Esd Control Program Handbook

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Informationen zum Autor JEREMY M SMALLWOOD is Director, Trainer and Consultant at Electrostatic Solutions Ltd. He started consultancy work in 1987 while doing electrostatic research into ESD ignition of pyrotechnic materials at Southampton University. He has provided ESD Training and Consulting for many electronics system manufacturers and regularly collaborates with international experts on ESD related research. He has also been an invited speaker at many conferences internationally on the topic of ESD control and is a regular conference presenter. Dr. Smallwood is a past Chairman and current UK expert working with the International Electrotechnical Commission (IEC) Technical Committee Electrostatics and helped write British and international standards on ESD control, such as the IEC 61340-5-1. Klappentext Provides the understanding and practical skills needed to develop and maintain an effective ESD control program for manufacturing, storage, and handling of ESD sensitive componentsThis essential guide to ESD control programs explains the principles and practice of ESD control in an easily accessible way whilst also providing more depth and a wealth of references for those who want to gain a deeper knowledge of the subject. It describes static electricity and ESD principles such as triboelectrification, electrostatic fields, and induced voltages, with the minimum of theory or mathematics. It is designed for the reader to "dip into" as required, rather than need to read cover to cover.The ESD Control Program Handbook begins with definitions and commonly used terminology, followed by the principles of static electricity and ESD control. Chapter 3 discusses ESD susceptible electronic devices, and how ESD susceptibility of a component is measured. This is followed by the "Seven habits of a highly effective ESD program", explaining the essential activities of an effective ESD control program. While most texts mainly address manual handling of ESD susceptible devices, Chapter 5 extends the discussion to ESD control in automated systems, processes and handling, which form a major part of modern electronic manufacture.Chapter 6 deals with requirements for compliance given by the IEC 61340-5-1 and ANSI/ESD S20.20 ESD control standards.Chapter 7 gives an overview of the selection, use, care and maintenance of equipment and furniture commonly used to control ESD risks. The chapter explains how these often work together as part of a system and must be specified with that in mind.ESD protective packaging is available in an extraordinary range of forms from bags, boxes and bubble wrap to tape and reel packaging for automated processes. The principles and practice of this widely misunderstood area of ESD control are introduced in Chapter 8. The thorny question of how to evaluate an ESD control program is addressed in Chapter 9 with a goal of compliance with a standard as well as effective control of ESD risks and possible customer perceptions.Whilst evaluating an existing ESD control program provides challenges, developing an ESD control program from scratch provides others. Chapter 10 gives an approach to this.Standard test methods used in compliance with ESD control standards are explained and simple test procedures given in Chapter 11.ESD Training has long been recognised as essential in maintaining effective ESD control. Chapter 12 discusses ways of covering essential topics and how to demonstrate static electricity in action. The book ends with a look at where ESD control may go in the near future.The ESD Control Program Handbook:* Gives readers a sound understanding of the subject to analyze the ESD control requirements of manufacturing processes, and develop an effective ESD control program* Provides practical knowledge, as well as sufficient theory and background to understand the principles of ESD control* Teaches how to track and identify how ESD risks arise, and how to ident...

List of contents

Introduction
 
Foreword
 
Preface
 
Acknowledgements
 
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
 
2.4.1 Induction charging: An object can become charged by grounding it
 
2.4.2 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 Neutralisation of surface voltages by air ions
 
2.8.3 Ionisers
 
2.8.4 Rate of charge neutralisation
 
2.8.5 The region of effective charge neutralisation around an ioniser
 
2.8.6 Ioniser balance and charging of a surface by an unbalanced ioniser
 
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
 
Bibliography
 
3 ESD sensitive devices (ESDS)
 
3.1 What are ESD sensitive devices?
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