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Oscillator Design and Computer Simulation

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ISBN-10: 0070524157

ISBN-13: 9780070524156

Edition: 2nd 1997

Authors: Randall W. Rhea

List price: $65.00
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Description:

With the rapid growth in telecommunications markets, this guide has been updated to reflect state-of-the-art knowledge in oscillator design. Numerous examples offer real-life perspectives.
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Book details

List price: $65.00
Edition: 2nd
Copyright year: 1997
Publisher: McGraw-Hill Companies, The
Binding: Hardcover
Pages: 320
Size: 6.50" wide x 9.50" long x 1.00" tall
Weight: 1.342
Language: English

Prefacep. xiii
Analysis Fundamentalsp. 1
Voltage Transfer Functionsp. 1
Power Transfer Functionsp. 3
Scattering Parametersp. 4
The Smith Chartp. 8
Radially Scaled Parametersp. 10
Matchingp. 11
Broadband Amplifier Without Feedbackp. 13
Stabilityp. 16
Broadband Amplifier With Feedbackp. 18
Component Parasiticsp. 21
Amplifier With Parasiticsp. 24
Referencesp. 27
Oscillator Fundamentalsp. 29
Examplep. 31
Mismatchp. 32
Relation to Classic Oscillator Theoryp. 34
Loaded Qp. 35
L-C Resonator Configurationsp. 36
L-C Resonator Phase Shiftp. 41
Resonators as Matching Networksp. 41
Resonator Voltagep. 42
Transmission Line Resonatorsp. 44
Re-entrancep. 48
Quartz Crystal Resonatorsp. 49
Crystal Dissipationp. 52
Pulling Crystal Oscillatorsp. 53
Ceramic Piezoelectric Resonatorsp. 56
SAW Resonatorsp. 58
Multiple Resonatorsp. 59
Phasep. 62
Negative Resistance Analysisp. 65
Emitter Capacitance in Negative-R Oscillatorsp. 70
Looking Through the Resonatorp. 73
Negative Resistance Oscillator Noisep. 74
Negative Conductance Oscillatorsp. 75
Stability Factor and Oscillator Designp. 80
Output Couplingp. 81
Pullingp. 84
Pushingp. 86
Referencesp. 86
Limiting and Startingp. 89
Limitingp. 89
Amplitude and Frequency Stabilityp. 90
Class-A Operationp. 91
Near-Class-A Examplep. 92
Predicting Output Levelp. 96
Output Harmonic Contentp. 102
Class-C Power Oscillatorsp. 104
Startingp. 105
Starting Timep. 106
Bias Time Constantp. 108
Frequency Effects of Limitingp. 109
Referencesp. 110
Noisep. 111
Single-Sideband Phase Noisep. 111
Amplifier Noisep. 112
Amplifier Flicker Noisep. 113
Oscillator Noisep. 114
Oscillator Noise Nomographp. 116
Residual Phase and Frequency Modulationp. 118
Varactor Modulation Phase Noisep. 120
Buffer Amplifiersp. 121
Frequency Multiplicationp. 124
Discrete Sidebandsp. 124
Power Supply Noisep. 125
Low-Noise Design Suggestionsp. 126
Typical Oscillator Noise Performancep. 128
Referencesp. 131
Biasingp. 133
Bipolar Transistor Biasingp. 133
Simple Feedback Biasingp. 134
One-Battery Biasingp. 136
CC Negative Supply Biasingp. 137
Dual Supply Biasingp. 138
JFET Biasingp. 139
Grounded Sourcep. 139
Self-Biasp. 140
Dual-gate FETp. 141
Active Bipolar Biasingp. 143
Hybrid Biasingp. 144
Referencesp. 145
Computer Techniquesp. 147
Oscillator Simulationp. 148
