On the design and fabrication of chained-function waveguide filters with reduced fabrication sensitivity using CNC and DMLS

In this paper, we present the design and fabrication of a novel class of emerging waveguide filters based on chained-functions at the millimeter-wave band. The derivation of chained-functions by chaining of prescribed generalized Chebyshev seed functions based on the partition theory is presented in...

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Main Authors: Lim, Y.P., Cheab, S., Soeung, S., Wong, P.W.
Format: Article
Institution: Universiti Teknologi Petronas
Record Id / ISBN-0: utp-eprints.23115 /
Published: Electromagnetics Academy 2020
Online Access: https://www.scopus.com/inward/record.uri?eid=2-s2.0-85090768243&doi=10.2528%2fPIERB20011101&partnerID=40&md5=9c79f15f68157e2ff22031502b2712bc
http://eprints.utp.edu.my/23115/
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spelling utp-eprints.231152021-08-19T05:26:35Z On the design and fabrication of chained-function waveguide filters with reduced fabrication sensitivity using CNC and DMLS Lim, Y.P. Cheab, S. Soeung, S. Wong, P.W. In this paper, we present the design and fabrication of a novel class of emerging waveguide filters based on chained-functions at the millimeter-wave band. The derivation of chained-functions by chaining of prescribed generalized Chebyshev seed functions based on the partition theory is presented in details, and the implementation to waveguide technology is proposed and evaluated. The waveguide filter is fabricated through two different technologies, namely the Computer Numerical Control (CNC) milling technology and the Direct Metal Laser Sintering (DMLS) based additive manufacturing technology. The chained-function filters, which lie in between the Butterworth and Chebyshev filters, inherit the salient properties of both Butterworth and Chebyshev filters. Therefore, the chained-function waveguide filter exhibits filtering responses that have a superior rejection property and a lower loss with reduced sensitivity to fabrication tolerance than the standard Chebyshev waveguide filter. The efficiency of the proposed waveguide filter is confirmed both theoretically and empirically, using the CNC and DMLS processes. The issues of a higher manufacturing tolerance and apparent surface roughness associated with the DMLS method are found to be electrically insignificant when the chained-function concept is adopted in waveguide filter design. In general, the measured results of all the realized waveguide filters agree well to those of the simulation models. These results positively demonstrate that the chainedfunction concept has robust properties for rapid, high-performance, low-cost, and sustainable filter design and implementation, particularly for higher millimeter-wave frequency bands and for narrowband applications. © 2020. Electromagnetics Academy 2020 Article NonPeerReviewed https://www.scopus.com/inward/record.uri?eid=2-s2.0-85090768243&doi=10.2528%2fPIERB20011101&partnerID=40&md5=9c79f15f68157e2ff22031502b2712bc Lim, Y.P. and Cheab, S. and Soeung, S. and Wong, P.W. (2020) On the design and fabrication of chained-function waveguide filters with reduced fabrication sensitivity using CNC and DMLS. Progress In Electromagnetics Research B, 87 . pp. 39-60. http://eprints.utp.edu.my/23115/
institution Universiti Teknologi Petronas
collection UTP Institutional Repository
description In this paper, we present the design and fabrication of a novel class of emerging waveguide filters based on chained-functions at the millimeter-wave band. The derivation of chained-functions by chaining of prescribed generalized Chebyshev seed functions based on the partition theory is presented in details, and the implementation to waveguide technology is proposed and evaluated. The waveguide filter is fabricated through two different technologies, namely the Computer Numerical Control (CNC) milling technology and the Direct Metal Laser Sintering (DMLS) based additive manufacturing technology. The chained-function filters, which lie in between the Butterworth and Chebyshev filters, inherit the salient properties of both Butterworth and Chebyshev filters. Therefore, the chained-function waveguide filter exhibits filtering responses that have a superior rejection property and a lower loss with reduced sensitivity to fabrication tolerance than the standard Chebyshev waveguide filter. The efficiency of the proposed waveguide filter is confirmed both theoretically and empirically, using the CNC and DMLS processes. The issues of a higher manufacturing tolerance and apparent surface roughness associated with the DMLS method are found to be electrically insignificant when the chained-function concept is adopted in waveguide filter design. In general, the measured results of all the realized waveguide filters agree well to those of the simulation models. These results positively demonstrate that the chainedfunction concept has robust properties for rapid, high-performance, low-cost, and sustainable filter design and implementation, particularly for higher millimeter-wave frequency bands and for narrowband applications. © 2020.
format Article
author Lim, Y.P.
Cheab, S.
Soeung, S.
Wong, P.W.
spellingShingle Lim, Y.P.
Cheab, S.
Soeung, S.
Wong, P.W.
On the design and fabrication of chained-function waveguide filters with reduced fabrication sensitivity using CNC and DMLS
author_sort Lim, Y.P.
title On the design and fabrication of chained-function waveguide filters with reduced fabrication sensitivity using CNC and DMLS
title_short On the design and fabrication of chained-function waveguide filters with reduced fabrication sensitivity using CNC and DMLS
title_full On the design and fabrication of chained-function waveguide filters with reduced fabrication sensitivity using CNC and DMLS
title_fullStr On the design and fabrication of chained-function waveguide filters with reduced fabrication sensitivity using CNC and DMLS
title_full_unstemmed On the design and fabrication of chained-function waveguide filters with reduced fabrication sensitivity using CNC and DMLS
title_sort on the design and fabrication of chained-function waveguide filters with reduced fabrication sensitivity using cnc and dmls
publisher Electromagnetics Academy
publishDate 2020
url https://www.scopus.com/inward/record.uri?eid=2-s2.0-85090768243&doi=10.2528%2fPIERB20011101&partnerID=40&md5=9c79f15f68157e2ff22031502b2712bc
http://eprints.utp.edu.my/23115/
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score 11.62408

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