| 000 | 05024nam a2200121Ia 4500 | ||
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| 008 | 220615s9999||||xx |||||||||||||| ||und|| | ||
| 245 | 0 | _aAdvances in Rotating Electric Machines | |
| 546 | _aEnglish[eng] | ||
| 650 | _acore saturation||cross-coupling inductance||wound synchronous machines (WSM)||signal injection||position sensorless||high-frequency model||hybrid permanent magnet||interior permanent magnet (IPM) machine||magnet-axis-shifted||reluctance torque||Sensorless||induction motors||H_infinity||drives||vector control||experimental implementation||direct torque control||duty cycle control||harmonic currents||six-phase induction motor||torque ripple||interior permanent magnet synchronous motor (IPMSM)||sensorless control||adaptive algorithm||super-twisting sliding mode observer (STO)||phase-locked loop (PLL)||permanent-magnet vernier machine||in-wheel direct-drive||outer rotor||overhang||soft magnetic composite||reaction sphere||spherical motor||structural design||torque density optimization||support vector machines||finite element method||induction motor||smart-sensor||stray flux||time-frequency transforms||wavelet entropy||harmonic modeling method||magnetic-geared machine||hybrid electric vehicle||magnetic field||electromagnetic performance||analytical modeling||brushless DC motor||commutation torque ripple||back electromotive force||multiphase machines||fault-tolerance||dual-channel||brushless direct current motor with permanent magnet (BLDCM)||switched reluctance motor (SRM)||active flux||stator flux observation||super-twisting sliding-mode stator flux observer (STSMFO)||deep-bar effect||mathematical model||estimation||motor drives||direct torque control (DTC)||permanent magnet synchronous motor (PMSM)||maximum torque per ampere (MTPA) operation||DTC with space-vector modulation (DTC-SVM)||AFPMSM||analytical algorithm||vibration noise||temperature field analysis||SynRM||irreversible demagnetization||PMa-SynRM||flux intensifying||deadbeat current control||PMSM servo motor drives||auto tuning||parameter identification||periodic controller||surface permanent magnet synchronous motor||fault-tolerant system||multi-channel||quad-channel operation (QCO)||triple-channel operation (TCO)||dual-channel operation (DCO)||single-channel operation (SCO)||permanent magnet brushless direct current motor||BLDCM||double Fourier analysis||current spectrum decomposition||eddy current loss||permanent magnet machine design||cogging torque||permanent magnet machine||uneven magnets||IPMSM||uncertainty and disturbance estimator||flux-weakening control||double-cage induction motor||improvement of motor reliability||cage winding constructions||direct start-up||coupled electromagnetic-thermal model||outer rotor inductor||electric vehicle||high-efficiency||eco-friendly||automation||finite element analysis||PMSM||DOE||optimization||metamodeling||adaptive robust control||energy feedback||particle swarm optimization||torque optimal distribution method||multiphase electric drives||six-phase machines||finite control set model predictive control||predictive current control||predictive torque control||high frequency square-wave voltage||interior permanent-magnet synchronous motor (IPMSM)||magnetic polarity detection||rotor position estimation||characteristics analysis||fault detection||stator fault||rotor fault||torque estimation||finite control set mode predictive control||duty cycle||maximum torque per ampere||permanent magnet synchronous motor||acoustics||boundary element method||electric machines||magneto-mechanics||modeling||noise||vibro-acoustics||efficiency||line-start synchronous reluctance motor||permanent magnet||power factor||multiphase||induction||motor||space harmonics||time harmonics||injection||high-speed permanent synchronous motor||magnetic field characteristic||iron loss||stator structure||online parameters estimation||permanent magnet synchronous machines||synchronous reluctance machines||high frequency signal injection||CMV||modulation techniques||PWM||railway traction drives||induction motor drives||high-speed drives||overmodulation and six-step operation||electrical motors||sot filling factor||optimization algorithm||windings||magnetic wire||filling factor optimization||electric drive||transmission shaft||electric transmission line||electrical and mechanical similarities||kinematic structure||equivalent circuit||mathematical modelling||failure||detection||diagnosis||BLDC||brushless||systematic review||rotor position||BLDC motor||sensor misalignment||sizing methodology||electrical machines||thermal model||electromagnetic model||switched reluctance motor||torque sharing functions||firing angle modulation||autonomous systems||brushless synchronous generator||electric power generation||high speed generator||high resistance connection||fault-detection||fault-tolerant control||six-phase permanent magnet synchronous machines||field-oriented control | ||
| 700 | _aCruz, Sérgio | ||
| 856 | _uhttps://mdpi.com/books/pdfview/book/2770 | ||
| 942 | _cEB | ||
| 999 |
_c11913 _d11913 |
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