Tabla de Contenidos:
  • Front Cover
  • EMC for Product Designers
  • Copyright
  • Contents
  • Preface
  • Part 1. Legislation and Standards
  • Chapter 1. Introduction
  • 1.1 What is EMC?
  • 1.2 Compatibility between and within systems
  • 1.3 The scope of EMC
  • 1.4 Electromagnetic fields and human health
  • Chapter 2. The EMC and Radio Directives
  • 2.1 History
  • 2.2 The third EMC Directive
  • 2.3 The Radio Equipment Directive
  • 2.4 Compliance procedures
  • 2.5 Action for compliance for a product manufacturer
  • Chapter 3. International EMC compliance requirements
  • 3.1 Introduction
  • 3.2 The USA: FCC Rules
  • 3.3 Canada
  • 3.4 China
  • 3.5 Australia and New Zealand
  • 3.6 Russia and the EAEU
  • 3.7 Japan
  • 3.8 Taiwan
  • 3.9 South Korea
  • Chapter 4. Commercial standards
  • 4.1 The standards making bodies
  • 4.2 Generic standards
  • emissions
  • 4.3 Main product standards
  • emissions
  • 4.4 Generic standards
  • immunity
  • 4.5 Basic standards
  • EN 61000-3-X and -4-X
  • 4.6 Product standards
  • 4.7 Measurement standards
  • 4.8 RF emissions limits
  • Chapter 5. Other standards and legislation
  • 5.1 Automotive
  • 5.2 Military
  • 5.3 Aerospace
  • 5.4 Rail
  • Chapter 6. EMC and Functional Safety
  • 6.1 Design for functional safety
  • 6.2 Interference effects on safety
  • 6.3 Techniques for assuring safety under EMI
  • Part 2. Testing
  • Chapter 7. RF emissions measurements
  • 7.1 Emissions measuring instruments
  • 7.2 Transducers
  • 7.3 Sites and facilities
  • 7.4 Test methods
  • 7.5 Measurement uncertainty
  • Chapter 8. Immunity tests
  • 8.1 RF immunity
  • 8.2 ESD and transient immunity
  • 8.3 Military susceptibility tests
  • 8.4 IC immunity tests
  • Chapter 9. Low frequency tests
  • 9.1 Mains harmonic and flicker emission
  • 9.2 Magnetic field and power quality immunity
  • Chapter 10. Test planning
  • 10.1 The need for a test plan
  • 10.2 Contents of the test plan.
  • 10.3 Immunity performance criteria
  • Part 3. Design
  • Chapter 11. Interference coupling mechanisms
  • 11.1 Source and victim
  • 11.2 Emissions
  • 11.3 Immunity
  • 11.4 Mains harmonics
  • Chapter 12. Layout and grounding
  • 12.1 Equipment layout and grounding
  • 12.2 PCB layout
  • Chapter 13. Digital and analogue circuit design
  • 13.1 Design for emissions control
  • 13.2 The power switching converter
  • 13.3 Design for immunity
  • Chapter 14. Interfaces and filtering
  • 14.1 Cables and connectors
  • 14.2 Filtering and suppression
  • Chapter 15. Shielding
  • 15.1 Shielding theory
  • 15.2 Shielding practice
  • Chapter 16. Systems EMC
  • 16.1 System versus product EMC
  • 16.2 Earthing and bonding
  • 16.3 Cabinets, cubicles and chambers
  • 16.4 Cabling
  • 16.5 Switching converter installation
  • 16.6 Lightning protection
  • Chapter 17. EMC management
  • 17.1 Managing the EMC process
  • 17.2 The design process
  • 17.3 Test management
  • 17.4 Compliance during production and beyond
  • 17.5 The control plan and documentation for Directives
  • Appendix A. Design checklist
  • Appendix B. CAD for EMC
  • B.1 Overview
  • B.2 Modelling packages
  • B.3 Circuit CAD
  • Appendix C. Case studies
  • C.1 Cockpit display
  • C.2 Liquid tank sensor
  • C.3 The problem with wall-warts
  • C.4 The dipole problem: a box in two halves
  • Appendix D. Useful tables and formulae
  • D.1 The deciBel
  • D.2 Antennas
  • D.3 Fields
  • D.4 Shielding
  • D.5 Capacitance, inductance and PCB layout
  • D.6 Electrical length and wavelength
  • D.7 Filters
  • D.8 Fourier series
  • Appendix E. The EU and EEA countries
  • The European Union
  • Glossary
  • Bibliography
  • Index
  • Back Cover.