Ka-band microstrip array antenna with compact series-parallel hybrid strip-line feeding network

Le Zou; Xuetian Wang; Wei Wang; Hongmin Gao

doi:10.1587/ELEX.18.20210231

Ka-band microstrip array antenna with compact series-parallel hybrid strip-line feeding network

Le Zou^*, Xuetian Wang, Wei Wang, Hongmin Gao

^*Corresponding author for this work

School of Integrated Circuits and Electronics

Beijing Institute of Technology

Research output: Contribution to journal › Review article › peer-review

1 Citation (Scopus)

Abstract

This study proposes a Ka-band high-performance microstrip array antenna having a planar array front-end and strip-line back-end. 10 × 4 hybrid-fed rectangular patches with Taylor-synthesized excitation is adopted to form weighted patterns. Preferable symmetrical patterns are obtained covering 34.5–35.5 GHz working band due to the symmetric feeding arrangement. The measured reflection coefficient is lower than −10 dB, and peak co-polarization gain and first side-lobe level are better than 19 dB and −17 dB, respectively. Additionally, the strip-line back-end ensures an ideal front-to-back ratio of approximately 40 dB. The measurement results coincide with the simulation results, proving the immense prospect of our design in airspace detection or other applicable scenarios.

Original language	English
Journal	IEICE Electronics Express
Volume	18
Issue number	14
DOIs	https://doi.org/10.1587/ELEX.18.20210231
Publication status	Published - 25 Jul 2021

Keywords

Airspace detection
Compact structure
Narrow beam
Planar microstrip array
Strip-line feeding network
Taylor synthesis

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10.1587/ELEX.18.20210231

Cite this

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title = "Ka-band microstrip array antenna with compact series-parallel hybrid strip-line feeding network",

abstract = "This study proposes a Ka-band high-performance microstrip array antenna having a planar array front-end and strip-line back-end. 10 × 4 hybrid-fed rectangular patches with Taylor-synthesized excitation is adopted to form weighted patterns. Preferable symmetrical patterns are obtained covering 34.5–35.5 GHz working band due to the symmetric feeding arrangement. The measured reflection coefficient is lower than −10 dB, and peak co-polarization gain and first side-lobe level are better than 19 dB and −17 dB, respectively. Additionally, the strip-line back-end ensures an ideal front-to-back ratio of approximately 40 dB. The measurement results coincide with the simulation results, proving the immense prospect of our design in airspace detection or other applicable scenarios.",

keywords = "Airspace detection, Compact structure, Narrow beam, Planar microstrip array, Strip-line feeding network, Taylor synthesis",

author = "Le Zou and Xuetian Wang and Wei Wang and Hongmin Gao",

note = "Publisher Copyright: Copyright {\textcopyright} 2021 The Institute of Electronics, Information and Communication Engineers",

year = "2021",

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doi = "10.1587/ELEX.18.20210231",

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T1 - Ka-band microstrip array antenna with compact series-parallel hybrid strip-line feeding network

AU - Zou, Le

AU - Wang, Xuetian

AU - Wang, Wei

AU - Gao, Hongmin

PY - 2021/7/25

Y1 - 2021/7/25

N2 - This study proposes a Ka-band high-performance microstrip array antenna having a planar array front-end and strip-line back-end. 10 × 4 hybrid-fed rectangular patches with Taylor-synthesized excitation is adopted to form weighted patterns. Preferable symmetrical patterns are obtained covering 34.5–35.5 GHz working band due to the symmetric feeding arrangement. The measured reflection coefficient is lower than −10 dB, and peak co-polarization gain and first side-lobe level are better than 19 dB and −17 dB, respectively. Additionally, the strip-line back-end ensures an ideal front-to-back ratio of approximately 40 dB. The measurement results coincide with the simulation results, proving the immense prospect of our design in airspace detection or other applicable scenarios.

AB - This study proposes a Ka-band high-performance microstrip array antenna having a planar array front-end and strip-line back-end. 10 × 4 hybrid-fed rectangular patches with Taylor-synthesized excitation is adopted to form weighted patterns. Preferable symmetrical patterns are obtained covering 34.5–35.5 GHz working band due to the symmetric feeding arrangement. The measured reflection coefficient is lower than −10 dB, and peak co-polarization gain and first side-lobe level are better than 19 dB and −17 dB, respectively. Additionally, the strip-line back-end ensures an ideal front-to-back ratio of approximately 40 dB. The measurement results coincide with the simulation results, proving the immense prospect of our design in airspace detection or other applicable scenarios.

KW - Airspace detection

KW - Compact structure

KW - Narrow beam

KW - Planar microstrip array

KW - Strip-line feeding network

KW - Taylor synthesis

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U2 - 10.1587/ELEX.18.20210231

DO - 10.1587/ELEX.18.20210231

M3 - Review article

AN - SCOPUS:85112130798

SN - 1349-2543

VL - 18

JO - IEICE Electronics Express

JF - IEICE Electronics Express

IS - 14

ER -

Ka-band microstrip array antenna with compact series-parallel hybrid strip-line feeding network

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Keywords

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