Encyclopedia Astronautica
AUOS



auosexpo.jpg
AUOS
AUOS model exhibited at Ukraine Pavilion, Hannover Expo 2000.
Credit: © Mark Wade
auossmki.jpg
AUOS-S-M-KI
Credit: Yuzhnoye
auosz.jpg
AUOS
AUOS-Z
Credit: Ukrainian Space Agency
auoszapi.jpg
AUOS-Z-AP-IK
Credit: Yuzhnoye
sich2.jpg
Sich
Credit: Ukrainian Space Agency
coronasf.jpg
Coronas-F
Credit: NPO PM
auoszavi.jpg
AUOS-Z-AV-IK
Credit: Yuzhnoye
sichsmal.jpg
Sich
Credit: Ukrainian Space Agency
auoszie.jpg
AUOS-Z-I-E
Credit: Yuzhnoye
sich1.jpg
Sich-1
Credit: Ukrainian Space Agency
auosziik.jpg
AUOS-Z-I-IK
Credit: Yuzhnoye
auoszmai.jpg
AUOS-Z-M-A-IK
Credit: Yuzhnoye
auoszmik.jpg
AUOS-Z-M-IK
Credit: Yuzhnoye
auoszrei.jpg
AUOSZ-R-E-IK
Credit: Yuzhnoye
auoszro.jpg
AUOS-Z-R-O
Credit: Yuzhnoye
auoszrpi.jpg
AUOS-Z-R-P-IK
Credit: Yuzhnoye
auosztik.jpg
AUOS-Z-T-IK
Credit: Yuzhnoye
oreol3.jpg
Oreol-3
Spacecraft using AUOS bus are similar
Credit: NASA
oreol3b.jpg
Oreol-3
Credit: Ukrainian Space Agency
oreol3a.jpg
Oreol-3
Credit: Ukrainian Space Agency
Ukrainian technology satellite. 14 launches, 1976.06.19 (Intercosmos 15) to 2009.01.30 (Koronas-F). Standardized bus for low earth orbit scientific studies and testing of new systems and components of satellite under space flight conditions.

Primarily used on international Interkosmos and Aureole flights.

By the early 1970s' study of the interrelationship between the sun and the earth's magnetosphere, atmosphere, and surface were seen as the leading contemporary scientific issues. The existing Yuzhnoye DS-U bus, used for Soviet earth-orbit scientific missions, was of too small a size and limited a lifespan to be used for the planned new missions. Analysis by the Yuzhnoye Design Office in 1971 showed that the anticipated spacecraft missions could be divided into three groups. All the missions could be undertaken by a single multi-purpose spacecraft with common data acquisition, storage, and transmission avionics. This Automated Universal Orbital Station (AUOS) concept was based on the success of Yuzhnoye's DS-U. The AUOS bus could accommodate 400 to 600 kg of scientific payload and provide it with a daily average power of 50 W. Attitude control accuracy, number of commands, and data link characteristics were improved over the DS-U.

Authorization to proceed with development was issued by the Soviet Council of Ministers in 1972. V F Utkin at KB Yuzhnoye led the design team and the spacecraft were built at the Southern Machinery Factory. All specifications, development, and quality assurance for the project were handled by the military. The initial series of AUOS spacecraft were launched from 1976-1981 from Plesetsk by the Kosmos 11K65M booster. Thereafter the more capable Tsyklon 3 was used from the same cosmodrome, allowing higher scientific payload masses and higher orbits. Two main AUOS variants were developed:

  • AUOS-Z, the Earth-oriented variant. AUOS-Z was suited for missions that would study space; the physical impact of solar activity on the earth's surface, atmosphere, and magnetosphere; geophysical phenomena; and earth resources missions. It required only minimum changes in the structure and configuration of the on-board equipment when switching from application to another one. Development of specialized configurations for the AUOS-Z bus started in 1973. Eleven spacecraft based on the AUOS-Z platform were developed, manufactured and launched in 1973-1991. Nine of these spacecraft were launched under international cooperation programs.

  • AUOS-SM, the sun-oriented variant. AUOS-SM was aimed at comprehensive study of the Sun under the Koronas-I, Koronas-F and Photon Projects. These included study of the physical processes that take place at energy liberation or transfer in different regions of the active Sun. A practical goal was the development of a permanent solar activity forecasting service. Development of specialized configurations for the AUOS-SM bus started in 1987. Two were launched in 1994 and 2001.

