Oscillator circuits : frontiers in design, analysis and applications
Author(s)
Bibliographic Information
Oscillator circuits : frontiers in design, analysis and applications
(IET materials, circuits and devices, 32)
The Institution of Engineering and Technology, 2016
- : hbk.
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Note
Includes bibliographical references and index
Description and Table of Contents
Description
An electronic oscillator is an electronic circuit that produces a periodic (often a sine wave, a square wave, or a pulse trains) or a non-periodic (a double-mode wave or a chaotic wave) oscillating electronic signal. Oscillators convert direct current from a power supply to an alternating current signal, and are widely used in many electronic devices. This book surveys recent developments in the design, analysis and applications of this important class of circuits.
Topics covered include an introduction to recent developments; analysis of bifurcation in oscillatory circuits; fractional-order oscillators; memristive and memcapacitive astable multivibrators; piecewise-constant oscillators and their applications; master-slave synchronization of hysteresis neural-type oscillators; multimode oscillations in coupled hard-oscillators; wave propagation of phase difference in coupled oscillator arrays; coupled oscillator networks with frustration; graph comparison and synchronization in complex networks; experimental studies on reconfigurable network of chaotic oscillators; fundamental operation and design of high-frequency tuned power oscillator; ring oscillators and self-timed rings in true random number generators; and attacking on-chip oscillators in cryptographic applications.
Providing an overview of the state-of-the-art in oscillator circuits, this book is essential reading for researchers, advanced students and circuit designers working in circuit theory and modelling, especially nonlinear circuit engineering.
Table of Contents
Chapter 1: Introduction
Chapter 2: Analysis of bifurcation in oscillatory circuits
Chapter 3: Fractional-order oscillators
Chapter 4: Memristive and memcapacitive astable multivibrators
Chapter 5: Piecewise-constant oscillators and their applications
Chapter 6: Master-slave synchronization of hysteresis neural-type oscillators
Chapter 7: Multimode oscillations in coupled hard-oscillators
Chapter 8: Wave propagation of phase difference in coupled oscillator arrays
Chapter 9: Coupled oscillator networks with frustration
Chapter 10: Graph comparison and synchronization in complex networks
Chapter 11: Experimental studies on reconfigurable network of chaotic oscillators
Chapter 12: Fundamental operation and design of high-frequency high-efficiency tuned power oscillator
Chapter 13: Ring oscillators and self-timed rings in true random number generators
Chapter 14: Attacking on-chip oscillators in cryptographic applications
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