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Main Authors: Xing, Shao-Hua, Liu, Zhen-Guo, Zhang, Chao, Liu, Yi-Hao
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2506.23512
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author Xing, Shao-Hua
Liu, Zhen-Guo
Zhang, Chao
Liu, Yi-Hao
author_facet Xing, Shao-Hua
Liu, Zhen-Guo
Zhang, Chao
Liu, Yi-Hao
contents This paper presents a simple and cost-effective broadband self-decoupling mechanism to mitigate strong mutual coupling in tightly stacked patch antenna pairs. Unlike conventional decoupling approaches that rely on oppositely directed surface currents between parasitic and driven patches, the proposed method achieves broadband self-decoupling under co-directional surface current distributions by introducing an embedded ultra-narrow metallic coupling line between adjacent parasitic patches. This design effectively mitigates boresight gain reduction and total efficiency degradation typically introduced by conventional decoupling techniques, without requiring additional decoupling circuits or complex fabrication processes. In a tightly spaced two-element array, the proposed method enhances isolation by 16.9 dB across the 5G NR N78 band, reaching a maximum improvement of 40.2 dB. It also supports compact adjacent-band MIMO systems, maintaining mutual coupling levels below -20 dB for antennas operating across both the N77 and N78 bands. Experimental validation on three representative configurations confirms the broadband self-decoupling capability and practical applicability of the proposed technique.
format Preprint
id arxiv_https___arxiv_org_abs_2506_23512
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle A Self-Decoupling Mechanism for Closely Spaced Stacked Microstrip Patch Antenna Pair with Co-Directional Surface Currents
Xing, Shao-Hua
Liu, Zhen-Guo
Zhang, Chao
Liu, Yi-Hao
Applied Physics
This paper presents a simple and cost-effective broadband self-decoupling mechanism to mitigate strong mutual coupling in tightly stacked patch antenna pairs. Unlike conventional decoupling approaches that rely on oppositely directed surface currents between parasitic and driven patches, the proposed method achieves broadband self-decoupling under co-directional surface current distributions by introducing an embedded ultra-narrow metallic coupling line between adjacent parasitic patches. This design effectively mitigates boresight gain reduction and total efficiency degradation typically introduced by conventional decoupling techniques, without requiring additional decoupling circuits or complex fabrication processes. In a tightly spaced two-element array, the proposed method enhances isolation by 16.9 dB across the 5G NR N78 band, reaching a maximum improvement of 40.2 dB. It also supports compact adjacent-band MIMO systems, maintaining mutual coupling levels below -20 dB for antennas operating across both the N77 and N78 bands. Experimental validation on three representative configurations confirms the broadband self-decoupling capability and practical applicability of the proposed technique.
title A Self-Decoupling Mechanism for Closely Spaced Stacked Microstrip Patch Antenna Pair with Co-Directional Surface Currents
topic Applied Physics
url https://arxiv.org/abs/2506.23512