Anatoly Tsaliovich – författare

This single source encyclopaedic volume contains the answers to numerous complex shielding problems. It integrates basic concepts with hands-on techniques and practical recommendations on a broad range of EMC and shielding-related subjects: the role and significance of the shielding discipline, electromagnetic energy coupling and transfer mechanisms, shielding cables, enclosures, systems, sound shielding design, evaluation, measurement practices and other timely shielding topics. The text suggests original methods of cost-effective and optimal design selections and solutions to shielding systems and their elements. It spans all shielding levels: single chip, printed circuit board, cables and cable assemblies, whole products and systems - up to complex networks. This text is based on more than 30 years of the author's experience in the electromagnetic shielding and EMC field. A number of "non-cable" topics are included, and a general introduction to the subject is given. The handbook should be a useful resource for answers to difficult shielding-related questions.

The field of electromagnetic shielding is rapidly developing to anticipate and meet the needs of various modern electronics industries - from computers to cable television to telecommunications. And with the latest advances in shielding technology come questions about techniques, approaches, and economic benefits. Cable Shielding for Electromagnetic Compatibility has the answers professionals need. Author Anatoly Tsaliovich draws upon his thirty years of experience in the field to provide this complete, up-to-date reference guide to the fundamentals of electromagnetic compatibility (EMC) and cable shielding. This single-source volume integrates basic concepts with hands-on techniques and practical recommendations on a broad range of subjects, from electromagnetic energy coupling and transfer mechanisms in shielded cables and interconnections to design and selection methods of cost-effective optimal shields for interconnections at all levels: a single chip, a printed wiringboard, a cable and cable assembly, a shelf, a device, and up to complex networks. You'll find comprehensive coverage of the theoretical frameworks and practical applications of the major EMC technologies, as well as: The role of cables and interconnections in the electronic system EMC; How to implement a shielded cabling system in a wide range of consumer, military, medical and industrial applications; How the latest electromagnetic and physical designs of cable shielding meet the electronic system requirements; The latest shielding evaluation techniques and experimental EMC performance data. Cable Shielding for Electromagnetic Compatibility also offers step-by-step direction for the changing national and international standards, working plans for meeting specific design goals, and tested ways to ease the cost burdens of implementation.

The field of electromagnetic shielding is rapidly developing to anticipate and meet the needs of various modern electronics industries - from computers to cable television to telecommunications. And with the latest advances in shielding technology come questions about techniques, approaches, and economic benefits. Cable Shielding for Electromagnetic Compatibility has the answers professionals need. Author Anatoly Tsaliovich draws upon his thirty years of experience in the field to provide this complete, up-to-date reference guide to the fundamentals of electromagnetic compatibility (EMC) and cable shielding. This single-source volume integrates basic concepts with hands-on techniques and practical recommendations on a broad range of subjects, from electromagnetic energy coupling and transfer mechanisms in shielded cables and interconnections to design and selection methods of cost-effective optimal shields for interconnections at all levels: a single chip, a printed wiringboard, a cable and cable assembly, a shelf, a device, and up to complex networks. You'll find comprehensive coverage of the theoretical frameworks and practical applications of the major EMC technologies, as well as: The role of cables and interconnections in the electronic system EMC; How to implement a shielded cabling system in a wide range of consumer, military, medical and industrial applications; How the latest electromagnetic and physical designs of cable shielding meet the electronic system requirements; The latest shielding evaluation techniques and experimental EMC performance data. Cable Shielding for Electromagnetic Compatibility also offers step-by-step direction for the changing national and international standards, working plans for meeting specific design goals, and tested ways to ease the cost burdens of implementation.

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.