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Exploitation of the electromagnetic band gap (EBG) in 3-dB multi-layer branch-line coupler

Jizat, N. M. and Yusoff, Z. and Rahim, S. K. A. and Sabran, M. I. and Islam, M. T. (2016) Exploitation of the electromagnetic band gap (EBG) in 3-dB multi-layer branch-line coupler. In: 12th IEEE Malaysia International Conference on Communications, MICC 2015, 23 November 2015 through 25 November 2015, Sarawak; Malaysia.

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Abstract

An advanced shift that driven with high carrier frequencies, wide bandwidths, device densities, unique numbers, universal high-rate coverage and a seamless user experience present future 5G air interface and spectrum together with LTE is currently experiencing an explosive growth in the communication world. This letter presents performance improvement of multi-layer slot coupled 3 dB Branch-Line Coupler (BLC) with the integration of electromagnetic band gap into the design. The proposed BLC is simulated on a Rogers RT/duroid 5880 with permittivity of 3.38 and designed to operate at 7 GHz. A configuration of uniplanar compact electromagnetic band-gap (UC-EBG) structures is exploited to serve as a slot coupled ground to reduce mutual coupling between the radiating elements and to achieve a higher operating resonance frequency. The periodic structure of electromagnetic band gap (EBG) is considered in RF-microwave industry due to their extraordinary surface wave suppression property. The proposed BLC delivered simulated coupling and transmission values of 3.12 and 4.04 dB, respectively. The impedance bandwidths (BW) of the BLC significantly increase to 120% when integrated with an EBG slot coupled ground plane. The proposed BLC design was accomplished in multilayer microstrip-slot technology by employing coupling technique. Ultimately, these applications produce wide operational bandwidth in which the BLC will serves as an essential key beam forming network element for future 5G wireless communications.

Item Type:Conference or Workshop Item (Paper)
Uncontrolled Keywords:3db branch-line coupler, 5G, bandwidth, EBG
Subjects:T Technology > TK Electrical engineering. Electronics Nuclear engineering
Divisions:Electrical Engineering
ID Code:72988
Deposited By: Muhammad Atiff Mahussain
Deposited On:27 Nov 2017 02:00
Last Modified:27 Nov 2017 02:00

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