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Control of Electric Machine Drive System (IEEE Press Series on Power Engineering) PDF

415 Pages·2011·15.041 MB·English
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Control of Electric Machine Drive Systems IEEE Press 445HoesLane Piscataway,NJ 08854 IEEE Press EditorialBoard Lajos Hanzo,Editor inChief R. Abari M. El-Hawary S. Nahavandi J.Anderson B. M. Hammerli W. Reeve F. Canavero M. Lanzerotti T. Samad T. G.Croda O. Malik G.Zobrist Kenneth Moore,Director ofIEEE Book andInformationServices (BIS) Control of Electric Machine Drive Systems Seung-Ki Sul Copyright(cid:1)2011bytheInstituteofElectricalandElectronicsEngineers,Inc. PublishedbyJohnWiley&Sons,Inc.,Hoboken,NewJersey.Allrightsreserved. PublishedsimultaneouslyinCanada Nopartofthispublicationmaybereproduced,storedinaretrievalsystem,ortransmittedinanyform orbyanymeans,electronic,mechanical,photocopying,recording,scanning,orotherwise,exceptas permittedunderSection107or108ofthe1976UnitedStatesCopyrightAct,withouteithertheprior writtenpermissionofthePublisher,orauthorizationthroughpaymentoftheappropriateper-copy feetotheCopyrightClearanceCenter,Inc.,222RosewoodDrive,Danvers,MA01923,(978)750-8400, fax(978)750-4470,oronthewebatwww.copyright.com.RequeststothePublisherforpermission shouldbeaddressedtothePermissionsDepartment,JohnWiley&Sons,Inc.,111RiverStreet, Hoboken,NJ07030,(201)748-6011,fax(201)748-6008,oronlineathttp://www.wiley.com/go/ permission. LimitofLiability/DisclaimerofWarranty:Whilethepublisherandauthorhaveusedtheirbest effortsinpreparingthisbook,theymakenorepresentationsorwarrantieswithrespecttotheaccuracy orcompletenessofthecontentsofthisbookandspecificallydisclaimanyimpliedwarrantiesof merchantabilityorfitnessforaparticularpurpose. Nowarrantymaybecreatedorextendedbysales representativesorwrittensalesmaterials. Theadviceandstrategiescontainedhereinmaynotbesuitable foryoursituation. Youshouldconsultwithaprofessionalwhereappropriate. Neitherthepublisher norauthorshallbeliableforanylossofprofitoranyothercommercialdamages,includingbutnotlimited tospecial,incidental,consequential,orotherdamages. Forgeneralinformationonourotherproductsandservicesorfortechnicalsupport,pleasecontact ourCustomerCareDepartmentwithintheUnitedStatesat(800)762-2974,outsidetheUnitedStates at(317)572-3993orfax(317)572-4002. Wileyalsopublishesitsbooksinavarietyofelectronicformats.Somecontentthatappearsinprint maynotbeavailableinelectronicformats.FormoreinformationaboutWileyproducts,visitourwebsite atwww.wiley.com. LibraryofCongressCataloging-in-PublicationData: Sul,Seung-Ki. Controlofelectricmachinedrivesystem/Seung-KiSul. p.cm.– (IEEEPressseriesonpowerengineering;55) Includesbibliographicalreferences. Summary:“Thisbookisbasedontheauthor’sindustryexperience.Itcontainsmanyexercise problemsthatengineerswouldexperienceintheirday-to-daywork.Thebookwaspublished inKoreanat500pagesasatextbook. Thebookwillcontainover300figures”.–Providedbypublisher. Summary:“Thisbookisbasedontheauthor’sindustryexperience.Itcontainsmanyexercise problemsthatengineerswouldexperienceintheirday-to-daywork”–Providedbypublisher. ISBN978-0-470-59079-9(hardback) 1. Electricdriving–Automaticcontrol. I.Title. TK4058.S85132011 621.46–dc22 2010039507 PrintedintheUnitedStatesofAmerica eBook:978-0-470-87655-8 oBook:978-0-470-87654-1 10 9 8 7 6 5 4 3 2 1 To my father, who lived his whole life as an unknown engineer. Contents Preface xiii 1 Introduction 1 1.1 Introduction 1 1.1.1 ElectricMachineDriveSystem 4 1.1.2 TrendofDevelopmentofElectricMachineDriveSystem 5 1.1.3 TrendofDevelopmentofPowerSemiconductor 7 1.1.4 TrendofDevelopmentofControlElectronics 8 1.2 Basicsof Mechanics 8 1.2.1 BasicLaws 9 1.2.2 ForceandTorque 9 1.2.3 MomentofInertiaofaRotatingBody 11 1.2.4 EquationsofMotionforaRigidBody 