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The application of computational electromagnetics to real-world
EMI/EMC engineering is an emerging technology. With the advancement
in electronics, EMI/EMC issues have greatly increased in
complexity. As a result, it is no longer possible to rely
exclusively on traditional techniques and expect cost-effective
solutions. The first edition of this book introduced computational
electromagnetics to EMI/EMC engineering. This second edition
continues the introduction of computational electromagnetics to
EMI/EMC engineering, but also adds new modeling techniques, namely
the Partial Element Equivalent Circuit method and the Transmission
Line Matrix method, and updates to the science of EMI/EMC modeling
that have occurred since the first edition was published. This book
combines the essential elements of electromagnetic theory,
computational techniques, and EMI/EMC engineering as they apply to
computational modeling for EMI/EMC applications. It is intended to
provide an understanding for those interested in incorporating
modeling techniques in their work. A variety of modeling techniques
are needed for anyone interested in using computational modeling in
the real world. This book includes an introduction of all the
popular modeling techniques, such as the Finite-Difference
Time-Domain method, the Method of Moments, the Finite Element
Method, the Partial Element Equivalent Circuit method and the
Transmission Line Matrix method. EMI/EMC Computational Modeling
Handbook, Second Edition will serve many different levels of
readers. It will serve as a basic introduction to modeling as
applied to EMI/EMC problems for the engineer interested in getting
started, and it will help the person already using modeling as a
tool to become more effective in using different modeling
techniques. It will also be useful for the engineer who is familiar
with computational techniques and wishes to apply them to EMI/EMC
applications. This book can also be used as a text to help students
of electromagnetic theory and application better understand
real-world challenges facing engineers.
The application of computational electromagnetics to practical
EMI/EMC engineering is an emerging technology. Because of the
increased complexity in EMI/EMC issues resulting from advancements
in electronics and telecommunications, it is no longer possible to
rely exclusively on traditional techniques and tools to solve the
growing list of electronic engineering design problems. EMI/EMC
Computational Modeling Handbook introduces modeling and simulation
of electromagnetics to real-world EMI/EMC engineering. It combines
the essentials of electromagnetics, computational techniques, and
actual EMI/EMC applications. Included are such popular full-wave
computational modeling techniques as the Method of Moments,
Finite-Difference Time Domain Technique, Finite Element Method, and
several others. The authors have included a myriad of applications
for computers, telecommunications, consumer electronics, medical
electronics, and military uses. EMI/EMC Computational Modeling
Handbook is an invaluable reference work for practicing EMI/EMC
engineers, electronic design engineers, and any engineer involved
in computational electromagnetics.
The application of computational electromagnetics to real-world
EMI/EMC engineering is an emerging technology. With the advancement
in electronics, EMI/EMC issues have greatly increased in
complexity. As a result, it is no longer possible to rely
exclusively on traditional techniques and expect cost-effective
solutions. The first edition of this book introduced computational
electromagnetics to EMI/EMC engineering. This second edition
continues the introduction of computational electromagnetics to
EMI/EMC engineering, but also adds new modeling techniques, namely
the Partial Element Equivalent Circuit method and the Transmission
Line Matrix method, and updates to the science of EMI/EMC modeling
that have occurred since the first edition was published. This book
combines the essential elements of electromagnetic theory,
computational techniques, and EMI/EMC engineering as they apply to
computational modeling for EMI/EMC applications. It is intended to
provide an understanding for those interested in incorporating
modeling techniques in their work. A variety of modeling techniques
are needed for anyone interested in using computational modeling in
the real world. This book includes an introduction of all the
popular modeling techniques, such as the Finite-Difference
Time-Domain method, the Method of Moments, the Finite Element
Method, the Partial Element Equivalent Circuit method and the
Transmission Line Matrix method. EMI/EMC Computational Modeling
Handbook, Second Edition will serve many different levels of
readers. It will serve as a basic introduction to modeling as
applied to EMI/EMC problems for the engineer interested in getting
started, and it will help the person already using modeling as a
tool to become more effective in using different modeling
techniques. It will also be useful for the engineer who is familiar
with computational techniques and wishes to apply them to EMI/EMC
applications. This book can also be used as a text to help students
of electromagnetic theory and application better understand
real-world challenges facing engineers.
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