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9780470575079

Radio Frequency Circuit Design

by
  • ISBN13:

    9780470575079

  • ISBN10:

    0470575077

  • Edition: 2nd
  • Format: Hardcover
  • Copyright: 2010-12-28
  • Publisher: Wiley-IEEE Press
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Summary

This book focuses on components such as filters, transformers, amplifiers, mixers, and oscillators. Even the phase lock loop chapter (the last in the book) is oriented toward practical circuit design, in contrast to the more systems orientation of most communication texts.

Author Biography

W. Alan Davis is a professor in the department of electrical engineering at the University of Texas at Arlington. He was previously employed at Raytheon, where he worked on IMPATT diode power combiners, thermal response of IMPATT diodes, broadband directional couplers, Schiffman phase shifters, and filter design. He was also involved in computer optimization techniques and in software design for automated test stations. More recently, Davis has worked on nonlinear parametric effects and self-heating effects of silicon on insulator transistors.

Table of Contents

Preface to the Second Editionp. xiii
Preface to the First Editionp. XV
Information Transfer Technologyp. 1
Introductionp. 1
Information and Capacityp. 2
Dependent Statesp. 4
Basic Transmitter-Receiver Configurationp. 6
Active Device Technologyp. 8
Problemsp. 9
Referencep. 10
Resistors, Capacitors, and Inductorsp. 11
Introductionp. 11
Resistorsp. 11
Capacitorsp. 17
Inductorsp. 23
Conclusionsp. 34
Problemsp. 34
Referencesp. 36
Impedance Matchingp. 39
Introductionp. 39
The Q Factorp. 39
Resonance and Bandwidthp. 40
Unloaded Qp. 42
L Circuit Impedance Matchingp. 43
¿Transformation Circuitp. 46
T Transformation Circuitp. 48
Tapped Capacitor Transformerp. 49
Parallel Double-Tuned Transformerp. 52
Conclusionsp. 56
Problemsp. 56
Referencep. 58
Multiport Circuit Parameters and Transmission Linesp. 59
Voltage-Current Two-Port Parametersp. 59
ABCD Parametersp. 61
Image Impedancep. 62
Telegrapher's Equationsp. 67
Transmission Line Equationp. 69
Smith Chartp. 72
Transmission Line Stub Transformerp. 73
Commonly Used Transmission Linesp. 78
Scattering Parametersp. 91
Indefinite Admittance Matrixp. 96
Indefinite Scattering Matrixp. 98
Conclusionsp. 100
Problemsp. 100
Referencesp. 102
Filter Design and Approximationp. 105
Introductionp. 105
Ideal and Approximate Filter Typesp. 105
Transfer Function and Basic Filter Conceptsp. 109
Ladder Network Filtersp. 110
Elliptic Filterp. 115
Matching Between Unequal Resistance Levelsp. 116
Conclusionsp. 127
Problemsp. 128
Referencesp. 129
Transmission Line Transformersp. 131
Introductionp. 131
Ideal Transmission Line Transformersp. 132
Transmission Line Transformer Synthesisp. 136
Electrically Long Transmission Line Transformersp. 137
Balunsp. 142
Dividers and Combinersp. 142
The 90° Couplerp. 147
Problemsp. 152
Referencesp. 152
Noise in RF Amplifiersp. 155
Sources of Noisep. 155
Thermal Noisep. 156
Shot Noisep. 159
Noise Circuit Analysisp. 161
Amplifier Noise Characterizationp. 162
Noise Measurementp. 164
Noisy Two-Port Circuitsp. 165
Two-Port Noise Factor Derivationp. 166
Fukui Noise Model for Transistorsp. 170
Problemsp. 174
Referencesp. 174
Class A Amplifiersp. 177
Introductionp. 177
Definitions of Gainp. 177
Transducer Power Gain of a Two-Port Networkp. 178
Power Gain Using S Parametersp. 180
Simultaneous Match for Maximum Power Gainp. 183
Stabilityp. 185
Class A Power Amplifiersp. 195
Power Combining of Power Amplifiersp. 197
Properties of Cascaded Amplifiersp. 198
Amplifier Design for Optimum Gain and Noisep. 201
Conclusionsp. 203
Problemsp. 204
Referencesp. 205
RF Power Amplifiersp. 207
Transistor Configurationsp. 207
Class B Amplifierp. 208
Class C Amplifierp. 217
Class C Input Bias Voltagep. 221
Class D Power Amplifierp. 223
Class E Power Amplifierp. 230
Class F Power Amplifierp. 240
Feed-Forward Amplifiersp. 247
Conclusionsp. 248
Problemsp. 249
Referencesp. 250
Oscillators and Harmonic Generatorsp. 253
Oscillator Fundamentalsp. 253
Feedback Theoryp. 254
Two-Port Oscillators with External Feedbackp. 255
Practical Oscillator Examplep. 260
Minimum Requirements of the Reflection Coefficientp. 262
Common Gate (Base) Oscillatorsp. 265
Stability of an Oscillatorp. 269
Injection-Locked Oscillatorp. 273
Oscillator Phase Noisep. 275
Harmonic Generatorsp. 282
Problemsp. 286
Referencesp. 287
RF Mixersp. 289
Nonlinear Device Characteristicsp. 289
Figures of Merit for Mixersp. 293
Single-Ended Mixersp. 295
Single-Balanced Mixersp. 296
Double-Balanced Mixersp. 296
Double-Balanced Transistor Mixersp. 304
Spurious Responsep. 307
Single-Sideband Noise Factor and Noise Temperaturep. 310
Special Mixer Applicationsp. 313
Conclusionsp. 317
Problemsp. 317
Referencesp. 319
Phase-Lock Loopsp. 321
Introductionp. 321
PLL Design Backgroundp. 321
PLL Applicationsp. 322
PLL Basicsp. 323
Loop Design Principlesp. 324
Linear Analysis of the PLLp. 328
Locking a Phase-Lock Loopp. 332
Loop Typesp. 335
Negative Feedback in a PLLp. 336
PLL Design Equationsp. 337
Phase Detector Typesp. 344
Design Examplesp. 349
Conclusionsp. 352
Problemsp. 353
Referencesp. 353
Example of a Solenoid Designp. 355
Analytical Spiral Inductor Modelp. 357
Double-Tuned Matching Circuit Examplep. 361
Two-Port Parameter Conversionp. 363
Termination of a Transistor Port with a Loadp. 369
Transistor and Amplifier Formulasp. 373
Transformed Frequency-Domain Measurements Using SPICEp. 379
Single-Tone Intermodulation Distortion Suppression for Double-Balanced Mixersp. 393
Indexp. 397
Table of Contents provided by Ingram. All Rights Reserved.

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