Rotating Unbalanced-Mass devices for scanning : Results from the proof-of-concept test

Author:: Alhorn, Dean C.
Published:: Jan. 01, 1994.
Physical Description:: 1 electronic document
Additional Creators:: Polites, Michael E.

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Summary:

Rotating unbalanced-mass (RUM) devices are a new way to scan space-based, balloon-borne, and ground-based gimbaled payloads, like x-ray and gamma-ray telescopes. They can also be used to scan free-flying spacecraft. Circular scans, linear scans, and raster scans can be generated. A pair of RUM devices generates the basic scan motion and an auxiliary control system using torque motors, control moment gyros, or reaction wheels keeps the scan centered on the target and produces some complementary motion for raster scanning. Previous analyses and simulation results show that this approach offers significant power savings compared to scanning only with the auxiliary control system, especially with large payloads and high scan frequencies. However, these claims have never been proven until now. This paper describes a laboratory experiment which tests the concept of scanning a gimbaled payload with RUM devices. The test results are compared with those from a computer simulation model of the experiment and the differences are discussed.

Other Subject(s):

Spacecraft Instrumentation

Collection:

NASA Technical Reports Server (NTRS) Collection.

Note:

Document ID: 19960018282.
Accession ID: 96N23610.
AAS-94-002.
NAS 1.15:111239.
NASA-TM-111239.

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