Magnetic Dipole Modeling for DC and Low Frequency AC Magnetic Fields in Space Missions-Reference-Cited by-同舟云学术

Magnetic Dipole Modeling for DC and Low Frequency AC Magnetic Fields in Space Missions

Published:2018 Issue: Volume: Page:71-114
ISSN:2327-039X
Container-title:Electromagnetic Compatibility for Space Systems Design
language:
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Author:

Spantideas Sotirios¹,Kapsalis Nikolaos¹

Affiliation:

1. National Technical University of Athens, Greece

Abstract

In this chapter, modeling methods of static and slowly varying magnetic field emissions that are generated by spacecraft equipment are analyzed and discussed. In particular, specific issues on the established methods for multiple magnetic dipole modeling (MDM) are investigated and validated via near field measurements of well-behaved magnetic sources. Moreover, a software-based calibration technique for measuring facilities, dedicated to magnetic characterization of spacecraft units, is described and implemented on a configuration consisting of 12 sensors. Due to increasingly strict magnetic cleanliness demands, the modeling of units' induced DC magnetic behavior has become a necessary requirement for various space missions. Therefore, a baseline methodology regarding the measurements and modeling of induced magnetic fields is presented. Finally, DC methods are complemented to cover AC magnetic cleanliness requirements for on-ground verification of low-frequency magnetic fields, including AC induced magnetization effects.

Publisher

IGI Global

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