Company:Satrec Initiative

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Satrec Initiative Co., Ltd.
IndustryAerospace
Founded1999; 25 years ago (1999) in Daejeon, South Korea
HeadquartersDaejeon, Republic of Korea
Key people
Ee-Eul Kim, CEO

Sungdong Park, Co-founder
Byungjin Kim, Co-founder

Professor Soondal Choi, Co-founder, First Chairman
ProductsSatellites and related services
Revenue89.2B KRW revenue for FY 2020[1]
Number of employees
294 (Mar, 2021)
Websitewww.satreci.com

Satrec Initiative Co., Ltd. (Korean: 쎄트렉아이) or Satrec i or SI is a South Korean satellite manufacturing company headquartered in Daejeon, South Korea[2] The company was founded in 1999 by the engineers who developed the first Korean satellite (KITSAT-1) at KAIST Satellite Technology Research Center (SaTRec). The company designs and builds Earth observation satellites called SpaceEye-series, and it provides various space components, including high resolution electro-optical payloads and star-trackers. SI's first satellite was a Malaysian Earth observation satellite, RazakSAT launched in 2009. SI has two subsidiaries: SI Imaging Services (SIIS) is the exclusive image data provider of KOMPSAT-series, and SI Analytics (SIA) provides AI-native GEOINT solutions for satellite imagery. SI also spun-off SI Detection (SID), which provides radiation monitoring solutions.[buzzword]

History

Satrec Initiative was founded in Daejeon, South Korea in 1999. There are two subsidiaries established based on SI's business in the remote-sensing satellite. One is SI Imaging Service (SIIS) founded in 2014, and they provide very high resolution optical and SAR images obtained from KOMPSAT-series and DubaiSat-2. Second subsidiary is SI Detection, and they develops and provides state-of-art radiation detectors derived from spacecraft radiation detecting systems.

Satellites and launches

  • KOMPSAT-1 (1999): image receiving and processing station
  • STSAT-1 (2003)
  • KOMPSAT-2 (2006): image receiving and processing station
  • RazakSAT (2009): satellite and ground systems
  • DubaiSat-1 (2009): satellite and ground systems
  • COMS-1 (2010): communication payload integration, electrical modules, Sun sensor, image receiving and processing station, and mission control subsystems
  • RASAT (2011): EO payload and attitude sensors
  • X-Sat (2011): EO payload
  • KOMPSAT-3 (2012): image receiving and processing station, mission control subsystems, and Sun sensor
  • Gokturk-2 (2012): EO payload
  • KOMPSAT-5 (2013): fixed/mobile image receiving and processing station, mission control subsystems, SAR simulator, and Sun sensor
  • DubaiSat-2 (2013): satellite and ground systems
  • Deimos-2 (2013): satellite and ground systems
  • KOMPSAT-3A (2015): fixed/mobile image receiving and processing station and Sun sensor
  • TeLEOS-1 (2015): EO payload
  • Velox-C1 (2015)
  • KhalifaSat (2018): electric modules, telescope, and image receiving and processing station
  • GEO-KOMPSAT-2A/B (2018/2019): electric modules, space weather sensor, image receiving and processing station, and mission control subsystems

Platforms

SpaceEye-X

SpaceEye-X is a satellite bus, which was originally designed to carry very high resolution optical payload(<0.5 m resolution).[3] SpaceEye-X provides the capability to accommodate various payloads, including SAR antennas.

SpaceEye-1

SpaceEye-1 is an improved model and advanced variant of the SI-300 satellite bus, which was the platforms of DubaiSat-2 and DEIMOS-2. Current model is optimized for Earth observation purposes (<1 m resolution).[4]

SpaceEye-W

SpaceEye-W is a mini-satellite platform (100 kg class). This platform has a very flexible configuration; it can support assorted missions from technical demonstration and science missions to Earth observation missions and telecommunications.

SpaceEye-T

SpaceEye-T is a 700 kg class satellite platform that will form the basis for SI's own Earth observation satellite constellation. It will offer an optical payload with 30-cm resolution and 12 km swath width. As of August 2021, the first SpaceEye-T satellite is planned for launch in early 2024.[5]

Subsystem-level products

Electric Propulsion Systems

SI provides Hall-effect electric propulsion systems (HEPS) optimized for small satellite missions. They provide power processing units, propellant feeding units, and Hall effect thrusters with various power consumption range. HEPS has been acquired flight heritages; DubaiSat-2 and DEIMOS-2 equipped HEPS-200 (200 W power consumption).[6]

Star Tracker

SI develops and manufactures star trackers that have enormous flight heritages.

Other products

  • S-band transceiver
  • X-band transmitter
  • Steerable X-band antenna
  • Command and Data Handling Unit
  • Solid-state recorder
  • Sun sensor

References

  1. "099320:KSKOSDAQ Satrec Initiative Co Ltd". https://www.bloomberg.com/quote/099320:KS. Retrieved August 15, 2021. 
  2. "Satrec Initiative Co., Ltd.". February 2006. https://www.linkedin.com/company/satrec-initiative/. Retrieved 18 July 2018. 
  3. Ee-Eul, Kim; Hyunwoo, Lee; Eugene D., Kim (19–22 June 2017). "Sub-half meter imaging satellite, SpaceEye-X". 2017 8th International Conference on Recent Advances in Space Technologies (RAST). pp. 125–127. doi:10.1109/RAST.2017.8002971. ISBN 978-1-5386-1605-5. 
  4. Minwoo, Lee; Jongun, Kim; Myung-Seok, Kang (19 September 2016). Butler, James J; Xiong, Xiaoxiong (Jack); Gu, Xingfa. eds. "Development of in-orbit refocusing mechanism for SpaceEye-1 electro-optical payload". Proceedings of Earth Observing Systems XXI. Earth Observing Systems XXI 9972: 99721O. doi:10.1117/12.2236435. Bibcode2016SPIE.9972E..1OL. 
  5. Park, Si-soo (18 August 2021). "South Korea's Satrec Initiative to build constellation of high-resolution Earth observation satellites". SpaceNews. https://spacenews.com/south-koreas-satrec-initiative-to-build-constellation-of-high-resolution-earth-observation-satellites/. 
  6. Eunkwang, Lee; Hodong, Lee; Yongjun, Moon; Seokhyun, Kang; Younho, Kim; Yunhwang, Jeong; Hosung, Yoon; Miso, Son et al. (16 May 2018). "Development of Robust and Affordable Xenon Feed Unit for Hall Effect Propulsion Systems". Proceedings of Space Propulsion 2018. https://www.researchgate.net/publication/325708264.