S-Parameters for Signal Integrity
Autor Peter J. Pupalaikisen Limba Engleză Hardback – 5 feb 2020
Preț: 831.12 lei
Preț vechi: 966.41 lei
-14% Nou
Puncte Express: 1247
Preț estimativ în valută:
159.06€ • 165.22$ • 132.12£
159.06€ • 165.22$ • 132.12£
Carte disponibilă
Livrare economică 11-25 ianuarie 25
Preluare comenzi: 021 569.72.76
Specificații
ISBN-13: 9781108489966
ISBN-10: 1108489966
Pagini: 664
Ilustrații: 223 b/w illus.
Dimensiuni: 195 x 253 x 34 mm
Greutate: 1.54 kg
Editura: Cambridge University Press
Colecția Cambridge University Press
Locul publicării:Cambridge, United Kingdom
ISBN-10: 1108489966
Pagini: 664
Ilustrații: 223 b/w illus.
Dimensiuni: 195 x 253 x 34 mm
Greutate: 1.54 kg
Editura: Cambridge University Press
Colecția Cambridge University Press
Locul publicării:Cambridge, United Kingdom
Cuprins
Introduction; Part I. Scattering Parameters: 1. Network parameter models; 2. Waves; 3. Scattering parameters; 4. S-parameter system models; 5. Reference impedance; 6. Sources; 7. Transmission lines; Part II. Applications: 8. System descriptions; 9. Simulation; 10. De-embedding; 11. Virtual probing; Part III. Signal Processing and Measurement: 12. Frequency responses, impulse responses and convolution; 13. Waveforms and filters; 14. The impedance profile; 15. Measurement; 16. Model extraction; Part IV. SignalIntegrity: 17. SignalIntegrity.Lib package; 18. SignalIntegrity app; Afterword; Appendices: A. Terminology and conventions; B. Telegrapher's equations; C. Matrix algebra; D. Symbolic device solutions; References; Index.
Recenzii
'The most modern and up-to-date book on linear network theory with applications. Deep and comprehensive theory is coupled with detailed applications, making this book a must-have not only for signal integrity professionals, but for any microwave engineer.' Andrea Ferrero, Keysight
'This book provides unique and consistent description of S-parameters use for analysis of linear networks, signal measurement and processing in one volume, supplemented and illustrated with free open source signal integrity software. The book can be used for learning the subject of emerging microwave signal integrity or as a comprehensive and indispensable reference for every microwave and signal integrity engineer and scientist.' Yuriy Shlepnev, Simberian Inc.
'This is an outstanding and refreshing book for the novice and advanced engineer alike. Written by a well-known expert in the field, it provides a rather unique access to the difficult topic of signal integrity, through a systematic learning by doing approach. A software, which is freely accessible through an open-source Python library, 'Signal Integrity', allows the user to easily program the numerous examples that accompany the theory. The material ranges from simple to complex problems, using the S-parameter concept for high-speed signal integrity as a unifying theme. The book is appropriate for self-study and as a reference for teaching, and empowers the reader with a very unusual and stimulating blend of competences.' Peter Wittwer, University of Geneva
'S-parameters for Signal Integrity is a more circuit-heavy look at the S-parameter data/simulation/design environment than one usually sees and that approach can be very helpful for a number of problems.' Jon Martens, Anritsu
'This is a long overdue and amazing book that will equally appeal to people looking for a deep theoretical foundation in the mathematics behind some of the commonly-used signal integrity computations we use today and also to those practicing engineers who are looking for real-life answers about S-parameter simulations, measurements and applications. This is also a 'must-read' book for anyone who wants to learn and use the open-source code that does pretty much everything we need to simulate in signal integrity.' Istvan Novak, IEEE Life Fellow, Samtec
'S-parameters are the industry-standard way of describing the electrical properties of interconnects; in measurement, in simulation and in specifications. While there are scattered resources on the formalism of S-parameters, they all focus on RF and microwave applications. Here, in one resource, is the definitive standard for using S-parameters in signal integrity applications where a time domain transform is essential. This new book, written by a world-class expert, establishes the foundations for using S-parameters to solve real world signal integrity related problems.' Eric Bogatin, Teledyne LeCroy Signal Integrity Academy and University of Colorado, Boulder
