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EM Modeling of Antennas and RF Components for Wireless Communication Systems PDF

286 Pages·2006·7.69 MB·English
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SpringerSerieson SignalsandCommunicationTechnology Signals and Communication Technology CircuitsandSystems InformationMeasures BasedonDeltaModulation InformationanditsDescriptioninScience Linear,NonlinearandMixedModeProcessing andEngineering D.G.Zrilic ISBN3-540-23751-8 C.Arndt ISBN3-540-40855-X FunctionalStructuresinNetworks ProcessingofSARData AMLn–ALanguageforModelDriven Fundamentals,SignalProcessing, DevelopmentofTelecomSystems Interferometry T.Muth ISBN3-540-22545-5 A.Hein ISBN3-540-05043-4 RadioWavePropagation Chaos-BasedDigital forTelecommunicationApplications CommunicationSystems H.Sizun ISBN3-540-40758-8 OperatingPrinciples,AnalysisMethods, andPerformanceEvalutation ElectronicNoiseandInterferingSignals F.C.M.LauandC.K.Tse ISBN3-540-00602-8 PrinciplesandApplications G.Vasilescu ISBN3-540-40741-3 AdaptiveSignalProcessing ApplicationtoReal-WorldProblems DVB J.BenestyandY.Huang(Eds.) TheFamilyofInternationalStandards ISBN3-540-00051-8 forDigitalVideoBroadcasting,2nded. U.Reimers ISBN3-540-43545-X MultimediaInformationRetrieval andManagement DigitalInteractiveTVandMetadata TechnologicalFundamentalsandApplications FutureBroadcastMultimedia D.Feng,W.C.Siu,andH.J.Zhang(Eds.) A.Lugmayr,S.Niiranen,andS.Kalli ISBN3-540-00244-8 ISBN3-387-20843-7 StructuredCableSystems AdaptiveAntennaArrays A.B.Semenov,S.K.Strizhakov, TrendsandApplications andI.R.Suncheley ISBN3-540-43000-8 S.Chandran(Ed.) ISBN3-540-20199-8 UMTS DigitalSignalProcessing The Physical Layer of the Universal Mobile withFieldProgrammableGateArrays TelecommunicationsSystem U.Meyer-Baese ISBN3-540-21119-5 A.SpringerandR.Weigel Neuro-FuzzyandFuzzyNeuralApplications ISBN3-540-42162-9 inTelecommunications AdvancedTheoryofSignalDetection P.Stavroulakis(Ed.) ISBN3-540-40759-6 WeakSignalDetectionin SDMAforMultipathWirelessChannels GeneralizedObeservations LimitingCharacteristics I.Song,J.Bae,andS.Y.Kim andStochasticModels ISBN3-540-43064-4 I.P.Kovalyov ISBN3-540-40225-X WirelessInternetAccessoverGSMandUMTS DigitalTelevision M.TafernerandE.Bonek APracticalGuideforEngineers ISBN3-540-42551-9 W.Fischer ISBN3-540-01155-2 TheVariationalBayesMethod MultimediaCommunicationTechnology inSignalProcessing Representation,Transmission V.Sˇm´ıdlandA.Quinn andIdentificationofMultimediaSignals ISBN3-540-28819-8 J.R.Ohm ISBN3-540-01249-4 Frank Gustrau · Dirk Manteuffel EM Modeling of Antennas and RF Components for Wireless Communication Systems With215Figures 123 ProfessorDr.FrankGustrau FHDortmund–UniversityofAppliedSciences Sonnenstraße96 44139Dortmund Germany E-Mail:[email protected] Dr.DirkManteuffel IMSTGmbH Carl-Friedrich-Gauß-Straße2 47475Kamp-Lintfort Germany E-Mail:dirk [email protected] LibraryofCongressControlNumber:2006923241 ISBN-10 3-540-28614-4 SpringerBerlinHeidelbergNewYork ISBN-13 978-3-540-28614-1 SpringerBerlinHeidelbergNewYork Thisworkissubjecttocopyright.Allrightsarereserved,whetherthewholeorpartofthematerial is concerned, specifically the rights of translation, reprinting, reuse of illustrations, recitation, broadcasting,reproductiononmicrofilmorinanyotherway,andstorageindatabanks.Duplication ofthispublicationorpartsthereofispermittedonlyundertheprovisionsoftheGermanCopyright LawofSeptember9,1965,initscurrentversion,andpermissionforusemustalwaysbeobtainedfrom Springer.ViolationsareliableforprosecutionundertheGermanCopyrightLaw. SpringerisapartofSpringerScience+BusinessMedia springer.com ©Springer-VerlagBerlinHeidelberg2006 PrintedinGermany Theuseofgeneraldescriptivenames,registerednames,trademarks,etc.inthispublicationdoesnot imply, even in the absence of a specific statement, thatsuch names are exempt from the relevant protectivelawsandregulationsandthereforefreeforgeneraluse. Typesetting:Dataconversionbyauthors Production:LE-TEXJelonek,Schmidt&VöcklerGbR,Leipzig CoverDesign:design&productionGmbH,Heidelberg Printedonacid-freepaper 7/3100/YL 543210 Dedicated to our families. Preface Thisbookaddressesnumericalfull-wavemethodsfortheanalysisanddesignof antennasandmicrowavestructures.Inthelastdecadesthesenumericalmeth- ods that are used to calculate approximate solutions of Maxwell’s equations haveevolvedfrompureacademicdisciplinestopowerfulanduser-friendlyen- gineering software tools. Meanwhile numerous commercial software packages existthatarewidelyusedintheRFengineeringcommunity.Developmentsin thesoftwareaccompaniedbyprogressincomputertechnologyallownowadays many practical problems to be solved on standard PC systems. The text is written with different groups of readers in mind. First it ad- dresses RF engineers who embark on numerical modeling using commercial