RF Power Amplifiers (December 2008)

yimingxn

Description:
An advanced textbook covering the fundamental theory of RF power amplifiers and their uses, this book provides essential guidance for design procedures.  The introduction explains the basic theory of RF power amplifiers besides providing the basic classification of the different types of RF power amplifier.  It then systematically dedicates a chapter to each different of RF power amplifier covering A, B and C, D (full-bridge and half-bridge types), E (zero-voltage-switching and zero-current-switching), F and DE amplifiers. Throughout this comprehensive guide, the optimal operating conditions are explored and the possible causes for suboptimum operation explained.  The book then considers integrated inductors and linearization techniques and LC Oscillators in the concluding chapters.

• A comprehensive text covering the fundamentals of RF power amplifiers and their range of applications in radio and TV broadcasting, wireless communications and radars.
• Presents accessible coverage of the complex principles of operation of RF power amplifiers and radio power systems.
• Introduces the fundamental design techniques and procedures for practitioners for RF power amplifiers.
• All chapters contain examples and design procedures throughout, with review questions and problems at the end of each chapter.
• A solutions manual is available for instructors upon enquiry
• Contents:
• PrefaceAbout the Author
  List of Symbols
  1. Introduction
  1.1 Block Diagram of RF Power Amplifiers
  1.2 Classes of Operation of RF Power Amplifiers
  1.3 Parameters of RF Power Amplifiers
  1.4 Conditions for 100% Efficiency of Power Amplifiers
  1.5 Conditions for Nonzero Output Power at 100% Efficiency of Power Amplifiers
  1.6 Output Power of Class E ZVS Amplifier
  1.7 Class E ZCS Amplifier
  1.8 Propagation of Electromagnetic Waves
  1.9 Frequency Spectrum
  1.10 Duplexing
  1.11 Multiple-access Techniques
  1.12 Nonlinear Distortion in Transmitters
  1.13 Harmonics of Carrier Frequency
  1.14 Intermodulation
  1.15 Dynamic Range of Power Amplifiers
  1.16 Analog Modulation
  1.17 Digital Modulation
  1.18 Radars
  1.19 Radio-frequency Identification
  1.20 Summary
  1.21 References
  1.22 Review Questions
  1.23 Problems
  2. Class A RF Power Amplifier
  2.1 Introduction
  2.2 Circuit of Class A RF Power Amplifier
  2.3 Power MOSFET Characteristics
  2.4 Waveforms of Class A RF Amplifier
  2.5 Parameters of Class A RF Power Amplifier
  2.6 Parallel-resonant Circuit
  2.7 Power Losses and Efficiency of Parallel Resonant Circuit
  2.8 Impedance Matching Circuits
  2.9 Class A RF Linear Amplifier
  2.10 Summary
  2.11 References
  2.12 Review Questions
  2.13 Problems
  3. Class AB, B, and C RF Power Amplifiers
  3.1 Introduction
  3.2 Class B RF Power Amplifier
  3.3 Class AB and C RF Power Amplifiers
  3.4 Push-pull Complementary Class AB, B, and C RF Power Amplifiers
  3.5 Transformer-coupled Class B Push-pull Amplifier
  3.6 Class AB, B, and C Amplifiers of Variable-envelope Signals
  3.7 Summary
  3.8 References
  3.9 Review Questions
  3.10 Problems
  4. Class D RF Power Amplifier
  4.1 Introduction
  4.2 Circuit Description
  4.3 Principle of Operation
  4.4 Topologies of Class D Voltage-source RF Power Amplifiers
  4.5 Analysis
  4.6 Voltage Transfer Function
  4.7 Bandwidth of Class D Amplifier
  4.8 Efficiency of Half-bridge Class D Power Amplifier
  4.9 Design Example
  4.10 Class D RF Power Amplifier with Amplitude Modulation
  4.11 Transformer-coupled Push-pull Class D Voltage-switching RF Power Amplifier
  4.12 Class D Full-bridge RF Power Amplifier
  4.13 Phase Control of Full-bridge Class D Power Amplifier
  4.14 Class D Current-switching RF Power Amplifier
  4.15 Transformer-coupled Push-pull Class D Current-switching RF Power Amplifier
  4.16 Bridge Class D Current-switching RF Power Amplifier
  4.17 Summary
  4.18 References
  4.19 Review Questions
