Cable Shielding for Electromagnetic Compatibility [electronic resource] /

Cable Shielding for Electromagnetic Compatibility [electronic resource] /

Show other versions (1)

The mathematical theory of wave propagation along a conductor with an external coaxial return is very old, going back to the work of Rayleigh, Heaviside, and J. J. Thomson. These words were written by S. A. Schelkunoff back in 1934. Indeed, those early works dealt with signal propagation along the line as well as electromagnetic shielding of the environment inside and/or outside the metallic enclosures. Max­ well himself developed pioneering studies of single-layer shielding shells, while a paper with such a "modern" title as "On the Magnetic Shielding of Concentric Spherical Shells" was presented by A. W Rucker as early as 1893! * Such "state of the art" shielding theory created in the last century is even more amazing if you think that at almost the same time (namely, in 1860s), a manuscript of Jules Verne's book, Paris in the. xx Century, was rejected by a publisher because it pre­ dicted such "outrageously incredible" electrotechnology as, for example, FAX service by wires and the electrocutioner's chair. (With regard to the last invention, I suspect many readers would rather Jules Verne has been wrong. ) However, although the beginning of electromagnetic shielding theory and its implementation to electronic cables date back more than a century, this dynamic field keeps constantly growing, driven by practical applications.

Saved in:
Bibliographic Details
Main Authors: Tsaliovich, Anatoly. author., SpringerLink (Online service)
Format: Texto biblioteca
Language:eng
Published: Boston, MA : Springer US, 1995
Subjects:Engineering., Science., Electrical engineering., Communications Engineering, Networks., Science, general.,
Online Access:http://dx.doi.org/10.1007/978-1-4615-6591-8
Tags: Add Tag
No Tags, Be the first to tag this record!
id KOHA-OAI-TEST:211817
record_format koha
institution COLPOS
collection Koha
country México
countrycode MX
component Bibliográfico
access En linea
En linea
databasecode cat-colpos
tag biblioteca
region America del Norte
libraryname Departamento de documentación y biblioteca de COLPOS
language eng
topic Engineering.
Science.
Electrical engineering.
Engineering.
Communications Engineering, Networks.
Science, general.
Engineering.
Science.
Electrical engineering.
Engineering.
Communications Engineering, Networks.
Science, general.
spellingShingle Engineering.
Science.
Electrical engineering.
Engineering.
Communications Engineering, Networks.
Science, general.
Engineering.
Science.
Electrical engineering.
Engineering.
Communications Engineering, Networks.
Science, general.
Tsaliovich, Anatoly. author.
SpringerLink (Online service)
Cable Shielding for Electromagnetic Compatibility [electronic resource] /
description The mathematical theory of wave propagation along a conductor with an external coaxial return is very old, going back to the work of Rayleigh, Heaviside, and J. J. Thomson. These words were written by S. A. Schelkunoff back in 1934. Indeed, those early works dealt with signal propagation along the line as well as electromagnetic shielding of the environment inside and/or outside the metallic enclosures. Max­ well himself developed pioneering studies of single-layer shielding shells, while a paper with such a "modern" title as "On the Magnetic Shielding of Concentric Spherical Shells" was presented by A. W Rucker as early as 1893! * Such "state of the art" shielding theory created in the last century is even more amazing if you think that at almost the same time (namely, in 1860s), a manuscript of Jules Verne's book, Paris in the. xx Century, was rejected by a publisher because it pre­ dicted such "outrageously incredible" electrotechnology as, for example, FAX service by wires and the electrocutioner's chair. (With regard to the last invention, I suspect many readers would rather Jules Verne has been wrong. ) However, although the beginning of electromagnetic shielding theory and its implementation to electronic cables date back more than a century, this dynamic field keeps constantly growing, driven by practical applications.
format Texto
topic_facet Engineering.
Science.
Electrical engineering.
Engineering.
Communications Engineering, Networks.
Science, general.
author Tsaliovich, Anatoly. author.
SpringerLink (Online service)
author_facet Tsaliovich, Anatoly. author.
SpringerLink (Online service)
author_sort Tsaliovich, Anatoly. author.
title Cable Shielding for Electromagnetic Compatibility [electronic resource] /
title_short Cable Shielding for Electromagnetic Compatibility [electronic resource] /
title_full Cable Shielding for Electromagnetic Compatibility [electronic resource] /
title_fullStr Cable Shielding for Electromagnetic Compatibility [electronic resource] /
title_full_unstemmed Cable Shielding for Electromagnetic Compatibility [electronic resource] /
title_sort cable shielding for electromagnetic compatibility [electronic resource] /
