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http://dx.doi.org/10.5139/JKSAS.2020.48.5.355

A Experimental Study on Vibration Attenuation of a Plate with Eddy Current Damper  

Pyeon, Bong-Do (Korea Aerospace University)
Kim, Jong-Hyuk (Korea Aerospace University)
Bae, Jae-Sung (Korea Aerospace University)
Hwang, Jai-Hyuk (Korea Aerospace University)
Publication Information
Journal of the Korean Society for Aeronautical & Space Sciences / v.48, no.5, 2020 , pp. 355-361 More about this Journal
Abstract
Among these satellites, low - orbit small satellites with military characteristics require multi - target observation, and demand for high-resolution photographs and images is increasing. Fast maneuverability is the most important factor for high-resolution images and multi - target observations. However, in the case of a small satellites, it is possible to perform the attitude maneuver if it has high speed, but the residual vibration occurs when the attitude maneuver is completed and the next attitude maneuver is completed. In this study, to verify the vibration characteristics of the plate generated after attitude maneuver, an experimental fixture for simulating the attitude maneuver was fabricated and tested. In addition, Eddy Current Damper (ECD) using Eddy Current Brake system (ECB) is proposed as a passive damping method using permanent magnet to reduce vibration. A mathematical model was established to apply ECD and it was experimentally implemented according to the magnetic flux density and the air gap of the permanent magnet. One plate of four solar panels (plate) was specified, the residual vibration reduction performance after the test was verified experimentally.
Keywords
Eddy Current; High-Agility Satellite; Solar Panel; Attitude Maneuvering; Plate; Eddy Current Damper;
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