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Dobrowolski J.A. Scattering Parameters in RF and Microwave Circuit Analysis and Design
- Файл формата pdf
- размером 6,78 МБ
- Добавлен пользователем Евгений Машеров
- Описание отредактировано
New York: Artech House, 2016. — 419 p.Based on the popular Artech House title Microwave Network Design Using the Scattering Matrix, this authoritative resource provides comprehensive coverage of the wave approach to microwave network characterization, analysis, and design using scattering parameters. New topics include signal and noise analysis of differential microwave networks based on mixed mode wave variables, generalized mixed mode scattering, and generalized mixed mode noise wave scattering matrix.Theory of Uniform Waveguides
Modal Electromagnetic Fields.
Power Transmitted in a Waveguide.
Characteristic Impedance.
Normalization of Waveguide Voltage and Current.
Transmission Line Equivalent Circuit of a Waveguide.Theory of Transmission Lines
Lumped Element Circuit Model of a Transmission Line.
Voltage and Current Wave Propagation in a Transmission Line.
Terminated Transmission Line.
Terminated Transmission Line Special Cases.Wave Variables and the Scattering Matrix
Voltage Traveling Waves and the Scattering Matrix.
Normalized Voltage Traveling Waves and the Generalized Scattering Matrix.
Traveling Wave Intensities and the True Scattering Matrix.
Pseudowaves and the Pseudoscattering Matrix.
Generalized Multiport Network Cascade Matrix.
Load Impedance.
Power Waves and the Power Scattering Matrix.Signal Analysis of Multiport Networks
Wave Relations for Basic Elements of Multip Networks.
Microwave Network Analysis Using Scattering Parameters and Signal Flow Graphs.
Signal Analysis of Two-Port Networks.
Multiport Network Analysis.
Multielement Multiport Network Analysis Using Connection Scattering Matrix Approach.Mode Wave Variables and Mixed-Mode Scattering Matrix of Differential Networks
Differential-Mode and Common-Mode Definitions.
Mode-Specific Waves and Impedances.
Mixed-Mode Scattering Parameters.
Transformation Between Standard-Mode and Mixed-Mode Scattering Parameters.
Generalized Mixed-Mode Pseudoscattering Matrix.
Mixed-Mode Cascade Matrix.Signal Analysis of Differential Multiport Networks
Wave Relations for Basic Elements of Differential Multiport Networks.
Signal Analysis of Differential Two-Port Networks.
Differential Multiport Network Analysis.
Differential Multielement Multiport Network Analysis Using Connection Scattering Matrix Approach.Noise Wave Variables and the Scattering Matrix
Noise Waves.
Noise Wave Representation of Microwave Networks.
Other Noise Representations of Noisy Networks and Their Transformations to Noise Wave Parameters.
Noise Models of Microwave Network Elements.
Two-Port-to-Three-Port Network Noise Wave Transformation.
Noise Wave Correlation Matrices of Embedded Multiport Networks.
Deembedding Noise Wave Parameters of Cascaded Noisy Two-Port Networks.Noise Analysis of Multiport Networks
Basic Relationships for Noisy Multiport Networks.
Classical Two-Port Network Noise Theory.
Noise Factor of Two-Port Networks.
Two-Port Network Noise Analysis Using Noise Waves and Scattering Matrix.
Noise Analysis of Two-Port Networks Using Noise Waves and Cascade (Transfer Scattering) Matrix.
Noise Analysis of Multielement Multiport Networks Using Connection Scattering Matrix Approach.
Noise Analysis of Multiport NetworksDifferential- and Common-Mode Noise Waves and Correlation Matrices
Differential- and Common-Mode Noise Waves.
Generalized Mixed-Mode Noise Wave Correlation Matrix.
Mixed-Mode Noise Wave Correlation Matrices of Passive Networks.
Mixed-Mode Noise Wave Correlation Matrices of Active Differential Networks.Noise Analysis of Differential Networks
Noise Analysis of Differential Two-Port Networks.
Differential Two-Port Network Noise Analysis Using Mixed-Mode Scattering Matrix.
Noise Analysis of Mixed-Mode Multielement Multiport Networks Using Connection Scattering Matrix Approach.
Noise Analysis of Mixed-Mode Multiport Networks.Scattering Functions in Nonlinear Modeling of Microwave Devices
Large-Signal Scattering Functions.
