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Jeremy M. Smallwood
The ESD Control Program Handbook
Читать книгу The ESD Control Program Handbook - Jeremy M. Smallwood - Страница 1
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Вернуться на страницу книги The ESD Control Program Handbook
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Страница 1
Table of Contents
List of Tables
List of Illustrations
Guide
Pages
The ESD Control Program Handbook
Copyright
Страница 9
Introduction
References
Further Reading
Foreword
Preface
Acknowledgments
1 Definitions and Terminology
1.1 Scientific Notation and SI Unit Prefixes
1.2 Charge, Electrostatic Fields, and Voltage 1.2.1 Charge
1.2.2 Ions
1.2.3 Dissipation and Neutralization of Electrostatic Charge
1.2.4 Voltage (Potential)
1.2.5 Electric or Electrostatic Field
1.2.6 Gauss's Law
1.2.7 Electrostatic Attraction (ESA)
1.2.8 Permittivity
1.3 Electric Current
1.4 Electrostatic Discharge (ESD)
1.4.1 ESD Models
1.4.2 Electromagnetic Interference (EMI)
1.5 Earthing, Grounding, and Equipotential Bonding
1.6 Power and Energy
1.7 Resistance, Resistivity, and Conductivity
1.7.1 Resistance
1.7.2 Resistivity and Conductivity 1.7.2.1 Surface Resistivity and Surface Resistance
1.7.2.2 Volume Resistance, Volume Resistivity, and Conductivity
1.7.3 Insulators, Conductors, Conductive, Dissipative, and Antistatic Materials
1.7.4 Point‐to‐Point Resistance
1.7.5 Resistance to Ground
1.7.6 Combination of Resistances
1.8 Capacitance
1.9 Shielding
1.10 Dielectric Breakdown Strength
1.11 Relative Humidity and Dew Point
References
2 The Principles of Static Electricity and Electrostatic Discharge (ESD) Control 2.1 Overview
2.2 Contact Charge Generation (Triboelectrification)
2.2.1 The Polarity and Magnitude of Charging
2.3 Electrostatic Charge Build‐Up and Dissipation
2.3.1 A Simple Electrical Model of Electrostatic Charge Build‐Up
2.3.2 Capacitance Is Variable
2.3.3 Charge Decay Time
2.3.4 Conductors and Insulators Revisited
2.3.5 The Effect of Relative Humidity
2.4 Conductors in Electrostatic Fields 2.4.1 Voltage on Conducting and Insulating Bodies and Surfaces
2.4.2 Electrostatic Field in Practical Situations
2.4.3 Faraday Cage
2.4.4 Induction: An Isolated Conductive Object Attains a Voltage When in an Electric Field
2.4.5 Induction Charging: An Object Can Become Charged by Grounding It
2.4.6 Faraday Pail and Shielding of Charges Within a Closed Object
2.5 Electrostatic Discharges
2.5.1 ESD (Sparks) Between Conducting Objects
2.5.2 ESD from Insulating Surfaces
2.5.3 Corona Discharge
2.5.4 Other Types of Discharge
2.6 Common Electrostatic Discharge Sources
2.6.1 ESD from the Human Body
2.6.2 ESD from Charged Conductive Objects
2.6.3 Charged Device ESD
2.6.4 ESD from a Charged Board
2.6.5 ESD from a Charged Module
2.6.6 ESD from Charged Cables
2.7 Electronic Models of ESD
2.8 Electrostatic Attraction (ESA)
2.8.1 ESA and Particle Contamination
2.8.2 Neutralization of Surface Voltages by Air Ions
2.8.3 Ionizers
2.8.4 Rate of Charge Neutralization
2.8.5 The Region of Effective Charge Neutralization Around an Ionizer
2.8.6 Ionizer Balance and Charging of a Surface by an Unbalanced Ionizer
2.9 Electromagnetic Interference (EMI)
2.10 How to Avoid ESD Damage of Components 2.10.1 The Circumstances Leading to ESD Damage of a Component
2.10.2 Risk of ESD Damage
2.10.3 The Principles of ESD Control
References
Further Reading
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