Loading [MathJax]/extensions/MathZoom.js
A Novel Parallel-Series Feeding Network Based on Three-Way Power Divider for Microstrip Antenna Array | IEEE Journals & Magazine | IEEE Xplore
Access provided by:

MIT Libraries

Sign Out
Access provided by:

MIT Libraries

Sign Out
ADVANCED SEARCH
Journals & Magazines >IEEE Antennas and Wireless Pr... >Volume: 12

A Novel Parallel-Series Feeding Network Based on Three-Way Power Divider for Microstrip Antenna Array

PDF
Kejia Ding; Xiaoxing Fang; Aixin Chen; Yazhou Wang
All Authors

Abstract:

A novel parallel-series feeding network for microstrip antenna arrays has been presented. A three-way power divider is utilized to connect the subarrays with the series-f...Show More

Metadata

Abstract:

A novel parallel-series feeding network for microstrip antenna arrays has been presented. A three-way power divider is utilized to connect the subarrays with the series-fed transmission lines. The proposed power divider is composed of seven transmission lines with different characteristic impedances and two isolation resistors. By changing the characteristic impedance of the transmission lines, the power division ratio can be adjusted. Meanwhile, good match and reasonable isolation performance can be obtained simultaneously. The proposed approach has been verified experimentally by using a 20-unit road side unit (RSU) antenna array operating at 5.815 GHz frequency range for a electronic toll collection (ETC) system. The proposed feeding network can be simply implemented on a single-layer substrate.
Published in: IEEE Antennas and Wireless Propagation Letters ( Volume: 12)
Page(s): 757 - 760
Date of Publication: 25 June 2013

ISSN Information:

DOI: 10.1109/LAWP.2013.2270938
Citations are not available for this document.
Contents

I. Introduction

Microstrip antenna arrays are commonly used in mobile telecommunication, electronic toll collection (ETC), and airborne telecommunication systems, where size, weight, manufacturing cost, and conformability are the main requirements. Common approaches for implementing feeding networks include parallel feeding [1], series feeding [2]–[5], and parallel-series feeding [6], [7]. A parallel feeding network can provide in-phase excitation to all elements and achieve good match and directional radiating characteristics in wide frequency range. A series feeding network has relatively shorter transmission line, therefore the network has lower dissipation loss and smaller size. Parallel-series feeding employs both benefits, i.e., broadband performance and low dissipation loss. A parallel-series feeding network can be implemented by connecting a series-fed subarray with a parallel feeding network [6], or by using combined parallel/series feeding structure to excite radiating elements [7]. However, the combined structure of X-shape or T-shape can neither provide good match at all ports nor achieve good isolation between split ports. This not only limits the impedance bandwidth, but also makes it difficult to achieve low sidelobe levels considering the mutual coupling between radiating elements.

Cites in Papers - |

Cites in Papers - IEEE (11)

