Satellite Data System Explained

The Satellite Data System (SDS) is a system of United States military communications satellites. At least three generations have been used: SDS-1 from 1976 to 1987; SDS-2 from 1989 to 1996; SDS-3 from 1998 to the present. It is believed that these satellites were known by the code name Quasar.[1] The first generation was named simply 'SDS', the second generation was named 'Quasar' and the third generation each had their own designations.[2]

Orbital characteristics

SDS satellites have a highly elliptical orbit, going from about 300 kilometers at perigee to roughly 39,000 km at apogee in order to allow communications with polar stations that cannot contact geosynchronous satellites. The high apogee meant that the polar regions were visible for long amounts of time, and only two satellites were required in order to achieve constant communications ability. In addition, two geostationary satellites appear to be part of the system. The SDS satellites were constructed by Hughes Aircraft Company.

Mission

The primary purpose of the SDS satellites is to relay imagery from low-flying reconnaissance satellites, notably the Keyhole optical reconnaissance and Lacrosse/Onyx radar reconnaissance satellites to ground stations in the United States.[3]

SDS-1

Each SDS-1 satellite had 12 channels available for Ultra high frequency (UHF) communication. They were cylindrical in shape, roughly long. 980 watts of electrical power were available from solar panels and batteries. The SDS-1 had a mass of and was launched on Titan-3B rockets. The SDS-1 satellites had similar orbits to the Air Force's Jumpseat ELINT satellites.[4]

It has been speculated that the early satellites served as data relays for the first KH-11 Kennen reconnaissance satellites.[5]

SDS-2

The SDS-2 is significantly more massive at, with three separate communication dishes, including one for a K-band downlink. Two dishes are in diameter, while the third is in diameter. The solar arrays generate 1238 watts of power. It is believed that the Space Shuttle has been used to launch several satellites, possibly on missions STS-28, STS-38, and STS-53. Other launches have used the Titan IV launch vehicle.

Satellites

NameCOSPAR ID[6]
SATCAT №
Launch dateLaunch vehicleLaunch siteLaunch designationPerigeeApogeeInclinationRemarks

First generation

OPS 78371976-050A
08871
2 June 1976Titan III(34)BVAFB, SLC-4WSDS F-1380 km39315 km63.3 deg
OPS 79401976-080A
09270
6 August 1976Titan III(34)BVAFB, SLC-4WSDS F-2380 km39315 km63.3 deg
OPS 73101978-075A
10993
5 August 1978Titan III(34)BVAFB, SLC-4WSDS F-3380 km39315 km63.3 deg
OPS 58051980-100A
12093
13 December 1980Titan III(34)BVAFB, SLC-4W
USA-41984-091A
15226
28 August 1984Titan III(34)BVAFB, SLC-4WSDS F-5A
USA-9195-014A
15546
8 February 1985Titan III(34)BVAFB, SLC-4WUSA-9
USA-211987-015A
17506
15 February 1987Titan III(34)BVAFB, SLC-4WSDS F-6

Second generation

USA-401989-061B
20167
2 June 1989
STS-28/Orbus-21S
KSC, LC-39BN/A
USA-671990-097B
20963
15 November 1990
STS-38/Orbus-21S
KSC, LC-39AGeosynchronous satellite, deployed along with Prowler and initially misidentified as a Magnum SIGINT spacecraft
USA-891992-086B
22518
2 December 1992
STS-53/Orbus-21S
KSC, LC-39A
USA-1251996-038A
23945
3 July 1996Titan IV(405)ACCAFS, LC-40

Third generation

USA-1371998-005A
25148
29 January 1998Atlas IIACCAFS, SLC-36ANROL-5Capricorn, Molniya orbit
USA-1552000-080A
26635
6 December 2000Atlas IIASCCAFS, SLC-36ANROL-10Great Bear, geosynchronous satellite at 10° West
USA-1622001-046A
26948
11 October 2001Atlas IIASCCAFS, SLC-36BNROL-12Aquilla, geosynchronous satellite at 144° West
USA-1792004-034A
28384
31 August 2004Atlas IIASCCAFS, SLC-36ANROL-1Nemesis, Molniya orbit, final Atlas II launch
USA-1982007-060A
32378
10 December 2007Atlas V 401CCAFS, SLC-41NROL-24Scorpius, Molniya orbit
USA-2272011-011A
37377
11 March 2011Delta IV-M+(4,2)CCAFS, SLC-37BNROL-27Gryphon, geosynchronous satellite at 10° West, replaced USA-155
USA-2362012-033A
38466
20 June 2012Atlas V 401CCAFS, SLC-41NROL-38Drake, geosynchronous satellite at 144° West, replacement for USA-162
USA-2522014-027A
39751
22 May 2014Atlas V 401CCAFS, SLC-41NROL-33Geosynchronous satellite
USA-269
41724
28 July 2016Atlas V 421CCAFS SLC-41NROL-61Spike, Geosynchronous orbit, might be a new generation [7]
USA-279
42973
15 October 2017Atlas V 421CCAFS, SLC-41NROL-52Likely Geosynchronous orbit[8]

References

Notes and References

  1. http://planet4589.org/nro/nro.html Jonathan's Space Report: NRO Satellite Names
  2. http://planet4589.org/space/log/satcat.txt Jonathan's Space Report: Satellite Catalogue
  3. Book: Richelson, J.T. . 2001 . The Wizards of Langley. Inside the CIA's Directorate of Science and Technology . Boulder, Colorado . Westview Press . 9780813340593.
  4. http://www.zianet.com/jpage/black/NRO%20Brochure.pdf National Reconnaissance Office: "NRO Brochure circa 1997"
  5. Web site: Dwayne A.. Day. 26 February 2018. Shadow dancing: the Satellite Data System. The Space Review.
  6. http://planet4589.org/space/log/ Jonathan's Space Report: List of satellite launches
  7. News: NROL-61 satellite launched Thursday spotted in space by sky-watchers. Spaceflight Now. July 30, 2016.
  8. News: Atlas V finally launches with NROL-52 . NASASpaceFlight.com. William. Graham. October 15, 2017. October 15, 2017.