Radio frequency circuit design [electronic resource] / W. Alan Davis
- Author:
- Davis, W. Alan
- Published:
- Hoboken, N.J. : Wiley, 2010.
Chichester : John Wiley. - Edition:
- 2nd ed.
- Physical Description:
- 1 online resource (xv, 401 pages) : illustrations
- Access Online:
- ezaccess.libraries.psu.edu
- Series:
- Wiley series in microwave and optical engineering
- Contents:
- Machine generated contents note: 1.Information Transfer Technology -- 1.1.Introduction -- 1.2.Information and Capacity -- 1.3.Dependent States -- 1.4.Basic Transmitter-Receiver Configuration -- 1.5.Active Device Technology -- Problems -- Reference -- 2.Resistors, Capacitors, and Inductors -- 2.1.Introduction -- 2.2.Resistors -- 2.3.Capacitors -- 2.4.Inductors -- 2.5.Conclusions -- Problems -- References -- 3.Impedance Matching -- 3.1.Introduction -- 3.2.The Q Factor -- 3.3.Resonance and Bandwidth -- 3.4.Unloaded Q -- 3.5.L Circuit Impedance Matching -- 3.6.π Transformation Circuit -- 3.7.T Transformation Circuit -- 3.8.Tapped Capacitor Transformer -- 3.9.Parallel Double-Tuned Transformer -- 3.10.Conclusions -- Problems -- Reference -- 4.Multiport Circuit Parameters and Transmission Lines -- 4.1.Voltage-Current Two-Port Parameters -- 4.2.ABCD Parameters -- 4.3.Image Impedance -- 4.4.Telegrapher's Equations -- 4.5.Transmission Line Equation -- 4.6.Smith Chart -- 4.7.Transmission Line Stub Transformer -- 4.8.Commonly Used Transmission Lines -- 4.9.Scattering Parameters -- 4.10.Indefinite Admittance Matrix -- 4.11.Indefinite Scattering Matrix -- 4.12.Conclusions -- Problems -- References -- 5.Filter Design and Approximation -- 5.1.Introduction -- 5.2.Ideal and Approximate Filter Types -- 5.3.Transfer Function and Basic Filter Concepts -- 5.4.Ladder Network Filters -- 5.5.Elliptic Filter -- 5.6.Matching Between Unequal Resistance Levels -- 5.7.Conclusions -- Problems -- References -- 6.Transmission Line Transformers -- 6.1.Introduction -- 6.2.Ideal Transmission Line Transformers -- 6.3.Transmission Line Transformer Synthesis -- 6.4.Electrically Long Transmission Line Transformers -- 6.5.Baluns -- 6.6.Dividers and Combiners -- 6.7.The 90° Coupler -- Problems -- References -- 7.Noise in RF Amplifiers -- 7.1.Sources of Noise -- 7.2.Thermal Noise -- 7.3.Shot Noise -- 7.4.Noise Circuit Analysis -- 7.5.Amplifier Noise Characterization -- 7.6.Noise Measurement -- 7.7.Noisy Two-Port Circuits -- 7.8.Two-Port Noise Factor Derivation -- 7.9.Fukui Noise Model for Transistors -- Problems -- References -- 8.Class A Amplifiers -- 8.1.Introduction -- 8.2.Definitions of Gain -- 8.3.Transducer Power Gain of a Two-Port Network -- 8.4.Power Gain Using S Parameters -- 8.5.Simultaneous Match for Maximum Power Gain -- 8.6.Stability -- 8.7.Class A Power Amplifiers -- 8.8.Power Combining of Power Amplifiers -- 8.9.Properties of Cascaded Amplifiers -- 8.10.Amplifier Design for Optimum Gain and Noise -- 8.11.Conclusions -- Problems -- References -- 9.RF Power Amplifiers -- 9.1.Transistor Configurations -- 9.2.Class B Amplifier -- 9.3.Class C Amplifier -- 9.4.Class C Input Bias Voltage -- 9.5.Class D Power Amplifier -- 9.6.Class E Power Amplifier -- 9.7.Class F Power Amplifier -- 9.8.Feed-Forward Amplifiers -- 9.9.Conclusions -- Problems -- References -- 10.Oscillators and Harmonic Generators -- 10.1.Oscillator Fundamentals -- 10.2.Feedback Theory -- 10.3.Two-Port Oscillators with External Feedback -- 10.4.Practical Oscillator Example -- 10.5.Minimum Requirements of the Reflection Coefficient -- 10.6.Common Gate (Base) Oscillators -- 10.7.Stability of an Oscillator -- 10.8.Injection-Locked Oscillator -- 10.9.Oscillator Phase Noise -- 10.10.Harmonic Generators -- Problems -- References -- 11.RF Mixers -- 11.1.Nonlinear Device Characteristics -- 11.2.Figures of Merit for Mixers -- 11.3.Single-Ended Mixers -- 11.4.Single-Balanced Mixers -- 11.5.Double-Balanced Mixers -- 11.6.Double-Balanced Transistor Mixers -- 11.7.Spurious Response -- 11.8.Single-Sideband Noise Factor and Noise Temperature -- 11.9.Special Mixer Applications -- 11.10.Conclusions -- Problems -- References -- 12.Phase-Lock Loops -- 12.1.Introduction -- 12.2.PLL Design Background -- 12.3.PLL Applications -- 12.4.PLL Basics -- 12.5.Loop Design Principles -- 12.6.Linear Analysis of the PLL -- 12.7.Locking a Phase-Lock Loop -- 12.8.Loop Types -- 12.9.Negative Feedback in a PLL -- 12.10.PLL Design Equations -- 12.11.Phase Detector Types -- 12.12.Design Examples -- 12.13.Conclusions -- Problems -- References.
- Subject(s):
- ISBN:
- 9780470768020 (electronic bk.)
0470768029 (electronic bk.) - Note:
- Previous ed.: 2001.
Title from title screen (viewed on Feb. 10, 2011).
AVAILABLE ONLINE TO AUTHORIZED PSU USERS. - Bibliography Note:
- Includes bibliographical references and index.
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