Design of a Lightweight Multilayered Composite for DC to 20 GHz Electromagnetic Shielding

Design of a Lightweight Multilayered Composite for DC to 20 GHz Electromagnetic Shielding

The work aims to design a trilayer composite dedicated to electromagnetic shielding over a large frequency range, from 1 Hz to 20 GHz. Analytical and numerical models are used to determine the shielding effectiveness (SE) of this composite in the case of a planar shield. The shield is constituted of...

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Veröffentlicht in:Electronics (Basel) 2021-12, Vol.10 (24), p.3144
Hauptverfasser: Clérico, Paul, Pichon, Lionel, Mininger, Xavier, Dubrunfaut, Olivier, Gannouni, Chadi, He, Delong, Bai, Jinbo, Prévond, Laurent
Format: Artikel
Sprache:eng
Schlagworte:
Carbon
Conductivity
Decomposition
Electromagnetic shielding
Electromagnetism
Far fields
Frequency ranges
Graphene
Homogenization
Magnetic fields
Magnetic shielding
Metals
Monolayers
Near fields
Numerical models
Permeability
Physics
Polymers
Symmetry
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Zusammenfassung:The work aims to design a trilayer composite dedicated to electromagnetic shielding over a large frequency range, from 1 Hz to 20 GHz. Analytical and numerical models are used to determine the shielding effectiveness (SE) of this composite in the case of a planar shield. The shield is constituted of a support layer, a magnetic layer, and a conductive layer. Two possible designs are considered. To simplify the numerical calculation, a homogenization method and the Artificial Material Single Layer (AMSL) method are used. The proposed composite shows a good shielding capacity over the whole studied frequency range, with shielding effectiveness higher than 17 dB and 75 dB, respectively, in the near-field (1 Hz–1 MHz) and far-field (1 MHz–20 GHz). Both homogenization and AMSL methods show good suitability in near-field and allow one to greatly reduce the calculation time.
ISSN:2079-9292
2079-9292
DOI:10.3390/electronics10243144