'… combines frequency-domain concepts from S-parameter theory with the time-domain concepts of digital oscilloscope technology to optimize transmission of digital signals through circuitry. Pupalaikis, an engineer for Teledyne LeCroy and IEEE Fellow, has produced what is likely to be the definitive work on scattering parameters as applied to modern digital systems. Supplementing its descriptive character, the book also provides code for use with an open-source Python package to perform many of the extremely complex operations discussed in the text … The ideal reader is a Python programmer and linear algebra expert who is also familiar with graduate-level signals and systems topics. That said, for specialists in signal integrity, Pupalaikis appears to have asked and answered most of the important questions about modeling and measurements with respect to passive linear circuits for digital transmission, including coverage of equalization and other recent developments.' K. D. Stephan, Choice
'This book provides unique and consistent description of S-parameters use for analysis of linear networks, signal measurement and processing in one volume, supplemented and illustrated with free open source signal integrity software. The book can be used for learning the subject of emerging microwave signal integrity or as a comprehensive and indispensable reference for every microwave and signal integrity engineer and scientist.' Yuriy Shlepnev, Simberian Inc.
'This is an outstanding and refreshing book for the novice and advanced engineer alike. Written by a well-known expert in the field, it provides a rather unique access to the difficult topic of signal integrity, through a systematic learning by doing approach. A software, which is freely accessible through an open-source Python library, 'Signal Integrity', allows the user to easily program the numerous examples that accompany the theory. The material ranges from simple to complex problems, using the S-parameter concept for high-speed signal integrity as a unifying theme. The book is appropriate for self-study and as a reference for teaching, and empowers the reader with a very unusual and stimulating blend of competences.' Peter Wittwer, University of Geneva
'S-parameters for Signal Integrity is a more circuit-heavy look at the S-parameter data/simulation/design environment than one usually sees and that approach can be very helpful for a number of problems.' Jon Martens, Anritsu
'This is a long overdue and amazing book that will equally appeal to people looking for a deep theoretical foundation in the mathematics behind some of the commonly-used signal integrity computations we use today and also to those practicing engineers who are looking for real-life answers about S-parameter simulations, measurements and applications. This is also a 'must-read' book for anyone who wants to learn and use the open-source code that does pretty much everything we need to simulate in signal integrity.' Istvan Novak, IEEE Life Fellow, Samtec
'S-parameters are the industry-standard way of describing the electrical properties of interconnects; in measurement, in simulation and in specifications. While there are scattered resources on the formalism of S-parameters, they all focus on RF and microwave applications. Here, in one resource, is the definitive standard for using S-parameters in signal integrity applications where a time domain transform is essential. This new book, written by a world-class expert, establishes the foundations for using S-parameters to solve real world signal integrity related problems.' Eric Bogatin, Teledyne LeCroy Signal Integrity Academy and University of Colorado, Boulder
'… combines frequency-domain concepts from S-parameter theory with the time-domain concepts of digital oscilloscope technology to optimize transmission of digital signals through circuitry. Pupalaikis, an engineer for Teledyne LeCroy and IEEE Fellow, has produced what is likely to be the definitive work on scattering parameters as applied to modern digital systems. Supplementing its descriptive character, the book also provides code for use with an open-source Python package to perform many of the extremely complex operations discussed in the text … The ideal reader is a Python programmer and linear algebra expert who is also familiar with graduate-level signals and systems topics. That said, for specialists in signal integrity, Pupalaikis appears to have asked and answered most of the important questions about modeling and measurements with respect to passive linear circuits for digital transmission, including coverage of equalization and other recent developments.' K. D. Stephan, Choice
Notă biografică
Descriere
A practical guide to solving signal integrity problems using s-parameters.