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The Designer's Guide to High-Purity Oscillators presents a comprehensive theory and design methodology for the design of LC CMOS oscillators used in every wireless transmission system. The authors introduce the subject of phase noise and oscillators from the very first principles, and carry the reader to a very intuitive circuit-driven theory of phase noise in LC oscillators. The theory presented includes both thermal and flicker noise effects. Based on Hegazi, Rael, and Abidi's mechanistic theory, a sensible design methodology is gradually developed. In addition, new topologies that were…mehr

Produktbeschreibung
The Designer's Guide to High-Purity Oscillators presents a comprehensive theory and design methodology for the design of LC CMOS oscillators used in every wireless transmission system. The authors introduce the subject of phase noise and oscillators from the very first principles, and carry the reader to a very intuitive circuit-driven theory of phase noise in LC oscillators. The theory presented includes both thermal and flicker noise effects. Based on Hegazi, Rael, and Abidi's mechanistic theory, a sensible design methodology is gradually developed. In addition, new topologies that were recently published by the authors are discussed in detail and an optimal design methodology is presented. While the book focuses on intuition, it rigorously proves every argument to present a compact yet accurate model for predicting phase noise in LC oscillators. By so doing, the design of an LC oscillator can be handled in the same manner as an amplifier design. TOC:Preface.- Basics of LC Oscillators.- Oscillator Purity Fundamentals.- Current Biased Oscillator.- Colpritts Oscillator.- Design for Low Thermal Phase Noise.- Flicker Noise.- Design for Low Flicker Phase Noise.- The Role of the Varactor.- Index.

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  • Produktdetails
  • Verlag: Springer-Verlag GmbH
  • Erscheinungstermin: 18.07.2006
  • Englisch
  • ISBN-13: 9780387233659
  • Artikelnr.: 37286772
Autorenporträt
Emad Eldin Hegazi, Ericsson Mobile Platforms (EMP), Research Triangle Park, NC, USA / Jacob Rael, BroadCom Corporation, Irvine, CA, USA / Asad A. Abidi, University of California, Los Angeles, USA
Inhaltsangabe
Preface
1: Basics of LC Oscillators
1. Introduction
2. The Mathematical Oscillator
3. Additive White Noise in LC Oscillators
4. The Linear Oscillator
5. Linear Oscillator Noise Analysis
6. How Is This Book Different?

2: Oscillator Purity Fundamentals
1. Introduction
2. Timing Jitter
3. Recognizing Phase Noise
4. Single Sideband Contains AM and PM
5. Phase Noise
6. Oscillator Phase Noise Models: Post-Leeson

3: Current Biased Oscillator
1. Steady-State Operation
2. Linear Analysis of Differential Oscillator
3. Thermally Induced Phase Noise
4. Validation of Thermal Noise Analysis

4: Colpitts Oscillator
1. Introduction
2. Steady-State 3. Phase Noise Analysis
4. Conclusions

5: Design for Low Thermal Phase Noise
1. Introduction
2. Note About Harmonic Balance in LC Oscillators
3. Amplitude in Differential LC Oscillators
4. Design of Current-Biased Differential Oscillators
5. A Design Example
6. Intuitive Explanation of Phase Noise Sources
7. Loading in Current-Biased Oscillators
8. Sizing of the Current Source Device
9. Noise Filtering in Oscillators
10. Prototype Oscillator
11. Practical Considerations
12. Example: Redesign of GSM VCO
13. Anatomy of the Figure-of-Merit

6: Flicker Noise
1. Flicker Induced Phase Noise
2. FM Due to Modulated Frequency Content
3. Switch Voltage Noise Modulates Capacitance
4. Frequency Modulation by the Current Source
7: Design for Low Flicker Phase Noise
1. Introduction
2. Flicker Noise Minimization
3. Nulling Flicker Noise
4. Wideband Nulling of Flicker Noise Up Conversion

8: The Role of the Varactor
1. Fundamentals
2. Types of Varactors
3. Varactor Tuning
4. Analytical Evaluation of Noise Sensitivity
5. AM-to-FM Noise Conversion
6. Tuning and Supply Sensitivity
7. Measurements and SimulationResults
8. Discussion

Appendix A
Appendix B
Appendix C
Index