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Electrical Engineering- Principles and Applications, Sixth Edition - Hambley PDF

905 Pages·2012·9.67 MB·English
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List of Examples Chapter 1 2.22 CircuitAnalysisUsingSuperposition 103 1.1 DeterminingCurrentGivenCharge 9 2.23 UsingaWheatstoneBridgetoMeasure 106 Resistance 1.2 PowerCalculations 14 1.3 EnergyCalculation 15 Chapter 3 1.4 ResistanceCalculation 28 1.5 DeterminingResistanceforGivenPower 30 3.1 DeterminingCurrentforaCapacitance 127 andVoltageRatings GivenVoltage 1.6 CircuitAnalysisUsingArbitrary 32 3.2 DeterminingVoltageforaCapacitance 129 References GivenCurrent 1.7 UsingKVL,KCL,andOhm’sLaw 33 3.3 Current,Power,andEnergyfora 131 toSolveaCircuit Capacitance 3.4 CalculatingCapacitanceGivenPhysical 135 Chapter 2 Parameters 2.1 CombiningResistancesinSeries 49 3.5 WhatHappenedtotheMissingEnergy? 137 andParallel 3.6 Voltage,Power,andEnergyforan 141 2.2 CircuitAnalysisUsingSeries/Parallel 52 Inductance Equivalents 3.7 InductorCurrentwithConstantApplied 142 2.3 ApplicationoftheVoltage-Division 56 Voltage Principle 3.8 IntegrationandDifferentiationUsing 149 2.4 ApplyingtheCurrent-and 57 theMATLABSymbolicToolbox Voltage-DivisionPrinciples 2.5 ApplicationoftheCurrent-Division 58 Principle Chapter 4 2.6 Node-VoltageAnalysis 63 4.1 Steady-StateDCAnalysis 167 2.7 Node-VoltageAnalysis 66 4.2 RLTransientAnalysis 169 2.8 Node-VoltageAnalysis 69 4.3 RLTransientAnalysis 171 2.9 Node-VoltageAnalysis 71 2.10 Node-VoltageAnalysiswithaDependent 74 4.4 TransientAnalysisofanRCCircuitwith 176 Source aSinusoidalSource 2.11 Node-VoltageAnalysiswithaDependent 75 4.5 AnalysisofaSecond-OrderCircuitwith 183 Source aDCSource 2.12 Mesh-CurrentAnalysis 81 4.6 Computer-AidedSolutionofaFirst- 192 OrderCircuit 2.13 Mesh-CurrentAnalysis 82 4.7 Computer-AidedSolutionofa 193 2.14 WritingMeshEquationsDirectlyin 84 Second-OrderCircuit MatrixForm 4.8 Computer-AidedSolutionofaSystemof 195 2.15 Mesh-CurrentAnalysiswithControlled 87 DifferentialEquations Sources 2.16 DeterminingtheThéveninEquivalent 90 Circuit Chapter 5 2.17 ZeroingSourcestoFindThévenin 91 Resistance 5.1 PowerDeliveredtoaResistancebya 213 SinusoidalSource 2.18 ThéveninEquivalentofaCircuitwitha 93 DependentSource 5.2 RMSValueofaTriangularVoltage 214 2.19 NortonEquivalentCircuit 95 5.3 UsingPhasorstoAddSinusoids 219 2.20 UsingSourceTransformations 97 5.4 Steady-StateACAnalysisofaSeries 226 2.21 DeterminingMaximumPowerTransfer 100 Circuit 5.5 SeriesandParallelCombinationsof 228 7.11 FindingtheMinimumSOPFormfora 375 ComplexImpedances LogicFunction 5.6 Steady-StateACNode-Voltage 229 7.12 FindingtheMinimumPOSFormfora 376 Analysis LogicFunction 5.7 ACPowerCalculations 238 5.8 UsingPowerTriangles 240 Chapter 8 5.9 Power-FactorCorrection 243 8.1 AnAssembly-LanguageProgram 423 5.10 ThéveninandNortonEquivalents 245 8.2 AbsoluteValueAssemblyProgram 423 5.11 MaximumPowerTransfer 247 8.3 ManualConversionofSourceCodeto 424 5.12 AnalysisofaWye–WyeSystem 255 MachineCode 5.13 AnalysisofaBalancedDelta–Delta 259 8.4 SubroutineSourceCode 425 System 5.14 PhasorMesh-CurrentAnalysiswith 263 MATLAB Chapter 