Select All
1.
Yuliia Antonenko, Yevhenii Antonenko, Dmytro Shtoda, Alexandr Gribovsky, Victor Katrich, Sergey Berdnik, "Research of a Microstrip Antenna Array Excited by a Planar Waveguide with a quasi-TEM Mode", 2023 IEEE XXVIII International Seminar/Workshop on Direct and Inverse Problems of Electromagnetic and Acoustic Wave Theory (DIPED), vol.1, pp.90-94, 2023.
Show Article
Google Scholar
2.
Hui-Dong Li, Lei Zhu, "Radiation Pattern Reshaping of an Open-Circuited Bidirectional Leaky-Wave Antenna", 2023 IEEE MTT-S International Wireless Symposium (IWS), pp.1-3, 2023.
Show Article
Google Scholar
3.
Peng-Yuan Wang, Yue-Long Lyu, Fan-Yi Meng, Andreas Rennings, Daniel Erni, "Grating-Lobe Suppression for Periodic Leaky-Wave Antennas at the Full Array Level", IEEE Antennas and Wireless Propagation Letters, vol.21, no.10, pp.2115-2119, 2022.
Show Article
Google Scholar
4.
Min Li, Lijun Jiang, Kwan Lawrence Yeung, "A Cascaded Power Dividing Decoupling Network for Antennas with Distinct Frequency Bands", 2021 15th European Conference on Antennas and Propagation (EuCAP), pp.1-4, 2021.
Show Article
Google Scholar
5.
Min Li, Min Wang, Lijun Jiang, Lawrence Kwan Yeung, "Decoupling of Antennas With Adjacent Frequency Bands Using Cascaded Decoupling Network", IEEE Transactions on Antennas and Propagation, vol.69, no.2, pp.1173-1178, 2021.
Show Article
Google Scholar
6.
Ana Buesa-Zubiria, Jaime Esteban, "Design of Broadband Doubly Asymmetrical Branch-Line Directional Couplers", IEEE Transactions on Microwave Theory and Techniques, vol.68, no.4, pp.1439-1451, 2020.
Show Article
Google Scholar
7.
Rinkee Chopra, Girish Kumar, "Series- and Corner-Fed Planar Microstrip Antenna Arrays", IEEE Transactions on Antennas and Propagation, vol.67, no.9, pp.5982-5990, 2019.
Show Article
Google Scholar
8.
Kejia Ding, Ahmed A. Kishk, "Multioctave Bandwidth of Parallel-Feeding Network Based on Impedance Transformer Concept", IEEE Transactions on Antennas and Propagation, vol.67, no.4, pp.2803-2808, 2019.
Show Article
Google Scholar
9.
Kejia Ding, Ahmed Kishk, "Bandwidth Enhancement for Parallel Feeding Networks by Regulating Transmission Line Lengths", 2018 IEEE International Symposium on Antennas and Propagation & USNC/URSI National Radio Science Meeting, pp.959-960, 2018.
Show Article
Google Scholar
10.
Shaowei Liao, Quan Xue, "Compact UHF Three-Element Sequential Rotation Array Antenna for Satcom Applications", IEEE Transactions on Antennas and Propagation, vol.65, no.5, pp.2328-2338, 2017.
Show Article
Google Scholar
11.
Yongle Wu, Yangyang Guan, Weimin Wang, Yuanan Liu, "Three-way dual-band planar series-type power divider for different terminated impedances", 2015 IEEE International Symposium on Antennas and Propagation & USNC/URSI National Radio Science Meeting, pp.1046-1047, 2015.
Show Article
Google Scholar

Cites in Papers - Other Publishers (5)

1.
Abdullah G. Alharbi, H. M. Arifur Rahman, Mohammad Monirujjaman Khan, Muhammad Inam Abbasi, Amani Abdulrahman Albraikan, Faris A. Almalki, "Design and Study of a Miniaturized Millimeter Wave Array Antenna for Wireless Body Area Network", International Journal of Antennas and Propagation, vol.2022, pp.1, 2022.
CrossRef Google Scholar
2.
Le Zou, Xuetian Wang, Wei Wang, Hongmin Gao, "Ka-band microstrip array antenna with compact series-parallel hybrid strip-line feeding network", IEICE Electronics Express, vol.18, no.14, pp.20210231, 2021.
CrossRef Google Scholar
3.
Ahmed Ghaloua, Jamal Zbitou, Larbi El Abdellaoui, Mohamed Latrach, "Miniaturization and Reduction of Mutual Coupling Between Antennas Arrays Using DGS and Planar EBG Structures", Emerging Innovations in Microwave and Antenna Engineering, pp.192, 2019.
CrossRef Google Scholar
4.
Mingyu Sun, Zhe Zhang, Kang An, Xianghui Wang, Yuezhi Jiang, Aixin Chen, "Dual-Sense Circular Polarization Antenna Based on Reconfigurable Orthogonal Network", International Journal of Antennas and Propagation, vol.2019, pp.1, 2019.
CrossRef Google Scholar
5.
Meijun Qu, Mingxing Li, Lidan Yao, Zheng Zhuang, Shufang Li, Li Deng, "A Novel Compact Wideband Power Divider with Ultra-wideband Harmonic Suppression", Plasmonics, 2018.
CrossRef Google Scholar
Contact IEEE to Subscribe
More Like This
Microstrip Antenna Array With Series Feeding Network Designed With the Use of Slot-Coupled Three-Way Power Divider

IEEE Antennas and Wireless Propagation Letters

Published: 2012

Series-Fed Microstrip Antenna Array With Inclined-Slot Couplers as Three-Way Power Dividers

IEEE Antennas and Wireless Propagation Letters

Published: 2013

Show More

References

References is not available for this document.

IEEE Account

Purchase Details

Profile Information

Need Help?

A not-for-profit organization, IEEE is the world's largest technical professional organization dedicated to advancing technology for the benefit of humanity.
© Copyright 2025 IEEE - All rights reserved. Use of this web site signifies your agreement to the terms and conditions.