fieldsolvers.Seconditaddressesgraduatestudentstakingpracticalcoursesin electromagnetic field simulation. Both groups need a basic understanding of the mathematical background and both groups need a practical introduction tocommercialEMmodelingsoftwaretomaketheirfirstsimulationexperience a success. There are numerous books on the market that deal with mathematical details of different numerical methods for the calculation of electromagnetic fields. For engineers who want to know what these methods can do for them and how to use the software tools, these theoretical books are too far away from daily work. On the other hand, there are tutorials and manuals that provide information on how to use specific software packages. These tutorials focusonthehandlingandspecialfeaturesofthesoftwareandmethodsapplied therein. However, the theoretical background and broader scope is generally neglected. This book tries to fill the gap by providing a practical and com- prehensive introduction for engineers involved in the numerical analysis and design of antennas and radio frequency components for wireless communi- cation systems. The reader will find a down-to-earth approach to full-wave high-frequency simulation tools and how to use these tools efficiently in ap- plied industrial engineering. The book begins with an introduction in Chapter 1 that approaches the subjectoffieldsimulationbygeneralconsiderationsaboutmodelingstrategies VIII Preface as well as capabilities and limitations of the software tools. Part I covers the basic electromagnetic theory and definitions of the most important antenna and circuit parameters. Chapter 2 starts with Maxwell’s equations in differ- ential and integral form as well as boundary conditions for the electric and magnetic fields. Next the propagation of waves in lossless and lossy media is discussed.Inthiscontextuniformwavesareusedtoillustratedifferenttypesof polarization. The general concept of energy conservation is transferred to the electromagnetic field by defining electric and magnetic energy density as well aspowerflowandpowerloss.Thechaptermovesontoadefinitionoftheelec- tromagneticpotentialsandendswithashortreviewofwavesontransmission lines. Altogether, this chapter serves as a basis for the understanding of the numerical methods presented in Chapter 4. Since there are time-domain and frequency-domain methods, the time-dependent and phasor representation of the fields are described in parallel throughout this chapter. The electromagnetic field theory provides a complete set of equations and quantitiestosolveanyelectrodynamicproblem.Unfortunately,thequantities defined so far are difficult to handle. Therefore, a set of more easily accessi- blequantitieshasbeendefinedtocharacterizetheelectromagneticfeaturesof antennas and circuits. Chapter 3 reviews these technically important radio- frequencymeasures.Thechapterstartswiththeintroductionofthescattering parameters that link circuit-based quantities like impedance and voltage to field-based quantities like electric and magnetic field strength. Using the ex- ample of a dipole the antenna parameters are introduced: radiation pattern, gain,efficiency,directivity,nearfield,farfieldandbandwidth.Finally,antenna arrays and the concept of beam steering are discussed. Part II is concerned with the mathematical basis of numerical meth- ods as well as instructions for their practical use. Commercial software is generally based on one of the following methods: Finite-Difference Time- Domain method (FDTD), Finite Element Method (FEM) or Method of Mo- ments (MoM). Consequently, Chapter 4 focuses on these methods and illus- trates their underlying theoretical concepts and mathematical implementa- tions. Each of the methods could fill a book in itself, and there are numerous excellent textbooks on the market. Therefore, the chapter concentrates on the aspects that are essential when applying rather than programming the numerical methods. Other - currently less popular - methods are mentioned briefly to show the reader that additional tools exist for special applications. Chapters 5 and 6 represent the core of the book. Chapter 5 discusses the steps usually undertaken when creating an antenna or RF component sim- ulation model with up-to-date full-wave engineering software. The process of modeling can be divided into three parts: pre-processing (setting up the model),solving(generatinganapproximatesolutionofMaxwell’sequationsby applying one of the discussed numerical methods) and post-processing (eval- uating the results and calculation of additional quantities from the solution of the solver). Concerning pre-processing the following topics are addressed: creatinggeometryusingCADcapabilities,importingCADdata,definingma- Preface IX terial properties, applying boundary conditions and sources and setting up solver parameters. The process of