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Autore principale: Li, Jiawang
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2504.19221
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author Li, Jiawang
author_facet Li, Jiawang
contents A large intelligent surface (LIS) is a promising approach to enhancing 6G performance in sub-10 GHz frequency bands. An analysis of the horizontal dipole linear array reveals that when the array size is sufficiently large, employing the conjugate phase method to excite the antenna elements results in a focal point along the central line of the array that gradually stabilizes at a constant value. The study evaluates the 3dB focal resolution generated by the dipole array for two polarizations. Additionally, the feasibility of generating circularly polarized focal points and the focal displacement under a limited array size are explored. Previous near-field focal synthesis methods primarily considered only the line-of-sight (LOS) channel. To enhance practicality, this study adopts a two-ray channel model to analyze near-field focal synthesis results in the presence of a reflected path. Both two polarizations are discussed separately, with design guidelines provided for array placement and focal point positioning. Finally, electromagnetic simulations are conducted within the linear array to validate the proposed design. These simulations highlight the capability of the horizontal dipole array configuration to be directly applied without significant coupling effects between elements. The proposed design guidelines lay a solid foundation for the application of LIS in 6G technology.
format Preprint
id arxiv_https___arxiv_org_abs_2504_19221
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publishDate 2025
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spellingShingle Near-Field Collinear Dipole Array Design with Dual-Polarization Operation for Wireless Power Transfer
Li, Jiawang
Signal Processing
A large intelligent surface (LIS) is a promising approach to enhancing 6G performance in sub-10 GHz frequency bands. An analysis of the horizontal dipole linear array reveals that when the array size is sufficiently large, employing the conjugate phase method to excite the antenna elements results in a focal point along the central line of the array that gradually stabilizes at a constant value. The study evaluates the 3dB focal resolution generated by the dipole array for two polarizations. Additionally, the feasibility of generating circularly polarized focal points and the focal displacement under a limited array size are explored. Previous near-field focal synthesis methods primarily considered only the line-of-sight (LOS) channel. To enhance practicality, this study adopts a two-ray channel model to analyze near-field focal synthesis results in the presence of a reflected path. Both two polarizations are discussed separately, with design guidelines provided for array placement and focal point positioning. Finally, electromagnetic simulations are conducted within the linear array to validate the proposed design. These simulations highlight the capability of the horizontal dipole array configuration to be directly applied without significant coupling effects between elements. The proposed design guidelines lay a solid foundation for the application of LIS in 6G technology.
title Near-Field Collinear Dipole Array Design with Dual-Polarization Operation for Wireless Power Transfer
topic Signal Processing
url https://arxiv.org/abs/2504.19221