Two-Port Network Parameters Traditional Network Parameters Scattering Parameters Conversions between Two-Port Parameters Interconnections of Two-Port Networks Practical Two-Port Networks Three-Port Network with Common Terminal Lumped Elements Transmission Line Noise Figure References Power Amplifier Design Principles Basic Classes of Operation: A, AB, B, and C Load Line and Output Impedance Nonlinear Active Device Models Power Gain and Stability Push-Pull and Balanced Power Amplifiers Transmission-Line Transformers and Combiners References Lossless Matched Broadband Power Amplifiers Impedance Matching Bode-Fano Criterion Broadband-Matching Networks with Lumped Elements Broadband-Matching Networks with Mixed Lumped and Distributed Elements Matching Networks with Transmission Lines Matching Technique with Prescribed Amplitude-Frequency Response Practical Examples of Broadband RF and Microwave Power Amplifiers Broadband Millimeter-Wave Power Amplifiers References Lossy Matched and Feedback Broadband Power Amplifiers Amplifiers with Lossy Compensation Networks Feedback Amplifiers Graphical Design of Gain-Compensating and Feedback Lossy Networks Decomposition Synthesis Method References Design of Wideband RF and Microwave Amplifiers Employing Real Frequency Techniques Real Frequency Line Segment Technique Generation of Minimum Immittance Function from Its Real Part Optimization of TPG Using a Parametric Approach High-Precision Ladder Synthesis of Positive Real Functions Automated Real Frequency Design of Lossless Two-Ports for Single Matching Problems Computation of Actual Elements Automated Design of Matching Networks with Lumped Elements Design of Interstage Equalizers: Double Matching Problem Matching Networks Constructed with Commensurate Transmission Lines Generation of Realizable Positive Real Function in Richards''s Domain Integration of Richards''s High-Precision Synthesis Module with Real Frequency Matching Algorithm SRFTs to Design RF and Microwave Amplifiers SRFT to Design Microwave Amplifiers SRFT Single-Stage Microwave Amplifier Design Algorithm Design of an Ultra-Wideband Microwave Amplifier Using Commensurate Transmission Lines Physical Realization of Characteristic Impedance Practical Design of Matching Networks with Mixed Lumped and Distributed Elements Physical Realization of a Single Inductor Appendices References High-Efficiency Broadband Class-E Power Amplifiers Reactance Compensation Technique High-Efficiency Switching Class-E Modes Broadband Class E with Shunt Capacitance Broadband Parallel-Circuit Class E High-Power RF Class-E Power Amplifiers Microwave Monolithic Class-E Power Amplifiers CMOS Class-E Power Amplifiers References Broadband and Multiband Doherty Amplifiers Historical Aspect and Conventional Doherty Architectures Inverted Doherty Amplifiers Integration Digitally-Driven Doherty Amplifier Multiband and Broadband Capability References Low-Noise Broadband Amplifiers Basic Principles of Low-Noise Amplifier Design Lossless Matched Broadband Low-Noise Amplifiers Lossy Feedback Broadband Low-Noise Amplifiers Cascode Broadband Low-Noise Amplifiers Graphical Design Technique Broadband Millimeter-Wave Low-Noise Amplifiers References Distributed Amplifiers Basic Principles of Distributed Amplification Microwave GaAs FET Distributed Amplifiers Cascode Distributed Amplifiers Extended Resonance Technique Cascaded Distributed Amplifiers Matrix Distributed Amplifiers CMOS Distributed Amplifiers Noise in Distributed Amplifiers References CMOS Amplifiers for UWB Applications UWB Transceiver Architectures Distributed CMOS Amplifiers Common-Gate CMOS Amplifiers CMOS Amplifiers with Lossy Compensation Circuits Feedback CMOS Amplifiers Noise-Canceling Technique References ance Matching Bode-Fano Criterion Broadband-Matching Networks with Lumped Elements Broadband-Matching Networks with Mixed Lumped and Distributed Elements Matching Networks with