Simple Resonator Examplep. 149
Oscillator Synthesisp. 153
Synthesis Examplep. 153
Analysis of the Examplep. 155
Optimization of the Examplep. 155
Noise Performance of the Examplep. 157
SPICE Analysis of Oscillatorsp. 159
Loaded Q Limitationp. 161
100MHz Loop Oscillator Measured Datap. 161
Negative-Resistance Oscillator Computerp. 164
Analysis Fundamentalsp. 165
Device Selectionp. 166
Circuit Enhancementsp. 168
Broad Tuning UHF VCO Examplep. 170
Frequency Tuning Linearityp. 174
Spice Analysis of the UHF VCOp. 177
Oscillator Starting Timep. 178
The Oscillator Spectrump. 181
Referencesp. 182
Circuitsp. 183
Frequency Rangep. 184
Stabilityp. 185
Tuning Bandwidthp. 185
Phase Noisep. 187
Simplicityp. 187
General Commentsp. 187
Output Couplingp. 189
Referencesp. 189
L-C Oscillatorsp. 191
Capacitorsp. 191
Inductorsp. 193
L-C Colpitts Oscillatorp. 196
Output Couplingp. 199
L-C Clapp Oscillatorp. 199
Tuningp. 200
Output Couplingp. 202
Circuit Vagariesp. 202
Operating Frequencyp. 202
L-C Bipolar Transistor Oscillatorp. 202
Tuningp. 205
Coupling Capacitor Inductancep. 206
Controlling the Phasep. 206
The Bipolar Amplifierp. 207
L-C Hybrid Oscillatorp. 207
Referencesp. 211
Distributed Oscillatorsp. 213
Negative Resistance UHF Oscillatorp. 215
Circuit Vagariesp. 219
L-C Resonator Formp. 220
Output Couplingp. 220
Advantagesp. 221
Circuit Variationsp. 222
Negative-R Oscillator with Transformerp. 224
Bipolar Cavity Oscillatorp. 225
Tuningp. 227
Examplep. 229
Hybrid Cavity Oscillatorp. 231
Referencesp. 234
SAW Oscillatorsp. 235
SAW Bipolar Oscillatorp. 236
Output Couplingp. 238
SAW Hybrid Oscillatorp. 238
Tuningp. 239
Element Valuesp. 241
Output Couplingp. 242
SAW Dual-gate FET Oscillatorp. 242
Element Valuesp. 245
Output Couplingp. 246
Referencesp. 246
Quartz Crystal Oscillatorsp. 247
Pierce Crystal Oscillatorp. 248
Loaded Qp. 249
Element Valuesp. 250
Dissipationp. 251
Colpitts Crystal Oscillatorp. 251
Limitationsp. 251
Element Valuesp. 253
Commentsp. 254
High-Performance Crystal Oscillatorp. 254
Performancep. 255
Low-Frequency Overtone Crystalsp. 256
Examplep. 256
Element Valuesp. 258
Frequency Pullingp. 259
Phase Noisep. 259
AM-to-PM Conversionp. 261
Butler Overtone Crystal Oscillatorp. 261
Pullingp. 263
Circuit Tipsp. 264
Butler Oscillator-Multiplierp. 265
Examplep. 266
Modulationp. 267
Referencesp. 269
Case Studiesp. 271
Assumed Specificationsp. 271
Low-Noise 910-920 MHz VCOp. 273
Initial Observationsp. 273
Noise Analysisp. 274
Proposed Oscillatorp. 275
Test Resultsp. 277
Ultra Low Cost 939 MHz VCOp. 278
Reducing the Costp. 279
Test Resultsp. 281
Varactorless VCOp. 283
One Transistor Resistor and Cap VCOp. 283
Low Harmonic, Low Load Pull VCOp. 284
Harmonic Performancep. 285
Output Filteringp. 285
Resonator Couplingp. 287
Bufferingp. 289
Measured Performancep. 289
Noise Performancep. 291
Higher Power Oscillatorp. 292
Initial Considerationsp. 292
Measured Resultsp. 295
Referencesp. 296
Table of Contents provided by Syndetics. All Rights Reserved.
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