AKA: Oreol-3; AUOS.
Gross mass: 1,100 kg (2,400 lb).
First Launch: 1976.06.19.
Last Launch: 2009.01.30.
Number: 14 .

More... - Chronology...


Associated Countries
See also
  • Kosmos 3 In 1961 Isayev and Reshetnev developed the Voskhod space launch system on the basis of the R-14 IRBM. The initial version of the two stage rocket was designated Kosmos-1. The first 'Voskhod' launch complex was at Baikonur, a modification of one of the pads at the R-16 ICBM launch complex 41. More...
  • Tsiklon The R-36 ICBM was the largest ever built and the bogeyman of the Pentagon throughout the Cold War. Dubbed the 'city buster', the 308 silos built were constantly held up by the US Air Force as an awesome threat that justified a new round of American missile or anti-missile systems. On the other hand, the Americans were never motivated to build and deploy corresponding numbers of their equivalent, the liquid propellant Titan 2. Derivatives of the R-36 included the R-36-O orbital bombing system, the Tsiklon-2 and -3 medium orbital launch vehicles, and the replacement R-36M missiles. With the collapse of the Soviet Union, the design and manufacturing facility ended up in independent Ukraine. Accordingly the missile was finally retired in the 1990's, conveniently in accordance with arms reduction agreements with the Americans. More...

Associated Launch Vehicles
  • Kosmos 3 Russian orbital launch vehicle. In 1961 Isayev and Reshetnev developed the Voskhod space launch system on the basis of the R-14 IRBM. The initial version of the two stage rocket was designated Kosmos-1. The first 'Voskhod' launch complex was at Baikonur, a modification of one of the pads at the R-16 ICBM launch complex 41. More...
  • Tsiklon Ukrainian intercontinental ballistic missile. The R-36 ICBM was the largest ever built and the bogeyman of the Pentagon throughout the Cold War. Dubbed the 'city buster', the 308 silos built were constantly held up by the US Air Force as an awesome threat that justified a new round of American missile or anti-missile systems. On the other hand, the Americans were never motivated to build and deploy corresponding numbers of their equivalent, the liquid propellant Titan 2. Derivatives of the R-36 included the R-36-O orbital bombing system, the Tsiklon-2 and -3 medium orbital launch vehicles, and the replacement R-36M missiles. With the collapse of the Soviet Union, the design and manufacturing facility ended up in independent Ukraine. Accordingly the missile was finally retired in the 1990's, conveniently in accordance with arms reduction agreements with the Americans. More...
  • Kosmos 11K65M Russian orbital launch vehicle. Definitive and prolific production version of satellite launcher based on Yangel R-14 IRBM. After further development at NPO Polyot (Omsk, Chief Designer A S Klinishkov), the modified Kosmos-3M added a restartable second stage with an orientation system. This booster was launched form two 'Cusovaya' launch complexes from 1967. The second stage used low thrust rockets using gas generator output to adjust the final velocity of the stage More...
  • Tsiklon-3 Ukrainian orbital launch vehicle. The Tsyklon 3 was developed in 1970-1977 as a part of a program to reduce the number of Soviet booster types. The first two stages were derived from the 8K68 version of the R-36 ICBM, while the restartable third stage was derived from that of the R-36-O. Compared to the Tsyklon 2, the launch vehicle increased payload to 4 metric tons, provided for completely automated launch operations, and had increased orbital injection accuracy. More...

Associated Manufacturers and Agencies
  • Yuzhnoye Ukrainian manufacturer of rockets, spacecraft, and rocket engines. Yangel Design Bureau, Dnepropetrovsk, Ukraine. More...

Associated Programs
  • Intercosmos International cooperative satellites with a variety of missions, launched by Soviet boosters. More...

Bibliography
  • McDowell, Jonathan, Jonathan's Space Home Page (launch records), Harvard University, 1997-present. Web Address when accessed: here.
  • JPL Mission and Spacecraft Library, Jet Propulsion Laboratory, 1997. Web Address when accessed: here.
  • Voevodin, Sergey A, "Sergey A. Voevodin's Reports", VSA072 - Space Apparatus, Web Address when accessed: here.
  • "AUOSi prodolzhayut rabotu", Novosti Kosmonavtiki, 1995, Issue 21, page 43.
  • National Space Science Center Planetary Page, As of 19 February 1999.. Web Address when accessed: here.
  • Melnik, T G, Voenno-Kosmicheskiy Siliy, Nauka, Moscow, 1997..
  • Siddiqi, Asif A, The Soviet Space Race With Apollo, University Press of Florida, 2003.
  • Yuzhnoye Company Web Site, Web Address when accessed: here.

