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Synthesis methods for multi-band coupled resonator filters

Thesis (PhD)--Stellenbosch University, 2014. / ENGLISH ABSTRACT: In this dissertation a number of techniques to design multi-band filters, with specific focus on coupled resonator
implementations, is presented. Multi-band transfer functions are constructed from single-band transfer
functions using frequency mapping methods. A general class of rational mapping functions is presented
that can accommodate arbitrary bandwidth specifications. Multi-band circuits are synthesised directly from
multi-band transfer functions and are obtained by applying reactance transformations to single-band prototype
circuits. For the direct synthesis of multi-band filters from multi-band transfer functions coupling matrix
synthesis methods are employed. The circuits that result from matrix synthesis methods tend to have topologies
that are undesirable from a practical perspective and must be simplified using rotations of the coupling
matrix. The synthesis of multi-band filters through reactance transformations is both simple and result in filters
that have practical topologies for realisation as coupled resonator circuits. Multiple filters are designed using
different design methodologies and different transmission line technologies to illustrate the various design
possibilities. The designs include both all-pole and cross-coupled filters and employ single-layer stripline,
multi-layer stripline as well as coaxial resonators as transmission line technologies for the implementations. / AFRIKAANSE OPSOMMING: In hierdie proefskrif word verskeie ontwerpstegnieke vir multi-band filters aangebied en word daar spesifiek
klem gelê op filters wat as gekoppelde resoneerder strukture geïmplimenteer kan word. Multi-band oordragsfunksies
word geskep uit enkelband oordragsfunksies deur gebruik te maak van wiskundige afbeeldingstegnieke.
’n Spesiale klas van rasionale funksies word voorgestel wat spesifiek gebruik kan word om multi-band
funksies te skep wat ’n arbitrêre bandwydte spesifikasie het. Multi-band stroombane word direk gesintetiseer
vanuit multi-band oordragsfunksies en word ook verkry deur die toepassing van reaktansietransformasies
op enkelband stroombane. Vir die direkte sintese van multi-band stroombane vanuit multi-band oordragsfunksies
word stroombane gesintetiseer as koppelmatrikse. Stroombane wat op hierdie wyse gesintetiseer
word is geneig om topologieë te hê wat nie baie gesog is vanuit ’n praktiese perspektief nie en matriks rotasies
word dan hier ingespan om die stroombane se topologieë te vereenvoudig. Die sintese van multi-band
stroombane deur gebruik te maak van reaktansietransformasies is beide eenvoudig en lei tot stroombane wat
praktiese topologieë het vir implimentering as gekoppelde resoneerder strukture. Die ontwerpsmoontlikhede
wat die verskillende metodieke bied word geïllustreer deur die ontwerp van verskeie filters op verskillende
maniere waar daar gebruik gemaak word van verskeie transmissielyn tegnologië. Die filter ontwerpe sluit
filters in waar alle transmissienulle by oneidige frekwensies is, sowel as gevalle waar somige transmissienulle
by eindige frekwensies is. Die filters word geïmplimenteer deur gebruik te maak van koaksiale resoneerders
sowel as enkellaag en multilaag strooklyn.

Identiferoai:union.ndltd.org:netd.ac.za/oai:union.ndltd.org:sun/oai:scholar.sun.ac.za:10019.1/95910
Date12 1900
CreatorsBrand, Tobias Gerhardus
ContributorsMeyer, Petrie, Geschke, Riana, Stellenbosch University. Faculty of Engineering. Department of Electrical and Electronic Engineering.
PublisherStellenbosch : Stellenbosch University
Source SetsSouth African National ETD Portal
Languageen_ZA
Detected LanguageUnknown
TypeThesis
Formatxxviii, 257 p. : ill.
RightsStellenbosch University

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