RF power amplifiers / Marian K. Kazimierczuk.
2015
TK7871.58.P6
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Linked e-resources
Details
Title
RF power amplifiers / Marian K. Kazimierczuk.
Author
Edition
Second edition.
ISBN
9781118844342 (ePub)
1118844343 (ePub)
9781118844335 (Adobe PDF)
1118844335 (Adobe PDF)
9781118844373
1118844378
9781118844304
1118844300
1118844343 (ePub)
9781118844335 (Adobe PDF)
1118844335 (Adobe PDF)
9781118844373
1118844378
9781118844304
1118844300
Published
Chichester, West Sussex, United Kingdom : John Wiley & Sons Inc., 2015.
Language
English
Description
1 online resource
Call Number
TK7871.58.P6
Distributor No.
EB00591907 Recorded Books
System Control No.
(OCoLC)881407027
Summary
This second edition of the highly acclaimed RF Power Amplifiers has been thoroughly revised and expanded to reflect the latest challenges associated with power transmitters used in communications systems. With more rigorous treatment of many concepts, the new edition includes a unique combination of class-tested analysis and industry-proven design techniques. Radio frequency (RF) power amplifiers are the fundamental building blocks used in a vast variety of wireless communication circuits, radio and TV broadcasting transmitters, radars, wireless energy transfer, and industrial processes. Through a combination of theory and practice, RF Power Amplifiers, Second Edition provides a solid understanding of the key concepts, the principle of operation, synthesis, analysis, and design of RF power amplifiers. This extensive update boasts: up to date end of chapter summaries; review questions and problems; an expansion on key concepts; new examples related to real-world applications illustrating key concepts and brand new chapters covering 'hot topics' such as RF LC oscillators and dynamic power supplies. Carefully edited for superior readability, this work remains an essential reference for research & development staff and design engineers. Senior level undergraduate and graduate electrical engineering students will also find it an invaluable resource with its practical examples & summaries, review questions and end of chapter problems. Key features: A fully revised solutions manual is now hosted on a companion website alongside new simulations. Extended treatment of a broad range of topologies of RF power amplifiers. In-depth treatment of state-of-the art of modern transmitters and a new chapter on oscillators. Includes problem-solving methodology, step-by-step derivations and closed-form design equations with illustrations.
Bibliography, etc. Note
Includes bibliographical references and index.
Formatted Contents Note
Cover; Title Page; Copyright; Contents; Preface; About the Author; List of Symbols; List of Acronyms; Chapter 1 Introduction; 1.1 Radio Transmitters; 1.2 Batteries for Portable Electronics; 1.3 Block Diagram of RF Power Amplifiers; 1.4 Classes of Operation of RF Power Amplifiers; 1.5 Waveforms of RF Power Amplifiers; 1.6 Parameters of RF Power Amplifiers; 1.6.1 Drain Efficiency of RF Power Amplifiers; 1.6.2 Statistical Characterization of Transmitter Average Efficiency; 1.6.3 Gate-Drive Power; 1.6.4 Power-Added Efficiency; 1.6.5 Output-Power Capability; 1.7 Transmitter Noise.
1.8 Conditions for 100% Efficiency of Power Amplifiers 1.9 Conditions for Nonzero Output Power at 100% Efficiency of Power Amplifiers; 1.10 Output Power of Class E ZVS Amplifiers; 1.11 Class E ZCS Amplifiers; 1.12 Antennas; 1.13 Propagation of Electromagnetic Waves; 1.14 Frequency Spectrum; 1.15 Duplexing; 1.16 Multiple-Access Techniques; 1.17 Nonlinear Distortion in Transmitters; 1.18 Harmonics of Carrier Frequency; 1.19 Intermodulation Distortion; 1.20 AM/AM Compression and AM/PM Conversion; 1.21 Dynamic Range of Power Amplifiers; 1.22 Analog Modulation; 1.22.1 Amplitude Modulation.
1.22.2 Phase Modulation 1.22.3 Frequency Modulation; 1.23 Digital Modulation; 1.23.1 Amplitude-Shift Keying; 1.23.2 Phase-Shift Keying; 1.23.3 Frequency-Shift Keying; 1.24 Radars; 1.25 Radio-Frequency Identification; 1.26 Summary; 1.27 Review Questions; 1.28 Problems; References; Chapter 2 Class A RF Power Amplifier; 2.1 Introduction; 2.2 Power MOSFET Characteristics; 2.2.1 Square Law for MOSFET Drain Current; 2.2.2 Channel-Length Modulation; 2.2.3 Low- and Mid-Frequency Small-Signal Model of MOSFETs; 2.2.4 High-Frequency Small-Signal Model of the MOSFET; 2.2.5 Unity-Gain Frequency.
