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Electrostatic discharge : understand, simulate and fix ESD problems / Michel Mardiguian.

By: Mardiguian, Michel [author.].
Contributor(s): John Wiley & Sons [publisher.] | IEEE Xplore (Online service) [distributor.].
Material type: materialTypeLabelBookPublisher: Piscataway, New Jersey : IEEE Press, 2009Distributor: [Piscataqay, New Jersey] : IEEE Xplore, [2009]Edition: 3rd ed.Description: 1 PDF (xii, 299 pages) : illustrations.Content type: text Media type: electronic Carrier type: online resourceISBN: 9780470495070.Subject(s): Electronic apparatus and appliances -- Protection | Electric discharges | Electrostatics | Acceleration | Atmospheric modeling | Biological system modeling | Cable shielding | Capacitance | Capacitors | Clamps | Conductors | Connectors | Contacts | Couplings | Current density | Current measurement | Discharges | Electrodes | Electromagnetic interference | Electronic components | Electrostatic discharge | Electrostatics | Equations | Fatigue | Fourier series | Grounding | Heating | IEC standards | Immune system | Indexes | Integrated circuit modeling | Integrated circuits | Ions | Junctions | Lead | Logic gates | Manufacturing | Materials | Mathematical model | Metals | Needles | Noise | Paints | Physics | Probes | Rails | Resistance | Resistors | SPICE | Schottky diodes | Sensitivity | Surface discharges | Surges | Switches | System-on-a-chip | Testing | Time domain analysis | Time frequency analysis | Transient analysis | Transistors | Varistors | WireGenre/Form: Electronic books.Additional physical formats: Print version:: No titleDDC classification: 621.317 Online resources: Abstract with links to resource Also available in print.
Contents:
Preface to the First Edition -- Preface to the Third Edition -- Acknowledgements -- 1. The Electrostatic Discharge Phenomenon -- 1.1. Physics Involved -- 1.2. Influencing Parameters -- 1.3. Various Types of Electrostatic Charging with Humans and Objects -- 1.4. Statistics of Voltages and Currents Reached During ESD -- 1.5. Waveforms of Electrostatic Discharges -- References -- 2. Effects of ESD on Electronics -- 2.1. Direct Discharge to an Electronic Component -- 2.2. Direct Discharge to Electronic Equipment Enclosure -- 2.3. Indirect Discharge -- 2.4. Coupling Mechanisms of ESD Pulse into the Victim's Circuitry -- 2.5. Response of Victim Circuits and Type of Errors -- 2.6. Prediction of Actual ESD-Induced Error, Fast Approximation Method -- 2.7. Remarks on the Actual Current Paths and Associated Radiation -- 2.8. Personnel or Furniture ESD: Which One is Worse? -- References -- 3. Principal ESD Specifications -- 3.1. ESD Test Specifications for Device Sensitivity -- 3.2. ESD Specifications for Equipment Immunity -- 3.3. Antistatic Control Procedures -- References. -- 4. ESD Diagnostics and Testing. -- 4.1. ESD Simulators: How They Work -- 4.2. Furniture Versus Personnel ESD Simulation -- 4.3. Other Types of ESD Simulators for Component Testing -- 4.4. ESD Test Setup-Direct and Indirect ESD -- 4.5. ESD Test Routine and Discharge Procedures -- 4.6. No Error/No Damage Concept: The Several Layers of Severity -- 4.7. The Error per Discharge Concept or Multiple-Trials Approach -- 4.8. ESD Test During Design and Development -- 4.9. ESD For Field Diagnostics and Forced Crash Method -- 4.10. Home-Made Investigation Tools and Diagnostic Hints -- References -- 5. Design for ESD Immunity -- 5.1. ESD Protection at Component Level -- 5.2. ESD Protection at the PCB Level (Internal Circuitry) -- 5.3. ESD Protection by Internal Wiring and Mechanical Packaging -- 5.4. ESD Protection by Box Shielding and Envelope Design -- 5.5. ESD Protection of External Cables and I/O Ports -- 5.6. ESD Immunity by Software and Noise Inhibition Techniques.
