Description
This much-anticipated volume builds on the author's popular work, RF Power Amplifiers for Wireless Communications (Artech House, 1999), offering you a more in-depth understanding of the theory and design of RF power amplifiers. An invaluable reference tool for RF, digital and system level designers, the book enables you to efficiently design linear RF power amplifiers, and includes detailed discussions on envelope power management schemes and linearization techniques. Written by a recognized authority on PA design, this in-depth volume treats a range of power amplifier topics using readable symbolic analysis and idealized models, and follows up with CAD simulation using readily available commercial CAD tools. The work covers such vital topics as the use of bipolar devices in conventional high efficiency PA design, the Doherty and Chireix PAs, envelope feedback, memory effects, predistortion, feedforward, and microwave PA techniques.
Table Of Contents
RF Power Amplifier Modes-Conventional Reduced Angle Modes, Class A, AB, B, C. Linearity and Efficiency Variation with Power Backoff. FETs and Bipolars: Differences in Reduced Conduction Angle Operation. Interaction between Device Transfer Characteristics and Class AB Non-linearity. Tailoring of Device Characteristics for Optimum Class AB Linearity and Efficiency; the RF bipolar as a potential solution. RF PA design using Bipolar Transistors. Doherty and Chireix: Themes and Variations-Basic Doherty PA Analysis. Implementation Schemes for Basic Doherty PA. The Assymetric Doherty PA for High Crest Factor Signals. The Multiway Doherty Combiner. Linearity Issues. CAD Simulation Results. Chireix Outphasing PA-a LINC Technique. Chireix-Envelope Reconstruction Possibility. Analysis, CAD Simulation and Issues for Practical Implementation. Variations.; Topics in PA Nonlinearity-The Impact of High Density Bandlimited Communications Signals on PA Design and Specification. Peak to Average Ratio: PEP Design Issues. Behavioral Modelling of PaAs,AM-AM and AM-PM Distortion. Volterra Series Model, IM Nulling Effects in Higher Order Models. Extraction of Volterra Series Model from Measured Data. Dynamic Effects in PA Nonlinearities: Extension to Conventional Envelope Simulation Formulations. Assymetrical IM Sidebands: Causes, Models and Cures.; Envelope Feedback-The AM Envelope Feedback Method. Analysis and Simulation. Limitations of RF and Video Delays. Vector Envelope Feedback. Low Latency PA Design.; Predistortion-Introduction to Predistortion. Predistortion Theory: Synthesis of Ideal Predistorter using Inversion of PA Polynomial. Analog Predistorters; Gain Expanders; IM and ACP Analysis for Multicarrier Signals. CAD Analysis of Predistorters Having Synthesized Characteristics. Predistorter Realization: Compound Analog Predistorter Design; DSP Implementation of Synthesized PD Response; DSP Lookup Table; Compound Analog PD with External DSP Adaptation. Advantages and Disadvantages of these Different Approaches. ; Feedforward-Introduction to the Feedforward Configuration. Analysis of the Feedforward Loop using Behavioral PA Model. Error PA Power Capability. Gain and Phase Tracking: Differences in Goals Between First and Second Loops. Benefits and Hazards of External Video Adaptation. Use of Predistortion in Feedforward Loop. ; Microwave Power Amplifier Design-The Move from RF to Microwave Frequencies. Materials, Hybrids, MMICs. Chip-and-Wire Design Issues. The Lange Coupler: Balanced Amplifier Design. Thermal Issues in Microwave Power Hybrids. Matching Big Chips: Where Has the Gain Gone. Microwave Power Combiners.
Author
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Steve C. Cripps
is an independent consultant concentrating in the area of RF power amplifier design. He is also the author of Advanced Techniques in RF Power Amplifier Design (Artech House, 2002) and has over 20 years of experience in microwave technology design and development. He received his Ph.D. from Cambridge University. Dr. Cripps has been a member of the Continuing Education Institute-Europe Faculty since 1995.