Alexander (satellite) explained

Alexander
Mission Type:Technology demonstration
Operator:NASA Ames Research Center
Cospar Id:2013-016C
Satcat:39144
Mission Duration:7 days (planned)
6 days (achieved)
Spacecraft Type:CubeSat
Spacecraft Bus:PhoneSat-2.0
Manufacturer:NASA Ames Research Center
Spaceflight Industries
ISIS
Launch Rocket:Antares 110 A-ONE
Launch Site:Wallops Island MARS, LP-0A
Launch Contractor:Orbital Sciences
Decay Date:27 April 2013
Orbit Reference:Geocentric orbit[1]
Orbit Regime:Low Earth orbit
Orbit Periapsis:218 km
Orbit Apoapsis:228 km
Orbit Inclination:51.64°
Orbit Period:88.95 minutes
Apsis:gee

Alexander, also known as PhoneSat 2.0 Beta or PhoneSat v2a is a technology demonstration satellite operated by NASA's Ames Research Center, which was launched in April 2013. Part of the PhoneSat programme, it was one of the first three PhoneSat spacecraft, and the first Phonesat-2.0 satellite, to be launched.

A PhoneSat-2.0 satellite, Alexander was built to the single-unit (1U) CubeSat specification, and measures in each dimension. The satellite is based on an off-the-shelf Samsung Electronics Nexus S smartphone which serves in place of an onboard computer. The satellite is equipped with a two-way S-band transponder and solar cells for power generation. The spacecraft uses the phone's gyroscopes, along with a GPS receiver, to determine its position and orientation, and a system of reaction wheels and magnetorquer coils for attitude control.[2]

Alexander was named after Alexander Graham Bell, the inventor of the telephone. The two other PhoneSat spacecraft launched aboard the same rocket were named Graham and Bell.[3] The three PhoneSat spacecraft, along with the commercial Dove 1 satellite, were launched as secondary payloads aboard the maiden flight of the Antares launch vehicle; flight A-ONE. The primary payload was the Cygnus Mass Simulator.[4]

Liftoff occurred at 21:00 UTC on 21 April 2013, from Pad 0A of the Mid-Atlantic Regional Spaceport (MARS), following attempts on 17 and 20 April which had been scrubbed due to an umbilical problem and high-level winds respectively.[5] The launch was conducted by Orbital Sciences Corporation, however the CubeSats were launched under a contract with Spaceflight Services, using dispensers produced by Innovative Solutions In Space (ISIS). Alexander, Graham and Bell were deployed from a single ISIPod dispenser, while Dove 1 was deployed from a second such dispenser.[6]

On 27 April 2013, the satellite was confirmed to have burned up in the atmosphere, with instruments still running up until then.[7]

Notes and References

  1. Web site: Orbital Elements. https://web.archive.org/web/20130423233046/http://www.phonesat.org/phonesat.txt. PhoneSat.org. 23 April 2013. 23 April 2013. 23 April 2013. dead.
  2. Web site: PhoneSat Flight Demonstrations - NASA's Smartphone Nanosatellite. NASA. 16 February 2013. 23 April 2013. 27 April 2013. https://web.archive.org/web/20130427035914/http://www.nasa.gov/directorates/spacetech/small_spacecraft/phonesat.html. dead.
  3. Web site: Packet Description. https://web.archive.org/web/20130423233042/http://www.phonesat.org/packet_description.php . PhoneSat.org. 23 April 2013. 23 April 2013. 23 April 2013. dead.
  4. Web site: PhoneSat-1 and -2 missions on Antares rocket maiden flight. European Space Agency . eoPortal Directory. 23 April 2013.
  5. Web site: Antares conducts a flawless maiden launch. William. Graham. NASASpaceFlight.com. 21 April 2013. 22 April 2013.
  6. Web site: Spaceflight Successfully Deploys Five Spacecraft Launched by Two Launch Vehicles from Two Continents . Spaceflight Services. 21 April 2013. 23 April 2013. dead. https://web.archive.org/web/20130621062540/http://spaceflightservices.com/spaceflight-successfully-deploys-five-spacecraft-launched-by-two-launch-vehicles-from-two-continents/. 21 June 2013.
  7. Web site: Smartphone satellites beam down pictures from space. Gizmag. 5 May 2013. 2 December 2013.