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Atmospheric Neutral Density Experiment

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The Atmospheric Neutral Density Experiment (ANDE) is an experiment using two spherical satellites to measure the effects of atmospheric drag on spacecraft . ANDE is part of the Space Test Program of the United States Department of Defense , and was deployed in September 2006 from the Space Shuttle Discovery .

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7-815: The two spacecraft used for the ANDE mission are the Mock ANDE Active (MAA) sphere (Navy- OSCAR 61) and the Fence Calibration (FCAL) sphere (OSCAR 62). These microsatellites, developed by the Naval Research Laboratory , will measure drag through the use of precision orbit determination. Ground-based lasers will be used to track the orbits of the sphere to with a couple centimeters of accuracy. Perturbations caused by density gradients and winds will be backed out from these measurements. The two ANDE satellites are nearly perfect spheres; this

14-728: A stainless steel substrate which is used for coarse sun sensing and is another technology demonstrator. The FCAL sphere uses standard photodiodes. ANDE was deployed from the Space Shuttle Discovery on December 21, 2006 near the end of the STS-116 ISS servicing mission. The ANDE-FCAL satellite deployed and is functioning, however the ANDE-MAA failed to deploy at the same time as the FCAL sphere after it became stuck in its launch canister. The deployment of these spheres

21-487: The satellite should be based on computed models of the space environment. Beside their use in the in-situ determination of upper atmospheric density these satellites also function as technology demonstrators and as amateur radio digipeaters . Each satellite can be accessed via amateur radio using the APRS protocol. Part of the technology demonstration was the integration of a command and telemetry system that would not require

28-508: The sphere as round and smooth as possible. The ANDE MAA sphere is made from a proprietary alloy of AL 6061 that is castable, while the FCAL sphere is made from brass. The ANDE FCAL sphere has the distinction of being the only micro satellite to have its structure composed primarily of brass. The differences in materials and hence density and mass of the spheres will cause them to separate from each other along track over time. This separation will be measured and compared to predicted models of where

35-539: The use of normal antennas that would destroy the spherical shape of the micro satellites. The MAA sphere communicates by electrically isolating its two hemispheres with an insulating center disk. The FCAL sphere actually does deploy four whip antennas but each antenna is only a few thousandths of an inch in diameter. Power is provided to these microsatellites using lithium inorganic primary cells – another technology demonstrator. The MAA also has photovoltaic cells made from copper indium gallium selenide (CIGS) deposited on

42-494: Was another technology demonstrator for the newly developed Canister for All Payload Ejections (CAPE) system. One of the difficulties encountered and solved with this technology was the ability to restrain and deploy microsatellites that did not have any type of standard attachment points. OSCAR Too Many Requests If you report this error to the Wikimedia System Administrators, please include

49-424: Was done to make the drag on the satellites independent of their orientation, and because the drag coefficient, optical cross-sections, and radar cross sections of spheres are well understood. Each spherical micro satellite was constructed using the novel technique of centrifugal casting . This manufacturing technique was advantageous due to its low cost and its ability to achieve the high tolerances necessary to make

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