Vibration Analysis for Electronic Equipment

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Informationen zum Autor Dave S. Steinberg is the author of Vibration Analysis for Electronic Equipment, 3rd Edition, published by Wiley. Klappentext Anhand zahlreicher praxisnaher Beispiele erläutert der Autor - ein Experte mit langjähriger Erfahrung - verschiedene Schwingungstypen der Umgebung, die zum Versagen elektronischer Systeme oder Bauteile führen können. Die sorgfältig aktualisierte Neuauflage stellt Ihnen analytische Methoden zum Entwurf, Test und Betrieb komplizierter Systeme mit hohen Anforderungen an die Zuverlässigkeit zur Verfügung. (08/00) Zusammenfassung A guide of quick methods for designing electronic equipment that must be designed to withstand severe vibration and shock, this textbook explains how to predict the operational life of electronic equipment. Each concept is illustrated with sample problems and coverage of testing methods. Inhaltsverzeichnis Preface xvii List of Symbols xix 1 Introduction 1 2 Vibrations of Simple Electronic Systems 17 3 Component Lead Wire and Solder Joint Vibration Fatigue Life 39 4 Beam Structures for Electronic Subassemblies 56 5 Component Lead Wires as Bents, Frames, and Arcs 75 6 Printed Circuit Boards and Flat Plates 103 7 Octave Rule, Snubbing, and Damping to Increase the PCB Fatigue Life 150 8 Preventing Sinusoidal Vibration Failures in Electronic Equipment 166 9 Designing Electronics for Random Vibration 188 10 Acoustic Noise Effects on Electronic 234 11 Designing Electronics for Shock Environments 248 12 Design and Analysis of Electronic Boxes 300 13 Effects of Manufacturing Methods on the Reliability of Electronics 330 14 Vibration Fixtures and Vibration Testing 346 15 Environmental Stress Screening for Electronic Equipment (ESSEE) 379 Bibliography 401 Index 405

Table des matières

Vibrations of Simple Electronic Systems.
 
Component Lead Wire and Solder Joint Vibration Fatigue Life.
 
Beam Structures for Electronic Subassemblies.
 
Component Lead Wires as Bents, Frames, and Arcs.
 
Printed Circuit Boards and Flat Plates.
 
Octave Rule, Snubbing, and Damping to Increase the PCB Fatigue Life.
 
Preventing Sinusoidal Vibration Failures in Electronic Equipment.
 
Designing Electronics for Random Vibration.
 
Acoustic Noise Effects on Electronics.
 
Designing Electronics for Shock Environments.
 
Design and Analysis of Electronic Boxes.
 
Effects of Manufacturing Methods on the Reliability of Electronics.
 
Vibration Fixtures and Vibration Testing.
 
Environmental Stress Screening for Electronic Equipment (ESSEE).
 
Bibliography.
 
Index.