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#### Electromagnetic Simulation Analysis in EMC Applications

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Chapter 1 Electromagnetic simulation analysis in EMC
1．1 Introduction
1．2 Analysis of electromagnetic simulation
1．3 Theoretical foundation for electromagnetic simulation analysis
1．3．1 Physical theories of electromagnetic analysis
1．3．2 Mathematical theories of electromagnetic analysis
1．3．3 Guidance for numerical analysis
1．4 Introduction of electromagnetic simulation software
1．4．1 CST software
1．4．2 FEKO software
1．4．3 HFSS software
1．4．5 Simple examples of electromagnetic simulation analysis
Thinking questions

Chapter 2 Basic principles of electromagnetic simulation analysis
2．1 Systematic community in EMC simulation analysis
2．2 Introduction of Methods for EMC simulation analysis
2．3 Method of separation of variables
2．3．1 Basis of method of separation of variables
2．3．2 Application of method of separation of variables
2．4 Finite difference method
2．4．1 Derivation of finite difference equation
2．4．2 Discretization of problem region to be solved
2．4．3 Treatment of boundary conditions and calculating formulation
2．4．4 Application of finite difference method
2．5 Finite difference time domain method
2．5．1 Introduction to time domain
2．5．2 Basis of finite difference time domain method
2．5．3 1-D formulation of finite difference time domain method
2．5．4 2-D formulation of finite difference time domain method
2．5．5 Numerical stability and dispersion
2．5．6 Absorbing boundary condition
2．5．7 Excitation and field region constitution
2．6 Method of moments
2．6．1 Basis of method of moments and its applications
2．6．2 Impedance theory in method of moments
2．6．3 Generalization for method of moments
2．7 Variational method
2．7．1 Mathematical basis of variational method
2．7．2 Definition of variation
2．7．3 Euler-Lagrange equation as the simplest functional
2．7．4 Solutions of typical variational problems
2．7．5 Several techniques for solving differential equations in variation
2．7．6 Rayleigh-Ritz method in variation
2．7．7 Example of electromagnetic variation
2．8 Finite element method
2．8．1 Variational basis of finite element method
2．8．2 Basic steps in finite element method
2．8．3 Basic formulation of finite element method
2．8．4 Electromagnetic formulation of finite element method
2．9 Monte Carlo method
2．9．1 Basic concepts and processes in Monte Carlo method
2．9．2 Application basis of Monte Carlo method
2．9．3 Characteristics of Monte Carlo method
2．9．4 Special applications of numerical integration
2．9．5 Electromagnetic analysis with Monte Carlo method
2．10 High frequency method
2．11 Finite integration time domain method
2．12 Transmission line matrix method
2．13 Introduction of multi-physical field coupling
Thinking questions
……

Chapter 3 Basis of EMC
Chapter 4 Typical applications of EMC simulation analysis

References

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