SSM-700K C-Star | |
---|---|
Type | Anti-ship missile |
Place of origin | South Korea |
Service history | |
In service | 2006–present |
Used by | See § Users |
Production history | |
Designer | Agency for Defense Development LIG Nex1 Hanwha Techwin |
Designed | 1996–2003 |
Manufacturer | LIG Nex1 Samsung/Hanwha Techwin |
Unit cost | ₩2,000,000,000 (US$1.75 million) |
Produced | 2004–present |
Specifications | |
Mass | 792 kg (with launcher: 1,061 kg) |
Length | 5.46 m |
Diameter | 0.34 m |
Warhead weight | 250 kg |
Detonation mechanism | Impact fuze |
Engine | Hanwha Techwin SS-760K (later SSE-750K) turbojet |
Operational range | 180+ km |
Flight altitude | Sea-skimming |
Maximum speed | 1,162.8 km/h (Mach 0.95) |
Guidance system |
|
The SSM-700K C-Star (Haeseong) (Korean: 해성, Sea Star) is a ship-launched sea-skimming surface-to-surface anti-ship cruise missile developed by the South Korean Agency for Defense Development (ADD), LIG Nex1 and the Republic of Korea Navy in 2003.[1] The missiles are deployed on KDX-II and KDX-III destroyers as of 2006, each carrying 8 and 16 of the missiles respectively, and on Ulsan-class frigates.
Development history
During the 1970s, the Republic of Korea Navy decided to import Exocet anti-ship missiles to deter North Korean naval provocations. Considering the fact that the Korean People's Navy was then and now mostly composed of numerous small to midsize ships, a cheap, small guided anti-ship missile was proposed. In 1978, the Korean Agency for Defense Development (ADD) started the development of the Hae Ryong anti-ship missile, and by 1987 the ROK Navy approved for the mass production of the missiles. But the Hae Ryong was fitted with a semi-active laser guidance system, limiting its tactical capability during bad weather. Additional pressure from the United States ultimately resulted in the termination of the project.
In 1990, the problem of large proportions of the defense budget going into buying anti-ship missiles from foreign countries was brought up. The ROK Navy ordered the ADD to develop a missile that was on par with or better in performance than the Harpoon Block 1C missile. The new missile was codenamed Haeseong, and research of the following core missile technologies was started in 1996.
- Microwave seeking system
- Inertial navigation system
- Radar altimeter
- Electronic jamming system
- SS-760K turbofan engine
After 7 years of research, on August 21, 2003, the ADD successfully test fired the Haeseong and sunk the target dummy vessel. On December 20, 2005, the first production model was successfully fired from ROKS Dae Jo-yeong (DDH-977) KDX-II class destroyer.
Cruise missiles
A mid-range cruise missile, the Haeseong was developed for over-the-horizon warfare, capable of attacking targets out to 150 km (93 miles). Traveling at ultra-low sea-skimming altitudes, it uses a high-subsonic, high-capacity turbojet, with an inertial navigation system (INS) and Global Positioning System (GPS) to guide it toward its target, using a radar altimeter to maintain altitude. An active radar is used for targeting in the terminal phase immediately before impact. It was designed to be deployed in an active electronic warfare environment, fitted with both detection and countermeasures systems. The warhead itself is similar to the Harpoon, fitted with an impact or penetration fuse. The Haeseong is also suitable for shore-launched coastal defense from both fixed and mobile land platforms. The development agency claims "a 100 per cent accuracy rate in live fire tests", such as at Exercise RIMPAC.[2]
It is reported that an unknown number of C-Star missiles were sold to Colombia.
