Reliability and Failure of Electronic Materials and Devices - Ohring, Milton
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Suitable as a reference work for reliability professionals or as a text for advanced undergraduate or graduate students, this book introduces the reader to the widely dispersed reliability literature of microelectronic and electronic-optional devices. Reliability and Failure of Electronic Materials and Devices integrates a treatment of chip and packaging level failures within the context of the atomic mechanisms and models used to explain degradation, and the statistical handling of lifetime data. Electromigration, dielectric radiation damage and the mechanical failure of contacts and solder…mehr

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Produktbeschreibung
Suitable as a reference work for reliability professionals or as a text for advanced undergraduate or graduate students, this book introduces the reader to the widely dispersed reliability literature of microelectronic and electronic-optional devices. Reliability and Failure of Electronic Materials and Devices integrates a treatment of chip and packaging level failures within the context of the atomic mechanisms and models used to explain degradation, and the statistical handling of lifetime data. Electromigration, dielectric radiation damage and the mechanical failure of contacts and solder joints are among the failure mechanisms considered. An underlying thread of the book concerns product defects--their relation to yield and reliability, the role they play in failure, and the way they are experimentally exposed. The reader will gain a deeper physical understanding of failure mechanisms in electronic materials and devices, acquire skills in the mathematical handling of reliability data, and better appreciate future technology trends and the reliability issues they raise. Key Features * Discusses reliability and failure on both the chip and packaging levels * Handles the role of defects in yield and reliability * Includes a tutorial chapter on the mathematics of reliability * Focuses on electromigration, dielectric breakdown, hot-electron effects, electrostatic discharge, corrosion, radiation damage and the mechanical failure of packages, contacts, and solder joints * Considers defect detection methods and failure analysis techniques
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Autorenporträt
Dr. Milton Ohring, author of two previously acclaimed Academic Press books,The Materials Science of Thin Films (l992) and Engineering Materials Science (1995), has taught courses on reliability and failure in electronics at Bell Laboratories (AT&T and Lucent Technologies). From this perspective and the well-written tutorial style of the book, the reader will gain a deeper physical understanding of failure mechanisms in electronic materials and devices; acquire skills in the mathematical handling of reliability data; and better appreciate future technology trends and the reliability issues they raise.In 1988, Dr Lucian Kasprzak became an IEEE Fellow "For contributions to very-largescale-integrated devices through the integration of reliability physics with process development. He discovered the hot-electron effect in short channel field-effect transistors, while at IBM in 1973. From 1992 to 1996, he was Associate Professor of Physics and Engineering Science at Franciscan University. He retired from IBM in 1995 after 30 years. In 1996, he joined Sterling Diagnostic Imaging as Reliability Manager for the Direct Radiography Program. He became Director of Reliability at Direct Radiography Corp. in 1997. Early in 2001 he became an independent Reliability Consultant.