meshing (subdivision of the computational domain into smaller elements) can be regarded as part of the pre-processing or − if adaptive mesh refinement is considered − meshing represents an es- sentialpartofthesolutionprocessitself.Dependingonthenumericalmethod used,thesolverdeterminestheelectricandmagneticfieldswithinthecompu- tationaldomainorthesurfacecurrentdensitiesontheinterfacesbetweendif- ferent materials. During the post-processing, additional quantities like circuit and scattering parameters and farfield pattern are calculated from the fields or current densities. At the end of the chapter, advantages and disadvantages of the numerical methods for different types of problems are presented in a list to provide a summary that can be used as a checklist later on. Chapter 6 illustrates the application of the different numerical methods on a variety of canonical examples. The examples address a broad field of applications:coaxiallinediscontinuities,apertureantenna,dipoles,microstrip antennas,microstripfilterandcavity.Thesesimplestructurescanbeusedfor validation purposes when starting with new software. After studying these two core chapters, the reader should have a clear vision on how to choose the right numerical software for a particular problem and how to devise an efficient simulation model. Part III is concerned with practical applications to demonstrate the use of field simulation software in industrial projects. Chapter 7 starts with the design process of a planar GPS receive antenna. The different parts of the model are tuned separately and are afterwards combined to a final design. Second, the radiation characteristics of a GSM base station antenna are an- alyzed including exposure of a realistic human body model. The modeling processoriginatesfromasimplepuremetaldesignwhichisvalidatedbyman- ufacturersdatasheetsandanalternativesimulationmodel.Third,thedesign of mobile phone antennas and the influence of the user on the antenna are investigated. Finally, an Ultra-Wideband (UWB) antenna is described and integrated in a realistic scenario. Throughout this book, the following EM software tools have been used: • Microwave Studio from CST GmbH, Darmstadt, Germany • HFSS from Ansoft Corporation, Pittsburgh, USA • ADS/Momentum from Agilent Technologies, Inc., Palo Alto, USA • EMPIRE from IMST GmbH, Kamp-Lintfort, Germany • 4NEC2 based on NEC2 from Lawrence Livermore National Laboratory, USA • Concept II from the Technical University Hamburg-Harburg, Germany Theauthorswouldliketothankthecompaniesfortheirsupportandfortheir kind permission to use the software in the scope of this book. X Preface We are also grateful to Springer Publishers for advice and cooperation. Furthermore, we would like to thank those colleagues and students who were associated with the writing of this book. Dortmund, Kamp-Lintfort Frank Gustrau Spring 2006 Dirk Manteuffel Contents 1 Introduction............................................... 1 Part I Basics 2 Electromagnetic Fields .................................... 5 2.1 Maxwell’s Equations ..................................... 5 2.2 Material Equations ...................................... 6 2.3 Boundary Conditions .................................... 8 2.4 Waves in Free Space ..................................... 9 2.5 Polarization ............................................ 11 2.6 Waves in Lossy Media.................................... 12 2.7 Energy Conservation..................................... 14 2.8 Electromagnetic Potentials ............................... 15 2.9 Green’s Function ........................................ 17 2.10 Waves on Transmission Lines ............................. 18 3 Radiofrequency and Antenna Theory ...................... 23 3.1 Scattering Parameters.................................... 23 3.2 Resonators and Antennas................................. 27 3.3 Antenna Parameters ..................................... 28 3.3.1 Antenna Radiation ................................ 28 3.3.2 Nearfield and Farfield .............................. 30 3.3.3 Radiation Pattern ................................. 31 3.3.4 Directivity, Efficiency and Gain ..................... 33 3.3.5 Matching and Bandwidth .......................... 35 3.4 Antenna Arrays ......................................... 37 3.4.1 Farfield Approximation ............................ 37 3.4.2 Beam Steering .................................... 40

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The book focuses on the practical aspects of computational electrodynamics. A short review of electromagnetic field theory and an illustrative introduction to basic concepts of numerical methods provide the mathematical and physical background. The main part the book guides the reader step-by-step t
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