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" Injection-locking in mixed-mode signal processing / "


Document Type : BL
Record Number : 861657
Main Entry : Yuan, Fei,1964-
Title & Author : Injection-locking in mixed-mode signal processing /\ Fei Yuan.
Publication Statement : Cham :: Springer,, [2019]
: , ©2020
Page. NO : 1 online resource :: illustrations
ISBN : 303017364X
: : 9783030173647
: 9783030173623
Bibliographies/Indexes : Includes bibliographical references and index.
Contents : Intro; Preface; Acknowledgments; Contents; About the Author; Symbols; Acronyms; 1 Injection-Locking of Oscillators: An Overview; 1.1 Introduction; 1.2 Classification of Oscillators; 1.3 Injection-Locking of Oscillator: Before 1946; 1.4 Adler: Weak First-Harmonic Injection; 1.5 Paciorek: General First-Harmonic Injection; 1.6 Miller: Frequency Regenerative Injection; 1.7 Schmideg: Superharmonic and Subharmonic Injection; 1.8 Progressive Multiphase Injection; 1.9 Effective Injection Signaling; 1.10 Applications of Injection-Locking of Oscillators; 1.10.1 Frequency Division; 1.10.2 Parallel Links
: 1.10.3 Frequency Calibration1.10.4 Phase-Locked Loops; 1.11 Chapter Summary; 2 Injection-Locking of Harmonic Oscillators; 2.1 Introduction; 2.2 Harmonic Oscillators; 2.3 Phase Noise of Oscillators; 2.4 Modeling of Harmonic Oscillators; 2.5 First-Harmonic Injection; 2.5.1 Nonlinear System Approach; 2.5.2 Linear System Approach; 2.6 Superharmonic Injection; 2.6.1 Second-Order Superharmonic Injection; 2.6.2 Third-Order Superharmonic Injection; 2.6.3 Divide-by-2 Injection-Locked Frequency Dividers; 2.6.4 Divide-by-3 Injection-Locked Frequency Dividers; 2.7 Subharmonic Injection
: 2.7.1 Second-Order Subharmonic Injection2.7.2 Third-Order Subharmonic Injection; 2.8 Lock Range Relation; 2.8.1 Lock Range Relation: Superharmonic Injection; 2.8.2 Lock Range Relation: Subharmonic Injection; 2.9 Phase Noise of Injection-Locked Harmonic Oscillators; 2.10 Chapter Summary; 3 Injection-Locking Techniques for Harmonic Oscillators; 3.1 Introduction; 3.2 Injection Signaling; 3.3 Inductor Series-Peaking; 3.4 Inductor Shunt-Peaking; 3.5 Current-Reuse Direct Injection; 3.6 Quality Factor Reduction; 3.7 Resistor Feedback; 3.8 Second Harmonic Extraction; 3.9 Transformer Feedback
: 3.10 Dual Injections3.11 Chapter Summary; 4 Injection-Locking of Nonharmonic Oscillators; 4.1 Introduction; 4.2 Injection-Locking of Nonharmonic Oscillators; 4.3 Modeling of Ring Oscillators; 4.4 Modeling of Relaxation Oscillators; 4.5 Representation of Nonharmonic Oscillators; 4.6 Fundamentals of Volterra Series; 4.7 Volterra Element and Volterra Circuits; 4.8 Modeling of Comparators; 4.9 Volterra Circuits of Relaxation Oscillator; 4.10 Effective Injection Signals; 4.11 Lock Range; 4.12 Chapter Summary; 5 Injection-Locking Techniques for Nonharmonic Oscillators; 5.1 Introduction
: 5.2 Degree of Nonlinearity5.2.1 Nonlinearity Factor; 5.2.2 Volterra Circuits; 5.2.3 Effective Injection Signals; 5.2.4 Lock Range; 5.2.5 Relaxation Oscillators and Ring Oscillators: A Comparison; 5.3 Single Unitone Injection versus Dual Unitone Injections; 5.4 Dual Multitone Injections; 5.4.1 Multitone Signals; 5.4.2 Volterra Circuits; 5.4.3 Effective Injection Signals; 5.4.4 Lock Range; 5.5 Single Multitone Injection Versus Dual Multitone Injections; 5.6 Duty Cycle of Multitone Injection; 5.7 Harmonic Attenuation Mechanism; 5.8 Chapter Summary; References; Index
Subject : Integrated injection logic.
Subject : Metal oxide semiconductors, Complementary.
Subject : Mixed signal circuits.
Subject : Integrated injection logic.
Subject : Metal oxide semiconductors, Complementary.
Subject : Mixed signal circuits.
Subject : TECHNOLOGY ENGINEERING-- Mechanical.
Dewey Classification : ‭621.39/732‬
LC Classification : ‭TK7871.99.M44‬
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