02945cam a22003138i 45000010009000000050017000090080041000260100017000670200018000840200018001020200018001200400029001380420008001670500025001750820015002001000025002152450119002402600053003592630009004123000013004215000020004345051156004545200697016106500054023076500036023616500069023977000030024667760135024962154339220230314123908.0200516s2020 nju 001 0 eng  a 2020022305 a9781119584537 z9781119584513 z9781119584551 aLBSOR/DLCbengerdacDLC apcc00aTK4058 b.M5779 202000a621.462231 aMohan, Ned,eauthor.10aAnalysis and control of electric drives :bsimulations and laboratory implementation /cNed Mohan, Siddharth Raju. aHoboken, NJ. :bJohn Wiley & Sons, Inc., c 2021 a2008 apages cm aIncludes index.0 aElectric drives : introduction and motivation -- Understanding mechanical system requirements for electric drives -- Basic concepts in magnetics and electromechanical energy conversion -- Basic understanding of switch-mode power electronic converters -- Control in electric drives -- Using space vectors to analyze AC machines -- Space vector pulse-width-modulated (SV-PWM) inverters -- Sinusoidal permanent magnet AC (PMAC) drives in steady state -- Induction motors in sinusoidal steady state electric drives : introduction and motivation -- Induction-motor drives : speed control -- Induction machine equations in phase quantities : assisted by space vectors -- Dynamic analysis of induction machines in terms of dq-windings -- Mathematical description of vector control in induction machines -- Speed-sensorless vector control of induction motor -- Analysis of doubly-fed generators (DFIG) in steady-state and their vector control -- Direct torque control (DTC) and encoder-less operation of induction motor drives -- Vector control of permanent magnet synchronous motor drives -- Reluctance drives : stepper-motors and switched-reluctance drives. a"Electric machines, particularly AC machines, consume over 40% of globally generated electric power. With rapid electrification of the transportation sector, to reduce emission of greenhouse gases, these machines are set to consume most of the power that is generated. Advancement in the field of power electronics has increased efficiency in controlling these machines via power-electronic converters, with improved performance and wide operating region compared to those connected directly to the grid. These advantages come with increased necessity for greater physical and mathematical understanding of these machines' operation to be able to produce optimal performance and efficiency"-- 0aElectric drivingxMathematical modelsvTextbooks. 0aAC-to-AC convertersvTextbooks. 0aField orientation principle (Electrical engineering)vTextbooks.1 aRaju, Siddharth,eauthor.08iOnline version:aMohan, Ned.tAnalysis and control of electric drivesdHoboken, NJ : Wiley, 2020z9781119584513w(DLC) 2020022306