Failure Analysis (PDF)
A Practical Guide for Manufacturers of Electronic Components and Systems
(Sprache: Englisch)
Failure analysis is the preferred method to investigate product or
process reliability and to ensure optimum performance of electrical
components and systems. The physics-of-failure approach is the only
internationally accepted solution for continuously...
process reliability and to ensure optimum performance of electrical
components and systems. The physics-of-failure approach is the only
internationally accepted solution for continuously...
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Failure analysis is the preferred method to investigate product or
process reliability and to ensure optimum performance of electrical
components and systems. The physics-of-failure approach is the only
internationally accepted solution for continuously improving the
reliability of materials, devices and processes. The models have
been developed from the physical and chemical phenomena that are
responsible for degradation or failure of electronic components and
materials and now replace popular distribution models for failure
mechanisms such as Weibull or lognormal.
Reliability engineers need practical orientation around the
complex procedures involved in failure analysis. This guide acts as
a tool for all advanced techniques, their benefits and vital
aspects of their use in a reliability programme. Using twelve
complex case studies, the authors explain why failure analysis
should be used with electronic components, when implementation is
appropriate and methods for its successful use.
Inside you will find detailed coverage on:
* a synergistic approach to failure modes and mechanisms, along
with reliability physics and the failure analysis of materials,
emphasizing the vital importance of cooperation between a product
development team involved
* the reasons why failure analysis is an important tool for
improving yield and reliability by corrective actions
* the design stage, highlighting the 'concurrent
engineering' approach and DfR (Design for Reliability)
* failure analysis during fabrication, covering reliability
monitoring, process monitors and package reliability
* reliability resting after fabrication, including reliability
assessment at this stage and corrective actions
* a large variety of methods, such as electrical methods, thermal
methods, optical methods, electron microscopy, mechanical methods,
X-Ray methods, spectroscopic, acoustical, and laser methods
* new challenges in reliability testing, such as its use in
microsystems and nanostructures
This practical yet comprehensive reference is useful for
manufacturers and engineers involved in the design, fabrication and
testing of electronic components, devices, ICs and electronic
systems, as well as for users of components in complex systems
wanting to discover the roots of the reliability flaws for their
products.
process reliability and to ensure optimum performance of electrical
components and systems. The physics-of-failure approach is the only
internationally accepted solution for continuously improving the
reliability of materials, devices and processes. The models have
been developed from the physical and chemical phenomena that are
responsible for degradation or failure of electronic components and
materials and now replace popular distribution models for failure
mechanisms such as Weibull or lognormal.
Reliability engineers need practical orientation around the
complex procedures involved in failure analysis. This guide acts as
a tool for all advanced techniques, their benefits and vital
aspects of their use in a reliability programme. Using twelve
complex case studies, the authors explain why failure analysis
should be used with electronic components, when implementation is
appropriate and methods for its successful use.
Inside you will find detailed coverage on:
* a synergistic approach to failure modes and mechanisms, along
with reliability physics and the failure analysis of materials,
emphasizing the vital importance of cooperation between a product
development team involved
* the reasons why failure analysis is an important tool for
improving yield and reliability by corrective actions
* the design stage, highlighting the 'concurrent
engineering' approach and DfR (Design for Reliability)
* failure analysis during fabrication, covering reliability
monitoring, process monitors and package reliability
* reliability resting after fabrication, including reliability
assessment at this stage and corrective actions
* a large variety of methods, such as electrical methods, thermal
methods, optical methods, electron microscopy, mechanical methods,
X-Ray methods, spectroscopic, acoustical, and laser methods
* new challenges in reliability testing, such as its use in
microsystems and nanostructures
This practical yet comprehensive reference is useful for
manufacturers and engineers involved in the design, fabrication and
testing of electronic components, devices, ICs and electronic
systems, as well as for users of components in complex systems
wanting to discover the roots of the reliability flaws for their
products.