In September 2011, South Korean defense officials confirmed the development of a supersonic cruise missile based on the Haeseong I. Haeryong (Sea Dragon), or Haeseong II, is designed as a ship-to-surface cruise missile that travels faster than Mach 1 and can evade defense systems to accurately strike ground targets, particularly North Korean missile launch pads. The missile was developed without the assistance of the United States and will not be offered for export due to restrictions of the Missile Technology Control Regime. Ships will launch the missile with the installation of vertical and slant launch systems.[3]
Development of the Haeryong, also called the Tactical Ship to Land Missile (TSLM), was completed in 2014 and FFX-I-class frigates began operating the slant-launched (SL) version from the same inclined canister launchers that fire the anti-ship missile in 2016. Mass production of the vertical launch (VL) version, differing by the presence of a more powerful launch booster with thrust vectoring, to equip FFX-II and FFX-III-class frigates will begin in 2018 and become operational in 2019. The TSLM is equipped with a submunition warhead capable of "covering two football fields" combining a shaped charge and fragmentation jacket to penetrate armored vehicles and destroy soft targets to strike North Korean artillery and missile systems; it can be retargeted in-flight and has improved obstacle avoidance with a 200 km (120 mi) range.[4][5][6][7]
There is a cruise missile called the Haeseong III designed to be launched underwater from submarines,[8] but this is actually the designation for the Hyunmoo-3 cruise missile when launched from a submarine and is unrelated to the previous Haeseong missiles.[9]
Variants
- SSM-700K: Initial production model, with imported Ku-band seeker, SS-760K turbojet engine (based on Russian R95TP-300)
- SSM-710K: Current model with domestic Ku-band seeker, SSE-750K turbojet engine and other upgrades
- SSM-750K: Land attack version of the SSM-710K. Ku-band seeker replaced with GPS/INS guidance package
Production
33 units were delivered by 2007 for the first production phase of the missile. 100 more Haeseong missiles are to be delivered to the ROK Navy by 2010.
Production phase | Production date | Production number | Notes |
---|---|---|---|
Phase 1 | 2005–2007 | 33 | - |
Phase 2 | 2008–2010 | 100+ | - |
Users
- Colombia: Ordered in 2012 for the Almirante Padilla-class frigate.[10]
- South Korea[2]
- Philippines[11]
See also
References
- ↑ "C-Star Ship-to-Ship Missile". lignex1.com. LIG Nex1. Archived from the original on October 23, 2014. Retrieved October 23, 2014.
- 1 2 "C-Star skims the waves - IDEX 2013". ihs.com. IHS. February 19, 2013. Archived from the original on November 21, 2013. Retrieved May 12, 2022.
- ↑ Lee, Tae-hoon (September 26, 2011). "Seoul develops supersonic cruise missile". The Korea Times. Retrieved May 11, 2022.
- ↑ "Korea's warships to have new missiles for ground targets". The Korea Herald. April 18, 2017. Retrieved May 11, 2022.
- ↑ Yeo, Mike (April 21, 2017). "South Korea develops missile with flight path-changing capability". Defense News. Retrieved May 11, 2022.
- ↑ Dominguez, Gabriel (April 21, 2017). "South Korea develops shipborne land-attack missile variant". Jane's Defence Weekly. Archived from the original on April 24, 2017. Retrieved April 26, 2017.
- ↑ "Video: Republic of Korea Navy's New Haeseong II TSLM Ship-Launched Land Attack Missile". Navy Recognition. April 24, 2017. Retrieved May 11, 2022.
- ↑ "S.Korea Unveils Homegrown Cruise Missiles". The Chosun Ilbo. February 15, 2013. Retrieved May 11, 2022.
- ↑ "South Korean Navy conducts test-launch Haeseong III cruise missile from Son Won II-class Type 214 submarine". Navy Recognition. October 3, 2020. Retrieved May 11, 2022.
- ↑ "Colombian Navy test-fired SSM-700K Haeseong anti-ship missile from FS-1500 Almirante Padilla-class corvette". Navy Recognition. August 6, 2019. Retrieved May 11, 2022.
- ↑ "Delivery of missile weapon systems for new Philippine Navy frigates to start in 2021". Navy Recognition. December 31, 2020. Retrieved May 11, 2022.
External links
- C-Star at Deagel.com
- C-Star at Lignex1.com Archived September 5, 2014, at archive.today