13 1.2.5 PowerandEnergy 17 1.2.6 ContinuityofPhysicalVariables 18 1.3 Torque Speed CurveofTypical Mechanical Loads 18 1.3.1 Fan,Pump,andBlower 18 1.3.2 HoistingLoad;Crane,Elevator 20 1.3.3 TractionLoad(ElectricVehicle,ElectricTrain) 21 1.3.4 TensionControlLoad 23 Problems 24 References 35 2 Basic Structureand Modelingof Electric Machines and Power Converters 36 2.1 Structure and Modeling ofDC Machine 36 2.2 Analysis of Steady-State Operation 41 2.2.1 SeparatelyExcitedShuntMachine 42 2.2.2 SeriesExcitedDCMachine 45 2.3 Analysis of TransientStateof DCMachine 46 2.3.1 SeparatelyExcitedShuntMachine 47 2.4 Power Electronic Circuit toDriveDC Machine 50 2.4.1 StaticWard–LeonardSystem 51 2.4.2 Four-QuadrantsChopperSystem 52 2.5 RotatingMagneticMotiveForce 53 2.6 Steady-StateAnalysis of aSynchronous Machine 58 vii viii Contents 2.7 Linear Electric Machine 62 2.8 Capability Curveof SynchronousMachine 63 2.8.1 RoundRotorSynchronousMachinewithFieldWinding 63 2.8.2 PermanentMagnetSynchronousMachine 64 2.9 Parameter Variation ofSynchronous Machine 66 2.9.1 StatorandFieldWindingResistance 66 2.9.2 SynchronousInductance 66 2.9.3 BackEMFConstant 67 2.10 Steady-State Analysis ofInduction Machine 70 2.10.1 Steady-StateEquivalentCircuitofanInductionMachine 72 2.10.2 ConstantAirGapFluxOperation 77 2.11 Generator Operation ofan Induction Machine 79 2.12 VariationofParameters of anInduction Machine 81 2.12.1 VariationofRotorResistance,Rr 81 2.12.2 VariationofRotorLeakageInductance,Llr 82 2.12.3 VariationofStatorResistance,Rs 82 2.12.4 VariationofStatorLeakageInductance,Lls 83 2.12.5 VariationofExcitationInductance,Lm 84 2.12.6 VariationofResistanceRepresentingIronLoss,Rm 84 2.13 Classification ofInduction MachinesAccording toSpeed–Torque Characteristics 84 2.14 Quasi-TransientState Analysis 87 2.15 Capability Curveofan InductionMachine 88 2.16 Comparison ofAC Machine and DCMachine 90 2.16.1 ComparisonofaSquirrelCageInductionMachineandaSeparately ExcitedDCMachine 90 2.16.2 ComparisonofaPermanentMagnetACMachineandaSeparately ExcitedDCMachine 92 2.17 Variable-Speed ControlofInduction Machine Based on Steady-State Characteristics 92 2.17.1 VariableSpeedControlofInductionMachinebyControlling TerminalVoltage 93 2.17.2 VariableSpeedControlofInductionMachineBasedon ConstantAir-GapFlux((cid:1)V=F)Control 94 2.17.3 VariableSpeedControlofInductionMachineBasedonActual SpeedFeedback 95 2.17.4 EnhancementofConstantAir-GapFluxControlwithFeedback ofMagnitudeofStatorCurrent 96 2.18 Modeling ofPowerConverters 96 2.18.1 Three-PhaseDiode/ThyristorRectifier 97 2.18.2 PWMBoostRectifier 98 2.18.3 Two-QuadrantsBidirectionalDC/DCConverter 101 2.18.4 Four-QuadrantsDC/DCConverter 102 2.18.5 Three-PhasePWMInverter 103 2.18.6 MatrixConverter 105 2.19 Parameter ConversionUsing PerUnit Method 106 Problems 108 References 114 Contents ix 3 Reference Frame Transformationand Transient State Analysis ofThree-Phase AC Machines 116 3.1 ComplexVector 117 3.2 d–q–n Modeling ofan InductionMachine Based on Complex Space Vector 119 3.2.1 EquivalentCircuitofanInductionMachineatd–q–nAXIS 120 3.2.2 TorqueoftheInductionMachine 125 3.3 d–q–n Modeling ofa SynchronousMachine Based on Complex Space Vector 128 3.3.1 EquivalentCircuitofaSynchronousMachineatd–q–nAXIS 128 3.3.2 TorqueofaSynchronousMachine 138 3.3.3 EquivalentCircuitandTorqueofaPermanentMagnet SynchronousMachine 140 3.3.4 SynchronousReluctanceMachine(SynRM) 144 Problems 146 References 153 4 Design of Regulators for Electric Machines and PowerConverters 154 4.1 ActiveDamping 157 4.2 CurrentRegulator 158 4.2.1 MeasurementofCurrent 158 4.2.2 CurrentRegulatorforThree-Phase-ControlledRectifier 161 4.2.3 CurrentRegulatorforaDCMachineDrivenbyaPWMChopper 166 4.2.4 Anti-Wind-Up 170 4.2.5 ACCurrentRegulator 173 4.3 Speed Regulator 179 4.3.1 