Inverted Diamond-shaped Notched Substrate and Patch for High-frequency Interference on Ultra-wideband Antenna

Notches loaded on a patch antenna can affect significantly on ‎ the antenna impedance matching. Therefore, notching technique is an efficient way to reduce ‎ the electromagnetic interference with unwanted bands. In this paper, a ‎ novel inverted diamond ‏-‏ shaped closed-end slot on a substrate and...

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Veröffentlicht in:	International journal of electrical and computer engineering (Malacca, Malacca) Malacca), 2017-12, Vol.7 (6), p.2929
Hauptverfasser:	Abdulhasan, Raed Abdulkareem, Ramli, Khairun Nidzam, Alias, Rozlan, Audah, Lukman, Mumin, Abdul Rashid Omar
Format:	Artikel
Sprache:	eng
Schlagworte:	Antennas Bandwidths Broadband Coplanar waveguides Cutting parameters Diamond machining Electromagnetic interference Impedance matching Notches Patch antennas Substrates Ultrawideband
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container_title	International journal of electrical and computer engineering (Malacca, Malacca)
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creator	Abdulhasan, Raed Abdulkareem Ramli, Khairun Nidzam Alias, Rozlan Audah, Lukman Mumin, Abdul Rashid Omar
description	Notches loaded on a patch antenna can affect significantly on ‎ the antenna impedance matching. Therefore, notching technique is an efficient way to reduce ‎ the electromagnetic interference with unwanted bands. In this paper, a ‎ novel inverted diamond ‏-‏ shaped closed-end slot on a substrate and ‎ vertex-fed printed hexagonal patch ultra ‏-‏ wideband antenna is proposed for high-frequency band rejection. This antenna is fed using ‎ coplanar waveguide, and it is optimised by veering several patch ‎ parameters which further improved the inter bandwidth at both the ‎ lower and upper bands. However, the centre-notched band is shifted ‎ from 6 GHz to 7.5 GHz by cutting the inverted diamond shape in a ‎ special process. The developed ultra-wideband antenna is verified by ‎ comparing the simulation results with the measurement results. The ‎ measured results with a fractional bandwidth of 133% have a good ‎ agreement with the simulation results 146%. Moreover, the measured radiation showed omnidirectional patterns ‎ .
doi_str_mv	10.11591/ijece.v7i6.pp2929-2935
format	Article
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Therefore, notching technique is an efficient way to reduce ‎ the electromagnetic interference with unwanted bands. In this paper, a ‎ novel inverted diamond ‏-‏ shaped closed-end slot on a substrate and ‎ vertex-fed printed hexagonal patch ultra ‏-‏ wideband antenna is proposed for high-frequency band rejection. This antenna is fed using ‎ coplanar waveguide, and it is optimised by veering several patch ‎ parameters which further improved the inter bandwidth at both the ‎ lower and upper bands. However, the centre-notched band is shifted ‎ from 6 GHz to 7.5 GHz by cutting the inverted diamond shape in a ‎ special process. The developed ultra-wideband antenna is verified by ‎ comparing the simulation results with the measurement results. The ‎ measured results with a fractional bandwidth of 133% have a good ‎ agreement with the simulation results 146%. 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Therefore, notching technique is an efficient way to reduce ‎ the electromagnetic interference with unwanted bands. In this paper, a ‎ novel inverted diamond ‏-‏ shaped closed-end slot on a substrate and ‎ vertex-fed printed hexagonal patch ultra ‏-‏ wideband antenna is proposed for high-frequency band rejection. This antenna is fed using ‎ coplanar waveguide, and it is optimised by veering several patch ‎ parameters which further improved the inter bandwidth at both the ‎ lower and upper bands. However, the centre-notched band is shifted ‎ from 6 GHz to 7.5 GHz by cutting the inverted diamond shape in a ‎ special process. The developed ultra-wideband antenna is verified by ‎ comparing the simulation results with the measurement results. The ‎ measured results with a fractional bandwidth of 133% have a good ‎ agreement with the simulation results 146%. 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source	Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals
subjects	Antennas Bandwidths Broadband Coplanar waveguides Cutting parameters Diamond machining Electromagnetic interference Impedance matching Notches Patch antennas Substrates Ultrawideband
title	Inverted Diamond-shaped Notched Substrate and Patch for High-frequency Interference on Ultra-wideband Antenna
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