5.7. ESD Immunity with Miniature, Portable Devices -- 5.8. System ESD Immunity -- 5.9. ESD Control at Installation Level -- References -- 6. ESD Cases Studies -- 6.1. Case 1: The Reradiating Ground Strap -- 6.2. Case 2: ESD Hardening of a Printer -- 6.3. Case 3: The Data Terminal with Floating Tray -- 6.4. Case 4: The Safety Wire "Antenna" -- 6.5. Case 5: The Touchy Watchdog -- 6.6. Case 6: The Trigger-Happy Air bag Initiator -- 6.7. Conclusion: Troubleshooting Hints -- Appendix A. ESD Protection by Design of Chips and Microcircuits -- Appendix B. Prediction of ESD Damage Level for a Semiconductor Junction -- Appendix C. Spark-Over Voltages -- Appendix D. Fatigue Phenomena During Repeated ESD Testing -- Appendix E. Prediction of ESD-Induced Noise by Fast Frequency- Domain Calculations -- Appendix F. More Experiments on ESD Coupling to Boxes -- Appendix G. Examples of Simple SPICE Modeling of ESD Coupling Effects -- Appendix H. Time-to-Frequency Conversion for a Single Transient -- Index.
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Preface to the First Edition -- Preface to the Third Edition -- Acknowledgements -- 1. The Electrostatic Discharge Phenomenon -- 1.1. Physics Involved -- 1.2. Influencing Parameters -- 1.3. Various Types of Electrostatic Charging with Humans and Objects -- 1.4. Statistics of Voltages and Currents Reached During ESD -- 1.5. Waveforms of Electrostatic Discharges -- References -- 2. Effects of ESD on Electronics -- 2.1. Direct Discharge to an Electronic Component -- 2.2. Direct Discharge to Electronic Equipment Enclosure -- 2.3. Indirect Discharge -- 2.4. Coupling Mechanisms of ESD Pulse into the Victim's Circuitry -- 2.5. Response of Victim Circuits and Type of Errors -- 2.6. Prediction of Actual ESD-Induced Error, Fast Approximation Method -- 2.7. Remarks on the Actual Current Paths and Associated Radiation -- 2.8. Personnel or Furniture ESD: Which One is Worse? -- References -- 3. Principal ESD Specifications -- 3.1. ESD Test Specifications for Device Sensitivity -- 3.2. ESD Specifications for Equipment Immunity -- 3.3. Antistatic Control Procedures -- References. -- 4. ESD Diagnostics and Testing. -- 4.1. ESD Simulators: How They Work -- 4.2. Furniture Versus Personnel ESD Simulation -- 4.3. Other Types of ESD Simulators for Component Testing -- 4.4. ESD Test Setup-Direct and Indirect ESD -- 4.5. ESD Test Routine and Discharge Procedures -- 4.6. No Error/No Damage Concept: The Several Layers of Severity -- 4.7. The Error per Discharge Concept or Multiple-Trials Approach -- 4.8. ESD Test During Design and Development -- 4.9. ESD For Field Diagnostics and Forced Crash Method -- 4.10. Home-Made Investigation Tools and Diagnostic Hints -- References -- 5. Design for ESD Immunity -- 5.1. ESD Protection at Component Level -- 5.2. ESD Protection at the PCB Level (Internal Circuitry) -- 5.3. ESD Protection by Internal Wiring and Mechanical Packaging -- 5.4. ESD Protection by Box Shielding and Envelope Design -- 5.5. ESD Protection of External Cables and I/O Ports -- 5.6. ESD Immunity by Software and Noise Inhibition Techniques.

5.7. ESD Immunity with Miniature, Portable Devices -- 5.8. System ESD Immunity -- 5.9. ESD Control at Installation Level -- References -- 6. ESD Cases Studies -- 6.1. Case 1: The Reradiating Ground Strap -- 6.2. Case 2: ESD Hardening of a Printer -- 6.3. Case 3: The Data Terminal with Floating Tray -- 6.4. Case 4: The Safety Wire "Antenna" -- 6.5. Case 5: The Touchy Watchdog -- 6.6. Case 6: The Trigger-Happy Air bag Initiator -- 6.7. Conclusion: Troubleshooting Hints -- Appendix A. ESD Protection by Design of Chips and Microcircuits -- Appendix B. Prediction of ESD Damage Level for a Semiconductor Junction -- Appendix C. Spark-Over Voltages -- Appendix D. Fatigue Phenomena During Repeated ESD Testing -- Appendix E. Prediction of ESD-Induced Noise by Fast Frequency- Domain Calculations -- Appendix F. More Experiments on ESD Coupling to Boxes -- Appendix G. Examples of Simple SPICE Modeling of ESD Coupling Effects -- Appendix H. Time-to-Frequency Conversion for a Single Transient -- Index.

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