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Maple algorithm for damping quality of anechoic chambers evaluation

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dc.title Maple algorithm for damping quality of anechoic chambers evaluation en
dc.contributor.author Pospíšilík, Martin
dc.contributor.author Soares, Rui Miguel
dc.contributor.author Adámek, Milan
dc.relation.ispartof International Journal of Mathematics and Computers in Simulation
dc.identifier.issn 1998-0159 Scopus Sources, Sherpa/RoMEO, JCR
dc.date.issued 2016
utb.relation.volume 10
dc.citation.spage 161
dc.citation.epage 170
dc.type article
dc.language.iso en
dc.publisher North Atlantic University Union (NAUN)
dc.subject Anechoic chamber en
dc.subject Cavity resonator en
dc.subject Electromagnetic compatibility en
dc.subject Reflections damping en
dc.description.abstract Anechoic and semi anechoic chambers are among the necessary equipment that is needed for testing of devices for their electromagnetic compatibility or for experiments with electromagnetic field emitters, receivers, shielding and many more devices. As they require shielding for their proper operation, undesirable reflections occurring inside them are a natural consequence that must be eliminated by suitable absorbers. Naturally, the reflections cannot be eliminated absolutely in any case, but the aim of the constructers of such chambers is always to minimize them as well as possible. As the constructions of the chambers differ, each of them shows different resonant frequencies and standing waves displacement, although it complies with the standards for electromagnetic compatibility measurement. This phenomenon increases in its importance when the chamber is intended to be used for scientific purposes. In some cases, the knowledge of its behavior is crucial for various experiments. Because the standing waves caused by the reflections inside the chamber manifest themselves as resonant peaks occurring in the frequency response measurement, one of the possibility of evaluation of the quality of the reflections’ damping is to identify the resonant peaks and calculate the Q-factor of the chamber, considering it acts as a cavity resonator. As cavity resonators usually show very high Qfactors, the lower value is obtained, the better damping by the absorbers in the chamber is ensured. One of such approaches to evaluate the real chamber that is being operated at Tomas Bata University in Zlin, using an algorithm implemented in Maple software, is described within the framework of this paper. © 2016, North Atlantic University Union. All rights reserved. en
utb.faculty Faculty of Applied Informatics
dc.identifier.uri http://hdl.handle.net/10563/1006391
utb.identifier.obdid 43875787
utb.identifier.scopus 2-s2.0-84964008627
utb.source j-scopus
dc.date.accessioned 2016-07-26T14:58:24Z
dc.date.available 2016-07-26T14:58:24Z
utb.contributor.internalauthor Pospíšilík, Martin
utb.contributor.internalauthor Adámek, Milan
utb.fulltext.affiliation Martin Pospisilik, Rui Miguel Soares Silva, Milan Adamek Faculty of applied informatics, Tomas Bata University in Zlin, Nad Stranemi 4511, 76005 Zlin, Czech Republic (corresponding author, phone: +420 606 417 702; e-mail: [email protected]) Polytechnic Institute of Beja, Campus do Instituto Politécnico de Beja Rua Pedro Soares, 7800-295 Beja, Portugal (e-mail: [email protected]) Faculty of applied informatics, Tomas Bata University in Zlin, Nad Stranemi 4511, 76005 Zlin, Czech Republic (corresponding author, phone: +420 606 417 702; e-mail: [email protected])
utb.fulltext.dates -
utb.fulltext.faculty Faculty of Applied Informatics
utb.fulltext.faculty Faculty of Applied Informatics
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