9 9.1 SensorLoading 436 Chapter 6 9.2 SpecificationsforaComputer-Based 448 6.1 UsingtheTransferFunctionto 282 MeasurementSystem DeterminetheOutput 6.2 UsingtheTransferFunctionwithSeveral 284 Chapter 10 InputComponents 6.3 CalculationofRCLowpassOutput 290 10.1 Load-LineAnalysis 472 6.4 DeterminationoftheBreakFrequency 302 10.2 Load-LineAnalysis 473 foraHighpassFilter 6.5 SeriesResonantCircuit 307 10.3 Load-LineAnalysisofaZener-Diode 475 VoltageRegulator 6.6 ParallelResonantCircuit 310 10.4 AnalysisofaZener-DiodeRegulator 476 6.7 FilterDesign 315 withaLoad 6.8 Computer-GeneratedBodePlot 317 10.5 AnalysisbyAssumedDiodeStates 479 6.9 BodePlotUsingtheMATLABSymbolic 320 10.6 Piecewise-LinearModelforaZener 481 Toolbox Diode 6.10 StepResponseofaFirst-OrderDigital 326 10.7 AnalysisUsingaPiecewise-LinearModel 482 LowpassFilter Chapter 11 Chapter 7 7.1 ConvertingaDecimalIntegertoBinary 352 11.1 CalculatingAmplifierPerformance 516 7.2 ConvertingaDecimalFractiontoBinary 352 11.2 CalculatingPerformanceofCascaded 518 Amplifiers 7.3 ConvertingDecimalValuestoBinary 353 11.3 SimplifiedModelforanAmplifier 519 7.4 AddingBinaryNumbers 353 Cascade 7.5 ConvertingOctalandHexadecimal 354 11.4 AmplifierEfficiency 521 NumberstoBinary 11.5 DeterminingtheCurrent-Amplifier 523 7.6 ConvertingBinaryNumberstoOctalor 355 ModelfromtheVoltage-AmplifierModel Hexadecimal 7.7 SubtractionUsingTwo’s-Complement 357 11.6 DeterminingtheTransconductance- 525 Arithmetic AmplifierModel 7.8 UsingaTruthTabletoProveaBoolean 361 11.7 DeterminingtheTransresistance- 526 Expression AmplifierModel 7.9 ApplyingDeMorgan’sLaws 364 11.8 DeterminingComplexGain 531 7.10 CombinatorialLogicCircuitDesign 369 11.9 AmplitudeDistortion 535 Electrical Engineering Principles and Applications This page intentionally left blank Electrical Engineering Principles and Applications SIXTH EDITION Allan R. Hambley DepartmentofElectricalandComputerEngineering MichiganTechnologicalUniversity [email protected] UpperSaddleRiver Boston Columbus SanFrancisco NewYork Indianapolis London Toronto Sydney Singapore Tokyo Montreal Dubai Madrid HongKong MexicoCity Munich Paris Amsterdam CapeTown VicePresidentandEditorialDirector,ECS: MarciaJ.Horton ExecutiveEditor: AndrewGilfillan AssociateEditor: AliceDworkin EditorialAssistant: WilliamOpaluch SeniorManagingEditor: ScottDisanno ProductionEditor: PavithraJayapaul,JouveIndia OperationsSupervisor: LisaMcDowell ExecutiveMarketingManager: TimGalligan MarketingAssistant: JonBryant ArtDirector: KennyBeck CoverImage: WillBurrard-Lucas/www.burrard-lucas.com ArtEditor: GregDulles MediaProjectManager: RenataButera Composition/Full-ServiceProjectManagement: JouveNorthAmerica LabVIEWandNIMultisimaretrademarksofNationalInstruments.MATLABisaregisteredtrademark ofTheMathWorks. MylarisaregisteredtrademarkofDuPontTeijinFilms. OrCADandPSpiceare registeredtrademarksofCadenceDesignSystems. Copyright©2014,2011,2008,2005,2002,1997byPearsonEducation,Inc.,UpperSaddleRiver,New Jersey 07458. All rights reserved. Manufactured in the United States ofAmerica. This publication is protectedbyCopyrightandpermissionsshouldbeobtainedfromthepublisherpriortoanyprohibited reproduction, storage