STENNIS SPACE CENTER, Miss.-U.S. Navy electro-optics researchers plan to ask industry to develop charge-coupled device (CCD) cameras and simulators as part of a future Earth-observation satellite called Ionospheric Connection Explorer (ICON) that will study the variability of Earth's ionosphere, which can interfere with communications and geopositioning signals.
Officials of the Naval Research Laboratory at Stennis Space Center outside of Gulfport, Miss., released a presolicitation notice (N00173-13-R-SE02) for the Research and Development for Engineering Models (EM) and spaceflight-qualified Flight Model (FM) Charge-Coupled Device (CCD) Cameras for the Michelson Interferometer for Global High-resolution Thermospheric Imager (MIGHTI) program.
|This artist's rendering depicts the Michelson Interferometer for Global High-resolution Thermospheric Imager (MIGHTI) space instrument.|
The project calls for NRL researchers to buy CCD cameras and simulators from the aerospace industry for the MIGHTI sensor that will be part of the ICON satellite, which is under development at the University of California, Berkeley.
NRL officials were to issue a formal solicitation and detailed statement of work sometime in January.
NASA selected ICON as one of three missions in the heliophysics category for a Phase A study, which is an 11-month effort to produce a more detailed mission proposal. At the end of the Phase A, NASA will select one of the three missions for flight.
The MIGHTI instrument will consist of two similar units that will measure upper atmospheric winds and temperatures along one line of sight each.
NRL officials will hire a company to build two flight model CCD cameras, one for each of the two MIGHTI units; one engineering model CCD camera, two electrically/electronically accurate camera simulators for power, command, control, and data interface testing; and one set of critical components for a third spare CCD camera.
NRL also will need one additional simulator, engineering-model and flight-model CCD camera and assembly of a third flight-model CCD camera using the set of critical long-lead time components provided in the base award. Each CCD camera will have a cooled CCD, an NRL-supplied spectral filter immediately in front of the CCD, front-end electronics including A/D converter, radiation shield, mechanical enclosure, and interfaces.
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More information is online at http://1.usa.gov/Wr4y14.