Multiband frequency-reconfigurable antenna using metamaterial structure of electromagnetic band gap
A metamaterial of electromagnetic band gap (EBG) is incorporated to an antenna for frequency reconfigurability is proposed. The EBG consists of two identical unit cells that provide multiple band gaps at 1.88–1.94, 2.25–2.44, 2.67–2.94, 3.52–3.54, and 5.04–5.70 GHz with different EBG configurations....
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Springer-Verlag Berlin Heidelberg
2017
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author | Dewan, R. Rahim, M. K. A. Himdi, M. Hamid, M. R. Majid, H. A. Jalil, M. E. |
author_facet | Dewan, R. Rahim, M. K. A. Himdi, M. Hamid, M. R. Majid, H. A. Jalil, M. E. |
author_sort | Dewan, R. |
collection | ePrints |
description | A metamaterial of electromagnetic band gap (EBG) is incorporated to an antenna for frequency reconfigurability is proposed. The EBG consists of two identical unit cells that provide multiple band gaps at 1.88–1.94, 2.25–2.44, 2.67–2.94, 3.52–3.54, and 5.04–5.70 GHz with different EBG configurations. Subsequently, the antenna is incorporated with EBG. The corresponding incorporated structure successfully achieves various reconfigurable frequencies at 1.60, 1.91, 2.41, 3.26, 2.87, 5.21, and 5.54 GHz. The antenna has the potential to be implemented for Bluetooth, Wi-Fi, WiMAX, LTE, and cognitive radio applications. |
first_indexed | 2024-03-05T20:22:50Z |
format | Article |
id | utm.eprints-80380 |
institution | Universiti Teknologi Malaysia - ePrints |
last_indexed | 2024-03-05T20:22:50Z |
publishDate | 2017 |
publisher | Springer-Verlag Berlin Heidelberg |
record_format | dspace |
spelling | utm.eprints-803802019-05-10T07:18:14Z http://eprints.utm.my/80380/ Multiband frequency-reconfigurable antenna using metamaterial structure of electromagnetic band gap Dewan, R. Rahim, M. K. A. Himdi, M. Hamid, M. R. Majid, H. A. Jalil, M. E. TK Electrical engineering. Electronics Nuclear engineering A metamaterial of electromagnetic band gap (EBG) is incorporated to an antenna for frequency reconfigurability is proposed. The EBG consists of two identical unit cells that provide multiple band gaps at 1.88–1.94, 2.25–2.44, 2.67–2.94, 3.52–3.54, and 5.04–5.70 GHz with different EBG configurations. Subsequently, the antenna is incorporated with EBG. The corresponding incorporated structure successfully achieves various reconfigurable frequencies at 1.60, 1.91, 2.41, 3.26, 2.87, 5.21, and 5.54 GHz. The antenna has the potential to be implemented for Bluetooth, Wi-Fi, WiMAX, LTE, and cognitive radio applications. Springer-Verlag Berlin Heidelberg 2017 Article PeerReviewed Dewan, R. and Rahim, M. K. A. and Himdi, M. and Hamid, M. R. and Majid, H. A. and Jalil, M. E. (2017) Multiband frequency-reconfigurable antenna using metamaterial structure of electromagnetic band gap. Applied Physics A: Materials Science and Processing, 123 (1). ISSN 0947-8396 http://dx.doi.org/10.1007%2Fs00339-016-0643-1 DOI:10.1007%2Fs00339-016-0643-1 |
spellingShingle | TK Electrical engineering. Electronics Nuclear engineering Dewan, R. Rahim, M. K. A. Himdi, M. Hamid, M. R. Majid, H. A. Jalil, M. E. Multiband frequency-reconfigurable antenna using metamaterial structure of electromagnetic band gap |
title | Multiband frequency-reconfigurable antenna using metamaterial structure of electromagnetic band gap |
title_full | Multiband frequency-reconfigurable antenna using metamaterial structure of electromagnetic band gap |
title_fullStr | Multiband frequency-reconfigurable antenna using metamaterial structure of electromagnetic band gap |
title_full_unstemmed | Multiband frequency-reconfigurable antenna using metamaterial structure of electromagnetic band gap |
title_short | Multiband frequency-reconfigurable antenna using metamaterial structure of electromagnetic band gap |
title_sort | multiband frequency reconfigurable antenna using metamaterial structure of electromagnetic band gap |
topic | TK Electrical engineering. Electronics Nuclear engineering |
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