02360    a2200289   450000500170000000800420001702000220005903700360008104000070011704100080012407200150013207200150014707200160016207200140017807200130019207200140020507200210021907200210024010000200026124501130028125000060039426000240040030000100042452015870043470000320202199900170205320250526161926.0250430042024xx        518           eng    a9781032105727qBC  bTaylor & FranciscGBP 46.99fBB  a01  aeng7 aTHY2thema7 aTJF2thema7 aPHDY2thema7 aTHRB2bic7 aTJF2bic7 aPHDY2bic7 aTEC0070002bisac7 a621.310422bisac1 aIon Boldea938410aElectric MachinesbTransients, Control Principles, Finite Element Analysis, and Optimal Design with MATLAB®  a2  bCRC Pressc20240527  a454 p  bThis Second Edition extensively covers advanced issues/subjects in electric machines, starting from principles, to applications and case studies with ample graphical (numerical) results. This textbook is intended for second (and third) semester courses covering topics such as modeling of transients, control principles, electromagnetic and thermal finite element analysis, and optimal design (dimensioning). Notable recent knowledge with strong industrialization potential has been added to this edition, such as: Orthogonal models of multiphase a.c. machines Thermal Finite Element Analysis of (FEA) electric machines FEA–based–only optimal design of a PM motor case study Line start synchronizing premium efficiency PM induction machines Induction machines (three and single phase), synchronous machines with DC excitation, with PM-excitation, and with magnetically salient rotor and a linear Pm oscillatory motor are all investigated in terms of transients, electromagnetic FEM analysis and control principles. Case studies, numerical examples, and lots of discussion of FEM results for PMSM and IM are included throughout the book. The optimal design is treated in detail using Hooke–Jeeves and GA algorithms with case comparison studies in dedicated chapters for IM and PMSM. Numerous computer simulation programs in MATLAB® and Simulink® are available online that illustrate performance characteristics present in the chapters, and the FEM and optimal design case studies (and codes) may be used as homework to facilitate a deeper understanding of fundamental issues.1 aLucian N. Tutelea4A019385  c10280d10280