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Full Description
Delivering the best possible solution for phase noise and output power efficiency in oscillators
This complete and thorough analysis of microwave oscillators investigates all aspects of design, with particular emphasis on operating conditions, choice of resonators and transistors, phase noise, and output power. It covers both bipolar transistors and FETs. Following the authors' guidance, readers learn how to design microwave oscillators and VCOs that can be tuned over a very wide frequency range, yet have good phase noise, are low cost, and are small in size. All the essential topics in oscillator design and development are covered, including:
* Device and resonator technology
* Study of noise sources
* Analysis methods
* Design, calculation, and optimization methodologies
* Practical design of single and coupled oscillators
While most of the current literature in the field concentrates on classic design strategies based on measurements, simulation, and optimization of output power and phase noise, this text offers a unique approach that focuses on the complete understanding of the design process. The material demonstrates important design rules starting with the selection of best oscillator topology, choice of transistors, and complete phase noise analysis that leads to optimum performance of all relevant oscillator features. Also included are CMOS oscillators, which recently have become important in cellular applications. For readers interested in specialized applications and topics, a full chapter provides all the necessary references.
The contents of the text fall into two major categories:
* Chapters 1 through 9 deal with a very detailed and expanded single resonator oscillator, including a thorough treatment of both nonlinear analysis and phase noise
* Chapters 10 and 11 use the knowledge obtained and apply it to multiple coupled oscillators (synchronized oscillators)
This text is partially based on research sponsored by the Defense Advanced Research Projects Agency (DARPA) and the United States Army and conducted by Synergy Microwave Corporation. With the wealth of information provided for the analysis and practical design of single and synchronized low-noise microwave oscillators, it is recommended reading for all RF microwave engineers. In addition, the text's comprehensive, step-by-step approach makes it an excellent graduate-level textbook.
Contents
Foreword. Preface.
Biographies.
1. Introduction.
2. General Comments on Oscillators.
3. Teransistor Models.
4. Large-Signal S-Parameters.
5. Resonator Choices.
6. General Theory of Oscillators.
7. Noise in Oscillators.
8. Calculation and Optimization of Phase Noise in Oscillators.
9. Validation Circuits.
10. Systems of Coupled Oscillators.
11. Validation Circuits for Wideband Coupled Resonator VCOs.
12. References.
Appendix A: Design of an Oscillator Using Large Signal S-Paramenters.
Appendix B: Design Example for Large Signal Design Based on Bessel Functions.
Appendix C: Design Example for Best Phase Noise and Good Output Power.
Appendix D: A Complete Analytical Approach For Designing Efficient Microwave EFT and Bipolar Oscillators.
Appendix E: CAD Solution for Calculating Phase Noise in Oscillators.
Appendix F: General Noise Presentation.
Appendix G: Calculation of Noise Properties of Bipolar Transistors and EFTs.
Appendix H: Noise Analysis of the N-Coupled Oscillator Coupled Through Different Coupling Topologies.
Index.
