Satellite Control Section The Satellite Control Section (SCS), which forms the aft part of the SBA, started as Air Force Project 467. SCS was intended as a more capable replacement for the on-orbit propulsion, which had been provided by the
Agena upper stage for previous generations of reconnaissance satellites. The SCS featured an increased diameter of (compared to for the Agena) and a length of . It housed
hydrazine propellant tanks for the pressure fed Orbital Adjust System (OAS) and the Reaction Control System (RCS). OAS and RCS were connected by a transfer line to facilitate propellant exchange. The tank pressure was maintained within the operational range by additional high pressure nitrogen tanks. The SCS incorporated a freon gas system for backup attitude control inherited from the Agena, commonly referred to as "lifeboat". SCS was equipped with deployable
solar panels and an
unfurlable parabolic antenna for high data rate communication.
Main camera misidentified in the original document as
Kubinka airfield The main camera system was designed by Perkin-Elmer to take stereo images, with a forward looking camera on the port side, and an aft looking camera on the starboard side. Images were taken at altitudes ranging from . The camera optical layout is an f/3.0 folded
Wright camera, with a
focal length of . The system aperture is defined by a diameter
aspheric corrector plate, which corrects the
spherical aberration of the Wright design. In each of the cameras the ground image passes through the corrector plate to a 45°-angle flat mirror, which reflects the light to a -diameter
concave main mirror. The main mirror directs the light through an opening in the flat mirror and through a four-element lens system onto the film
platen. The cameras could scan contiguous areas up to 120° wide, and achieved a
ground resolution better than during the later phase of the project.
Dwayne Allen Day calculated, using disclosed specifications, that HEXAGON was capable of at nadir, and at apogee.
Mapping camera Missions 1205 to 1216 carried a "mapping camera" (also known as a "frame camera") that used film and had a moderately low resolution of initially , which improved to on later missions (somewhat better than
LANDSAT). Intended for mapmaking, photos this camera took cover the entire
Earth with images between 1973 and 1981. Almost all the imagery from this camera, amounting to 29,000 images, each covering , was declassified in 2002 as a result of Executive order 12951, the same order which declassified CORONA, and copies of the films were transferred to the
U.S. Geological Survey's Earth Resources Observation Systems office. Scientific analysis of declassified KH-9 satellite images continues to reveal historic trends and changes in climate and terrestrial geology. A 2019 study of
glacial melt in the
Himalayas over the past half-century used data collected by KH-9 satellites throughout the 1970s and 1980s to demonstrate that melt rates had doubled since 1975. The KH-9 was never a backup project for the KH-10
Manned Orbital Laboratory. It was developed solely as a replacement for the Corona search system. to help map the atmospheric density at
high altitudes in an effort to understand the effect on
ephemeris predictions.
IRCB (S73-7) IRCB (Infra-Red Calibration Balloon) was an 66 cm diameter inflatable calibration sphere orbited in the
Space Test Program. It was a piggy-back payload on KH9-8 (1208) boosting it to a 500 mile (800 kilometers)
circular orbit. It disappeared from ground-based sensors in the 1990s, and was found again in 2024. == KH-9 missions ==