Associated Launch Sites
  • Plesetsk Plesetsk was the Soviet Union's northern cosmodrome, used for polar orbit launches of mainly military satellites, and was at one time the busiest launch centre in the world. The collapse of the Soviet Union put the main launch site of Baikonur in Kazakh territory. It now seems that once the Proton rocket is retired, Baikonur will be abandoned and Plesetsk will be Russia's primary launch centre. Upgrades to existing launch facilities will allow advanced versions of the Soyuz rocket and the new Angara launch vehicle to be launched from Plesetsk. Plesetsk's major drawback was the lower net payload in geosynchronous orbit from a northern latitude launch site. However Russia is planning to remove the disadvantage by looping geosynchronous satellites around the moon, using lunar gravity to make the necessary orbital plane change. More...
  • Plesetsk LC32/1 Tsiklon launch complex. Construction of this highly-automated launch complex for the Tsiklon-3 launch vehicle started in 1970. The complex was designed by the Transmash Design bureau led by Chief Designer V N Solovyev. The complex consisted of two pads. The vehicle was assembled and integrated with its payload in the assembly building. It was then delivered to the launch pad by railway in a horizontal position. A launch pad erector placed the rocket into vertical position. No service tower was needed for the storable-propellant booster. More...
  • Plesetsk LC32/2 Tsiklon launch complex. Construction of this highly-automated launch complex for the Tsiklon-3 launch vehicle started in 1970. The complex was designed by the Transmash Design bureau led by Chief Designer V N Solovyev. The complex consisted of two pads. The vehicle was assembled and integrated with its payload in the assembly building. It was then delivered to the launch pad by railway in a horizontal position. A launch pad erector placed the rocket into vertical position. No service tower was needed for the storable-propellant booster. More...

AUOS Chronology


1972 June 26 - .
  • AUOS satellite development approved. - . Nation: USSR. Spacecraft: AUOS. Summary: Ministry of General Machine Building (MOM) Decree 'On the Creation of Automatic Universal Orbital Stations (AUOS)-on approval of work on the AUOS satellite bus' was issued..

1976 June 19 - . 16:00 GMT - . Launch Site: Plesetsk. Launch Complex: Plesetsk LC132/1. LV Family: Kosmos 3. Launch Vehicle: Kosmos 11K65M. LV Configuration: Kosmos 11K65M 53731-276.
  • Intercosmos 15 - . Payload: AUOS-Z-T-IK. Mass: 550 kg (1,210 lb). Nation: USSR. Agency: IK. Manufacturer: Yuzhnoye. Program: Intercosmos. Class: Technology. Type: Navigation technology satellite. Spacecraft: AUOS. Completed Operations Date: 1976-07-26 . Decay Date: 1979-11-18 . USAF Sat Cat: 8903 . COSPAR: 1976-056A. Apogee: 520 km (320 mi). Perigee: 481 km (298 mi). Inclination: 74.0000 deg. Period: 94.60 min. Summary: Testing of new systems and components of satellite under space flight conditions. .

1977 March 29 - . 23:00 GMT - . Launch Site: Plesetsk. Launch Complex: Plesetsk LC132/2. LV Family: Kosmos 3. Launch Vehicle: Kosmos 11K65M. LV Configuration: Kosmos 11K65M 53749-168.
  • Cosmos 900 - . Payload: AUOS-Z-R-O Oval. Mass: 900 kg (1,980 lb). Nation: USSR. Agency: MO. Manufacturer: Yuzhnoye. Program: Intercosmos. Class: Technology. Type: Navigation technology satellite. Spacecraft: AUOS. Decay Date: 1979-10-11 . USAF Sat Cat: 9898 . COSPAR: 1977-023A. Apogee: 522 km (324 mi). Perigee: 457 km (283 mi). Inclination: 83.0000 deg. Period: 94.40 min. Summary: Investigation of the upper atmosphere and outer space. .

