文摘
英文文摘
声明及学位论文使用授权声明
Acknowledgements
Chapter1Introduction
1.1 Background
1.2 Investigation of Topics
1.3 Current Trends and Problems for Analyzing and Design of MCICs
1.4 Motivation, Objective and Outline of the Thesis
Chapter2 S-B AFS Technique
2.1 Background of AFS Technique
2.2 Theory of S-B AFS Technique
2.2.1 Fitting Models
2.2.2 Paths of Stoer-Bulirsch Algorithm in S-B AFS
2.2.3 Definitions of Error for the AFS Algorithm
2.3 Implementation of S-B AFS Technique
2.4 Numerical Examples of S-B AFS
2.4.1 An 11-pole Ridged Waveguide Filter
2.4.2 A 3-port Waveguide Diplexer
2.4.3 A Low-Pass Corrugated Waveguide Filter
2.4.4 A 3-Port Microstrip Multi-Frequency Band Diplexer
Chapter 3 A Full Wave Method for Analyzing Multilayered Circuits
3.1 Background of EM Simulation Methods for Multilayered Circuits
3.2 Basic Theory
3.2.1 Fields of Waveguide in MM/FEM Method
3.2.2 Generic Scattering Matrix of Waveguide Discontinuities
3.2.3 Eigenvalues of GSM Problem
3.2.4 Paramcter Extraction by Using TRL Calibration
3.3 Numerical Examples
3.3.1 S parameters of DUT
3.3.2 Calibration Standards
3.3.3 S parameters Extracted by Using TRL Calibration
Chapter4 Multi-Dimensional Modeling
4.1 Introduction
4.2 Adaptive Multi-Dimension Cauchy (MSBAFS) Method
4.2.1 Theory of Adaptive Multi-Dimsnsional S-B AFS Method (MSBAFS)
4.2.2 Numerical Examples
4.3 A Space-Mapping Based Neuromodeling Using S-B AFS
4.3.1 Basic Theory
4.3.2 Numerical Examples
Chapter5 Conclusion and Future Work
5.1 Conclusion
5.2 Future Work
Bibliography
Appendix A Derivation of S Parameters for cascading
List of publications
Project Enlisted During the Course of Ph.D Study