The induction machine handbook

Often called the workhorse of industry, the advent of power electronics and advances in digital control are transforming the induction motor into the racehorse of industrial motion control. Now, the classic texts on induction machines are nearly three decades old, while more recent books on electric motors lack the necessary depth and detail on induction machines. The Induction Machine Handbook fills industry's long-standing need for a comprehensive treatise embracing the many intricate facets of induction machine analysis and design. Moving gradually from simple to complex and from standard to new knowledge, it includes an extended presentation of windings parameters as influenced by frequency and saturation, offers a complete account of standard and new testing methods, and devotes several chapters to the design of variable-speed induction motors. With a coherence and consistency not attainable in contributed works, this handbook draws on the authors' long experience in the field and takes full advantage of its rich literature. The presentation of all types of induction machines complete with many numerical examples, digital simulations, and design sample cases make the Induction Machine Handbook a comprehensive, up-to-date resource ideal for both for practicing and student engineers.

• INDUCTION MACHINES IN INDUSTRY Electric Energy and Induction Motors Historical Development Induction Machines in Applications CONSTRUCTION ASPECTS AND OPERATION PRINCIPLES OF INDUCTION MACHINES Construction Aspects of Rotary IMS Construction Aspects of Linear Induction Motors Operation Principles of Induction Machines MATERIALS AND LOSSES Magnetic Materials and Losses
• Operating Flux Densities
• Frequency Effects Electric Materials and Losses
• Skin Effect
• Frequency Effects Insulation Materials and Losses
• Skin Effect
• Frequency Effects WINDINGS AND THEIR MMFS Single-Layer and Double-Layer Windings Integral and Fractional Slot Windings Wave and Lap Windings Pole-Changing Windings Cage Windings Current-Sheet Approach MAGNETIZATION CURVE AND INDUCTANCE Equivalent Airgap to Account for Slotting Basic Magnetization Curve An Analytical Iterative Saturation Model(AIM) Emf of an AC Winding Magnetization Inductance LEAKAGE INDUCTANCES AND RESISTANCES Differential Leakage Inductances Slot Leakage Inductances-Single and Double Layer, Rectangular and Rounded End Connection Leakage Inductance Rotor Bar and Ring Leakage Inductances Stator and Rotor Leakage Inductances Stator and Rotor Resistances Rotor Quantities Referred to the Stator STEADY-STATE PERFORMANCE CALCULATIONS The Basic Equivalent Circuit The Complete Equivalent Circuit Modes of Operation: Motoring, Generating, Braking Torque/Speed Characteristics Efficiency and Power Factor Peak and Starting Torque Specifications Standard and New Equivalent Circuits for Variable Speed Nonsymmetric Operation Modes STARTING AND SPEED CONTROL METHODS ON-LOAD SATURATION AND FREQUENCY EFFECTS ON CIRCUIT PARAMETERS Skin Effect Modelling-Single and Multiple Conductors in Slot The Multilayer Approach to Skin Effect Multi-Rotor Circuit Modeling Leakage Saturation and Skin Effect via a Comprehensive Analytical Field Model The Skewing mmf Concept The FEM Approach SPACE HARMONICS, PARASITIC TORQUES, RADIAL FORCES, AND NOISE mmf Space Harmonics Airgap Magnetic Conductance Harmonics Saturation Induced Airgap Flux Harmonics Parasitic Torque Radial Forces and Noise CORE AND WINDING FUNDAMENTAL AND HARMONIC LOSSES Core Loss Basic Models Core Loss Advanced Models Winding Fundamental and Harmonic Losses Stray-Load Losses for Sinusoidal and Non-Sinusoidal Voltage Supply THERMAL MODELING Basic One-Dimensional Models Realistic One-Dimensional Models Models from Finite Element Analysis INDUCTION MACHINE TRANSIENTS: The Phase Coordinate Model The Complex Variable(Space Phasor) Model for Single Rotor Circuit Space Phasor Equations and Diagrams Steady-State Analysis with Space Phasors. Transient Analysis with Space Phasors Multi-Rotor Circuit Core loss and saturation consideration Reduced Order Models The Sudden Short Circuit Most Severe Tansients So Far The abc-dq Model Multimachine Transients Subsynchronous Resonance Torsional Torque Transients in Large Ims Rotor Bar Current Models Transients under Constant Flux Operation DESIGN SPECIFICATIONS AND PRINCIPLES Typical Load Curves Derating Voltage and Frequency Variation Specifications for Constnat Voltage and Frequency Operation Design Factors and Features Output Coefficient Design Concept Tangential Stress Coefficient design concept IM DESIGN BELOW 100 KW AT CONSTANT V&F WITH CASE STUDY IM DESIGN ABOVE 100KW AT CONSTANT V&F WITH CASE STUDY IM DESIGN FOR VARIABLE SPEED WITH CASE STUDY DESIGN OPTIMIZATION METHODS Initial Data, Variables, Constraints, and Objective Functions Induction Machine Models for Design Design Optimization Techniques: Deterministic, Stochastic Design of Large Induction Machines Comparison Between Deterministic and Stochastic Methods THREE PHASE INDUCTION GENERATORS Induction Generators for Direct Grid Connection Induction Generators for Autonomous Loads Doubly Fed Induction Generators LINEAR INDUCTION MOTORS Topologies Analysis of Fields and Forces Equivalent Circuits Longitudinal End Effects Transverse Edge Effects Design Procedure and Case Study ULTRA-HIGH FREQUENCY MDELLING AND BEHAVIOR OF IMs Practical Lumped RLC Modeling Shaft Voltages and Bearing Currents Micro-Second Voltage Pulse Distribution Along the Motor Windings Long Cable Effects Practical circuit models TESTING OF THREE PHASE INDUCTION MACHINES The IEEE-112B Standards and Results Parameter Estimation from Pulse and Frequency Tests at Standstill On-Line Parameter Estimation Tests with Power Electronics SINGLE PHASE INDUCTION MOTORS: THE BASICS Classifications Basic equivalent circuits SINGLE-PHASE INDUCTION MOTORS: STEADY STATE With Open Auxiliary Winding
• Capacitor Motor Symmetrization Conditions Characteristic Curves Nonorthogonal Winding Models Space and Voltage Harmonic Effects Doubly Tapped Winding Modelling and Performance SINGLE PHASE INDUCTION MOTOR DESIGN & CASE STUDY SINGLE PHASE INDUCTION GENERATORS SINGLE PHASE INDUCTION MOTOR TRANSIENTS TESTING OF SINGLE PHASE INDUCTION MOTORS