1977 September 24 - . 16:30 GMT - . Launch Site: Plesetsk. Launch Complex: Plesetsk LC132/1. LV Family: Kosmos 3. Launch Vehicle: Kosmos 11K65M. LV Configuration: Kosmos 11K65M 53731-278.
  • Intercosmos 17 - . Payload: AUOS-Z-R-E-IK. Mass: 550 kg (1,210 lb). Nation: USSR. Agency: IK. Manufacturer: Yuzhnoye. Program: Intercosmos. Class: Technology. Type: Navigation technology satellite. Spacecraft: AUOS. Completed Operations Date: 1979-01-16 . Decay Date: 1979-11-08 . USAF Sat Cat: 10376 . COSPAR: 1977-096A. Apogee: 514 km (319 mi). Perigee: 466 km (289 mi). Inclination: 83.0000 deg. Period: 94.40 min. Summary: Investigation of energetic charged and neutral particles and micrometeorite fluxes in circumterrestrial space. .

1978 October 24 - . 19:00 GMT - . Launch Site: Plesetsk. Launch Complex: Plesetsk LC132/1. LV Family: Kosmos 3. Launch Vehicle: Kosmos 11K65M. LV Configuration: Kosmos 11K65M 65055-106.
  • Intercosmos 18 - . Payload: AUOS-Z-M-IK. Mass: 1,050 kg (2,310 lb). Nation: USSR. Agency: IK. Manufacturer: Yuzhnoye. Program: Intercosmos. Class: Technology. Type: Navigation technology satellite. Spacecraft: AUOS. Completed Operations Date: 1981-03-18 . Decay Date: 1981-03-17 . USAF Sat Cat: 11082 . COSPAR: 1978-099A. Apogee: 757 km (470 mi). Perigee: 403 km (250 mi). Inclination: 83.0000 deg. Period: 96.30 min. Conduct of complex investigations on the interaction between the magnetosphere and ionosphere of the earth. Launched under the Intercosmos programme by the USSR in cooperation with the Czechoslovak Socialist Republic, the German Democratic Republic, the H ungarian People's Republic, the Polish People's Republic and the Socialist Republic of Romania. On 14 Nov 1978, Magion, a small Czechoslovak scientific satellite, separated from object 1296.

1979 February 27 - . 17:00 GMT - . Launch Site: Plesetsk. Launch Complex: Plesetsk LC132/2. LV Family: Kosmos 3. Launch Vehicle: Kosmos 11K65M. LV Configuration: Kosmos 11K65M 47155-107.
  • Intercosmos 19 - . Payload: AUOS-Z-I-IK. Mass: 1,015 kg (2,237 lb). Nation: USSR. Agency: IK. Manufacturer: Yuzhnoye. Program: Intercosmos. Class: Technology. Type: Navigation technology satellite. Spacecraft: AUOS. Completed Operations Date: 1982-04-27 . Decay Date: 2002-09-23 . USAF Sat Cat: 11285 . COSPAR: 1979-020A. Apogee: 711 km (441 mi). Perigee: 452 km (280 mi). Inclination: 74.0000 deg. Period: 96.30 min. Comprehensive investigations of the structure of the earth's ionosphere, the characteristics of wave processes and the propagation of radio waves in the ionospheric plasma. Launched under the Intercosmos programme by the USSR in cooperation with the Peopl e's Republic of Bulgaria, the Czechoslovak Socialist Republic, the Hungarian People's Republic and the Polish People's Republic. Additional Details: here....

1979 November 1 - . 08:05 GMT - . Launch Site: Plesetsk. Launch Complex: Plesetsk LC132/2. LV Family: Kosmos 3. Launch Vehicle: Kosmos 11K65M. LV Configuration: Kosmos 11K65M 53755-105.
  • Intercosmos 20 - . Payload: AUOS-Z-R-P-IK. Mass: 1,100 kg (2,400 lb). Nation: USSR. Agency: IK. Manufacturer: Yuzhnoye. Program: Intercosmos. Class: Technology. Type: Navigation technology satellite. Spacecraft: AUOS. Completed Operations Date: 1980-12-11 . Decay Date: 1981-03-03 . USAF Sat Cat: 11609 . COSPAR: 1979-096A. Apogee: 519 km (322 mi). Perigee: 462 km (287 mi). Inclination: 74.1000 deg. Period: 94.40 min. Testing of methods for comprehensive study of the oceans and the surface of the earth, and testing of automatic gathering of scientific information from experimental sea and land stations. Launched under the INTERCOSMOS programme by the Soviet Union toget her with the Czechoslovak Socialist Republic, the German Democratic Republic, the Hungarian People's Republic and the Socialist Republic of Romania.