2.3 Short-Channel Effects 2.3.1 Electric Field Effect on Charge Carriers Mobility; 2.3.2 Ohmic Region; 2.3.3 Pinch-Off Region; 2.3.4 Wide Band Gap Semiconductor Devices; 2.4 Circuit of Class A RF Power Amplifier; 2.5 Waveforms in Class A RF Amplifier; 2.5.1 Assumptions; 2.5.2 Current and Voltage Waveforms; 2.5.3 Output Power Waveforms; 2.5.4 Transistor Power Loss Waveforms; 2.6 Energy Parameters of Class A RF Power Amplifier; 2.6.1 Drain Efficiency of Class A RF Power Amplifier; 2.6.2 Statistical Characterization of Class A RF Power Amplifier.
2.6.3 Drain Efficiency at Nonzero Minimum Drain-to-Source Voltage 2.6.4 Output-Power Capability of Class A RF Power Amplifier; 2.6.5 Gate Drive Power; 2.7 Parallel-Resonant Circuit; 2.7.1 Quality Factor of Parallel-Resonant Circuit; 2.7.2 Impedance of Parallel-Resonant Circuit; 2.7.3 Bandwidth of Parallel-Resonant Circuit; 2.8 Power Losses and Efficiency of Parallel-Resonant Circuit; 2.9 Class A RF Power Amplifier with Current Mirror; 2.10 Impedance Matching Circuits; 2.11 Class A RF Linear Amplifier; 2.11.1 Amplifier for Variable-Envelope Signals.
1.8 Conditions for 100% Efficiency of Power Amplifiers 1.9 Conditions for Nonzero Output Power at 100% Efficiency of Power Amplifiers; 1.10 Output Power of Class E ZVS Amplifiers; 1.11 Class E ZCS Amplifiers; 1.12 Antennas; 1.13 Propagation of Electromagnetic Waves; 1.14 Frequency Spectrum; 1.15 Duplexing; 1.16 Multiple-Access Techniques; 1.17 Nonlinear Distortion in Transmitters; 1.18 Harmonics of Carrier Frequency; 1.19 Intermodulation Distortion; 1.20 AM/AM Compression and AM/PM Conversion; 1.21 Dynamic Range of Power Amplifiers; 1.22 Analog Modulation; 1.22.1 Amplitude Modulation.
1.22.2 Phase Modulation 1.22.3 Frequency Modulation; 1.23 Digital Modulation; 1.23.1 Amplitude-Shift Keying; 1.23.2 Phase-Shift Keying; 1.23.3 Frequency-Shift Keying; 1.24 Radars; 1.25 Radio-Frequency Identification; 1.26 Summary; 1.27 Review Questions; 1.28 Problems; References; Chapter 2 Class A RF Power Amplifier; 2.1 Introduction; 2.2 Power MOSFET Characteristics; 2.2.1 Square Law for MOSFET Drain Current; 2.2.2 Channel-Length Modulation; 2.2.3 Low- and Mid-Frequency Small-Signal Model of MOSFETs; 2.2.4 High-Frequency Small-Signal Model of the MOSFET; 2.2.5 Unity-Gain Frequency.
2.3 Short-Channel Effects 2.3.1 Electric Field Effect on Charge Carriers Mobility; 2.3.2 Ohmic Region; 2.3.3 Pinch-Off Region; 2.3.4 Wide Band Gap Semiconductor Devices; 2.4 Circuit of Class A RF Power Amplifier; 2.5 Waveforms in Class A RF Amplifier; 2.5.1 Assumptions; 2.5.2 Current and Voltage Waveforms; 2.5.3 Output Power Waveforms; 2.5.4 Transistor Power Loss Waveforms; 2.6 Energy Parameters of Class A RF Power Amplifier; 2.6.1 Drain Efficiency of Class A RF Power Amplifier; 2.6.2 Statistical Characterization of Class A RF Power Amplifier.
2.6.3 Drain Efficiency at Nonzero Minimum Drain-to-Source Voltage 2.6.4 Output-Power Capability of Class A RF Power Amplifier; 2.6.5 Gate Drive Power; 2.7 Parallel-Resonant Circuit; 2.7.1 Quality Factor of Parallel-Resonant Circuit; 2.7.2 Impedance of Parallel-Resonant Circuit; 2.7.3 Bandwidth of Parallel-Resonant Circuit; 2.8 Power Losses and Efficiency of Parallel-Resonant Circuit; 2.9 Class A RF Power Amplifier with Current Mirror; 2.10 Impedance Matching Circuits; 2.11 Class A RF Linear Amplifier; 2.11.1 Amplifier for Variable-Envelope Signals.
Source of Description
Print version record and CIP data provided by publisher.
Available in Other Form
Print version: Kazimierczuk, Marian K. RF power amplifiers. Second edition. Chichester, West Sussex, United Kingdom : John Wiley & Sons Inc., 2015
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