Yantar (satellite)
Yantar (Russian: Янтарь meaning amber) is a series of Russian (previously Soviet) reconnaissance satellites,[1] which supplemented and eventually replaced the Zenit spacecraft. Kosmos 2175, a Yantar-4K2 or Kobalt spacecraft, was the first satellite to be launched by the Russian Federation following the dissolution of the Soviet Union. Yantar-Terilen was the first real-time digital system. Yantar satellites also formed the basis for the later Orlets, Resurs and Persona satellites.[2] 179 have been launched, nine of which were lost in launch failures. All Yantar satellites were launched using the Soyuz-U carrier rocket until Kosmos 2480 in 2012 which was announced as the last launch of that rocket from Plesetsk.[3] Subsequent launches used the modernized Soyuz-2.1a rocket. The last Yantar mission was Kosmos 2505, a Yantar-4K2M or Kobalt-M, launched on 5 June 2015. Reconnaissance missions have been taken over by the Persona class of satellites.[4]
History
In 1964, Soviet design bureau OKB-1 was tasked with improving on the newly operational Zenit-2 reconnaissance satellites. They had three streams of work: modifying Zenit satellites, a manned reconnaissance craft called Soyuz-R and a new photoreconnaissance satellite based on Soyuz-R. The third stream was code-named Yantar and initially there were to be two types - Yantar-1 for medium resolution imaging and Yantar-2 for high resolution. In 1967, a new high resolution satellite was proposed called Yantar-2K. Yantar-2K received government support with the first flight originally planned for 1970, although this deadline slipped.[5]
The Yantar program produced two memorable launch accidents. The first of these was on May 15, 1996 when an attempted launch of a 1KFT (Kometa) at Baikonur's LC-31 failed 50 seconds after liftoff when the payload fairing disintegrated. The satellite was destroyed by aerodynamic forces, but the booster continued to fly until T+126 seconds when it began to drift off its flight path, leading to an automatic shutdown command. On June 20, a few weeks later, a 4K1 (Oktan) launched from Plesetsk's LC-16 and met nearly the same fate when again the payload fairing disintegrated 50 seconds after launch. This time the onboard destruct system on the satellite activated and destroyed it, after which ground controllers sent a manual shutdown command to the booster, which crashed 4 miles (6 kilometers) from the pad. The back-to-back failures were traced to a manufacturing defect in the payload shrouds, which were produced in a batch, and they left Russia's ability to perform military reconnaissance severely hampered. In both cases, the shrouds broke up at the point of maximum aerodynamic pressure during ascent.
Variants
Yantar-2K
Yantar-2K differed from Zenit in that it had to stay in orbit for a month unlike Zenit's 8–14 days. It also had two film return capsules, something it had in common with the US KH-7 GAMBIT reconnaissance satellite. It had three parts: the aggregate/equipment module (AO - Agregatnyy Otsek), the instrument module (PO - Pribornnyy Otsek) and the special equipment module/special apparatus module (OSA - otsek spetsial'noy apparatury).[5][6] The special equipment module was the part that returned to earth at the end of the mission, and contained the Zhemchug-4 (pearl) camera. Each section was shaped like a truncated cone which gave the craft a conical shape.[5] The craft was 6.3m long[6] (although one source says 8.5m[5]) with a maximum diameter of 2.7m. It weighed 6.6 tonnes.[6]
Yantar-4K1
Yantar-4K1 was a modification of the Yantar-2K. It had a better camera, the Zhemchug-18, and was in orbit for 45 days rather than the 30 days of Yantar-2K. Other systems were the same as the Yantar-2K and both types of satellites were launched in the same period.[5][6] Both satellites were retired in 1984.
Series | Other designations | GRAU index | First launch | Last launch | Number launched | Remarks |
---|---|---|---|---|---|---|
Yantar-2K | Feniks (Russian: Феникс meaning phoenix) [7] | 11F624 | 23 May 1974 | 28 June 1983 | 30 | |
Yantar-4K1 | Oktan (Russian: Октан meaning octane[8] | 11F693 | 27 April 1979 | 30 November 1983 | 12 | |
Yantar-1KFT | Kometa (Russian: Комета meaning comet) Siluet (Russian: Силуэт meaning silhouette) [9] |
11F660 | 18 February 1981 | 2 September 2005 | 21 | |
Yantar-4K2 | Kobalt (Russian: Кобальт meaning cobalt)[10] | 11F695 | 21 August 1981 | 25 February 2002 | 82 | |
Yantar-4KS1 | Terilen Russian: Терилен meaning terylene)[11] | 11F694 | 28 December 1982 | 21 December 1990 | 15 | |
Yantar-4KS1M | Neman Russian: Неман meaning Neman) [12] | 17F117 | 10 July 1991 | 3 May 2000 | 9 | |
Yantar-4K2M | Kobalt-M [13][14] | 11F695M | 24 September 2004 | 5 June 2015 | 10 |
References
- Wade, Mark. "Yantar". Encyclopedia Astronautica. Retrieved 2009-01-24.
- Johnson, Stephen B. (2006). "The History and Histography of National Security Space" (PDF). NASA.
- "Russia successfully launches military satellite". Xinhua. 2012-05-18. Retrieved 2012-06-01.
- Zak, Anatoly (2012-09-28). "Kobalt-M satellite". Russian Space Web. Retrieved 2016-03-14.
- Gorin, Peter (1998). "Black "Amber":Russian Yantar-Class Optical Reconnaissance Satellites". Journal of the British Interplanetary Society. 51: 309–320.
- Sorokin, Vladislav. "Fourth generation reconnaissance satellites - Yantar-2K". Novosti Kosmonavtiki. Retrieved 2012-06-04.
- Krebs, Gunter. "Yantar-2K (Feniks, 11F624)". Gunter's Space Page. Retrieved 2009-01-24.
- Krebs, Gunter. "Yantar-4K1 (Oktan, 11F693)". Gunter's Space Page. Retrieved 2009-01-24.
- Krebs, Gunter. "Yantar-1KFT (Kometa, Siluet, 11F660)". Gunter's Space Page. Retrieved 2009-01-24.
- Krebs, Gunter. "Yantar-4K2 (Kobalt, 11F695)". Gunter's Space Page. Retrieved 2009-01-24.
- Krebs, Gunter. "Yantar-4KS1 (Terilen, 11F694)". Gunter's Space Page. Retrieved 2009-01-24.
- Krebs, Gunter. "Yantar-4KS1M (Neman, 17F117)". Gunter's Space Page. Retrieved 2009-01-24.
- Krebs, Gunter. "Yantar-4K2M (Kobalt-M, 11F695M ?)". Gunter's Space Page. Retrieved 2012-06-01.
- Podvig, Pavel; Zuang, Hui (2008). Russian and Chinese Responses to US Military Plans in Space (PDF). Cambridge, MA: American Academy of Arts and Sciences. ISBN 0-87724-068-X.