Intro; Preface; Contents; About the Author; List of Figures; 1 Induction Machine Modelling; 1.1 Introduction; 1.2 Principle of Operation: Induction Phenomenon; 1.3 Model Simplification Hypothesis; 1.4 IM A-B-C Model; 1.4.1 Electrical Equation; 1.4.2 Magnetic Equation; 1.4.3 Mechanical Equation; 1.4.4 State Representation; 1.5 Park Transform; 1.5.1 Case of a dqo-Frame Linked to the Rotating Field; 1.5.2 Case of a dqo-Frame Linked to the Stator; 1.5.3 Case of a dqo-Frame Linked to the Rotor; 1.6 IM Park Model; 1.6.1 Magnetic Equation; 1.6.2 Electrical Equation; 1.6.3 Mechanical Equation

1.7 Park Model-Based Analysis of the IM Steady-State Operation1.7.1 Steady-State Stator Current Formulation; 1.7.2 Steady-State Stator Voltage Formulation; 1.7.3 Steady-State Electromagnetic Torque Formulation; 1.7.4 Steady-State Powers Formulation; 1.8 Case Study: Wind Energy Converters; 1.8.1 Doubly Fed Operation of the IMs; 1.8.2 Integration of DFIMs in Wind Generating Systems; 1.8.3 Brushless Cascaded Doubly Fed Machines; References; 2 Synchronous Machine Modelling; 2.1 Introduction; 2.2 Synchronous Machine Modelling; 2.2.1 A-B-C Model; 2.2.2 Magnetic Equation; 2.2.3 SM Park Model

2.2.4 Operation at Maximum Torque2.2.5 Operation at Unity Power Factor; 2.3 Flux-Weakening Operation of SMs; 2.3.1 Similarity with the DC Machine; 2.3.2 SM Flux Weakening; 2.4 Case Study; 2.4.1 Part 1: Current Motor; 2.4.2 Projected Motor; 2.4.3 Comparative Study; References