| Description |
1 online resource |
| Series |
Wiley - IEEE Ser |
|
Wiley - IEEE Ser
|
| Contents |
Cover -- Title Page -- Copyright -- Contents -- Introduction -- Foreword -- Preface -- Acknowledgments -- Chapter 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 -- Chapter 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 |
| Subject |
Electronic apparatus and appliances -- Protection.
|
|
Electric discharges.
|
|
Electrostatics.
|
|
TECHNOLOGY & ENGINEERING / Electronics / Circuits / General.
|
|
Electric discharges
|
|
Electronic apparatus and appliances -- Protection
|
|
Electrostatics
|
| Form |
Electronic book
|
| ISBN |
9781118694572 |
|
1118694570 |
|
9781118694558 |
|
1118694554 |
|
