The mechanical design of the subarcsec-accurate, high-bandwidth two-DOF image motion compensator developed to enhance Space Shuttle-based optical telescope experiments' pointing accuracy encompasses a gimbal-type flex-pivot suspension, a novel ironless two-axis forcer, and a differential capacitive tilt-sensor system. The image motion compensator was developed to allow the UV Imaging Telescope Sensor to maintain stringent pointing accuracies over extended integration intervals while experiencing typical manned spacecraft perturbations.
Two-degree-of-freedom image motion compensator for Shuttle-based pointing experiments
Acquisition, Tracking, and Pointing II ; 1988 ; Los Angeles, CA, United States
01.01.1988
Aufsatz (Konferenz)
Keine Angabe
Englisch