Introduction to RF Power Amplifier Design and Simulation

Introduction to RF Power Amplifier Design and Simulation

by Abdullah Eroglu

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Introduction to RF Power Amplifier Design and Simulation fills a gap in the existing literature by providing step-by-step guidance for the design of radio frequency (RF) power amplifiers, from analytical formulation to simulation, implementation, and measurement. Featuring numerous illustrations and examples of real-world engineering applications, this book:

  • Gives an overview of intermodulation and elaborates on the difference between linear and nonlinear amplifiers
  • Describes the high-frequency model and transient characteristics of metal–oxide–semiconductor field-effect transistors
  • Details active device modeling techniques for transistors and parasitic extraction methods for active devices
  • Explores network and scattering parameters, resonators, matching networks, and tools such as the Smith chart
  • Covers power-sensing devices including four-port directional couplers and new types of reflectometers
  • Presents RF filter designs for power amplifiers as well as application examples of special filter types
  • Demonstrates the use of computer-aided design (CAD) tools, implementing systematic design techniques

Blending theory with practice, Introduction to RF Power Amplifier Design and Simulation supplies engineers, researchers, and RF/microwave engineering students with a valuable resource for the creation of efficient, better-performing, low-profile, high-power RF amplifiers.

Product Details

ISBN-13: 9781351831185
Publisher: CRC Press
Publication date: 09/03/2018
Sold by: Barnes & Noble
Format: NOOK Book
Pages: 449
File size: 19 MB
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About the Author

Abdullah Eroglu is a professor of electrical engineering at Indiana University–Purdue University Fort Wayne (IPFW), USA. He previously worked as a radio frequency (RF) senior design engineer at MKS Instruments, ENI Products, Rochester, New York, USA, and as a faculty fellow in the Fusion Energy Division of Oak Ridge National Laboratory, Tennessee, USA. He holds a M.Sc and Ph.D in electrical engineering from Syracuse University, New York, USA, and is a recipient of the 2013 IPFW Outstanding Researcher Award; 2012 IPFW Featured Faculty Award; 2011 Sigma Xi Researcher of the Year Award; 2010 IPFW College of Engineering, Technology, and Computer Science (ETCS) Excellence in Research Award; and 2004 Syracuse University Electrical Engineering and Computer Science Department Outstanding Graduate Student Award. Dr. Eroglu is the author of four books and has published more than 100 peer-reviewed journal and conference papers. He also serves as a reviewer and editorial board member for several journals.

Table of Contents

Radio Frequency Amplifier Basics
RF Amplifier Terminology
Small-Signal vs. Large-Signal Characteristics
RF Amplifier Classifications
High-Power RF Amplifier Design Techniques
RF Power Transistors
CAD Tools in RF Amplifier Design
Radio Frequency Power Transistors
High-Frequency Model for MOSFETs
Use of Simulation to Obtain Internal Capacitances of MOSFETs
Transient Characteristics of MOSFET
Losses for MOSFET
Thermal Characteristics of MOSFETs
Safe Operating Area for MOSFETs
MOSFET Gate Threshold and Plateau Voltage
Transistor Modeling and Simulation
Network Parameters
Network Connections
S-Scattering Parameters
Measurement of S Parameters
Chain Scattering Parameters
Systemizing RF Amplifier Design by Network Analysis
Extraction of Parasitics for MOSFET Devices
Resonator Networks for Amplifiers
Parallel and Series Resonant Networks
Practical Resonances with Loss, Loading, and Coupling Effects
Coupling of Resonators
Resonators as Impedance Transformers
Tapped Resonators as Impedance Transformers
Impedance Matching Networks
Transmission Lines
Smith Chart
Impedance Matching between Transmission Lines and Load Impedances
Single-Stub Tuning
Impedance Transformation and Matching between Source and Load Impedances
Signal Flow Graphs
Couplers, Multistate Reflectometers, and RF Power Sensors for Amplifiers
Directional Couplers
Multistate Reflectometers
RF Power Sensors
Filter Design for RF Power Amplifiers
Filter Design by Insertion Loss Method
Stepped-Impedance LPFs
Stepped-Impedance Resonator BPFs
Edge/Parallel-Coupled, Half-Wavelength Resonator Bandpass Filters
End-Coupled, Capacitive Gap, Half-Wavelength Resonator BPFs
Computer Aided Design Tools for Amplifier Design and Implementation
Passive Component Design and Modeling with CAD–Combiners
Active Component Design and Modeling with CAD

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