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024 7 10.1002/9780470768020|2doi
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082 04 621.38412
082 04 621.38412
099 eBook O’Reilly for Public Libraries
100 1 Davis, W. Alan,|eauthor|4aut
245 10 Radio Frequency Circuit Design /|cW. Alan Davis.
|h[O'Reilly electronic resource]
250 Second edition.
264 1 Hoboken, New Jersey :|bJohn Wiley & Sons, Inc.,|c[2011]
264 4 |c©2011
300 1 online resource (xv, 401 pages) :|billustrations
336 text|btxt|2rdacontent
337 computer|bc|2rdamedia
338 online resource|bcr|2rdacarrier
490 1 Wiley series in microwave and optical engineering
504 Includes bibliographical references and index.
505 00 |g1.|tInformation Transfer Technology --|g1.1.
|tIntroduction --|g1.2.|tInformation and Capacity --|g1.3.
|tDependent States --|g1.4.|tBasic Transmitter-eceiver
Configuration --|g1.5.|tActive Device Technology --|g2.
|tResistors, Capacitors, and Inductors --|g2.1.
|tIntroduction --|g2.2.|tResistors --|g2.3.|tCapacitors --
|g2.4.|tInductors --|g2.5.|tConclusions --|g3.|tImpedance
Matching --|g3.1.|tIntroduction --|g3.2.|tThe Q Factor --
|g3.3.|tResonance and Bandwidth --|g3.4.|tUnloaded Q --
|g3.5.|tL Circuit Impedance Matching --|g3.6.|t[pi]
Transformation Circuit --|g3.7.|tT Transformation Circuit
--|g3.8.|tTapped Capacitor Transformer --|g3.9.|tParallel
Double-Tuned Transformer --|g3.10.|tConclusions --|g4.
|tMultiport Circuit Parameters and Transmission Lines --
|g4.1.|tVoltage-Current Two-Port Parameters --|g4.2.|tABCD
Parameters --|g4.3.|tImage Impedance --|g4.4.
|tTelegrapher's Equations --|g4.5.|tTransmission Line
Equation --|g4.6.|tSmith Chart --|g4.7.|tTransmission Line
Stub Transformer --|g4.8.|tCommonly Used Transmission
Lines --|g4.9.|tScattering Parameters --|g4.10.|tIndefi
nite Admittance Matrix --|g4.11.|tIndefi nite Scattering
Matrix --|g4.12.|tConclusions --|g5.|tFilter Design and
Approximation --|g5.1.|tIntroduction --|g5.2.|tIdeal and
Approximate Filter Types --|g5.3.|tTransfer Function and
Basic Filter Concepts --|g5.4.|tLadder Network Filters --
|g5.5.|tElliptic Filter --|g5.6.|tMatching Between Unequal
Resistance Levels --|g5.7.|tConclusions --|g6.
|tTransmission Line Transformers --|g6.1.|tIntroduction --
|g6.2.|tIdeal Transmission Line Transformers --|g6.3.
|tTransmission Line Transformer Synthesis --|g6.4.
|tElectrically Long Transmission Line Transformers --
|g6.5.|tBaluns --|g6.6.|tDividers and Combiners --|g6.7.
|tThe 90° Coupler --|g7.|tNoise in RF Amplifiers --|g7.1.
|tSources of Noise --|g7.2.|tThermal Noise --|g7.3.|tShot
Noise --|g7.4.|tNoise Circuit Analysis --|g7.5.|tAmplifier
Noise Characterization --|g7.6.|tNoise Measurement --
|g7.7.|tNoisy Two-Port Circuits --|g7.8.|tTwo-Port Noise
Factor Derivation --|g7.9.|tFukui Noise Model for
Transistors.