Linearization of Scattering Functions.
The Time Reference.
Application of the Response Coefficients Matrices S and S' to Predict Nonlinear Device Performance.
Experimental Determination of the Response Coefficients Matrices S and S'.Appendix
Basics of Fourier Transform in Application-to-Noise Waves.
Modal Electromagnetic Fields.
Power Transmitted in a Waveguide.
Characteristic Impedance.
Normalization of Waveguide Voltage and Current.
Transmission Line Equivalent Circuit of a Waveguide.Theory of Transmission Lines
Lumped Element Circuit Model of a Transmission Line.
Voltage and Current Wave Propagation in a Transmission Line.
Terminated Transmission Line.
Terminated Transmission Line Special Cases.Wave Variables and the Scattering Matrix
Voltage Traveling Waves and the Scattering Matrix.
Normalized Voltage Traveling Waves and the Generalized Scattering Matrix.
Traveling Wave Intensities and the True Scattering Matrix.
Pseudowaves and the Pseudoscattering Matrix.
Generalized Multiport Network Cascade Matrix.
Load Impedance.
Power Waves and the Power Scattering Matrix.Signal Analysis of Multiport Networks
Wave Relations for Basic Elements of Multip Networks.
Microwave Network Analysis Using Scattering Parameters and Signal Flow Graphs.
Signal Analysis of Two-Port Networks.
Multiport Network Analysis.
Multielement Multiport Network Analysis Using Connection Scattering Matrix Approach.Mode Wave Variables and Mixed-Mode Scattering Matrix of Differential Networks
Differential-Mode and Common-Mode Definitions.
Mode-Specific Waves and Impedances.
Mixed-Mode Scattering Parameters.
Transformation Between Standard-Mode and Mixed-Mode Scattering Parameters.
Generalized Mixed-Mode Pseudoscattering Matrix.
Mixed-Mode Cascade Matrix.Signal Analysis of Differential Multiport Networks
Wave Relations for Basic Elements of Differential Multiport Networks.
Signal Analysis of Differential Two-Port Networks.
Differential Multiport Network Analysis.
Differential Multielement Multiport Network Analysis Using Connection Scattering Matrix Approach.Noise Wave Variables and the Scattering Matrix
Noise Waves.
Noise Wave Representation of Microwave Networks.
Other Noise Representations of Noisy Networks and Their Transformations to Noise Wave Parameters.
Noise Models of Microwave Network Elements.
Two-Port-to-Three-Port Network Noise Wave Transformation.
Noise Wave Correlation Matrices of Embedded Multiport Networks.
Deembedding Noise Wave Parameters of Cascaded Noisy Two-Port Networks.Noise Analysis of Multiport Networks
Basic Relationships for Noisy Multiport Networks.
Classical Two-Port Network Noise Theory.
Noise Factor of Two-Port Networks.
Two-Port Network Noise Analysis Using Noise Waves and Scattering Matrix.
Noise Analysis of Two-Port Networks Using Noise Waves and Cascade (Transfer Scattering) Matrix.
Noise Analysis of Multielement Multiport Networks Using Connection Scattering Matrix Approach.
Noise Analysis of Multiport NetworksDifferential- and Common-Mode Noise Waves and Correlation Matrices
Differential- and Common-Mode Noise Waves.
Generalized Mixed-Mode Noise Wave Correlation Matrix.
Mixed-Mode Noise Wave Correlation Matrices of Passive Networks.
Mixed-Mode Noise Wave Correlation Matrices of Active Differential Networks.Noise Analysis of Differential Networks
Noise Analysis of Differential Two-Port Networks.
Differential Two-Port Network Noise Analysis Using Mixed-Mode Scattering Matrix.
Noise Analysis of Mixed-Mode Multielement Multiport Networks Using Connection Scattering Matrix Approach.
Noise Analysis of Mixed-Mode Multiport Networks.Scattering Functions in Nonlinear Modeling of Microwave Devices
Large-Signal Scattering Functions.
Linearization of Scattering Functions.
The Time Reference.
Application of the Response Coefficients Matrices S and S' to Predict Nonlinear Device Performance.
Experimental Determination of the Response Coefficients Matrices S and S'.Appendix
Basics of Fourier Transform in Application-to-Noise Waves.
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