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Microwave Component Mechanics (Artech House Microwave Library) PDF

389 Pages·2003·3.49 MB·English
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Microwave Component Mechanics DISCLAIMEROFWARRANTY Thetechnicaldescriptions,procedures,andcomputerprogramsinthisbook have been developed with the greatest of care and they have been useful to theauthorinabroadrangeofapplications;however,theyareprovidedasis, withoutwarrantyofanykind.ArtechHouse,Inc.andtheauthorandeditors of the book titled Microwave Component Mechanics make no warranties, expressed or implied, that the equations, programs, and procedures in this book or its associated software are free of error, or are consistent with any particular standard of merchantability, or will meet your requirements for any particular application. They should not be relied upon for solving a problemwhoseincorrectsolutioncouldresultininjurytoapersonorlossof property. Any use of the programs or procedures in such a manner is at the user’s own risk. The editors, author, and publisher disclaim all liability for direct,incidental,orconsequentdamagesresultingfromuseoftheprograms orproceduresinthisbookortheassociatedsoftware. ForalistingofrecenttitlesintheArtechHouseMicrowaveLibrary, turntothebackofthisbook. Microwave Component Mechanics Harri Eskelinen Pekka Eskelinen Artech House Boston (cid:127) London www.artechhouse.com LibraryofCongressCataloging-in-PublicationData Eskelinen,Harri. Microwavecomponentmechanics/HarriEskelinen,PekkaEskelinen. p. cm.—(ArtechHousemicrowavelibrary) Includesbibliographicalreferencesandindex. ISBN1-58053-368-X(alk.paper) 1.Microwavedevices—Designandconstruction. I.Eskelinen,Pekka. II.Title. III.Series. TK7876.E85 2003 621.381’33—dc21 2002043667 BritishLibraryCataloguinginPublicationData Eskelinen,Harri Microwavecomponentcechanics.—(ArtechHousemicrowavelibrary) 1.Microwavedevices—Designandconstruction I.Title II.Eskelinen,Pekka 621.3’8133 ISBN1-58053-368-X CoverdesignbyIgorValdman ©2003ARTECHHOUSE,INC. 685CantonStreet Norwood,MA02062 Allrightsreserved.PrintedandboundintheUnitedStatesofAmerica.Nopartofthisbook may be reproduced or utilized in any form or by any means, electronic or mechanical, in- cludingphotocopying,recording,orbyanyinformationstorageandretrievalsystem,with- outpermissioninwritingfromthepublisher. Alltermsmentionedinthisbookthatareknowntobetrademarksorservicemarkshave been appropriately capitalized. Artech House cannot attest to the accuracy of this informa- tion.Useofaterminthisbookshouldnotberegardedasaffectingthevalidityofanytrade- markorservicemark. InternationalStandardBookNumber:1-58053-368-X LibraryofCongressCatalogCardNumber:2002043667 10987654321 Contents Acknowledgments xv Introduction xvii Part1:DesignforManufacturabilityandAssembly ofMechanicalMicrowaveComponents 1 1 SpecialRequirementsforMicrowaveMechanics 3 1.1 FundamentalsofMicrowaves 4 1.1.1 Maxwell’sEquations 4 1.1.2 GeneralWavePropagation 5 1.2 DimensionalUncertainties 8 1.3 MaterialProblems 15 1.3.1 AGoodConductor 17 1.3.2 ElectromagneticRadiation 19 1.3.3 ElectromagneticWavesInitiatedbyCavities 22 1.4 ConnectionPhilosophies 26 v vi MicrowaveComponentMechanics 1.5 TypicalUserandApplicationProfiles 27 References 27 2 SystematicFlowchartModel 29 2.1 PrinciplesofSystematicDesign 29 2.1.1 SomeAssistingTools 31 2.1.2 ListofRequirements 33 2.2 AdvancedMethodologyforDesigning MicrowaveMechanics 34 2.2.1 BasicElementsoftheAdvancedMethodology 35 2.2.2 FlowchartPresentationoftheTunedMethodology 39 References 42 3 MaterialSelectionforMicrowaveMechanics 45 3.1 BasicGuidelinesforMicrowaveDesigners 45 3.2 EffectsoftheProduct’sOperatingFrequency 47 3.2.1 ElectromagneticLosses 47 3.2.2 DefinitionofthePenetrationDepth 48 3.3 EffectsoftheOperatingEnvironment 51 3.4 MetallicComponents 54 3.4.1 