The new edition of the leading resource on designing digital frequency synthesizers from microwave and wireless applications, fully updated to reflect the most modern integrated circuits and semiconductorsMicrowave and Wireless Synthesizers: Theory and Design, Second Edition, remains the standard text on the subject by providing complete and up-to-date coverage of both practical and theoretical aspects of modern frequency synthesizers and their components. Featuring contributions from leading experts in the field, this classic volume describes loop fundamentals, noise and spurious responses,…mehr
The new edition of the leading resource on designing digital frequency synthesizers from microwave and wireless applications, fully updated to reflect the most modern integrated circuits and semiconductorsMicrowave and Wireless Synthesizers: Theory and Design, Second Edition, remains the standard text on the subject by providing complete and up-to-date coverage of both practical and theoretical aspects of modern frequency synthesizers and their components. Featuring contributions from leading experts in the field, this classic volume describes loop fundamentals, noise and spurious responses, special loops, loop components, multiloop synthesizers, and more. Practical synthesizer examples illustrate the design of a high-performance hybrid synthesizer and performance measurement techniques--offering readers clear instruction on the various design steps and design rules.The second edition includes extensively revised content throughout, including a modern approach to dealing with the noise and spurious response of loops and updated material on digital signal processing and architectures. Reflecting today's technology, new practical and validated examples cover a combination of analog and digital synthesizers and hybrid systems. Enhanced and expanded chapters discuss implementations of direct digital synthesis (DDS) architectures, the voltage-controlled oscillator (VCO), crystal and other high-Q based oscillators, arbitrary waveform generation, vector signal generation, and other current tools and techniques. Now requiring no additional literature to be useful, this comprehensive, one-stop resource:* Provides a fully reviewed, updated, and enhanced presentation of microwave and wireless synthesizers* Presents a clear mathematical method for designing oscillators for best noise performance at both RF and microwave frequencies* Contains new illustrations, figures, diagrams, and examples* Includes extensive appendices to aid in calculating phase noise in free-running oscillators, designing VHF and UHF oscillators with CAD software, using state-of-the-art synthesizer chips, and generating millimeter wave frequencies using the delay line principleContaining numerous designs of proven circuits and more than 500 relevant citations from scientific journal and papers, Microwave and Wireless Synthesizers: Theory and Design, Second Edition, is a must-have reference for engineers working in the field of radio communication, and the perfect textbook for advanced electrical engineering students.
Dr.Ing.habil Ulrich L. Rohde, is a Professor of Technical Informatics, University of the Joint Armed Forces, Munich Germany; member of the staff of other Universities world-wide; partner of Rohde & Schwarz, Munich; and Chairman of the Board of Synergy Microwave Corporation. Formerly Professor of Electrical Engineering at George Washington University and the University of Florida, Dr. Rohde has consulted on numerous communication projects in industry and government, has more than 300 publications, and written many textbooks including this one. He is the author of the first edition of Microwave and Wireless Synthesizers: Theory and Design.Enrico Rubiola, PhD, is Professor at the Université de Franche Comté (The University of Franche-Comté), Researcher at the Department of Time and Frequency of the CNRS FEMTO-ST Institute, France, and Associated Researcher at INRiM, Italy's National Metrology Institute (NMI). He is Founder the Oscillator IMP project, a platform for the measurement of short-term frequency stability and AM/PM noise of oscillators and related components.Jerry Whitaker is Vice President for Standards Development of the Advanced Television Systems Committee. He also serves as Secretary of the Technology Group on Next Generation Broadcast Television, and is closely involved in work relating to educational programs. He is a Fellow and previous Vice President of the Society of Broadcast Engineers, and a Life Fellow of the Society of Motion Picture and Television Engineers.
Author BioPrefaceImportant NotationsChapter 1: Loop Fundamentals1 Introduction to Linear Loops2 Characteristics of a Loop3 Digital Loops4 Type 1 First-Order Loop5 Type 1 Second-Order Loop6 Type 2 Second-Order Loop7 Type 2 Third-Order Loop8 Higher-Order Loops8.1 Fifth-Order Loop Transient Response9 Digital Loops with Mixers10 Acquisition11 References12 Bibliography and Suggested ReadingChapter 2: Almost All About Phase Noise1 Introduction to Phase Noise2 The Allan Variance and Other Two-Sample Variances3 Phase Noise in Components4 Phase Noise in Oscillators5 The Measurement of Phase Noise6 References7 Suggested readingsChapter 3: Special Loops1 Introduction2 Direct Digital Synthesis Techniques3 Loops with Delay Line as Phase Comparators4 Fractional Division N Synthesizers5 References6 BibliographyChapter 4: Loop Components1 Introduction to Oscillators and Their Mathematical Treatment2 The Colpitts Oscillator3 Use of Tuning Diodes4 Use of Diode Switches5 Reference Frequency Standards6 Mixer Applications7 Phase/Frequency Comparators8 Wideband High-Gain Amplifiers9 Programmable Dividers10 Loop Filters11 Microwave Oscillator Design12 Microwave Resonators13 References14 BibliographyChapter 5: Digital PLL Synthesizers1 Multiloop Synthesizers Using Different Techniques2 System Analysis3 Low-Noise Microwave Synthesizers4 Microprocessor Applications in Synthesizers5 Transceiver Applications6 About Bits, Symbols, and Waveforms 7 References8 Bibliography and Suggested Reading9 AcknowledgementsChapter 6: A High-Performance Hybrid Synthesizer1 Introduction2 Basic Synthesizer Approach3 Loop Filter Design4 Summary5 BibliographyAppendix A: Mathematical ReviewAppendix B: A General-Purpose Nonlinear Approach to the Computation of Sideband Phase Noise in Free-Running Microwave and RF OscillatorsAppendix C: Example of Wireless Synthesizers Using Commercial ICsAppendix D: MMIC-Based SynthesizersAppendix E: Articles on Design of Dielectric Resonator OscillatorAppendix F: Optoelectronic OscillatorsAppendix G: Phase Noise Analysis, Then and TodayIndex
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