Microwave planar filter topologies based on ring resonators with coupled-lines combination / Sameh Kh M Khanfar

This research is divided into two topics, where ring resonator and coupled line will be, either, integrated or cascaded. In the first topic, quarter-wavelength coupled line ring resonator integration will be developed, which will result in a single mode resonator with two transmission zeros on both...

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Main Author: M Khanfar, Sameh Kh
Format: Thesis
Language:English
Published: 2015
Online Access:https://ir.uitm.edu.my/id/eprint/16321/6/16321.pdf
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spelling my-uitm-ir.163212024-11-04T02:57:11Z Microwave planar filter topologies based on ring resonators with coupled-lines combination / Sameh Kh M Khanfar 2015 M Khanfar, Sameh Kh This research is divided into two topics, where ring resonator and coupled line will be, either, integrated or cascaded. In the first topic, quarter-wavelength coupled line ring resonator integration will be developed, which will result in a single mode resonator with two transmission zeros on both sides of the passband. The new filter will be presented by its equivalent circuits in order to derive the mathematical modeling and extract the controlling parameters which determine the position of the transmission zeros. Several filters are designed using the new synthesis to show its advantages and new applications. The synthesis of the new topology could be generalized to design higher order filters, which facilitates the design of such filter. Moreover, the filter will be cascaded to offer higher orders and more selective filters. 2nd, 3rd , 4th and 5th order filters will be designed and simulated to show the feasibility of the new topology. In the second part, the concept of the ring resonator and coupled lines will be further explored, where the quarter-wavelength coupled line will be cascaded with the ring resonator. Such a topology will offer high selective and wideband filter compared to conventional coupled line filter. Furthermore, the new topology reduces the number of controlling parameters, thereby, achieving ease of designing and fabrication. Several techniques are proposed to miniaturize the filter size by using curved coupled line cascaded with curvy ring resonator or by adding a square patch to the inner corner of the ring resonator. Moreover, the same concept is used where the quarter-wavelength coupled lines are cascaded with multiple ring resonators to achieve high selective, wideband and shorter circuitry filters, when compared with conventional coupled line filter. Eleven filters will be designed and fabricated using planar circuitry technology, where measurements using vector network analyzer show the agreement of measured and simulated results. 2015 Thesis https://ir.uitm.edu.my/id/eprint/16321/ https://ir.uitm.edu.my/id/eprint/16321/6/16321.pdf text en public phd doctoral Universiti Teknologi MARA (UiTM) Faculty of Electrical Engineering
institution Universiti Teknologi MARA
collection UiTM Institutional Repository
language English
description This research is divided into two topics, where ring resonator and coupled line will be, either, integrated or cascaded. In the first topic, quarter-wavelength coupled line ring resonator integration will be developed, which will result in a single mode resonator with two transmission zeros on both sides of the passband. The new filter will be presented by its equivalent circuits in order to derive the mathematical modeling and extract the controlling parameters which determine the position of the transmission zeros. Several filters are designed using the new synthesis to show its advantages and new applications. The synthesis of the new topology could be generalized to design higher order filters, which facilitates the design of such filter. Moreover, the filter will be cascaded to offer higher orders and more selective filters. 2nd, 3rd , 4th and 5th order filters will be designed and simulated to show the feasibility of the new topology. In the second part, the concept of the ring resonator and coupled lines will be further explored, where the quarter-wavelength coupled line will be cascaded with the ring resonator. Such a topology will offer high selective and wideband filter compared to conventional coupled line filter. Furthermore, the new topology reduces the number of controlling parameters, thereby, achieving ease of designing and fabrication. Several techniques are proposed to miniaturize the filter size by using curved coupled line cascaded with curvy ring resonator or by adding a square patch to the inner corner of the ring resonator. Moreover, the same concept is used where the quarter-wavelength coupled lines are cascaded with multiple ring resonators to achieve high selective, wideband and shorter circuitry filters, when compared with conventional coupled line filter. Eleven filters will be designed and fabricated using planar circuitry technology, where measurements using vector network analyzer show the agreement of measured and simulated results.
format Thesis
qualification_name Doctor of Philosophy (PhD.)
qualification_level Doctorate
author M Khanfar, Sameh Kh
spellingShingle M Khanfar, Sameh Kh
Microwave planar filter topologies based on ring resonators with coupled-lines combination / Sameh Kh M Khanfar
author_facet M Khanfar, Sameh Kh
author_sort M Khanfar, Sameh Kh
title Microwave planar filter topologies based on ring resonators with coupled-lines combination / Sameh Kh M Khanfar
title_short Microwave planar filter topologies based on ring resonators with coupled-lines combination / Sameh Kh M Khanfar
title_full Microwave planar filter topologies based on ring resonators with coupled-lines combination / Sameh Kh M Khanfar
title_fullStr Microwave planar filter topologies based on ring resonators with coupled-lines combination / Sameh Kh M Khanfar
title_full_unstemmed Microwave planar filter topologies based on ring resonators with coupled-lines combination / Sameh Kh M Khanfar
title_sort microwave planar filter topologies based on ring resonators with coupled-lines combination / sameh kh m khanfar
granting_institution Universiti Teknologi MARA (UiTM)
granting_department Faculty of Electrical Engineering
publishDate 2015
url https://ir.uitm.edu.my/id/eprint/16321/6/16321.pdf
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