09994nam 2202809z- 450 991055776880332120231214133414.0(CKB)5400000000045673(oapen)https://directory.doabooks.org/handle/20.500.12854/69003(EXLCZ)99540000000004567320202105d2020 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierAdvances in Rotating Electric MachinesVolume 2Basel, SwitzerlandMDPI - Multidisciplinary Digital Publishing Institute20201 electronic resource (398 p.)3-03936-840-0 3-03936-841-9 It is difficult to imagine a modern society without rotating electric machines. Their use has been increasing not only in the traditional fields of application but also in more contemporary fields, including renewable energy conversion systems, electric aircraft, aerospace, electric vehicles, unmanned propulsion systems, robotics, etc. This has contributed to advances in the materials, design methodologies, modeling tools, and manufacturing processes of current electric machines, which are characterized by high compactness, low weight, high power density, high torque density, and high reliability. On the other hand, the growing use of electric machines and drives in more critical applications has pushed forward the research in the area of condition monitoring and fault tolerance, leading to the development of more reliable diagnostic techniques and more fault-tolerant machines. This book presents and disseminates the most recent advances related to the theory, design, modeling, application, control, and condition monitoring of all types of rotating electric machines.Advances in Rotating Electric MachinesHistory of engineering & technologybicssccore saturationcross-coupling inductancewound synchronous machines (WSM)signal injectionposition sensorlesshigh-frequency modelhybrid permanent magnetinterior permanent magnet (IPM) machinemagnet-axis-shiftedreluctance torqueSensorlessinduction motorsH_infinitydrivesvector controlexperimental implementationdirect torque controlduty cycle controlharmonic currentssix-phase induction motortorque rippleinterior permanent magnet synchronous motor (IPMSM)sensorless controladaptive algorithmsuper-twisting sliding mode observer (STO)phase-locked loop (PLL)permanent-magnet vernier machinein-wheel direct-driveouter rotoroverhangsoft magnetic compositereaction spherespherical motorstructural designtorque density optimizationsupport vector machinesfinite element methodinduction motorsmart-sensorstray fluxtime-frequency transformswavelet entropyharmonic modeling methodmagnetic-geared machinehybrid electric vehiclemagnetic fieldelectromagnetic performanceanalytical modelingbrushless DC motorcommutation torque rippleback electromotive forcemultiphase machinesfault-tolerancedual-channelbrushless direct current motor with permanent magnet (BLDCM)switched reluctance motor (SRM)active fluxstator flux observationsuper-twisting sliding-mode stator flux observer (STSMFO)deep-bar effectmathematical modelestimationmotor drivesdirect torque control (DTC)permanent magnet synchronous motor (PMSM)maximum torque per ampere (MTPA) operationDTC with space-vector modulation (DTC-SVM)AFPMSManalytical algorithmvibration noisetemperature field analysisSynRMirreversible demagnetizationPMa-SynRMflux intensifyingdeadbeat current controlPMSM servo motor drivesauto tuningparameter identificationperiodic controllersurface permanent magnet synchronous motorfault-tolerant systemmulti-channelquad-channel operation (QCO)triple-channel operation (TCO)dual-channel operation (DCO)single-channel operation (SCO)permanent magnet brushless direct current motorBLDCMdouble Fourier analysiscurrent spectrum decompositioneddy current losspermanent magnet machine designcogging torquepermanent magnet machineuneven magnetsIPMSMuncertainty and disturbance estimatorflux-weakening controldouble-cage induction motorimprovement of motor reliabilitycage winding constructionsdirect start-upcoupled electromagnetic-thermal modelouter rotor inductorelectric vehiclehigh-efficiencyeco-friendlyautomationfinite element analysisPMSMDOEoptimizationmetamodelingadaptive robust controlenergy feedbackparticle swarm optimizationtorque optimal distribution methodmultiphase electric drivessix-phase machinesfinite control set model predictive controlpredictive current controlpredictive torque controlhigh frequency square-wave voltageinterior permanent-magnet synchronous motor (IPMSM)magnetic polarity detectionrotor position estimationcharacteristics analysisfault detectionstator faultrotor faulttorque estimationfinite control set mode predictive controlduty cyclemaximum torque per amperepermanent magnet synchronous motoracousticsboundary element methodelectric machinesmagneto-mechanicsmodelingnoisevibro-acousticsefficiencyline-start synchronous reluctance motorpermanent magnetpower factormultiphaseinductionmotorspace harmonicstime harmonicsinjectionhigh-speed permanent synchronous motormagnetic field characteristiciron lossstator structureonline parameters estimationpermanent magnet synchronous machinessynchronous reluctance machineshigh frequency signal injectionCMVmodulation techniquesPWMrailway traction drivesinduction motor driveshigh-speed drivesovermodulation and six-step operationelectrical motorssot filling factoroptimization algorithmwindingsmagnetic wirefilling factor optimizationelectric drivetransmission shaftelectric transmission lineelectrical and mechanical similaritieskinematic structureequivalent circuitmathematical modellingfailuredetectiondiagnosisBLDCbrushlesssystematic reviewrotor positionBLDC motorsensor misalignmentsizing methodologyelectrical machinesthermal modelelectromagnetic modelswitched reluctance motortorque sharing functionsfiring angle modulationautonomous systemsbrushless synchronous generatorelectric power generationhigh speed generatorhigh resistance connectionfault-detectionfault-tolerant controlsix-phase permanent magnet synchronous machinesfield-oriented controlHistory of engineering & technologyCruz Sérgioedt1308055Cruz SérgioothBOOK9910557768803321Advances in Rotating Electric Machines3029081UNINA