publisher Boston, MA : Springer US,
publishDate 1995
url http://dx.doi.org/10.1007/978-1-4615-6591-8
work_keys_str_mv AT tsaliovichanatolyauthor cableshieldingforelectromagneticcompatibilityelectronicresource
AT springerlinkonlineservice cableshieldingforelectromagneticcompatibilityelectronicresource
_version_ 1756268984022335488
spelling KOHA-OAI-TEST:2118172018-07-30T23:44:32ZCable Shielding for Electromagnetic Compatibility [electronic resource] / Tsaliovich, Anatoly. author. SpringerLink (Online service) textBoston, MA : Springer US,1995.engThe mathematical theory of wave propagation along a conductor with an external coaxial return is very old, going back to the work of Rayleigh, Heaviside, and J. J. Thomson. These words were written by S. A. Schelkunoff back in 1934. Indeed, those early works dealt with signal propagation along the line as well as electromagnetic shielding of the environment inside and/or outside the metallic enclosures. Max­ well himself developed pioneering studies of single-layer shielding shells, while a paper with such a "modern" title as "On the Magnetic Shielding of Concentric Spherical Shells" was presented by A. W Rucker as early as 1893! * Such "state of the art" shielding theory created in the last century is even more amazing if you think that at almost the same time (namely, in 1860s), a manuscript of Jules Verne's book, Paris in the. xx Century, was rejected by a publisher because it pre­ dicted such "outrageously incredible" electrotechnology as, for example, FAX service by wires and the electrocutioner's chair. (With regard to the last invention, I suspect many readers would rather Jules Verne has been wrong. ) However, although the beginning of electromagnetic shielding theory and its implementation to electronic cables date back more than a century, this dynamic field keeps constantly growing, driven by practical applications.Preface -- Acknowledgments -- 1. Electronic Cable in an Emi Environment -- 1.1 Introduction to System EMI and EMC -- 1.2 Cable EMI Controlling Factors -- 1.3 Defining and Modeling EMC Performance of Electronic Cable -- 2. Understanding Cable Shielding -- 2.1 Effects and Problems of Cable Shielding -- 2.2 Bare Necessities: A Theoretical Detour -- 2.3 Shielding—This Is Not Very Simple -- 3. Transfer Parameters of Cable Shields -- 3.1 Figure of Merit of Cable Shield Performance -- 3.2 The Electromagnetic Theory of Solid Homogeneous Shielding Tubes -- 3.3 Practical Tubular Shields -- 3.4 Spiral Shields -- 3.5 Braided Shield -- 3.6 Multilayer Shields -- 4. Electromagnetic Coupling and Shielding -- 4.1 Shielding to Decouple and Coupling to Shield -- 4.2 Coupling and Shielding in Static and Stationary Fields -- 4.3 Shielding for Crosstalk Protection -- 4.4 Shielding from Radiating Fields -- 4.5 Grounding and Termination of Cable Shields -- 4.6 Transient Response of Cable Shielding -- 5. Measurement Techniques and Apparatus: The Tools of the Trade -- 5.1 The Proof of the Shielding -- 5.2 System Shielding Effectiveness Measurements -- 5.3 Cable Assembly Measurements -- 5.4 Transfer Impedance and Capacitive Coupling Impedance Measurements -- 5.5 Testing in Time Domain -- 5.6 Test Result Correlation And Interpretation -- 6. Cable Shielding Engineering -- 6.1 System Approach to Shielding Engineering -- 6.2 Cable Shielding Design for EMC Performance -- 6.3 Performance Stability and Reliability of Cable Shielding -- 6.4 Shielding Unlimited.The mathematical theory of wave propagation along a conductor with an external coaxial return is very old, going back to the work of Rayleigh, Heaviside, and J. J. Thomson. These words were written by S. A. Schelkunoff back in 1934. Indeed, those early works dealt with signal propagation along the line as well as electromagnetic shielding of the environment inside and/or outside the metallic enclosures. Max­ well himself developed pioneering studies of single-layer shielding shells, while a paper with such a "modern" title as "On the Magnetic Shielding of Concentric Spherical Shells" was presented by A. W Rucker as early as 1893! * Such "state of the art" shielding theory created in the last century is even more amazing if you think that at almost the same time (namely, in 1860s), a manuscript of Jules Verne's book, Paris in the. xx Century, was rejected by a publisher because it pre­ dicted such "outrageously incredible" electrotechnology as, for example, FAX service by wires and the electrocutioner's chair. (With regard to the last invention, I suspect many readers would rather Jules Verne has been wrong. ) However, although the beginning of electromagnetic shielding theory and its implementation to electronic cables date back more than a century, this dynamic field keeps constantly growing, driven by practical applications.Engineering.Science.Electrical engineering.Engineering.Communications Engineering, Networks.Science, general.Springer eBookshttp://dx.doi.org/10.1007/978-1-4615-6591-8URN:ISBN:9781461565918

Similar Items