  4.20 Problems
  5. Class E RF Zero-voltage-switching RF Power Amplifier
  5.1 Introduction
  5.2 Circuit Description
  5.3 Circuit Operation
  5.4 ZVS and ZDS Operation of Class E Amplifier
  5.5 Suboptimum Operation
  5.6 Analysis
  5.7 Maximum Operating Frequency
  5.8 Choke Inductance
  5.9 Summary of Parameters at D = 0.5
  5.10 Efficiency
  5.11 Design of Basic Class E Amplifier
  5.12 Impedance Matching Resonant Circuits
  5.13 Push-pull Class E ZVS RF Amplifier
  5.14 Class E ZVS RF Power Amplifier with Finite DC-feed Inductance
  5.15 Class E ZVS Amplifier with Parallel-series Resonant Circuit
  5.16 Class E ZVS Amplifier with Nonsinusoidal Output Voltage
  5.17 Class E ZVS Power Amplifier with Parallel Resonant Circuit
  5.18 Amplitude Modulation of Class E ZVS RF Power Amplifier
  5.19 Summary
  5.20 References
  5.21 Review Questions
  5.22 Problems
  6. Class E Zero-current-switching RF Power Amplifier
  6.1 Introduction
  6.2 Circuit Description
  6.3 Principle of Operation
  6.4 Analysis
  6.5 Power Relationships
  6.6 Element Values of Load Network
  6.7 Design Example
  6.8 Summary
  6.9 References
  6.10 Review Questions
  6.11 Problems
  7. Class DE RF Power Amplifier
  7.1 Introduction
  7.2 Analysis of Class DE RF Power Amplifier
  7.3 Components
  7.4 Device Stresses
  7.5 Design Equations
  7.6 Maximum Operating Frequency
  7.7 Class DE Amplifier with Only One Shunt Capacitor
  7.8 Components
  7.9 Cancellation of Nonlinearities of Transistor Output Capacitances
  7.10 Summary
  7.11 References
  7.12 Review Questions
  7.13 Problems
  8. Class F RF Power Amplifier
  8.1 Introduction
  8.2 Class F RF Power Amplifier with Third Harmonic
  8.3 Class F RF Power Amplifier with Third and Fifth Harmonics
  8.4 Class F RF Power Amplifier with Third, Fifth, and Seventh
  Harmonics
  8.5 Class F RF Power Amplifier with Parallel-resonant Circuit and
  Quarter-wavelength Transmission Line
  8.6 Class F RF Power Amplifier with Second Harmonic
  8.7 Class F RF Power Amplifier with Second and Fourth Harmonics
  8.8 Class F RF Power Amplifier with Second, Fourth, and Sixth
  Harmonics
  8.9 Class F RF Power Amplifier with Series-resonant Circuit and Quarter-wavelength Transmission Line
  8.10 Summary
  8.11 References
  8.12 Review Questions
  8.13 Problems
  9. Linearization and Efficiency Improvement of RF Power Amplifiers
  9.1 Introduction
  9.2 Predistortion
  9.3 Feedforward Linearization Technique
  9.4 Negative Feedback Linearization Technique
  9.5 Envelope Elimination and Restoration
  9.6 Envelope Tracking
  9.7 The Doherty Amplifier
  9.8 Outphasing Power Amplifier
  9.9 Summary
  9.10 References
  9.11 Review Questions
  9.12 Problems
  10. Integrated Inductors
  10.1 Introduction
  10.2 Skin Effect
  10.3 Resistance of Rectangular Trace
  10.4 Inductance of Straight Rectangular Trace
  10.5 Meander Inductors
  10.6 Inductance of Straight Round Conductor
  10.7 Inductance of Circular Round Wire Loop
  10.8 Inductance of Two-parallel Wire Loop
  10.9 Inductance of Rectangle of Round Wire
  10.10 Inductance of Polygon Round Wire Loop
  10.11 Bondwire Inductors
  10.12 Single-turn Planar Inductors
  10.13 Inductance of Planar Square Loop
  10.14 Planar Spiral Inductors
  10.15 Multimetal Spiral Inductors
  10.16 Planar Transformers
  10.17 MEMS Inductors
  10.18 Inductance of Coaxial Cable
  10.19 Inductance of Two-wire Transmission Line
  10.20 Eddy Currents in Integrated Inductors
  10.21 Model of RF Integrated Inductors
  10.22 PCB Integrated Inductors
  10.23 Summary
  10.24 References
  10.25 Review Questions
  10.26 Problems
  Appendices
  Appendix A SPICE Model of Power MOSFETs
  Appendix B Introduction to SPICE
  Appendix C Introduction to MATLAB
  Answers to Problems
  Index
  

开发工具

沙发,谢谢LZ

bing131

该书作者不知道是谁

Alterwood

该书作者不知道是谁,是不是我要的那本呢？

wlsjc

very good

seanwang

非常感谢

lvwx

谢谢共享

yangbangbang

very good :lol

fengyi0000

下载看看

fengyi0000

下载看看