PEEC-Based Multi-Objective Synthesis of NFC Antennas in the Presence of Conductive Structures

Thomas Bauernfeind; Paul Baumgartner; Oszkar Biro; Christian Magele; Werner Renhart; Riccardo Torchio

PEEC-Based Multi-Objective Synthesis of NFC Antennas in the Presence of Conductive Structures

Thomas Bauernfeind, Paul Baumgartner, Oszkar Biro, Christian Magele, Werner Renhart, Riccardo Torchio

Institute of Fundamentals and Theory in Electrical Engineering (4370)

Research output: Contribution to journal › Article › peer-review

Abstract

Near Field Communication (NFC) techniques are widely used within everyday activities, e.g., contactless payment systems or authentication. Regardless of the application typically the requirements on the antenna structure are manifold. Frequently limitations in the available space make the antenna design quite challenging especially if other conductive structures are close to the NFC antenna. In the present paper we propose to synthesize the geometry of proximity integrated circuit card (PICC) antennas according to class 6 in the presence of nearby metallic structures. The optimization relies on the differential evolution strategy. The computation of the forward problem is based on the partial element equivalent circuit (PEEC) method.

Original language	English
Pages (from-to)	339-341
Journal	Applied Computational Electromagnetics Society Journal
Volume	34
Issue number	2
Publication status	Published - Feb 2019

Cite this

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title = "PEEC-Based Multi-Objective Synthesis of NFC Antennas in the Presence of Conductive Structures",

abstract = "Near Field Communication (NFC) techniques are widely used within everyday activities, e.g., contactless payment systems or authentication. Regardless of the application typically the requirements on the antenna structure are manifold. Frequently limitations in the available space make the antenna design quite challenging especially if other conductive structures are close to the NFC antenna. In the present paper we propose to synthesize the geometry of proximity integrated circuit card (PICC) antennas according to class 6 in the presence of nearby metallic structures. The optimization relies on the differential evolution strategy. The computation of the forward problem is based on the partial element equivalent circuit (PEEC) method.",

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AU - Bauernfeind, Thomas

AU - Baumgartner, Paul

AU - Biro, Oszkar

AU - Magele, Christian

AU - Renhart, Werner

AU - Torchio, Riccardo

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AB - Near Field Communication (NFC) techniques are widely used within everyday activities, e.g., contactless payment systems or authentication. Regardless of the application typically the requirements on the antenna structure are manifold. Frequently limitations in the available space make the antenna design quite challenging especially if other conductive structures are close to the NFC antenna. In the present paper we propose to synthesize the geometry of proximity integrated circuit card (PICC) antennas according to class 6 in the presence of nearby metallic structures. The optimization relies on the differential evolution strategy. The computation of the forward problem is based on the partial element equivalent circuit (PEEC) method.

M3 - Article

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JF - Applied Computational Electromagnetics Society Journal

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ER -

PEEC-Based Multi-Objective Synthesis of NFC Antennas in the Presence of Conductive Structures

Abstract

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