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Advances in Rotating Electric Machines

Advances in Rotating Electric Machines

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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.

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Keywords

  • Acoustics
  • active flux
  • adaptive algorithm
  • adaptive robust control
  • AFPMSM
  • analytical algorithm
  • analytical modeling
  • auto tuning
  • Automation
  • Autonomous Systems
  • back electromotive force
  • BLDC
  • BLDC motor
  • BLDCM
  • boundary element method
  • brushless
  • brushless dc motor
  • brushless direct current motor with permanent magnet (BLDCM)
  • brushless synchronous generator
  • cage winding constructions
  • characteristics analysis
  • CMV
  • cogging torque
  • commutation torque ripple
  • core saturation
  • coupled electromagnetic-thermal model
  • cross-coupling inductance
  • current spectrum decomposition
  • deadbeat current control
  • deep-bar effect
  • Detection
  • Diagnosis
  • direct start-up
  • direct torque control
  • direct torque control (DTC)
  • DOE
  • double Fourier analysis
  • double-cage induction motor
  • drives
  • DTC with space-vector modulation (DTC-SVM)
  • dual-channel
  • dual-channel operation (DCO)
  • duty cycle
  • duty cycle control
  • eco-friendly
  • eddy current loss
  • Efficiency
  • electric drive
  • electric machines
  • electric power generation
  • electric transmission line
  • electric vehicle
  • electrical and mechanical similarities
  • electrical machines
  • electrical motors
  • electromagnetic model
  • electromagnetic performance
  • energy feedback
  • equivalent circuit
  • estimation
  • experimental implementation
  • failure
  • fault detection
  • fault-detection
  • fault-tolerance
  • fault-tolerant control
  • fault-tolerant system
  • field-oriented control
  • filling factor optimization
  • finite control set mode predictive control
  • finite control set model predictive control
  • finite element analysis
  • Finite element method
  • firing angle modulation
  • flux intensifying
  • flux-weakening control
  • harmonic currents
  • harmonic modeling method
  • high frequency signal injection
  • high frequency square-wave voltage
  • high resistance connection
  • high speed generator
  • high-efficiency
  • high-frequency model
  • high-speed drives
  • high-speed permanent synchronous motor
  • History of engineering & technology
  • hybrid electric vehicle
  • hybrid permanent magnet
  • H_infinity
  • improvement of motor reliability
  • in-wheel direct-drive
  • induction
  • induction motor
  • induction motor drives
  • induction motors
  • injection
  • interior permanent magnet (IPM) machine
  • interior permanent magnet synchronous motor (IPMSM)
  • interior permanent-magnet synchronous motor (IPMSM)
  • IPMSM
  • iron loss
  • irreversible demagnetization
  • kinematic structure
  • line-start synchronous reluctance motor
  • magnet-axis-shifted
  • magnetic field
  • magnetic field characteristic
  • magnetic polarity detection
  • magnetic wire
  • magnetic-geared machine
  • magneto-mechanics
  • Mathematical model
  • mathematical modelling
  • maximum torque per ampere
  • maximum torque per ampere (MTPA) operation
  • Metamodeling
  • modeling
  • modulation techniques
  • motor
  • motor drives
  • multi-channel
  • multiphase
  • multiphase electric drives
  • multiphase machines
  • Noise
  • online parameters estimation
  • optimization
  • optimization algorithm
  • outer rotor
  • outer rotor inductor
  • overhang
  • overmodulation and six-step operation
  • parameter identification
  • particle swarm optimization
  • periodic controller
  • permanent magnet
  • permanent magnet brushless direct current motor
  • permanent magnet machine
  • permanent magnet machine design
  • permanent magnet synchronous machines
  • permanent magnet synchronous motor
  • permanent magnet synchronous motor (PMSM)
  • permanent-magnet vernier machine
  • phase-locked loop (PLL)
  • PMa-SynRM
  • PMSM
  • PMSM servo motor drives
  • position sensorless
  • power factor
  • predictive current control
  • predictive torque control
  • PWM
  • quad-channel operation (QCO)
  • railway traction drives
  • reaction sphere
  • reluctance torque
  • rotor fault
  • rotor position
  • rotor position estimation
  • sensor misalignment
  • Sensorless
  • sensorless control
  • signal injection
  • single-channel operation (SCO)
  • six-phase induction motor
  • six-phase machines
  • six-phase permanent magnet synchronous machines
  • sizing methodology
  • smart-sensor
  • soft magnetic composite
  • sot filling factor
  • space harmonics
  • spherical motor
  • stator fault
  • stator flux observation
  • stator structure
  • stray flux
  • structural design
  • super-twisting sliding mode observer (STO)
  • super-twisting sliding-mode stator flux observer (STSMFO)
  • support vector machines
  • surface permanent magnet synchronous motor
  • switched reluctance motor
  • switched reluctance motor (SRM)
  • synchronous reluctance machines
  • SynRM
  • systematic review
  • Technology, engineering, agriculture
  • Technology: general issues
  • temperature field analysis
  • thermal model
  • time harmonics
  • time-frequency transforms
  • torque density optimization
  • torque estimation
  • torque optimal distribution method
  • torque ripple
  • torque sharing functions
  • transmission shaft
  • triple-channel operation (TCO)
  • uncertainty and disturbance estimator
  • uneven magnets
  • Vector control
  • vibration noise
  • vibro-acoustics
  • wavelet entropy
  • windings
  • wound synchronous machines (WSM)

Links

DOI: 10.3390/books978-3-03936-781-8

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