Bandpass filter based on ring resonator at RF frequency above 20 GHz

This paper presents two dual-mode rectangular ring resonators, designed at RF frequency above 20 GHz for bandpass filter applications. The first resonator is designed at 20 GHz using single layer microstrip technology, on Rogers Duroid TMM10 substrate with the following characteristics; relative die...

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Main Authors: Ab. Wahab N., Amiruddin A., Radzuan R., Yasin Z.M., Salim N.A., Rahmat N.A., Aziz N.F.A.
Other Authors: 35790572400
Format: Article
Published: Institute of Advanced Engineering and Science 2023
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Institution: Universiti Tenaga Nasional
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spelling my.uniten.dspace-238862023-05-29T14:52:48Z Bandpass filter based on ring resonator at RF frequency above 20 GHz Ab. Wahab N. Amiruddin A. Radzuan R. Yasin Z.M. Salim N.A. Rahmat N.A. Aziz N.F.A. 35790572400 55810695200 34977433000 57211410254 36806685300 55647163881 57221906825 This paper presents two dual-mode rectangular ring resonators, designed at RF frequency above 20 GHz for bandpass filter applications. The first resonator is designed at 20 GHz using single layer microstrip technology, on Rogers Duroid TMM10 substrate with the following characteristics; relative dielectric constant (?r) = 9.2, substrate thickness (h) = 1.270 mm, dielectric loss tangent (tan ?) = 0. The second resonator is built using multilayer CMOS technology at 75 GHz. The resonator is simulated using fluorinated silicon glass (FSG) and silicone rich oxide (SRO) with relative dielectric constant (?r) equals to 3.7 and 4.2 respectively. Both filter designs are built using full-wave electromagnetic simulation tool. For filter design using microstrip technology, the return loss is found at 9.999 dB and the insertion loss is at 3.108 dB while for filter design using CMOS technology, the return loss is found at 11.299 dB and the insertion loss at 0.335 dB. Both results had shown good passband performance with high rejection level at the out-of band. � 2018 Institute of Advanced Engineering and Science. All rights reserved. Final 2023-05-29T06:52:47Z 2023-05-29T06:52:47Z 2018 Article 10.11591/ijeecs.v9.i3.pp680-684 2-s2.0-85040459264 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85040459264&doi=10.11591%2fijeecs.v9.i3.pp680-684&partnerID=40&md5=46863dca5bad4251cefc93660d6642e6 https://irepository.uniten.edu.my/handle/123456789/23886 9 3 680 684 All Open Access, Green Institute of Advanced Engineering and Science Scopus
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description This paper presents two dual-mode rectangular ring resonators, designed at RF frequency above 20 GHz for bandpass filter applications. The first resonator is designed at 20 GHz using single layer microstrip technology, on Rogers Duroid TMM10 substrate with the following characteristics; relative dielectric constant (?r) = 9.2, substrate thickness (h) = 1.270 mm, dielectric loss tangent (tan ?) = 0. The second resonator is built using multilayer CMOS technology at 75 GHz. The resonator is simulated using fluorinated silicon glass (FSG) and silicone rich oxide (SRO) with relative dielectric constant (?r) equals to 3.7 and 4.2 respectively. Both filter designs are built using full-wave electromagnetic simulation tool. For filter design using microstrip technology, the return loss is found at 9.999 dB and the insertion loss is at 3.108 dB while for filter design using CMOS technology, the return loss is found at 11.299 dB and the insertion loss at 0.335 dB. Both results had shown good passband performance with high rejection level at the out-of band. � 2018 Institute of Advanced Engineering and Science. All rights reserved.
author2 35790572400
author_facet 35790572400
Ab. Wahab N.
Amiruddin A.
Radzuan R.
Yasin Z.M.
Salim N.A.
Rahmat N.A.
Aziz N.F.A.
format Article
author Ab. Wahab N.
Amiruddin A.
Radzuan R.
Yasin Z.M.
Salim N.A.
Rahmat N.A.
Aziz N.F.A.
spellingShingle Ab. Wahab N.
Amiruddin A.
Radzuan R.
Yasin Z.M.
Salim N.A.
Rahmat N.A.
Aziz N.F.A.
Bandpass filter based on ring resonator at RF frequency above 20 GHz
author_sort Ab. Wahab N.
title Bandpass filter based on ring resonator at RF frequency above 20 GHz
title_short Bandpass filter based on ring resonator at RF frequency above 20 GHz
title_full Bandpass filter based on ring resonator at RF frequency above 20 GHz
title_fullStr Bandpass filter based on ring resonator at RF frequency above 20 GHz
title_full_unstemmed Bandpass filter based on ring resonator at RF frequency above 20 GHz
title_sort bandpass filter based on ring resonator at rf frequency above 20 ghz
publisher Institute of Advanced Engineering and Science
publishDate 2023
_version_ 1806423458191507456