Antenna De-Embedding in FDTD Using Spherical Wave Functions by Exploiting Orthogonality

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Nov 08, 2021
Leonardo Mörlein, Lukas Berkelmann, Dirk Manteuffel
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De-embedding antennas from the channel using Spherical Wave Functions (SWF) is a useful method to reduce the numerical effort in the simulation of wearable antennas. In this paper an analytical solution to the De-embedding problem is presented in form of surface integrals. This new integral solution is helpful on a theoretical level to derive insights and is also well suited for implementation in Finite Difference Time Domain (FDTD) numerical software. The spherical wave function coefficients are calculated directly from near-field values. Furthermore, the presence of a near-field scatterer in the de-embedding problem is discussed on a theoretical level based on the Huygens Equivalence Theorem. This makes it possible to exploit the degrees of freedom in such a way that it is sufficient to only use out-going spherical wave functions and still obtain correct results.

* 5 pages, 6 figures. Version as submitted to the paper deadline (+Copyright Statement). To be published in 2022 16th European Conference on Antennas and Propagation (EuCAP)  
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