MeasurementofSpeed/PositionofRotorofanElectricMachine 179 4.3.2 EstimationofSpeedwithIncrementalEncoder 182 4.3.3 EstimationofSpeedbyaStateObserver 189 4.3.4 PI/IPSpeedRegulator 198 4.3.5 EnhancementofSpeedControlPerformancewithAcceleration Information 204 4.3.6 SpeedRegulatorwithAnti-Wind-UpController 206 4.4 Position Regulator 208 4.4.1 Proportional–ProportionalandIntegral(P–PI)Regulator 208 4.4.2 Feed-ForwardingofSpeedReference andAccelerationReference 209 4.5 Detection ofPhase Angle of AC Voltage 210 4.5.1 DetectionofPhaseAngleonSynchronousReferenceFrame 210 4.5.2 DetectionofPhaseAngleUsingPositiveSequenceVoltage onSynchronousReferenceFrame 213 4.6 Voltage Regulator 215 4.6.1 VoltageRegulatorforDCLinkofPWMBoostRectifier 215 Problems 218 References 228 x Contents 5 Vector Control 230 5.1 InstantaneousTorque Control 231 5.1.1 SeparatelyExcitedDCMachine 231 5.1.2 Surface-MountedPermanentMagnetSynchronousMotor(SMPMSM) 233 5.1.3 InteriorPermanentMagnetSynchronousMotor(IPMSM) 235 5.2 Vector Controlof InductionMachine 236 5.2.1 DirectVectorControl 237 5.2.2 IndirectVectorControl 243 5.3 Rotor FluxLinkage Estimator 245 5.3.1 VoltageModelBasedonStatorVoltageEquationofan InductionMachine 245 5.3.2 CurrentModelBasedonRotorVoltageEquationofan InductionMachine 246 5.3.3 HybridRotorFluxLinkageEstimator 247 5.3.4 EnhancedHybridEstimator 248 5.4 FluxWeakeningControl 249 5.4.1 ConstraintsofVoltageandCurrenttoACMachine 249 5.4.2 OperatingRegionofPermanentMagnetACMachineinCurrent PlaneatRotorReferenceFrame 250 5.4.3 FluxWeakeningControlofPermanentMagnetSynchronous Machine 257 5.4.4 FluxWeakeningControlofInductionMachine 262 5.4.5 FluxRegulatorofInductionMachine 267 Problems 269 References 281 6 Position/SpeedSensorless Control ofAC Machines 283 6.1 SensorlessControlofInduction Machine 286 6.1.1 ModelReferenceAdaptiveSystem(MRAS) 286 6.1.2 AdaptiveSpeedObserver(ASO) 291 6.2 SensorlessControlofSurface-MountedPermanent Magnet SynchronousMachine (SMPMSM) 297 6.3 SensorlessControlofInterior PermanentMagnetSynchronous Machine (IPMSM) 299 6.4 SensorlessControlEmploying High-FrequencySignalInjection 302 6.4.1. InherentlySalientRotorMachine 304 6.4.2 ACMachinewithNonsalientRotor 305 Problems 317 References 320 7 PracticalIssues 324 7.1 Output Voltage DistortionDue toDeadTime andIts Compensation 324 7.1.1 CompensationofDeadTimeEffect 325 Contents xi 7.1.2 ZeroCurrentClamping(ZCC) 327 7.1.3 VoltageDistortionDuetoStrayCapacitanceofSemiconductor Switches 327 7.1.4 PredictionofSwitchingInstant 330 7.2 Measurement ofPhase Current 334 7.2.1 ModelingofTimeDelayofCurrentMeasurementSystem 334 7.2.2 OffsetandScaleErrorsinCurrentMeasurement 337 7.3 Problems Due toDigital SignalProcessing ofCurrent Regulation Loop 342 7.3.1 ModelingandCompensationofCurrentRegulationError DuetoDigitalDelay 342 7.3.2 ErrorinCurrentSampling 346 Problems 350 References 353 AppendixA Measurement and Estimationof Parameters ofElectric Machinery 354 A.1 Parameter Estimation 354 A.1.1 DCMachine 355 A.1.2 EstimationofParametersofInductionMachine 357 A.2 Parameter Estimation of Electric Machines Using Regulators ofDriveSystem 361 A.2.1 FeedbackControlSystem 361 A.2.2 BackEMFConstantofDCMachine,K 363 A.2.3 StatorWindingResistanceofThree-PhaseACMachine,Rs 363 A.2.4 InductionMachineParameters 365 A.2.5 PermanentMagnetSynchronousMachine 370 A.3 Estimation of Mechanical Parameters 374 A.3.1 EstimationBasedonMechanicalEquation 374 A.3.2 EstimationUsingIntegralProcess 376 References 380 Appendix B d–q ModelingUsing MatrixEquations 381 B.1 Reference Frameand Transformation Matrix 381 B.2 d–qModelingof Induction Machine Using Transformation Matrix 386 B.3 d–qModelingof SynchronousMachine Using Transformation Matrix 390 Index 391 IEEE Press Series onPower Engineering 401

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