Design of a dual-frequency microstrip planar array antenna operating in the Ka-band

Yuhang Tian; Xi Pan; Wenqiang Zhou; Linyan Guo

doi:10.1088/1402-4896/add587

Design of a dual-frequency microstrip planar array antenna operating in the Ka-band

Yuhang Tian, Xi Pan^*, Wenqiang Zhou, Linyan Guo

^*Corresponding author for this work

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

Abstract

This study proposes a novel Ka-band microstrip planar array antenna featuring dual-band operation. By implementing a one-to-eight T-junction power divider, efficient excitation of array elements is achieved with impedance matching. Furthermore, the incorporated decoupling structure (DS) effectively suppresses mutual coupling between antenna elements, mitigating mutual coupling effects and optimizing radiation performance. The proposed antenna operates across dual frequency bands (34-35 GHz and 35-36 GHz), exhibiting inter-element isolation below −35 dB, average gain exceeding 13.5 dBi, and H-plane half-power beamwidths narrower than 20°. Characterized by stable bandwidth, low mutual coupling, high gain, and directional radiation patterns, this antenna demonstrates promising applications in millimeter-wave communications, radar systems, satellite remote sensing.

Original language	English
Article number	065549
Journal	Physica Scripta
Volume	100
Issue number	6
DOIs	https://doi.org/10.1088/1402-4896/add587
Publication status	Published - 1 Jun 2025
Externally published	Yes

Keywords

array antenna
decoupling structure
dual-band
T-junction power divider

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10.1088/1402-4896/add587

Cite this

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title = "Design of a dual-frequency microstrip planar array antenna operating in the Ka-band",

abstract = "This study proposes a novel Ka-band microstrip planar array antenna featuring dual-band operation. By implementing a one-to-eight T-junction power divider, efficient excitation of array elements is achieved with impedance matching. Furthermore, the incorporated decoupling structure (DS) effectively suppresses mutual coupling between antenna elements, mitigating mutual coupling effects and optimizing radiation performance. The proposed antenna operates across dual frequency bands (34-35 GHz and 35-36 GHz), exhibiting inter-element isolation below −35 dB, average gain exceeding 13.5 dBi, and H-plane half-power beamwidths narrower than 20°. Characterized by stable bandwidth, low mutual coupling, high gain, and directional radiation patterns, this antenna demonstrates promising applications in millimeter-wave communications, radar systems, satellite remote sensing.",

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AU - Tian, Yuhang

AU - Pan, Xi

AU - Zhou, Wenqiang

AU - Guo, Linyan

PY - 2025/6/1

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AB - This study proposes a novel Ka-band microstrip planar array antenna featuring dual-band operation. By implementing a one-to-eight T-junction power divider, efficient excitation of array elements is achieved with impedance matching. Furthermore, the incorporated decoupling structure (DS) effectively suppresses mutual coupling between antenna elements, mitigating mutual coupling effects and optimizing radiation performance. The proposed antenna operates across dual frequency bands (34-35 GHz and 35-36 GHz), exhibiting inter-element isolation below −35 dB, average gain exceeding 13.5 dBi, and H-plane half-power beamwidths narrower than 20°. Characterized by stable bandwidth, low mutual coupling, high gain, and directional radiation patterns, this antenna demonstrates promising applications in millimeter-wave communications, radar systems, satellite remote sensing.

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Design of a dual-frequency microstrip planar array antenna operating in the Ka-band

Abstract

Keywords

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