NASA and Contractor Team Develop One Fast Satellite
HUNTSVILLE, Ala. – NASA has partnered with Dynetics and the Von Braun Center for Science and Innovation, or VCSI, both in Huntsville, Ala., to successfully complete environmental testing of the Fast, Affordable Science and Technology Satellite, or FASTSAT- HSV01.
FASTSAT-HSV01 is a unique platform that can carry multiple small instruments or experiments to low-Earth orbit on a wide range of expendable launch vehicles for a fraction of the cost traditionally required for such missions. The satellite or "bus" will carry six small payloads, including three technology demonstration experiments and three atmospheric research instruments.
The recent environmental tests will ensure before actual flight that the satellite can withstand the rigors of liftoff and the extreme thermal conditions of space.
"This is a significant accomplishment for the team," said FASTSAT-HSV01 Project Manager Mark Boudreaux at NASA's Marshall Space Flight Center in Huntsville, Ala. "From the beginning we’ve been on a very ambitious schedule and in just 10 months we have designed, developed and tested the satellite in a simulated space environment.”
In the past month, engineers at the Marshall Center subjected the spacecraft to the vibration levels of launch, electromagnetic emissions and thermal vacuum conditions of space.
"We developed an innovative collaboration between the Department of Defense Space Test Program at Kirtland Air Force Base, N.M., the Marshall Center, Dynetics and VCSI to develop FASTSAT," said Marty Kress, executive director of the Von Braun Center for Science and Innovation. "Our team developed a new satellite production capability that’s aligned with emerging requirements -- and that bodes well for the future of Huntsville."
"Dynetics has invested in this partnership with VCSI and NASA to enable a low-cost, rapid-response, commercial satellite bus that will support a wide range of customer needs," said Tom Baumbach, President of Dynetics. "Dynetics is proud to have supported this Huntsville partnership with funding and more than 60 engineers and technicians -- taking the rocket city into new and exciting directions."
Nanosail D -- a technology experiment to demonstrate deployment of a compact solar sail boom system from FASTSAT -- will be the first solar sail deployed demonstrating FASTSAT’s ability to launch a nanosatellite into space. Nanosail D was built and is managed at the Marshall Center with support from NASA's Ames Research Center in Moffett Field, Calif.
The other two technology experiments include the Threat Detection System and the Miniature Star Tracker, both managed by the Air Force Research Lab at Kirtland Air Force Base, N.M.
In addition, the spacecraft carries three atmospheric instruments built at NASA’s Goddard Space Flight Center in Greenbelt, Md., in partnership with the U.S. Naval Academy in Annapolis, Md. The instruments include the Thermosphere Temperature Imager, designed to measure spacecraft drag and other flight characteristics; the MINI-ME, a low-energy neutral atom imager that will detect neutral atoms formed in the plasma population of the Earth's outer atmosphere to improve global space weather prediction; and the Plasma and Impedence Spectrum Analyzer, a device that will test a new measurement technique for the type and density of thermal electrons in the ionosphere – which can interfere with radio-based communications and navigation.
FASTSAT-HSV01 and all six experiments/instruments flying on the STP–S26 multi-spacecraft/payload mission have been manifested for launch in 2010 and have been approved by the U.S. Department of Defense Science and Experiments Review Board. The STP-S26 mission is executed by the Department of Defense Space Test Program at the Space Development and Test Wing at Kirtland Air Force Base, which is a unit of the Air Force Space and Missile Systems Center.
The payloads on the FASTSAT-HSV01 mission are cosponsored by NASA and the Department of Defense.
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