05423nam 2200673 450 991082491160332120230607225814.00-470-84672-00-471-49065-20-470-85258-5(CKB)2550000001219951(EBL)695481(SSID)ssj0001441260(PQKBManifestationID)11804049(PQKBTitleCode)TC0001441260(PQKBWorkID)11392514(PQKB)10044538(MiAaPQ)EBC695481(Au-PeEL)EBL695481(CaPaEBR)ebr10995093(CaONFJC)MIL674937(OCoLC)898101169(EXLCZ)99255000000121995120141222h20022002 uy 0engur|n|---|||||txtccrTransient electronics pulsed circuit technology /Paul W. SmithChichester, West Sussex, [England] :John Wiley & Sons,2002.©20021 online resource (286 p.)Description based upon print version of record.0-471-97773-X 1-322-43655-X Includes bibliographical references and index.Transient Electronics ; Contents ; Preface ; 1 Mathematical Techniques for Pulse and Transient Circuit Analysis; 1.1 Introduction; 1.2 The Classical Method; 1.3 The Complex Frequency Method; 1.4 The Laplace Transform Method; 1.4.1 Application of the Laplace Transform Method; 1.4.2 Laplace Transforms of Some Basic Signals; 1.4.3 Some Properties of the Laplace Transformation; 1.4.4 Finding the Inverse Laplace Transform L(-1); 1.4.5 The Laplace Transform Circuit; 1.4.6 System or Transfer Functions; 1.4.7 Direct Determination of Rise and Delay Time Response of Networks; References2 Transmission Line Theory and Transient Response2.1 Introduction; 2.2 Circuit Analysis of Transmission Lines; 2.3 Continuous Sinusoidal Transmission Line Excitation; 2.3.1 Low Loss and Loss-free Lines; 2.3.2 The Transmission Line as a Two-port Network; 2.3.3 Impedance Relations for Terminated Lines; 2.3.4 Line Reflections; 2.4 Transient Transmission Line Response; 2.4.1 Transient Response of the Infinite Line; 2.4.2 Transient Response of Lossy Transmission Lines; 2.4.3 Transient Response of Terminated Lines; 2.4.4 Input Impedance of Terminated Lines for Transient Signals2.4.5 Reflections on Lines with Reactive Terminations2.4.6 Reflection Charts or Lattice Diagrams; References; 3 Pulse-forming Lines; 3.1 Introduction; 3.2 The Single Pulse-forming Line; 3.2.1 Lattice Diagram Representation of Pulse-forming Action using a Single Transmission Line; 3.3 Pulse-forming using the Blumlein Pulse-forming Line; 3.3.1 Lattice Diagram Representation of Pulse-forming Action using a Blumlein Pulse-forming Line; 3.4 The Laplace Transform Analysis of Pulse-forming Action by Transmission Lines; 3.4.1 Pulse-forming by the Simple Pulse-forming Line3.4.2 Pulse-forming by the Blumlein Pulse-forming Line3.5 Some Other Pulse-forming Line Variants; 3.5.1 The Stacked Blumlein Pulse-forming Line Generator; 3.5.2 The Darlington Circuits; 3.5.3 Further Darlington-like Pulse-forming Lines; 3.5.4 The Self-matching Pulse-forming Line; 3.5.5 The Bi-directional or Zero Integral Pulse-forming Line; 3.5.6 A Pseudo-repetitive Pulse-forming Line; 3.5.7 Current-fed Pulse-forming Lines; References; 4 Pulse-forming Networks; 4.1 Introduction; 4.2 LC Ladder Networks; 4.2.1 The Impedance Characteristics of an LC Ladder Network4.2.2 General Transform Equations for a Ladder Network4.2.3 Input Impedance Functions of Open Circuit and Short Circuit Ladder Networks; 4.2.4 Propagation Characteristics of an LC Ladder Network; 4.3 Pulse-forming Action of an LC Ladder Network; 4.4. The Synthesis of Alternative LC Pulse-forming Networks; 4.4.1 Guillemin's Method; 4.4.2 Current-fed Networks; 4.4.3 The Synthesis of Alternative LC Current-fed Pulse-forming Networks; 4.4.4 Guillemin Type Current-fed Pulse-forming Networks; 4.5 Some Further Comments on Pulse-forming Networks; References; 5 Pulse Transformers; 5.1 Introduction5.2 The Ideal Transformer and the Concepts of Referral and ReluctancePassive Pulse Generators are circuits used to generate very high power electrical pulses. Such pulses find application in a wide range of disciplines, including plasma generation, gas laser physics and radar.* Includes two introductory chapters on techniques used to analyse passive pulse generators* Includes worked examplesA valuable reference resource for specialist undergraduates, post graduate students and researchers active in the field og pulsed power and areas where pulsed power is applied, including physicists, engineers and those with an interest in waste and materials processing.Transients (Electricity)Pulse circuitsElectric power systemsMathematical modelsTransients (Electricity)Pulse circuits.Electric power systemsMathematical models.621.3Smith Paul W.221607MiAaPQMiAaPQMiAaPQBOOK9910824911603321Transient electronics4102745UNINA