Low loss waveguide-based Butler matrix with iris coupling control method for millimeterwave applications
This paper proposes a low loss 4×4 Butler matrix based on rectangular waveguide cavity resonators technology for millimeterwave beamforming network using iris coupling method. This method has the advantage of controlling the electrical fields and the coupling factor inside a complex medium such...
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Taylor & Francis
2021
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| Online Access: | http://eprints.uthm.edu.my/3383/1/J12322_c598eedf78f958dd801f1ac97332c7a9.pdf http://eprints.uthm.edu.my/3383/ https://doi.org/10.1080/17455030.2021.1880032 |
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my.uthm.eprints.33832021-11-17T02:38:04Z http://eprints.uthm.edu.my/3383/ Low loss waveguide-based Butler matrix with iris coupling control method for millimeterwave applications W. Almeshehe, Muataz Murad, Noor Asniza A. Rahim, Mohamad Kamal Ayop, Osman Zubir, Farid Abd. Aziz, Mohamad Zoinol A. N. Osman, Mohamed A. Majid, H. TK7885-7895 Computer engineering. Computer hardware This paper proposes a low loss 4×4 Butler matrix based on rectangular waveguide cavity resonators technology for millimeterwave beamforming network using iris coupling method. This method has the advantage of controlling the electrical fields and the coupling factor inside a complex medium such as waveguide cavity resonators. The coupling factor of 6 dB for 4×4 Butler matrix is achieved by tuning the iris coupling k-value between the waveguide cavity resonators. Thus, avoiding a higher phase difference losses and component losses at upper millimeterwave bands. To validate the proposed method, CST software simulations are performed under several iris coupling k-values to achieve a 6 dB coupling factor. Then, the proposed 4×4 Butler matrix is 3D metal printed using selective laser melting (SLM) technique. The measured reflection and isolation coefficients are observed below −10 dB, with coupling coefficients ranging between −6 and −7 dB. The phase differences of −42.02°, 42.02°, −130.95°, and 133.3° are achieved at the outputs. It confirmed that using this proposed method has the superiority over the conventional microstrip and waveguide coupling methods by a 1 dB coupling factor loss and a 3° phase difference error. Taylor & Francis 2021 Article PeerReviewed text en http://eprints.uthm.edu.my/3383/1/J12322_c598eedf78f958dd801f1ac97332c7a9.pdf W. Almeshehe, Muataz and Murad, Noor Asniza and A. Rahim, Mohamad Kamal and Ayop, Osman and Zubir, Farid and Abd. Aziz, Mohamad Zoinol A. and N. Osman, Mohamed and A. Majid, H. (2021) Low loss waveguide-based Butler matrix with iris coupling control method for millimeterwave applications. Waves in Random and Complex Media. pp. 1-21. https://doi.org/10.1080/17455030.2021.1880032 |
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TK7885-7895 Computer engineering. Computer hardware |
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TK7885-7895 Computer engineering. Computer hardware W. Almeshehe, Muataz Murad, Noor Asniza A. Rahim, Mohamad Kamal Ayop, Osman Zubir, Farid Abd. Aziz, Mohamad Zoinol A. N. Osman, Mohamed A. Majid, H. Low loss waveguide-based Butler matrix with iris coupling control method for millimeterwave applications |
| description |
This paper proposes a low loss 4×4 Butler matrix based on rectangular
waveguide cavity resonators technology for millimeterwave
beamforming network using iris coupling method. This method has
the advantage of controlling the electrical fields and the coupling factor
inside a complex medium such as waveguide cavity resonators.
The coupling factor of 6 dB for 4×4 Butler matrix is achieved by
tuning the iris coupling k-value between the waveguide cavity resonators.
Thus, avoiding a higher phase difference losses and component
losses at upper millimeterwave bands. To validate the proposed
method, CST software simulations are performed under several
iris coupling k-values to achieve a 6 dB coupling factor. Then,
the proposed 4×4 Butler matrix is 3D metal printed using selective
laser melting (SLM) technique. The measured reflection and
isolation coefficients are observed below −10 dB, with coupling
coefficients ranging between −6 and −7 dB. The phase differences
of −42.02°, 42.02°, −130.95°, and 133.3° are achieved at the outputs.
It confirmed that using this proposed method has the superiority
over the conventional microstrip and waveguide coupling
methods by a 1 dB coupling factor loss and a 3° phase difference
error. |
| format |
Article |
| author |
W. Almeshehe, Muataz Murad, Noor Asniza A. Rahim, Mohamad Kamal Ayop, Osman Zubir, Farid Abd. Aziz, Mohamad Zoinol A. N. Osman, Mohamed A. Majid, H. |
| author_facet |
W. Almeshehe, Muataz Murad, Noor Asniza A. Rahim, Mohamad Kamal Ayop, Osman Zubir, Farid Abd. Aziz, Mohamad Zoinol A. N. Osman, Mohamed A. Majid, H. |
| author_sort |
W. Almeshehe, Muataz |
| title |
Low loss waveguide-based Butler matrix with
iris coupling control method for millimeterwave
applications |
| title_short |
Low loss waveguide-based Butler matrix with
iris coupling control method for millimeterwave
applications |
| title_full |
Low loss waveguide-based Butler matrix with
iris coupling control method for millimeterwave
applications |
| title_fullStr |
Low loss waveguide-based Butler matrix with
iris coupling control method for millimeterwave
applications |
| title_full_unstemmed |
Low loss waveguide-based Butler matrix with
iris coupling control method for millimeterwave
applications |
| title_sort |
low loss waveguide-based butler matrix with
iris coupling control method for millimeterwave
applications |
| publisher |
Taylor & Francis |
| publishDate |
2021 |
| url |
http://eprints.uthm.edu.my/3383/1/J12322_c598eedf78f958dd801f1ac97332c7a9.pdf http://eprints.uthm.edu.my/3383/ https://doi.org/10.1080/17455030.2021.1880032 |
| _version_ |
1738581116674113536 |
| score |
13.2014675 |