Facing the Angular Stabilization of Loop-Based Artificial Magnetic Conductors Through Lumped Inductors
Subject:
AMC
Angular stability
Lumped inductors
Publication date:
Editorial:
IEEE
Publisher version:
Descripción física:
Abstract:
This work focuses in achieving the angular stabilization of a square loop-based AMC from a novel approach: by exploring the possibilities of introducing lumped inductors. The study is conducted considering the typical constraints an actual designer has to cope with (concerning limited size and dielectric thickness and properties). As a result, a stable AMC in the 5.8GHz band is obtained, meeting the design requirements. Due to its effectiveness, the novel developed methodology can be directly extended to enhance the angular stability of any loop-based AMC, wide spreading their applications
This work focuses in achieving the angular stabilization of a square loop-based AMC from a novel approach: by exploring the possibilities of introducing lumped inductors. The study is conducted considering the typical constraints an actual designer has to cope with (concerning limited size and dielectric thickness and properties). As a result, a stable AMC in the 5.8GHz band is obtained, meeting the design requirements. Due to its effectiveness, the novel developed methodology can be directly extended to enhance the angular stability of any loop-based AMC, wide spreading their applications
Description:
2017 International Conference on Electromagnetics in Advanced Applications (ICEAA), 11 a 15 de septiembre de 2017, Verona (Italia)
ISBN:
Patrocinado por:
This work has been supported by the Gobierno del Principado de Asturias/FEDER under project GRUPIN14-114 and by the Ministerio de Economía y Competitividad under project TEC2014-54005-P (MIRIIEM)