Low profile Salisbury screen radar absorber with high impedance ground plane

In this paper, impedance matching enhancement of a grounded wearable low-profile loop antenna is investigated using a high-impedance surface (HIS) structure. The wearable loop antenna along with the HIS structure is maintained low-profile, making it a suitable candidate for healthcare applications. The paper starts with investigating, both numerically and experimentally, the effects of several textile parameters on the performance of the wearable loop antenna. The application of impedance enhancement of wearable grounded loop antenna with HIS structure is then demonstrated. Numerical full-wave simulations are presented and validated with measured results. Unlike the grounded wearable loop antenna alone with its degraded performance, the wearable loop antenna with HIS structure showed better matching performance improvement at the 2.45 GHz-band. The computed overall far-field properties of the wearable loop antenna with HIS structure shows good performance, with a maximum gain of 6.19 dBi. The effects of bending the wearable loop antenna structure with and without HIS structure as well as when in close proximity to a modeled human arm are also investigated, where good performance was achieved for the case of the wearable antenna with the HIS structure.

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A novel textured ferrite ground plane for low-profile spiral antenna

Journal of Electromagnetic Waves and Applications ◽

10.1080/09205071.2013.823124 ◽

2013 ◽

Vol 27 (13) ◽

pp. 1720-1724

Author(s):

Ming Chen ◽

Chi-Chih Chen ◽

John L. Volakis

Keyword(s):

Ground Plane ◽

Spiral Antenna ◽

Low Profile

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Comparative analysis of four types of high-impedance surfaces for low profile antenna applications

2005 IEEE Antennas and Propagation Society International Symposium ◽

10.1109/aps.2005.1551433 ◽

2005 ◽

Cited By ~ 7

Author(s):

Jong Ryul Sohn ◽

Heung-Sik Tae ◽

Jae-Gon Lee ◽

Jeong-Hae Lee

Keyword(s):

Comparative Analysis ◽

High Impedance ◽

Low Profile

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A low‐profile circularly polarized antenna based on a circularly symmetric high impedance surface

International Journal of RF and Microwave Computer-Aided Engineering ◽

10.1002/mmce.22821 ◽

2021 ◽

Author(s):

Tian Yang ◽

Jian Ren ◽

Rui Qing Xi ◽

Pu Chu Li ◽

Ying Zeng Yin

Keyword(s):

Impédance Surface ◽

Impedance Surface ◽

Circularly Polarized ◽

High Impedance ◽

Low Profile ◽

High Impedance Surface

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CPW-fed circularly-polarized antenna array with high front-to-back ratio and low-profile

Open Physics ◽

10.1515/phys-2018-0082 ◽

2018 ◽

Vol 16 (1) ◽

pp. 651-655 ◽

Cited By ~ 1

Author(s):

Yilin Liu ◽

Kama Huang

Keyword(s):

Antenna Array ◽

Coplanar Waveguide ◽

Ground Plane ◽

Axial Ratio ◽

Antenna Design ◽

Impedance Bandwidth ◽

Feeding Method ◽

Circularly Polarized ◽

Low Profile ◽

Novel Design

Abstract A novel design of a coplanar waveguide (CPW) feed antenna array with circular polarization (CP) and a high front-to-back ratio is described. The proposed CP array is achieved by using a compact CPW–slotline transition network etched in the ground plane. The measured results show that this kind of feeding method can improve the impedance bandwidth, as well as the axial ratio bandwidth of the CP antenna array and provide adequate gain. The proposed array can achieve a 6.08% impedance bandwidth and a 4.10% CP bandwidth. Details of the antenna design and experimental results are presented and discussed.

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Low-profile U-shaped DRA for ultra-wideband applications

International Journal of Microwave and Wireless Technologies ◽

10.1017/s1759078716000155 ◽

2016 ◽

Vol 9 (3) ◽

pp. 621-627 ◽

Cited By ~ 2

Author(s):

Idris Messaoudene ◽

Tayeb A. Denidni ◽

Abdelmadjid Benghalia

Keyword(s):

Dielectric Resonator ◽

Ground Plane ◽

Ultra Wideband ◽

Impedance Bandwidth ◽

Dielectric Resonator Antenna ◽

Radiation Patterns ◽

Wide Bandwidth ◽

Operating Band ◽

Low Profile ◽

Measurement Results

In this paper, a microstrip-fed U-shaped dielectric resonator antenna (DRA) is simulated, designed, and fabricated. This antenna, in its simple configuration, operates from 5.45 to 10.8 GHz. To enhance its impedance bandwidth, the ground plane is first modified, which leads to an extended bandwidth from 4 to 10.8 GHz. Then by inserting a rectangular metallic patch inside the U-shaped DRA, the bandwidth is increased more to achieve an operating band from 2.65 to 10.9 GHz. To validate these results, an experimental antenna prototype is fabricated and measured. The obtained measurement results show that the proposed antenna can provide an ultra-wide bandwidth and a symmetric bidirectional radiation patterns. With these features, the proposed antenna is suitable for ultra-wideband applications.

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