tailieunhanh - Practical Digital Wireless Signals

Practical Digital Wireless Signals Do you need to know what signal type to select for a wireless application? Quickly develop a useful expertise in digital modulation with this practical guide, based on the author’s experience of over 30 years in industrial design. You will understand the physical meaning behind the mathematics of wireless signals and learn the intricacies and tradeoffs in signal selection and design. Key features: Six modulation families and 12 modulation types are covered in depth A quantitative ranking of relative cost incurred to implement any of 12 different modulation types Extensive discussions of the Shannon. | Practical Digital Wireless Signals Do you need to know what signal type to select for a wireless application Quickly develop a useful expertise in digital modulation with this practical guide based on the author s experience of over 30 years in industrial design. You will understand the physical meaning behind the mathematics of wireless signals and learn the intricacies and tradeoffs in signal selection and design. Key features Six modulation families and 12 modulation types are covered in depth A quantitative ranking of relative cost incurred to implement any of 12 different modulation types Extensive discussions of the Shannon Limit Nyquist filtering efficiency measures and signal-to-noise measures Radio wave propagation and antennas multiple access techniques and signal coding principles are all covered Spread spectrum and wireless system operation requirements are presented. Earl McCune is a practicing engineer and Silicon Valley entrepreneur. A graduate of UC Berkeley Stanford University and UC Davis he has over 30 years of post-graduate industry experience in wireless communications circuits and systems. Now semi-retired he has founded two successful start-up companies each of them winning industrial awards for their technical innovation. the CAMBRIDGE RF and microwave engineering series Series Editor Steve C. Cripps Visiting Professor Cardiff University Peter Aaen Jaime P1ÉĨ and John Wood Modeling and Characterization of RF and Microwave Power FETs Dominique Schreurs Máirtín O Droma Anthony A. Goacher and Michael Gadringer RF Amplifier Behavioral Modeling Fan Yang and Yahya Rahmat-Samii Electromagnetic Band Gap Structures in Antenna Engineering Enrico Rubiola Phase Noise and Frequency Stability in Oscillators Forthcoming Sorin Voinigescu High-Frequency Integrated Circuits J. Stephenson Kenney and Armando Cova RF Power Amplifier Design and Linearization Stepan Lucyszyn Advanced RF MEMS Patrick Roblin Nonlinear FR Circuits and the Large-Signal Network .

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