defense Media Network. Retrieved 8 October 2015.
- 1 2 "C-803 - Development and Design". Retrieved 8 October 2015.
- ↑ "Defense & Security Intelligence & Analysis: IHS Jane's - IHS". Retrieved 8 October 2015.
- ↑ Discuz! Team and Comsenz UI Team. "国产防区外空射超音速巡航导弹 - 唧唧歪歪 - 创幻股票论坛". Retrieved 8 October 2015.
- ↑ "中国4倍音速空面导弹低调亮相 400公里内能打航母(8)--军事--人民网". Retrieved 8 October 2015.
- ↑ "ͼģ·ɱЯö_˾_". Retrieved 8 October 2015.