Eva Antonino‐Daviu scite author profile

The objective of this paper is to summarize the work that has been developed by the authors for the last several years, in order to demonstrate that the Theory of Characteristic Modes can be used to perform a systematic design of different types of antennas. Characteristic modes are real current modes that can be computed numerically for conducting bodies of arbitrary shape. Since characteristic modes form a set of orthogonal functions, they can be used to expand the total current on the surface of the body. However, this paper shows that what makes characteristic modes really attractive for antenna design is the physical insight they bring into the radiating phenomena taking place in the antenna. The resonance frequency of modes, as well as their radiating behavior, can be determined from the information provided by the eigenvalues associated with the characteristic modes. Moreover, by studying the current distribution of modes, an optimum feeding arrangement can be found in order to obtain the desired radiating behavior.

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Wideband double-fed planar monopole antennas

Antonino‐Daviu

et al. 2003

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A Broadband Pattern Diversity Annular Slot Antenna

Gallo

Antonino‐Daviu

Ferrando‐Bataller

et al. 2012

IEEE Trans. Antennas Propagat.

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Design Guidelines for the Excitation of Characteristic Modes in Slotted Planar Structures

Antonino‐Daviu

Cabedo-Fabrés

Sonkki

et al. 2016

IEEE Trans. Antennas Propagat.

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Abstract-This paper provides some design guidelines for the excitation of broadband slotted planar antennas, addressing key issues such as coupling, symmetries and multiple feeding. The Theory of Characteristic Modes is used to identify the collection of current modes that exists on these structures, dealing to a valuable understanding of the radiating mechanisms and allowing a more controlled design process. Modal analysis of a circular aperture cut on a finite square ground plane is presented in order to demonstrate that an optimum choice of the feeding mechanism can be made according to the current distribution of the desired modes. Based on the information yielded by this modal analysis, a capacitive-coupled dual-feed circular aperture antenna is presented. This antenna takes advantage of the symmetries of the characteristic currents by making use of multiple feeding, in order to excite only some particular modes. Usage of commonly-fed and differentially-fed configurations enables an increased control of the excitation of modes in the structure. Characteristic modes analysis of the antenna including the feeding structures is presented, showing the influence of the feeding lines in the performance of this type of antennas. A prototype of the antenna has been fabricated and measured. Simulated and measured results are presented, being in good agreement.

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Modal Analysis and Design of Band-Notched UWB Planar Monopole Antennas

Antonino‐Daviu

Fabrés

Ferrando‐Bataller

et al. 2010

IEEE Trans. Antennas Propagat.

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