505 80 |g8.|tClass A Amplifiers --|g8.1.|tIntroduction --|g8.2.
|tDefinitions of Gain --|g8.3.|tTransducer Power Gain of a
Two-Port Network --|g8.4.|tPower Gain Using S Parameters -
-|g8.5.|tSimultaneous Match for Maximum Power Gain --
|g8.6.|tStability --|g8.7.|tClass A Power Amplifiers --
|g8.8.|tPower Combining of Power Amplifiers --|g8.9.
|tProperties of Cascaded Amplifiers --|g8.10.|tAmplifier
Design for Optimum Gain and Noise --|g8.11.|tConclusions -
-|g9.|tRF Power Amplifiers --|g9.1.|tTransistor
Configurations --|g9.2.|tClass B Amplifier --|g9.3.|tClass
C Amplifier --|g9.4.|tClass C Input Bias Voltage --|g9.5.
|tClass D Power Amplifier --|g9.6.|tClass E Power
Amplifier --|g9.7.|tClass F Power Amplifier --|g9.8.|tFeed
-Forward Amplifiers --|g9.9.|tConclusions --|g10.
|tOscillators and Harmonic Generators --|g10.1.
|tOscillator Fundamentals --|g10.2.|tFeedback Theory --
|g10.3.|tTwo-Port Oscillators with External Feedback --
|g10.4.|tPractical Oscillator Example --|g10.5.|tMinimum
Requirements of the Reflection Coefficient --|g10.6.
|tCommon Gate (Base) Oscillators --|g10.7.|tStability of
an Oscillator --|g10.8.|tInjection-Locked Oscillator --
|g10.9.|tOscillator Phase Noise --|g10.10.|tHarmonic
Generators --|g11 RF.|tMixers --|g11.1.|tNonlinear Device
Characteristics --|g11.2.|tFigures of Merit for Mixers --
|g11.3.|tSingle-Ended Mixers --|g11.4.|tSingle-Balanced
Mixers --|g11.5.|tDouble-Balanced Mixers --|g11.6.|tDouble
-Balanced Transistor Mixers --|g11.7.|tSpurious Response -
-|g11.8.|tSingle-Sideband Noise Factor and Noise
Temperature --|g11.9.|tSpecial Mixer Applications --
|g11.10.|tConclusions --|g12.|tPhase-Lock Loops --|g12.1.
|tIntroduction --|g12.2.|tPLL Design Background --|g12.3.
|tPLL Applications --|g12.4.|tPLL Basics --|g12.5.|tLoop
Design Principles --|g12.6.|tLinear Analysis of the PLL --
|g12.7.|tLocking a Phase-Lock Loop --|g12.8.|tLoop Types -
-|g12.9.|tNegative Feedback in a PLL --|g12.10.|tPLL
Design Equations --|g12.11.|tPhase Detector Types --
|g12.12.|tDesign Examples --|g12.13.|tConclusions --
|gAppendix A.|tExample of a Solenoid Design --|gAppendix
B.|tAnalytical Spiral Inductor Model --|gAppendix C.
|tDouble-Tuned Matching Circuit Example --|gAppendix D.
|tTwo-Port Parameter Conversion --|gAppendix E.
|tTermination of a Transistor Port with a Load --
|gAppendix F.|tTransistor and Amplifier Formulas --
|gAppendix G.|tTransformed Frequency-Domain Measurements
Using SPICE --|gAppendix H.|tSingle-Tone Intermodulation
Distortion Suppression for Double-Balanced Mixers.
520 "Now Updated--The Most Comprehensive Guide to RF Circuit
Component Design and Analysis. Radio 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, Se cond Edition is
designed as a primary text for graduate students in a RF
circuits course, as well as a field reference for
professional engineers."--Publisher's description.
588 0 Online resource. IEEE Xplore (viewed September 17, 2014).
590 O'Reilly|bO'Reilly Online Learning: Academic/Public
Library Edition
650 0 Radio circuits|xDesign and construction.
650 7 Radio circuits|xDesign and construction|2fast
650 7 Electrical & Computer Engineering.|2hilcc
650 7 Electrical Engineering.|2hilcc
650 7 Engineering & Applied Sciences.|2hilcc
776 08 |iPrint version:|aDavis, W. Alan.|tRadio frequency circuit
design.|b2nd ed.|dHoboken, N.J. : Wiley, ©2011
|z9780470575079|w(OCoLC)699340126
830 0 Wiley series in microwave and optical engineering.
856 40 |uhttps://ezproxy.naperville-lib.org/login?url=https://
learning.oreilly.com/library/view/~/9781118099476/?ar
|zAvailable on O'Reilly for Public Libraries
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