The Designer's Guide to Jitter in Ring Oscillators 2009 Edition Contributor(s): McNeill, John A. (Author), Ricketts, David (Author) |
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ISBN: 0387765263 ISBN-13: 9780387765266 Publisher: Springer OUR PRICE: $104.49 Product Type: Hardcover - Other Formats Published: April 2009 Annotation: The Designer's Guide to Low Jitter Oscillators emphasizes jitter for time domain applications so that there is not a need to translate from frequency domain. This provides a more direct path to the results for designing in an application area where performance is specified in the time domain. The book includes classification of oscillator types and an exhaustive guide to existing research literature which allows designers to find appropriate publications for more detailed design guidance. It also includes classification of measurement techniques to help designers understand how the eventual performance of circuit design is verified. This book contains a CD-ROM with MATLAB examples of design optimization, system level behavioral simulation, and intuitive presentation of probability background. The Designer's Guide to Low Jitter Oscillators is a companion to The Designer??'s Guide to High Purity Oscillators by Hegazi, Rael, and Abidi. This book is for practicing designers with BS or MS degrees and researchers working in fields where noise requirements are specified in the time domain. |
Additional Information |
BISAC Categories: - Technology & Engineering | Electronics - Circuits - General - Technology & Engineering | Electrical |
Dewey: 621.3 |
LCCN: 2009920784 |
Series: Designer's Guide Books |
Physical Information: 0.7" H x 6.1" W x 9.2" (1.20 lbs) 300 pages |
Descriptions, Reviews, Etc. |
Publisher Description: This is a book for engineers concerned with jitter: the e ects of noise visible in the time domain. The material presented will be helpful for work at both the system level and the circuit level: At the system level, the challenge is to describe, specify, and measure time domain uncertainty and when necessary, relate jitter to phase noise speci cations in the frequency domain. At the circuit level, the challenge is to design low noise circuitry within power, area, and process constraints so that ultimate performance meets system level requirements. Throughout the book concepts are presented in the context of an - gineering application requiring low jitter performance: the voltage controlled oscillator (VCO) used in a phase-locked loop (PLL). Techniques are presented for circuit-level design of low jitter delay elements for use in ring oscillators, as well as relating the circuit-level characteristics to system-level performance. Although the emphasis is on time-domain (jitter) measures of oscillator p- formance, a simple method of translating performance to frequency domain (phase noise) measures is presented as well. Structure of this Book This book is divided into nine chapters. The diagram on the following page shows the relationship between material in each chapter as well as placement in the system-level vs. circuit-level design hierarchy. Wherever possible, - perimental veri cation is presented in the same chapter as the corresponding theoretical development, rather than being isolated in a separate chapter. |