1 Introduction 1.1 Why another book on magnetism? 1.2 The importance of magnetism in electrical engineering 1.3 Back to the basic laws of physics 1.4 Learning through simulation 1.5 Outline of the book 2 Presenting Basic Magnetic Circuits with Inductors 2.1 Introduction 2.2 Revisiting the basic inductor 2.

3 Inductor Model 2.4 Magnetic circuits 2.5 B-H Relationship 2.6 Simulating an inductor 2.7 Simulations of an inductor 2.8 Simulating an inductor with the magnetic circuit 2.9 Practical cores with air-gaps and multiple limbs 2.10 Conclusions 3 Simulating magnetically linked circuits 3.

1 Introduction 3.2 The concept of magnetic coupling 3.3 The nature of magnetic coupling 3.4 Mutual inductance 3.5 Approach to simulating coupled coils 3.6 Dot polarity of coupled coils 3.7 Simulating magnetically coupled coils 3.8 ´Cuk Converter 3.

9 Scalable mathematical models with magnetic coupling 3.10 Conclusions 4 Modeling and simulating transformers 4.1 Introduction 4.2 Background 4.3 Transformer basics 4.4 Simulating the transformer 4.5 Understanding transformer winding currents 4.6 Transformer turns ratio 4.

7 Multi-winding transformers 4.8 Conclusions 5 Applications of transformers 5.1 Introduction 5.2 Three-phase systems 5.3 Simulation model of a three-phase transformer 5.4 Simulation results of three-phase transformers 5.5 High frequency transformers 5.6 Flyback converter 5.

7 Simulation of a flyback converter 5.8 Conclusions 6 Conclusions 6.1 Usefulness of the book 6.2 A summary of the course contents 6.3 The difference in approach 6.4 Scope for future work 7 Bibliography.