Electromagnetic Compatibility for Device Design and System Integration
Autor Karl-Heinz Gonschorek, Ralf Vicken Limba Engleză Paperback – 3 dec 2014
Fulfilling emission limits and immunity requirements as well as handling apparently complex cases of incompatibility demands a deeper understanding of the physical interrelations and of Maxwell's theory.
Based on the authors’ experiences, the textbook provides some help in solving such interferential cases.
It contains many illustrative examples and more than 80 exercises with solutions.
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Specificații
ISBN-13: 9783642424236
ISBN-10: 3642424236
Pagini: 480
Ilustrații: X, 470 p.
Dimensiuni: 155 x 235 x 25 mm
Greutate: 0.67 kg
Ediția:2009
Editura: Springer Berlin, Heidelberg
Colecția Springer
Locul publicării:Berlin, Heidelberg, Germany
ISBN-10: 3642424236
Pagini: 480
Ilustrații: X, 470 p.
Dimensiuni: 155 x 235 x 25 mm
Greutate: 0.67 kg
Ediția:2009
Editura: Springer Berlin, Heidelberg
Colecția Springer
Locul publicării:Berlin, Heidelberg, Germany
Public țintă
Professional/practitionerCuprins
Motivation and Overview.- Thinking in Voltages, Currents, Fields and Impedances.- Electric Fields.- Magnetic Fields.- Electromagnetic Fields.- The Interference Model.- Intrasystem Measures.- Atmospheric Noise, Electromagnetic Environment and Limit Values.- EMC Engineering and Analysis.- Numerical Techniques for Field Calculation.- Model for Immunity Testing.- Electric Fields of Rod Arrangements.- Magnetic Stray Fields.- Self and Mutual Inductances.- Elementary Dipoles.- The Polarization Ellipsis.- Skin Effect and Shielding Theory of Schelkunoff.- Example of an EMC-Design Guide for Systems.- 25 EMC-Rules for the PCB-Layout and the Device Construction.- Easy-to-use Procedure for Predicting the Cable Transfer Impedance.- Capacitances and Inductances of Common Interest.- Reports of Electromagnetic Incompatibilities.- Solutions to the Exercises.- Physical Constants and Conversion Relations.
Notă biografică
Curriculum Vitae of Prof. Dr.-Ing. Karl-Heinz Gonschorek
Karl-Heinz Gonschorek was born in a small village close to Hanover (Northern Germany) in Sept. 1946. In 1975 he received the Dipl.-Ing. (M.S.E.E) in electromagnetics, concentrating on high frequencies, from the University of Hanover. From 1975 to 1980 he was a scientific co-worker at the University of the Armed Forces in Hamburg.
In 1980 he wrote his doctoral thesis (PhD-Thesis) on electromagnetic pulse coupling of arbitrarily located thin electrodes. From 1980 to 1988 he was with the Research and Development Group of Siemens in Erlangen, Germany, specializing in numerical field calculation and problems related to electromagnetic compatibility. In Oct. 1988 he became a professor of electromagnetic influences at the Hamburg-Harburg University of Technology, Germany. Since 1995 he holds the Siemens Foundation Chair on Electromagnetic Compatibility at the Dresden University of Technology, Germany. In April 2000 his collegues electeted him to be the Dean of the Faculty of Electrical Engineering and Information Technology for a period of three years. He is author and co-author of more than 130 papers, member of IEEE and VDE, chairman of the bi-annual EMC congresss.
Curriculum Vitae of Prof. Dr.-Ing. Ralf Vick
Ralf Vick studied electrical engineering at Dresden University of Technology, Germany. Afterwards he worked on the subject of immunity of microcontrollers to impulsive disturbances and received his Ph.D. degree in 1995. For a period of ten years he had been an EMC consultant in private practice. He has been involved in various projects which include the EMC of the German Frigate F124 and investigation of the radiation of power line communication systems. He was Professor for industrial electronic in Dresden in 2004- 2008. Since 2008 he is head of the EMC chair at the University in Magdeburg, Germany.
Karl-Heinz Gonschorek was born in a small village close to Hanover (Northern Germany) in Sept. 1946. In 1975 he received the Dipl.-Ing. (M.S.E.E) in electromagnetics, concentrating on high frequencies, from the University of Hanover. From 1975 to 1980 he was a scientific co-worker at the University of the Armed Forces in Hamburg.
In 1980 he wrote his doctoral thesis (PhD-Thesis) on electromagnetic pulse coupling of arbitrarily located thin electrodes. From 1980 to 1988 he was with the Research and Development Group of Siemens in Erlangen, Germany, specializing in numerical field calculation and problems related to electromagnetic compatibility. In Oct. 1988 he became a professor of electromagnetic influences at the Hamburg-Harburg University of Technology, Germany. Since 1995 he holds the Siemens Foundation Chair on Electromagnetic Compatibility at the Dresden University of Technology, Germany. In April 2000 his collegues electeted him to be the Dean of the Faculty of Electrical Engineering and Information Technology for a period of three years. He is author and co-author of more than 130 papers, member of IEEE and VDE, chairman of the bi-annual EMC congresss.
Curriculum Vitae of Prof. Dr.-Ing. Ralf Vick
Ralf Vick studied electrical engineering at Dresden University of Technology, Germany. Afterwards he worked on the subject of immunity of microcontrollers to impulsive disturbances and received his Ph.D. degree in 1995. For a period of ten years he had been an EMC consultant in private practice. He has been involved in various projects which include the EMC of the German Frigate F124 and investigation of the radiation of power line communication systems. He was Professor for industrial electronic in Dresden in 2004- 2008. Since 2008 he is head of the EMC chair at the University in Magdeburg, Germany.
Textul de pe ultima copertă
The Electromagnetic Compatibility has become an increasingly essential factor for placing a product on the global, world wide market.
Fulfilling emission limits and immunity requirements as well as handling apparently complex cases of incompatibility demands a deeper understanding of the physical interrelations and of Maxwell's theory.
Based on the authors’ experiences, the textbook provides some help in solving such interferential cases.
It contains many illustrative examples and more than 80 exercises with solutions.
Fulfilling emission limits and immunity requirements as well as handling apparently complex cases of incompatibility demands a deeper understanding of the physical interrelations and of Maxwell's theory.
Based on the authors’ experiences, the textbook provides some help in solving such interferential cases.
It contains many illustrative examples and more than 80 exercises with solutions.
Caracteristici
This book is the result of 30 years of scientific pursuit with EMC, of EMC-plannings and solving EMC-problems It contains more than 40 worked-out numerical examples and more than 80 numerical exercises with final solutions It helps to analyze and solve EMC problems by understanding the physics behind