A Novel Wideband End-Fire Conformal Antenna Array Mounted on a Dielectric Cone

Authors

  • Zengrui Li School of Information Engineering Communication University of China, Beijing, 100024, China
  • Longdan Tan Network Operation Center Startimes Media Group, Beijing, 100024, China
  • Xiaole Kang School of Information Engineering Communication University of China, Beijing, 100024, China
  • Jianxun Su School of Information Engineering Communication University of China, Beijing, 100024, China
  • Qingxin Guo School of Information Engineering Communication University of China, Beijing, 100024, China zrli@cuc.edu.cn, darever1988@126.com, sujianxun_jlgx@163.com, School of Information Engineering Communication University of China, Beijing, 100024, China
  • Yaoqing (Lamar) Yang Department of Electrical and Computer Engineering University of Nebraska-Lincoln, Nebraska, 68182, USA
  • Junhong Wang Institute of Lightwave Technology Beijing Jiaotong University, Beijing, 100044, China

Keywords:

Conformal, Koch fractal, log-periodic antenna, wideband

Abstract

In this paper, a novel log-periodic antenna named quasi-second order Koch fractal log-periodic dipole array (QLPK2DA) is presented for the conformal applications. The proposed antenna array shows wider operating bandwidth and small physical profile. In addition, the radiation characteristics of the proposed antenna array mounted on a dielectric cone are investigated. Results show that the cone curvature has an influence on the performance of the conformal antenna, both in terms of its bandwidth and radiation patterns. The thickness and permittivity of the dielectric cone have an effect on the bandwidth of the conformal antenna. The measured results show that the antenna has a wide band ranging from 2 GHz to 10 GHz and shows a typical endfire radiation beam. Measurement results of both single antenna and conformal antenna array show a good agreement with simulated values.

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Published

2021-08-18

How to Cite

[1]
Z. . Li, “A Novel Wideband End-Fire Conformal Antenna Array Mounted on a Dielectric Cone”, ACES Journal, vol. 31, no. 08, pp. 933–942, Aug. 2021.

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General Submission