Electrical Solitons - Ricketts David S.; Ham Donhee | Libro Crc Press 12/2010 - HOEPLI.it


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ricketts david s.; ham donhee - electrical solitons

Electrical Solitons Theory, Design, and Applications

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Dettagli

Genere:Libro
Lingua: Inglese
Editore:

CRC Press

Pubblicazione: 12/2010
Edizione: 1° edizione





Note Editore

The dominant medium for soliton propagation in electronics, nonlinear transmission line (NLTL) has found wide application as a testbed for nonlinear dynamics and KdV phenomena as well as for practical applications in ultra-sharp pulse/edge generation and novel nonlinear communication schemes in electronics. While many texts exist covering solitons in general, there is as yet no source that provides a comprehensive treatment of the soliton in the electrical domain. Drawing on the award winning research of Carnegie Mellon’s David S. Ricketts, Electrical Solitons Theory, Design, and Applications is the first text to focus specifically on KdV solitons in the nonlinear transmission line. Divided into three parts, the book begins with the foundational theory for KdV solitons, presents the core underlying mathematics of solitons, and describes the solution to the KdV equation and the basic properties of that solution, including collision behaviors and amplitude-dependent velocity. It also examines the conservation laws of the KdV for loss-less and lossy systems. The second part describes the KdV soliton in the context of the NLTL. It derives the lattice equation for solitons on the NLTL and shows the connection with the KdV equation as well as the governing equations for a lossy NLTL. Detailing the transformation between KdV theory and what we measure on the oscilloscope, the book demonstrates many of the key properties of solitons, including the inverse scattering method and soliton damping. The final part highlights practical applications such as sharp pulse formation and edge sharpening for high speed metrology as well as high frequency generation via NLTL harmonics. It describes challenges to realizing a robust soliton oscillator and the stability mechanisms necessary, and introduces three prototypes of the circular soliton oscillator using discrete and integrated platforms.




Sommario

I Electrical Solitons: Theory Introduction The "Solitons" A Brief Overview and History of the Soliton The KdV Soliton The Solitary Wave Solution The Periodic Soliton: The Cnoidal Wave Solution Transient Dynamics of the KdV The Heart of the Soliton: Inverse Scattering Inverse Scattering Method A Math Problem KdV Solution via the Inverse Scattering Method Solution of the KdV Initial Value Problem Asymptotic Solution to the Inverse Scattering Method Soliton Defnition Transient Solutions of the KdV The Three Faces of the KdV Soliton Conservative and Dissipative Soliton Systems Conservation Laws The Lossy KdV II Electrical Solitons: Design Electrical Nonlinear Transmission Line and Electrical Solitons The Nonlinear Transmission Line Toda Lattice NLTL Lattice KdV Approximation of the NLTL The Lossy NLTL The Electrical Soliton in the Lab, M.W. Chen and E. Shi Toda Lattice, NLTL Lattice and KdV Solitons Scaling and Transformations: Lab ! NLTL ! KdV NLTL Characterization Inverse Scattering on the NLTL Soliton Damping on the NLTL Numerical Accuracy III Electrical Solitons: Application NLTL as a Two-Port System, X. Li and M.W. Chen Pulse Compression and Tapered NLTL Shockwave NLTL Harmonic Generation The Soliton Oscillator Basic Topology Instability Mechanisms Identifcation of Three Instability Mechanisms NLTL Soliton Oscillator | Working Model System Design and Amplifier Dynamics The Circular Soliton Oscillator CMOS, Low MHz Prototype Bipolar, Microwave Prototype CMOS, Chip-scale, GHz Prototype The Reection Soliton Oscillator, O.O. Yildirim Operating Principle Amplifier Design Experiments Comparison with Haus’s Oscillator Chaotic Soliton Oscillator and Chaotic Communications, O.O. Yildirim, N. Sun, and X. Li Chaos and Chaotic Communications Chaotic Soliton Oscillator Simulation of the Chaotic Soliton Oscillator Simulation of Chaotic Binary Communication Phase Noise of Soliton Oscillators, X. Li Phase Noise Fundamentals Phase Noise Due to Direct Phase Perturbation Amplitude-to-Phase Noise Conversion Experimental Verification




Autore

David S. Ricketts is an Assistant Professor of ECE at Carnegie Mellon University in Pittsburgh, Pennsylvania.







Altre Informazioni

ISBN:

9781439829806

Condizione: Nuovo
Collana: Devices, Circuits, and Systems
Dimensioni: 9.25 x 6.125 in Ø 1.10 lb
Formato: Copertina rigida
Illustration Notes:115 b/w images, 4 tables and 290
Pagine Arabe: 264






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