Extremely low-profile wideband dual-polarized microstrip antenna for micro-base-station applications

In this paper, a novel broadband dual‐polarization patch antenna is proposed. Antisymmetric Γ feeding network is applied to excite the radiating patch etched on the upper side of the horizontal substrate, which could minimize the undesired radiation from the probe and extend the impedance bandwidth. For verifying the proposed approach, a prototype is fabricated and measured, the simulated and measured results show the antenna has a wide impedance bandwidth of 48% (1.66‐2.71 GHz) for S11 < −10 dB, as well as stable radiation gain around 9.5 dBi with low cross‐polarization. In addition, the total height of the antenna is only 0.17 λ0 ( λ0is the free space wavelength of central frequency) and high port‐to‐port isolation is better than 30 dB. The characteristics of the proposed antenna illustrate it can be an indication for a micro base station in the mobile communication system.

Section: Resultsmentioning

confidence: 77%

A low‐profile wideband dual‐polarization patch antenna with antisymmetric feeding network

Yang

Zhang

Lan

et al. 2019

“…The antennas have only about 18% impedance bandwidth, while the proposed antenna has more than 30% impedance bandwidth. The differentially‐fed antennas has a wideband and low cross‐polarization, but they need external circuitry for differentially‐fed network. For example, the size of the antenna section is only 0.32 λ 0 × 0.18 λ 0 × 0.16 λ 0 ( λ 0 is the free‐space wavelength at center frequency) in Ref.…”

Section: Resultsmentioning

confidence: 99%

“…Although the detailed dimensions of the antennas in Refs. and are not given, they need additional feeding network on the ground plane, which complicates the structure and increases the manufacturing cost. The proposed antenna does not need external feed networks, so the size of the antenna is only 0.43 λ 0 × 0.43 λ 0 × 0.14 λ 0 , which can decrease the antenna cost in mass production.…”

Section: Resultsmentioning

confidence: 99%

“…Compared with the antenna in Ref. , the proposed antenna in this article does not need extra power dividers, which can reduce the total size of the antenna system and the power loss in the power divider.…”

Section: Antenna Structure and Working Principlementioning

confidence: 99%

“…However, the bandwidth of the patch antenna with differentially feeding is only about 18%, which is unable to meet the requirements of modern wireless communication systems. Later, the impedance bandwidth over 30% can be achieved …”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

A wideband patch antenna with a pair of antisymmetric balun as differentially fed network

Zhang

Lan

Liu

et al. 2018

A novel singly differentially‐fed microstrip patch antenna (DFMA) is proposed, which is composed of a radiating patch, a differentially‐fed network with a twin antisymmetric miniaturized baluns and a ground plane for unidirectional radiation. In the differentially‐fed network, the signal is coupled to the two feedlines on both sides by the two miniaturized baluns. The radiating patch is excited by the coupling feed sheet located below the radiating patch, and the coupling feed sheet is connected to the upper end of the feedline. The lower end of the feedlines is connected to the ground plane, and there is a slot on the ground of the feeding network. Due to the existence of coupling feed sheet and slot, a second nonradiating resonant is achieved, and a wideband property is obtained. Finally, the prototype of the antenna is fabricated and studied experimentally. Simulated and measured results show that the impedance bandwidth of the antenna is 30.3% (1.71‐2.32 GHz) for S11 < −10 dB. Besides, a stable symmetric radiation pattern is obtained with gain around 9.6 dB and cross‐polarization less than −21 dB, which demonstrates the designed antenna has the property of wideband, high gain and low cross polarization.

Enhancing characteristics of dual‐polarized BTS element antenna using metal director

Rezvani

Mohammadi

2019

This article proposes a dual-polarized antenna with enhanced characteristics using metal director for base transceiver station applications. The proposed antenna consists of a main radiation element, ±45 ᴼ dual-polarized feed structure, a reflector and a metal director. The metal director improves the impedance matching and increases the gain and front to back ratio. A prototype of the antenna is fabricated and the measured results show the wide frequency bandwidths of 63% for port 1 with frequency range 1.6 to 3.1 GHz and 60% for port 2 with frequency range 1.6 to 3 GHz. The obtained experimental isolation between ports is greater than 28 dB. The measured results also represent a gain of >8.4 dBi and the stable radiation patterns with half-power beam width wider than of 65 . According to mentioned experimental results, the presented antenna can be used in