in a retrieval system, or transmission in any form or by any means, electronic, mechanical,photocopying,recording,orlikewise.Toobtainpermission(s)tousematerialsfromthiswork, pleasesubmitawrittenrequesttoPearsonHigherEducation,PermissionsDepartment,1LakeStreet, UpperSaddleRiver,NJ07458. Theauthorandpublisherofthisbookhaveusedtheirbesteffortsinpreparingthisbook.Theseefforts includethedevelopment,research,andtestingofthetheoriesandprogramstodeterminetheireffective- ness.Theauthorandpublishermakenowarrantyofanykind,expressedorimplied,withregardtothese programsorthedocumentationcontainedinthisbook.Theauthorandpublishershallnotbeliablein anyeventforincidentalorconsequentialdamagesinconnectionwith,orarisingoutof,thefurnishing, performance,oruseoftheseprograms. CIPdataisonfileandavailableuponrequest. 10 9 8 7 6 5 4 3 2 1 ISBN-13:978-0-13-311664-9 ISBN-10: 0-13-311664-6 To Judy,Tony,Pam,and Mason Practical Applications of Electrical Engineering Principles 1.1 UsingResistancetoMeasureStrain 29 2.1 AnImportantEngineeringProblem:Energy-StorageSystemsforElectricVehicles 100 3.1 ElectronicPhotoFlash 145 4.1 ElectronicsandtheArtofAutomotiveMaintenance 190 6.1 ActiveNoiseCancellation 287 7.1 BiomedicalEngineeringApplicationofElectronics:CardiacPacemaker 385 8.1 FreshBreadAnyone? 408 9.1 TheVirtualFirst-DownLine 444 11.1 ElectronicStudFinder 549 12.1 WhereDidThoseTroutGo? 593 13.1 SoupUpYourAutomobilebyChangingItsSoftware? 618 14.1 MechanicalApplicationofNegativeFeedback:PowerSteering 666 16.1 MagneticFlowmeters,Faraday,andTheHuntforRedOctober 768 vi Contents PracticalApplicationsof 3.3 PhysicalCharacteristicsof ElectricalEngineeringPrinciples vi Capacitors 134 3.4 Inductance 138 Preface xi 3.5 InductancesinSeries andParallel 143 1 3.6 PracticalInductors 144 3.7 MutualInductance 147 Introduction 1 3.8 SymbolicIntegrationand 1.1 OverviewofElectricalEngineering 2 DifferentiationUsingMATLAB 148 1.2 Circuits,Currents,andVoltages 6 Summary 152 1.3 PowerandEnergy 13 Problems 153 1.4 Kirchhoff’sCurrentLaw 16 1.5 Kirchhoff’sVoltageLaw 19 1.6 IntroductiontoCircuitElements 22 4 1.7 IntroductiontoCircuits 30 Transients 162 Summary 34 Problems 35 4.1 First-OrderRC Circuits 163 4.2 DCSteadyState 167 2 4.3 RLCircuits 169 4.4 RCandRLCircuitswithGeneral Resistive Circuits 46 Sources 173 2.1 ResistancesinSeriesandParallel 47 4.5 Second-OrderCircuits 179 2.2 NetworkAnalysisbyUsingSeries 4.6 TransientAnalysisUsingtheMATLAB andParallelEquivalents 51 SymbolicToolbox 191 2.3 Voltage-DividerandCurrent-Divider Summary 197 Circuits 55 Problems 198 2.4 Node-VoltageAnalysis 60 2.5 Mesh-CurrentAnalysis 79 2.6 ThéveninandNortonEquivalent 5 Circuits 88 Steady-State Sinusoidal Analysis 209 2.7 SuperpositionPrinciple 101 2.8 WheatstoneBridge 104 5.1 SinusoidalCurrentsandVoltages 210 Summary 107 5.2 Phasors 216 Problems 109 5.3 ComplexImpedances 222 5.4 CircuitAnalysiswithPhasorsand 3 ComplexImpedances 225 5.5 PowerinACCircuits 231 Inductance and Capacitance 124 5.6 ThéveninandNortonEquivalent 3.1 Capacitance 125 Circuits 244 3.2 CapacitancesinSeriesandParallel 132 5.7 BalancedThree-PhaseCircuits 249 vii

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