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More About This Textbook
Overview
Highlighting the challenges RF and microwave circuit designers face in their day-to-day tasks, RF and Microwave Circuits, Measurements, and Modeling explores RF and microwave circuit designs in terms of performance and critical design specifications. The book discusses transmitters and receivers first in terms of functional circuit block and then examines each block individually. Separate articles consider fundamental amplifier issues, low noise amplifiers, power amplifiers for handset applications and high power, power amplifiers. Additional chapters cover other circuit functions including oscillators, mixers, modulators, phase locked loops, filters and multiplexers.
New chapters discuss high-power PAs, bit error rate testing, and nonlinear modeling of heterojunction bipolar transistors, while other chapters feature new and updated material that reflects recent progress in such areas as high-volume testing, transmitters and receivers, and CAD tools.
The unique behavior and requirements associated with RF and microwave systems establishes a need for unique and complex models and simulation tools. The required toolset for a microwave circuit designer includes unique device models, both 2D and 3D electromagnetic simulators, as well as frequency domain based small signal and large signal circuit and system simulators. This unique suite of tools requires a design procedure that is also distinctive. This book examines not only the distinct design tools of the microwave circuit designer, but also the design procedures that must be followed to use them effectively.
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Table of Contents
Introduction, P. Fay Overview of Microwave Engineering, M.Golio Microwave Measurements
Linear Measurements, R.E. Ham Network Analyzer Calibration, J. Staudinger Phase Calibration and Measurement, K.A. Remley and P.D. Hale Noise Measurements, A. Riddle Nonlinear Microwave Measurement and Characterization, J. Stevenson Kenney Theory of High-Power Load-Pull Characterization for RF and Microwave Transistors, J.F. Sevic Pulsed Measurements, A.E. Parker, J.G. Rathmell, and J.B. Scott Microwave On-Wafer Test, J.-P. Lanteri, C. Jones, and J.R. Mahon High Volume Microwave Test, J.-P. Lanteri, C. Jones, and J.R. Mahon Large Signal Network Analysis/Waveform Measurements, J.M. Gering Circuits
Receivers, W.L. Seely Transmitters, W.L. Seely Low Noise Amplifier Design, J. Kucera and U. Lott Microwave Mixer Design, A.M. Pavio Modulation and Demodulation Circuitry, C. Nelson Power Amplifier Fundamentals, D.A. Teeter and E.T. Spears Handset Power Amplifier Design, D.A. Teeter and E.T. Spears Amplifiers, W.L. Seely High Power Amplifiers, B. Irvine, T. Heckleman and A. Radomski Oscillator Circuits, A. Riddle Phase Locked Loop Design, R. Newgard Filters and Multiplexers, R.V. Snyder RF Switches, R.J. Trew Monolithic Microwave IC Technology, L.P. Dunleavy RFIC Design Trade-Offs (Bringing RFICs to the Market), J. Cowles CAD, Simulation and Modeling
System Simulation, J. Staudinger Numerical Techniques for the Analysis and Design of RF/Microwave Structures, M.M. Tentzeris Computer Aided Design of Passive Components, D.G. Swanson, Jr.
Nonlinear RF and Microwave Circuit Analysis, M.B. Steer and J.F. Sevic Computer Aided Design (CAD) of Microwave Circuitry, R. Kielmeyer Nonlinear Transistor Modeling for Circuit Simulation, W.R. Curtice Behavioral Modeling of Microwave Power Amplifiers, T.S. Nielsen Technology CAD, P.A. Blakey Appendix A: Mathematics, Symbols, and Physical Constants, H.M. Harris Appendix B: Microwave Engineering Appendix, J.P. Wendler Index