Inhaltsverzeichnis zu „Failure Analysis (PDF)“
Series Editor's Foreword. Foreword by Dr. Craig Hillman. Series Editor's Preface. Preface. About the Authors. 1 Introduction. 1.1. The Three Goals of the Book. 1.2. Historical Perspective 1.3. Terminology. 1.4. State of the Art and Future Trends. 1.5. General Plan of the Book. References. 2 Failure Analysis - Why? 2.1. Eight Possible Applications. 2.2. Forensic Engineering. 2.3. Reliability Modeling. 2.4. Reverse Engineering. 2.5. Controlling Critical Input Variables. 2.6. Design for Reliability. 2.7. Process Improvement. 2.8. Saving Money by Early Control. 2.9. A Synergetic Approach. References. 3 Failure Analysis - When? 3.1. During Development Cycle. 3.2. Preparing the Fabrication. 3.3. FA during Fabrication. 3.4. FA after Fabrication. 3.5. FA during Operation or Storage. References. 4 Failure Analysis - How? 4.1. Procedures for failure analysis. 4.2. Techniques for decapsulating the device and for sample preparation. 4.3. Techniques for failure analysis. References. 5. Failure Analysis - What? 5.1 Failure Modes and Mechanisms at Various Process Steps. 5.2 Failure Modes and Mechanisms of Passive Electronic Parts. 5.3 Failure Modes and Mechanisms of Silicon Bipolar Technology. 5.4 Failure Modes and Mechanisms of MOS Technology. 5.5 Failure Modes and Mechanisms of Optoelectronic and Photonic Technologies. 5.6 Failure Modes and Mechanisms of Non-Silicon Technologies. 5.7 Failure Modes and Mechanisms of Hybrid Technology. 5.8 Failure Modes and Mechanisms of Microsystem Technologies. References. 6 Case Studies. 6.1 Case Study No. 1: Capacitors. 6.2 Case Study No. 2: Bipolar Power Devices. 6.3 Case Study No. 3: CMOS Devices. 6.4 Case Study No. 4: MOS Field Effect Transistors. 6.5 Case Study No. 5: Thin Film Transistors. 6.6 Case Study No. 6: High Electron Mobility Transistors. 6.7 Case Study No. 7: MEMS Resonators. 6.8 Case Study No. 8: MEMS Micro-Cantilevers. 6.9 Case Study No. 9: MEMS Switches. 6.10 Case Study No. 10: Magnetic MEMS Switches. 6.11 Case Study No. 11:
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Chip-Scale Packages. 6.12 Case Study No. 12: Solder Joints. 6.13 Conclusions. References. 7. Conclusions. References. Acronyms. Glossary. Index.
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Autoren-Porträt von Marius Bazu, Titu Bajenescu
Dr. Marius Bazu, National Institute for Research and Development in Microtechnologies, IMT-Bucharest, Bucharest, RomaniaDr. Bazu is currently Head of the Reliability Laboratory and Vice-Chair of the Scientific Council at the National Institute for Microtechnologies, IMT-Bucharest, Romania. More than 50 National research projects on the reliability of electronic components have been co-ordinated by Dr. Bazu. He is a member of the Management Board and Chair of the Reliability Cluster of the Network of Excellence "Design for Micro and Nano Manufacture- PATENT-DfMM". From 1997 until 1999 he was Leader of a European project on a built-in reliability technology, and in 2000 he received the AGIR (General Association of Romanian Engineers) Award for implementing a technology of Building-In Reliability to a Romanian semiconductor company. Dr Bazu is the co-author of four Romanian Patents and has contributed to over 120 scientific papers. Since 1986 he has been Invited Professor for post-graduate courses on Reliability at the University Polytechnic Bucharest. He has presented invited lectures to international conferences held across Europe, including Austria, Romania, and Serbia.
Mr. Titu Bajenescu, Switzerland
Since 1985, Mr Bajenescu has worked as an independent consultant and international expert on engineering management, telecommunications, reliability, quality and safety. He has worked in the reliability, safety and maintainability office of the Ministry of Defence, designing and manufacturing experimental equipment for army research and air defence systems. With Asea Brown Boveri in Switzerland he was involved in the design and manufacture of new industrial equipment for telecommunications. More recently Mr. Bajenescu joined Ascom and as Reliability Manager, contributing to the development of new ITU and IEC standards. He became Quality and Reliability Manager and Product Assurance Manager of Messtechnik und Optoelektronic. Mr. Bajenescu has authored numerous
... mehr
technical books which have been published in English, French, German and Romanian, and has written many papers on modern telecommunications, and quality and reliability engineering and management. He currently speaks on these subjects as a visiting lecturer at universities around Europe.
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Bibliographische Angaben
- Autoren: Marius Bazu , Titu Bajenescu
- 2011, 1. Auflage, 344 Seiten, Englisch
- Verlag: John Wiley & Sons
- ISBN-10: 1119990106
- ISBN-13: 9781119990109
- Erscheinungsdatum: 09.03.2011
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