1981 February 6 - . 08:00 GMT - . Launch Site: Plesetsk. Launch Complex: Plesetsk LC132/1. LV Family: Kosmos 3. Launch Vehicle: Kosmos 11K65M. LV Configuration: Kosmos 11K65M 53793-478.
  • Intercosmos 21 - . Payload: AUOS-Z-R-P-IK. Mass: 550 kg (1,210 lb). Nation: USSR. Agency: IK. Manufacturer: Yuzhnoye. Program: Intercosmos. Class: Technology. Type: Navigation technology satellite. Spacecraft: AUOS. Completed Operations Date: 1982-06-02 . Decay Date: 1982-07-07 . USAF Sat Cat: 12162 . COSPAR: 1981-011A. Apogee: 506 km (314 mi). Perigee: 469 km (291 mi). Inclination: 74.0000 deg. Period: 94.40 min. Oceanographic, terrestrial studies. Development of methods for comprehensive study of the oceans and the surface of the earth, and testing of the experimental system of automatic gathering of scientific information from sea and land stations. Launched under the INTERCOSMOS programme by the USSR together with the Czechoslovak Socialist Republic, the German Democratic Republic, the Hungarian People's Republic and the Socialist Republic of Romania.

1981 September 21 - . 13:10 GMT - . Launch Site: Plesetsk. Launch Complex: Plesetsk LC32/1. LV Family: Tsiklon. Launch Vehicle: Tsiklon-3.
  • Oreol 3 - . Payload: AUOS-Z M-A-IK s/n 401. Mass: 1,000 kg (2,200 lb). Nation: France. Agency: RVSN. Manufacturer: Yuzhnoye. Program: Intercosmos. Class: Technology. Type: Navigation technology satellite. Spacecraft: AUOS. USAF Sat Cat: 12848 . COSPAR: 1981-094A. Apogee: 1,672 km (1,038 mi). Perigee: 394 km (244 mi). Inclination: 82.5000 deg. Period: 105.80 min. Carried Soviet/French magnetosphere and ionosphere experiments. Investigation of physical processes in the earth's magnetosphere and ionosphere, and study of the nature of polar aurorae. Carried scientific equipment developed by Soviet and French specialists under the joint Soviet-French project 'Arkad-3'.

1986 December 18 - . 08:00 GMT - . Launch Site: Plesetsk. Launch Complex: Plesetsk LC32. Launch Pad: LC32/pad?. LV Family: Tsiklon. Launch Vehicle: Tsiklon-3.
  • Cosmos 1809 - . Payload: AUOS-Z Ionozond-E s/n 501. Mass: 700 kg (1,540 lb). Nation: USSR. Agency: MOM. Manufacturer: Yuzhnoye. Program: Intercosmos. Class: Technology. Type: Navigation technology satellite. Spacecraft: AUOS. USAF Sat Cat: 17241 . COSPAR: 1986-101A. Apogee: 961 km (597 mi). Perigee: 941 km (584 mi). Inclination: 82.5000 deg. Period: 104.10 min. Summary: Development of research apparatus and methods of remote sensing and monitoring of the Earth's ionosphere, and also study of the propagation of radio waves in the ionosphere. .

1989 September 28 - . 00:04 GMT - . Launch Site: Plesetsk. Launch Complex: Plesetsk LC32/2. LV Family: Tsiklon. Launch Vehicle: Tsiklon-3.
  • Intercosmos 24 - . Payload: AUOS-Z-AV-IK s/n 201. Mass: 1,000 kg (2,200 lb). Nation: USSR. Agency: MOM. Manufacturer: Yuzhnoye. Program: Intercosmos. Class: Technology. Type: Navigation technology satellite. Spacecraft: AUOS. Completed Operations Date: 1995-10-11 . USAF Sat Cat: 20261 . COSPAR: 1989-080A. Apogee: 2,414 km (1,499 mi). Perigee: 499 km (310 mi). Inclination: 82.6000 deg. Period: 115.00 min. US participation; particles and fields experiments; deployed Magion 2. Comprehensive study of the processes of propagation of low-frequency electromagnetic waves in the earth's magnetosphere and their interaction with charged particles of the radiation belts, in cooperation with Bulgaria, Czechoslovakia, the German Democrati c Republic, Hungary, Poland and Romania (the international scientific project entitled 'Aktivny'). Carrying the Czechoslovak Magion-2 satellite.

