2nd Edition. – Taylor & Francis Group, LLC, USA, 2007. – 507 p. – ISBN: 0849370353
Circuits are faster and more tightly packed than ever, wireless technologies increase the electromagnetic (EM) noise environment, new materials entail entirely new immunity issues, and new standards govern the field of electromagnetic compatibility (EMC). Maintaining the practical and comprehensive approach of its predecessor, Principles and Techniques of Electromagnetic Compatibility, Second Edition reflects these emerging challenges and new technologies introduced throughout the decade since the first edition appeared.
What's new in the Second Edition?
Characterization and testing for high-speed design of clock frequencies up to and above 6 GHz
Updates to the regulatory framework governing EM compliance
Additional coverage of the printed circuit board (PCB) environment as well as additional numerical tools
An entirely new section devoted to new applications, including signal integrity, wireless and broadband technologies, EMC safety, and statistical EMC
Added coverage of new materials such as nanomaterials, band gap devices, and composites
Along with new and updated content, this edition also includes additional worked examples that demonstrate how estimates can guide the early stages of design. The focus remains on building a sound foundation on the fundamental concepts and linking this to practical applications, rather than supplying application-specific fixes that do not easily generalize to other areas.
Underlying Concepts and TechniquesIntroduction to Electromagnetic Compatibility
Electromagnetic Fields
Electrical Circuit Components
Electrical Signals and Circuits
General EMC Concepts and TechniquesSources of Electromagnetic Interference
Penetration through Shields and Apertures
Propagation and Crosstalk
Simulation of the Electromagnetic Coupling between Systems
Effects of Electromagnetic Interference on Devices and Systems
Interference Control TechniquesShielding and Grounding
Filtering and Nonlinear Protective Devices
General EMC Design Principles
EMC Standards and TestingEMC Standards
EMC Measurements and Testing
EMC in Systems DesignEMC and Signal Integrity (SI)
EMC and Wireless Technologies
EMC and Broadband Technologies
EMC and Safety
Statistical EMC
AppendicesUseful Vector Formulae
Circuit Parameters of Some Conductor Configurations
The sinx/x Function
Spectra of Trapezoidal Waveforms
Calculation of the Electric Field Received by a Short Electric Dipole