A Compact Single Layer Reflectarray Antenna Based on Circular Delay-Lines for X-band Applications

A Compact Single Layer Reflectarray Antenna Based on Circular Delay-Lines for X-band Applications

This paper presents a compact single layer reflectarray antenna based on a diagonally notched square patch and a pair of circular delay lines, for X-band applications. The length and width of circular delay-lines are varied and optimized to attain a linear phase range of more than 600º. The effect o...

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Bibliographic Details
Main Authors: T. Shabbir, R. Saleem, S. U. Rehman, M. F. Shafique
Format: Article
Language:English
Published: Spolecnost pro radioelektronicke inzenyrstvi 2018-06-01
Series:Radioengineering
Subjects:
Reflectarray antenna
high gain
circular delay-lines
phase range
TE and TM modes
single layer
Online Access:https://www.radioeng.cz/fulltexts/2018/18_02_0440_0447.pdf
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spelling doaj-6f52c112c8a84857baeda1e1ba92956c2020-11-24T20:43:34ZengSpolecnost pro radioelektronicke inzenyrstviRadioengineering1210-25122018-06-01272440447A Compact Single Layer Reflectarray Antenna Based on Circular Delay-Lines for X-band ApplicationsT. ShabbirR. SaleemS. U. RehmanM. F. ShafiqueThis paper presents a compact single layer reflectarray antenna based on a diagonally notched square patch and a pair of circular delay lines, for X-band applications. The length and width of circular delay-lines are varied and optimized to attain a linear phase range of more than 600º. The effect of incident angle in TE and TM modes at 0º, 15º and 30º is studied, which offers stable angular phase range. The hybrid Finite Element Boundary Integral (FEBI) method is used for simulation of the whole reflectarray system comprising of 27 × 27 elements and being fabricated on a low cost FR-4 laminate. The measured gain of 24.5 dBi with aperture efficiency of 49.5% is achieved at 10 GHz. The proposed design provides the measured 1-dB gain bandwidth of 12.5% and 3-dB gain bandwidth of 34%. The simulated and measured side-lobe-levels and cross polarizations are less than –25 dB and –40 dB respectively.https://www.radioeng.cz/fulltexts/2018/18_02_0440_0447.pdfReflectarray antennahigh gaincircular delay-linesphase rangeTE and TM modessingle layer
collection DOAJ
language English
format Article
sources DOAJ
author T. Shabbir
R. Saleem
S. U. Rehman
M. F. Shafique
spellingShingle T. Shabbir
R. Saleem
S. U. Rehman
M. F. Shafique
A Compact Single Layer Reflectarray Antenna Based on Circular Delay-Lines for X-band Applications
Radioengineering
Reflectarray antenna
high gain
circular delay-lines
phase range
TE and TM modes
single layer
author_facet T. Shabbir
R. Saleem
S. U. Rehman
M. F. Shafique
author_sort T. Shabbir
title A Compact Single Layer Reflectarray Antenna Based on Circular Delay-Lines for X-band Applications
title_short A Compact Single Layer Reflectarray Antenna Based on Circular Delay-Lines for X-band Applications
title_full A Compact Single Layer Reflectarray Antenna Based on Circular Delay-Lines for X-band Applications
title_fullStr A Compact Single Layer Reflectarray Antenna Based on Circular Delay-Lines for X-band Applications
title_full_unstemmed A Compact Single Layer Reflectarray Antenna Based on Circular Delay-Lines for X-band Applications
title_sort compact single layer reflectarray antenna based on circular delay-lines for x-band applications
publisher Spolecnost pro radioelektronicke inzenyrstvi
series Radioengineering
issn 1210-2512
publishDate 2018-06-01
description This paper presents a compact single layer reflectarray antenna based on a diagonally notched square patch and a pair of circular delay lines, for X-band applications. The length and width of circular delay-lines are varied and optimized to attain a linear phase range of more than 600º. The effect of incident angle in TE and TM modes at 0º, 15º and 30º is studied, which offers stable angular phase range. The hybrid Finite Element Boundary Integral (FEBI) method is used for simulation of the whole reflectarray system comprising of 27 × 27 elements and being fabricated on a low cost FR-4 laminate. The measured gain of 24.5 dBi with aperture efficiency of 49.5% is achieved at 10 GHz. The proposed design provides the measured 1-dB gain bandwidth of 12.5% and 3-dB gain bandwidth of 34%. The simulated and measured side-lobe-levels and cross polarizations are less than –25 dB and –40 dB respectively.
topic Reflectarray antenna
high gain
circular delay-lines
phase range
TE and TM modes
single layer
url https://www.radioeng.cz/fulltexts/2018/18_02_0440_0447.pdf
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