1991 December 18 - . 03:54 GMT - . Launch Site: Plesetsk. Launch Complex: Plesetsk LC32/2. LV Family: Tsiklon. Launch Vehicle: Tsiklon-3.
  • Intercosmos 25 - . Payload: AUOS-Z APEKS-IK s/n 301. Mass: 1,000 kg (2,200 lb). Nation: USSR. Agency: MOM. Manufacturer: Yuzhnoye. Program: Intercosmos. Class: Technology. Type: Navigation technology satellite. Spacecraft: AUOS. USAF Sat Cat: 21819 . COSPAR: 1991-086A. Apogee: 2,969 km (1,844 mi). Perigee: 436 km (270 mi). Inclination: 82.6000 deg. Period: 120.50 min. Solar activity monitoring; hosted experiments from Germany, Romania, Bulgaria, Poland, Hungary. Comprehensive study of the effects of artificial impact of modulated electron flows and plasma beams on the ionosphere and magnetosphere of the Earth (forming part of the Apex international scientific project, conducted jointly with Bulgaria, Czechoslovak ia, Germany, Hungary, Poland and Romania.) Launched with the Czechoslovak satellite Magion-3, separated from the space object Intercosmos-25 on 28 Dec 1991, in accordance with the scientific programme of the Apex project.

1994 March 2 - . 03:25 GMT - . Launch Site: Plesetsk. LV Family: Tsiklon. Launch Vehicle: Tsiklon-3.
  • Intercosmos 26 - . Payload: AUOS-SM-KI-IK. Mass: 2,160 kg (4,760 lb). Nation: Russia. Agency: RAKA. Manufacturer: Yuzhnoye. Program: Intercosmos. Class: Technology. Type: Navigation technology satellite. Spacecraft: AUOS. Decay Date: 2001-03-04 . USAF Sat Cat: 23019 . COSPAR: 1994-014A. Apogee: 541 km (336 mi). Perigee: 501 km (311 mi). Inclination: 82.5000 deg. Period: 94.70 min. Solar and space physics. Conduct of comprehensive investigations of the sun under the Koronas-I international project developed by Russian and Ukranian experimts in cooperation with specialists from Poland, the Czech Republic, the Slovak Republic, Bulgaria, France, and the United Kingdom.

2001 July 31 - . 08:00 GMT - . Launch Site: Plesetsk. Launch Complex: Plesetsk LC32/2. LV Family: Tsiklon. Launch Vehicle: Tsiklon-3.
  • Koronas-F - . Payload: AUOS-SM-KF. Mass: 2,260 kg (4,980 lb). Nation: Russia. Agency: RAKA. Manufacturer: Yuzhnoye. Class: Astronomy. Type: Solar astronomy satellite. Spacecraft: AUOS. Decay Date: 2005-12-06 . USAF Sat Cat: 26873 . COSPAR: 2001-032A. Apogee: 529 km (328 mi). Perigee: 486 km (301 mi). Inclination: 82.5000 deg. Launch delayed from July 25. Koronas-F was a Russian solar observatory that pointed toward Sun within 10 arc-minutes to conduct a variety of observations. In broad categories, it carried X-ray monitors to locate sources within 1 arc-sec, radio receivers to measure flux and polarization, and particle counters. Additional Details: here....

2009 January 30 - . Launch Site: Plesetsk. Launch Complex: Plesetsk LC32/2. LV Family: Tsiklon. Launch Vehicle: Tsiklon-3.
  • Koronas-Foton - . Payload: AUOS-SM-KF. Mass: 1,900 kg (4,100 lb). Nation: Russia. Agency: RAKA. Manufacturer: Yuzhnoye. Class: Astronomy. Type: Solar astronomy satellite. Spacecraft: AUOS. USAF Sat Cat: 33504 . COSPAR: 2009-003A. Apogee: 561 km (348 mi). Perigee: 539 km (334 mi). Inclination: 82.5000 deg. Period: 95.70 min. Carried ten instruments to study in the sun throughout the electromagnetic spectrum, primarily Russian: Natalya-2M spectrometer; RT-2 gamma-telescope (India); Pingvin-M polarimeter; Konus-RF x-ray and gamma spectrometer; BRM x-ray detector; FOKA UV-detector; TESIS telescope/spectrometer with SphinX soft X-ray spectrophotometer (Poland); Electron-M-Peska charged particles analyser; STEP-F Electron and proton detector(Ukraine); SM-8M magnetometer. Follow-up to 2001 Koronas-F launch.

Home - Browse - Contact
© / Conditions for Use