Details
The Designer's Guide to High-Purity Oscillators
The Designer's Guide Book Series
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117,69 € |
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| Verlag: | Springer |
| Format: | |
| Veröffentl.: | 18.07.2006 |
| ISBN/EAN: | 9780387233659 |
| Sprache: | englisch |
| Anzahl Seiten: | 204 |
Dieses eBook enthält ein Wasserzeichen.
Beschreibungen
try to predict it using mathematical expressions. His heuristic model without mathematical proof is almost universally accepted. However, it entails a c- cuit specific noise factor that is not known a priori and so is not predictive. In this work, we attempt to address the topic of oscillator design from a diff- ent perspective. By introducing a new paradigm that accurately captures the subtleties of phase noise we try to answer the question: 'why do oscillators behave in a particular way?' and 'what can be done to build an optimum design?' It is also hoped that the paradigm is useful in other areas of circuit design such as frequency synthesis and clock recovery. In Chapter 1, a general introduction and motivation to the subject is presented. Chapter 2 summarizes the fundamentals of phase noise and timing jitter and discusses earlier works on oscillator's phase noise analysis. Chapter 3 and Chapter 4 analyze the physical mechanisms behind phase noise generation in current-biased and Colpitts oscillators. Chapter 5 discusses design trade-offs and new techniques in LC oscillator design that allows optimal design. Chapter 6 and Chapter 7 discuss a topic that is typically ignored in oscillator design. That is flicker noise in LC oscillators. Finally, Chapter 8 is dedicated to the complete analysis of the role of varactors both in tuning and AM-FM noise conversion.
Basics of LC Oscillators.- Oscillator Purity Fundamentals.- Current Biased Oscillator.- Colpitts Oscillator.- Design for Low Thermal Phase Noise.- Flicker Noise.- Design for Low Flicker Phase Noise.- The Role of the Varactor.
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 osciallators from the very first principles, and carry the reader to a very intuitive circuit-driven theory of phase noise in LC osciallators. The presented theory 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 osciallator can be handled in the same manner as an amplifier design.
Develops its phase noise theory from circuit theory rather than mathematics Model is well-suited for circuit design rather than simulation The first physically-based phase noise model that captures all the significant circuit artifacts while being intuitive and compact The presented model is derived rigorously and is tested using simulations as well as real designs and measurements Includes supplementary material: sn.pub/extras
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