Radio frequency circuit design / W. Alan Davis.
Material type: TextSeries: Wiley series in microwave and optical engineering ; 225Publisher: Hoboken, New Jersey : Wiley, c2011Distributor: [Piscataqay, New Jersey] : IEEE Xplore, [2010]Edition: 2nd edDescription: 1 PDF (xv, 401 pages) : illustrationsContent type:- text
- electronic
- online resource
- 9780470768020
- Radio circuits -- Design and construction
- Analytical models
- Approximation methods
- Band pass filters
- Bandwidth
- Bipolar transistors
- Capacitance
- Capacitors
- Circuit faults
- Circuit stability
- Circuit synthesis
- Communication channels
- Computers
- Conductors
- Convolution
- Couplings
- Cutoff frequency
- Delay
- Detectors
- Equations
- Equivalent circuits
- Feedback circuits
- Fourier transforms
- Frequency control
- Frequency conversion
- Frequency domain analysis
- Frequency modulation
- Gallium
- Generators
- Hafnium
- Harmonic analysis
- Impedance
- Impedance matching
- Impurities
- Indexes
- Inductance
- Inductors
- Intermodulation distortion
- JFETs
- Junctions
- Layout
- Logic gates
- MOS devices
- MOSFET circuits
- Mathematical model
- Metals
- Microstrip
- Microwave circuits
- Microwave oscillators
- Microwave transistors
- Mixers
- Noise
- Nonlinear distortion
- Oscillators
- Passband
- Pathology
- Phase frequency detector
- Phase locked loops
- Power amplifiers
- Power transformer insulation
- Power transmission lines
- RF signals
- RLC circuits
- Radio frequency
- Radiofrequency identification
- Radiofrequency integrated circuits
- Resistance
- Resistors
- Resonant frequency
- SPICE
- Scattering
- Scattering parameters
- Semiconductor diodes
- Shape
- Silicon
- Solenoids
- Speech
- Spirals
- Stability analysis
- Thermal noise
- Thermal resistance
- Thermal stability
- Time domain analysis
- Time frequency analysis
- Transducers
- Transfer functions
- Transformer cores
- Transistors
- Transmission line matrix methods
- Transmission line measurements
- Voltage measurement
- Voltage-controlled oscillators
- Wire
- 621.38412
Previous ed.: 2001.
Includes bibliographical references and index.
Information transfer technology -- Resistors, capacitors, and inductors -- Impedance matching -- Multiport circuit parameters and transmission lines -- Filter design and approximation -- Transmission line transformers -- Noise in RF amplifiers -- Class A amplifiers -- RF power amplifiers -- Oscillators and harmonic generators -- RF mixers -- Phase-lock loops.
Restricted to subscribers or individual electronic text purchasers.
Now Updated-The Most Comprehensive Guide to RF Circuit Component Design and AnalysisRadio Frequency (RF) design techniques and applications have greatly expanded over the past decade. This Second Edition of Radio Frequency Circuit Design has been thoroughly updated to cover the latest developments in RF communications, giving practicing engineers and students authoritative guidance in contemporary design and analysis of RF circuit components.This new edition features clear, step-by-step demonstrations of new design techniques for RF circuits, including phase locked loops, filters, transformers, amplifiers, mixers, and oscillators. It offers a better understanding of RF power amplifiers and expands upon class D and E power amplifier treatment. Also increased coverage is given to oscillator phase noise and impedance matching. The book includes real-life examples illustrating the role of the described techniques in the overall design of various RF communication systems; additional features include solenoid design and double-tuned matching circuit examples, transistor and amplifier formulas, transformed frequency domain measurements, and analytical spiral inductor model references.To aid in the learning process, problems are included at the end of each chapter. In addition, source code for the programs illustrated throughout the book is available online, making the programs even more valuable to the working engineer in need of a quick solution and to the student looking to understand some of the details in a computation. Also included are summary tables, graphs, equations, and SPICE examples.Covering both the timeless principles of receiver and transmitter circuit design and the latest technological applications in RF communications, Radio Frequency Circuit Design, Second Edition is designed as a primary text for graduate students in a RF circuits course, as well as a field reference for professional engineers.
Also available in print.
Mode of access: World Wide Web
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