Oxygen-FreeCopper 55 3.4.2 SuperconductorOxygen-FreeCopper 55 3.4.3 BerylliumCopperAlloy 56 3.4.4 PhosphorusBronze 57 3.4.5 Brass 58 3.4.6 StainlessSteels 58 3.4.7 AluminumAlloys 60 3.4.8 Invar 62 3.5 UseofPlastics 64 3.5.1 PTFE 64 3.5.2 PE 64 3.5.3 OtherFluorinePlastics 65 3.5.4 PEEK 65 Contents vii 3.5.5 PolyphenyleneOxide 66 3.5.6 ReinforcedPlastics 66 3.6 UtilizationofCeramicMaterialsandPowder Metallurgy 66 3.6.1 Powder-MetallurgicallyManufacturedMaterials forMicrowaveMechanics 69 3.6.2 ApplicationAreasofCeramicMaterialsin MicrowaveMechanics 73 3.6.3 LowTemperatureCofiredCeramics 74 References 77 4 Computer-AidedEnvironmentforDesignWork 79 4.1 IntegrationofBasicCADTools 80 4.1.1 InteractionBetweenVirtualEngineeringand HypermediaApplicationsinControllingHeat InputDuringWeldingofMicrowaveComponents 86 4.1.2 IntegrationofComputer-AssistedEngineeringand MicrowaveMechanicsSimulationinWelded StriplineFilterDesign 94 4.2 TypicalSimulationSoftwareSolutionsfor Microwaves 96 4.3 IntegrationProblemsofCurrentCADApplications 102 4.3.1 ProblemsinCADApplicationsMadeforGeneral MechanicalEngineering 102 4.3.2 ProblemsinCADApplicationsDevelopedfor MicrowaveDesign 103 References 108 5 InstructionsforTechnicalDocumentation andDimensioning 111 5.1 TheRelationshipBetweenRFParameters andMechanicalParameters 112 5.2 DifferencesBetweenDFMA-and Performance-OrientedApproaches 114 viii MicrowaveComponentMechanics 5.3 OntheSuitabilityofGeneralManufacturing TolerancesforMWMechanics 116 References 118 6 EffectsofProductionVolumeandRelatedTopics 119 6.1 GeneralAspectsRelatedtotheEvaluation ofProductionCosts 119 6.1.1 DesignCosts 119 6.1.2 MaterialCosts 120 6.1.3 ManufacturingCosts 120 6.1.4 CostsRelatedtotheExpectedLifetime oftheProduct 120 6.2 RelationshipBetweenManufacturingCosts andSurfaceFinish 121 6.3 RelationshipBetweenManufacturingCosts andDimensionalTolerance 122 6.4 DesignforManufacturability 122 6.4.1 GoalsofDFM/DFMA 123 6.4.2 TheBarrierBetweenDesigningandManufacturing 123 6.4.3 PuttingDFMinPractice 125 6.4.4 AdditionalToolsforDFM 127 6.4.5 MoreEffectiveUseofDFM 128 6.5 ACross-TechnologicalApproach 129 6.6 ConcurrentEngineeringDesign 131 6.6.1 TheDesignProcessforCE 132 6.6.2 ManufacturabilityforCEDesign 133 6.7 ManufacturingCostsofPrototypes 134 6.8 QualityAspects 135 6.9 CostEvaluationbyUtilizingParametric ComponentDesign 135 6.10 CostAccumulationinLaserProcessedComponents 136 6.11 ManufacturingCostsofOtherManufacturing Processes 141 Contents ix 6.12 AMultilevelOptimizingApproachfor Cost-EffectiveProduction 141 References 148 Part2:ManufacturingTechnologiesforSome PassiveMicrowaveComponents 151 7 WeldedComponents 153 7.1 WeldingProcessesfortheTopicArea 153 7.2 LaserWeldinginGeneral 154 7.2.1 ParametersofLaserWelding 156 7.3 Laser-WeldedStriplineFilter 157 7.4 UtilizingUltrasonicWeldinginFilter Constructions 164 7.5 WeldedJointGeometriesofMicrowave CavityResonatorsandWaveguides 170 7.5.1 PracticalWeldingInstructionsforCavity ResonatorsandWaveguides 174 7.6 WeldedRadiatingElementsofPatchAntennas 177 7.7 AComparisonofWeldingProcessesfor EncapsulatingElectronics 192 7.7.1 AdvantagesofLaserWeldedSealing 193 7.7.2 ProjectionWeldingApplication 197 References 200 8 OtherJoiningTechnologies 203 8.1 AssemblyRulesforScrewJointstoObtain ReliabilityandRequiredMicrowavePerformance 203 8.2 GluedJoints 205 8.2.1 Acrylic-BasedAdhesives 205 8.2.2 Cyanoacrylate-BasedAdhesives 206 8.2.3 UV-CuredAdhesives 206 8.2.4 AdhesiveswithGoodElectricalConductivity 206

Description:
This resource offers professionals detailed guidance on the mechanical aspects of designing and manufacturing microwave components. It takes an interdisciplinary approach that combines design and manufacturing, mechanical and electrical design, and microwave component performance and productivity. P
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