Transmission Lines Matching Technique with Prescribed Amplitude-Frequency Response Practical Examples of Broadband RF and Microwave Power Amplifiers Broadband Millimeter-Wave Power Amplifiers References Lossy Matched and Feedback Broadband Power Amplifiers Amplifiers with Lossy Compensation Networks Feedback Amplifiers Graphical Design of Gain-Compensating and Feedback Lossy Networks Decomposition Synthesis Method References Design of Wideband RF and Microwave Amplifiers Employing Real Frequency Techniques Real Frequency Line Segment Technique Generation of Minimum Immittance Function from Its Real Part Optimization of TPG Using a Parametric Approach High-Precision Ladder Synthesis of Positive Real Functions Automated Real Frequency Design of Lossless Two-Ports for Single Matching Problems Computation of Actual Elements Automated Design of Matching Networks with Lumped Elements Design of Interstage Equalizers: Double Matching Problem Matching Networks Constructed with Commensurate Transmission Lines Generation of Realizable Positive Real Function in Richards''s Domain Integration of Richards''s High-Precision Synthesis Module with Real Frequency Matching Algorithm SRFTs to Design RF and Microwave Amplifiers SRFT to Design Microwave Amplifiers SRFT Single-Stage Microwave Amplifier Design Algorithm Design of an Ultra-Wideband Microwave Amplifier Using Commensurate Transmission Lines Physical Realization of Characteristic Impedance Practical Design of Matching Networks with Mixed Lumped and Distributed Elements Physical Realization of a Single Inductor Appendices References High-Efficiency Broadband Class-E Power Amplifiers Reactance Compensation Technique High-Efficiency Switching Class-E Modes Broadband Class E with Shunt Capacitance Broadband Parallel-Circuit Class E High-Power RF Class-E Power Amplifiers Microwave Monolithic Class-E Power Amplifiers CMOS Class-E Power Amplifiers References Broadband and Multiband Doherty Amplifiers Historical Aspect and Conventional Doherty Architectures Inverted Doherty Amplifiers Integration Digitally-Driven Doherty Amplifier Multiband and Broadband Capability References Low-Noise Broadband Amplifiers Basic Principles of Low-Noise Amplifier Design Lossless Matched Broadband Low-Noise Amplifiers Lossy Feedback Broadband Low-Noise Amplifiers Cascode Broadband Low-Noise Amplifiers Graphical Design Technique Broadband Millimeter-Wave Low-Noise Amplifiers References Distributed Amplifiers Basic Principles of Distributed Amplification Microwave GaAs FET Distributed Amplifiers Cascode Distributed Amplifiers Extended Resonance Technique Cascaded Distributed Amplifiers Matrix Distributed Amplifiers CMOS Distributed Amplifiers Noise in Distributed Amplifiers References CMOS Amplifiers for UWB Applications UWB Transceiver Architectures Distributed CMOS Amplifiers Common-Gate CMOS Amplifiers CMOS Amplifiers with Lossy Compensation Circuits Feedback CMOS Amplifiers Noise-Canceling Technique References nces Design of Wideband RF and Microwave Amplifiers Employing Real Frequency Techniques Real Frequency Line Segment Technique Generation of Minimum Immittance Function from Its Real Part Optimization of TPG Using a Parametric Approach High-Precision Ladder Synthesis of Positive Real Functions Automated Real Frequency Design of Lossless Two-Ports for Single Matching Problems Computation of Actual Elements Automated Design of Matching Networks with Lumped Elements Design of Interstage Equalizers: Double Matching Problem Matching Networks Constructed with Commensurate Transmission Lines Generation of Realizable Positive Real Function in Richards''s Domain Integration of Richards''s High-Precision Synthesis Module with Real Frequency Matching Algorithm SRFTs to Design RF and Microwave Amplifiers SRFT to Design Microwave Amplifiers SRFT Single-Stage Microwave Amplifier Design Algorithm Design of an Ultra-Wideband Microwave Amplifier Using Commen.