Waveguide-based Butler matrix beamforming network for millimeterwave applications

The current wireless cellular system may suffer from congestion and spectrum shortage issue. Thus, higher frequency spectrum is introduced for wireless cellular system. However, at high frequencies, a higher propagation loss is expected. With smaller antenna element at millimeterwave band, more elem...

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Main Author: AlMeshehe, Muataz Watheq Sabri
Format: Thesis
Language:English
Published: 2019
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Online Access:http://eprints.utm.my/id/eprint/102456/1/MuatazWatheqSabriPSKE2019.pdf
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spelling my.utm.1024562023-08-29T06:27:43Z http://eprints.utm.my/id/eprint/102456/ Waveguide-based Butler matrix beamforming network for millimeterwave applications AlMeshehe, Muataz Watheq Sabri TK Electrical engineering. Electronics Nuclear engineering The current wireless cellular system may suffer from congestion and spectrum shortage issue. Thus, higher frequency spectrum is introduced for wireless cellular system. However, at high frequencies, a higher propagation loss is expected. With smaller antenna element at millimeterwave band, more elements can be packed creating arrays making beamforming possible by controlling the signal phase. The Butler matrix beamforming network is adopted in this thesis due to its simplicity with capability to form the beam in desired direction by having different phases at the outputs. However, at millimeterwave the massive network can introduce significant losses on the components as well as the interconnections. Therefore, this thesis proposes a low loss waveguidebased structure where the signal is governed within the walls. Components of Butler matrix beamforming circuit are designed using waveguide structure prior to the integration with the antenna. The components are the 3-dB coupler, 0-dB crossover, and 45° phase shifter. The components are implemented using rectangular cavity resonators with iris coupling k-value control method. This iris coupling k-value controls the coupling and the phase shift of the Butler matrix components. By using the analytic technique of tuning k-value, the required coupling and phase difference at outputs can be obtained. The antenna is basically a very directive waveguide slots antenna. The slots are symmetrically distributed on both sides of the broad wall of the waveguide structure. This enables a dualbeam property. The structures are simulated using CST microwave software before fabricated using direct metal laser melting (DMLM) and selective laser melting (SLM) 3-dimensional (3D) printing techniques and measured using standard vector network analyser (VNA). The printed 4 × 4 Butler matrix has been measured and analysed. The measured reflection and isolation coefficients are observed to be less than -10 dB, with transmission coefficients ranging between -7 to -9 dB. The phase differences of - 42.02°, 42.02°, -130.95°, and 133.3° are observed at the outputs. The matrix has been integrated with four waveguide slots antennas. The measured results show the highest gain of 15.21 dB with scanning angles between 20° to 30°. Overall, the waveguide Butler matrix beamforming network shows good performance and has great potential for millimeterwave wireless systems applications. 2019 Thesis NonPeerReviewed application/pdf en http://eprints.utm.my/id/eprint/102456/1/MuatazWatheqSabriPSKE2019.pdf AlMeshehe, Muataz Watheq Sabri (2019) Waveguide-based Butler matrix beamforming network for millimeterwave applications. PhD thesis, Universiti Teknologi Malaysia, Faculty of Engineering - School of Electrical Engineering. http://dms.library.utm.my:8080/vital/access/manager/Repository/vital:144979
institution Universiti Teknologi Malaysia
building UTM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Malaysia
content_source UTM Institutional Repository
url_provider http://eprints.utm.my/
language English
topic TK Electrical engineering. Electronics Nuclear engineering
spellingShingle TK Electrical engineering. Electronics Nuclear engineering
AlMeshehe, Muataz Watheq Sabri
Waveguide-based Butler matrix beamforming network for millimeterwave applications
description The current wireless cellular system may suffer from congestion and spectrum shortage issue. Thus, higher frequency spectrum is introduced for wireless cellular system. However, at high frequencies, a higher propagation loss is expected. With smaller antenna element at millimeterwave band, more elements can be packed creating arrays making beamforming possible by controlling the signal phase. The Butler matrix beamforming network is adopted in this thesis due to its simplicity with capability to form the beam in desired direction by having different phases at the outputs. However, at millimeterwave the massive network can introduce significant losses on the components as well as the interconnections. Therefore, this thesis proposes a low loss waveguidebased structure where the signal is governed within the walls. Components of Butler matrix beamforming circuit are designed using waveguide structure prior to the integration with the antenna. The components are the 3-dB coupler, 0-dB crossover, and 45° phase shifter. The components are implemented using rectangular cavity resonators with iris coupling k-value control method. This iris coupling k-value controls the coupling and the phase shift of the Butler matrix components. By using the analytic technique of tuning k-value, the required coupling and phase difference at outputs can be obtained. The antenna is basically a very directive waveguide slots antenna. The slots are symmetrically distributed on both sides of the broad wall of the waveguide structure. This enables a dualbeam property. The structures are simulated using CST microwave software before fabricated using direct metal laser melting (DMLM) and selective laser melting (SLM) 3-dimensional (3D) printing techniques and measured using standard vector network analyser (VNA). The printed 4 × 4 Butler matrix has been measured and analysed. The measured reflection and isolation coefficients are observed to be less than -10 dB, with transmission coefficients ranging between -7 to -9 dB. The phase differences of - 42.02°, 42.02°, -130.95°, and 133.3° are observed at the outputs. The matrix has been integrated with four waveguide slots antennas. The measured results show the highest gain of 15.21 dB with scanning angles between 20° to 30°. Overall, the waveguide Butler matrix beamforming network shows good performance and has great potential for millimeterwave wireless systems applications.
format Thesis
author AlMeshehe, Muataz Watheq Sabri
author_facet AlMeshehe, Muataz Watheq Sabri
author_sort AlMeshehe, Muataz Watheq Sabri
title Waveguide-based Butler matrix beamforming network for millimeterwave applications
title_short Waveguide-based Butler matrix beamforming network for millimeterwave applications
title_full Waveguide-based Butler matrix beamforming network for millimeterwave applications
title_fullStr Waveguide-based Butler matrix beamforming network for millimeterwave applications
title_full_unstemmed Waveguide-based Butler matrix beamforming network for millimeterwave applications
title_sort waveguide-based butler matrix beamforming network for millimeterwave applications
publishDate 2019
url http://eprints.utm.my/id/eprint/102456/1/MuatazWatheqSabriPSKE2019.pdf
http://eprints.utm.my/id/eprint/102456/
http://dms.library.utm.my:8080/vital/access/manager/Repository/vital:144979
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score 13.222552