Microelectronics Packaging Handbook

Microelectronics Packaging Handbook
Author :
Publisher : Springer Science & Business Media
Total Pages : 1060
Release :
ISBN-10 : 9781461560371
ISBN-13 : 1461560373
Rating : 4/5 (71 Downloads)

Synopsis Microelectronics Packaging Handbook by : R.R. Tummala

Electronics has become the largest industry, surpassing agriculture, auto, and heavy metal industries. It has become the industry of choice for a country to prosper, already having given rise to the phenomenal prosperity of Japan, Korea, Singapore, Hong Kong, and Ireland among others. At the current growth rate, total worldwide semiconductor sales will reach $300B by the year 2000. The key electronic technologies responsible for the growth of the industry include semiconductors, the packaging of semiconductors for systems use in auto, telecom, computer, consumer, aerospace, and medical industries, displays, magnetic, and optical storage as well as software and system technologies. There has been a paradigm shift, however, in these technologies, from mainframe and supercomputer applications at any cost, to consumer applications at approximately one-tenth the cost and size. Personal computers are a good example, going from $500IMIP when products were first introduced in 1981, to a projected $IIMIP within 10 years. Thin, light portable, user friendly and very low-cost are, therefore, the attributes of tomorrow's computing and communications systems. Electronic packaging is defined as interconnection, powering, cool ing, and protecting semiconductor chips for reliable systems. It is a key enabling technology achieving the requirements for reducing the size and cost at the system and product level.

Microelectronics Packaging Handbook

Microelectronics Packaging Handbook
Author :
Publisher : Springer Science & Business Media
Total Pages : 662
Release :
ISBN-10 : 0412084511
ISBN-13 : 9780412084515
Rating : 4/5 (11 Downloads)

Synopsis Microelectronics Packaging Handbook by : Rao Tummala

This thoroughly revised and updated three volume set continues to be the standard reference in the field, providing the latest in microelectronics design methods, modeling tools, simulation techniques, and manufacturing procedures. Unlike reference books that focus only on a few aspects of microelectronics packaging, these outstanding volumes discuss state-of-the-art packages that meet the power, cooling, protection, and interconnection requirements of increasingly dense and fast microcircuitry. Providing an excellent balance of theory and practical applications, this dynamic compilation features step-by-step examples and vital technical data, simplifying each phase of package design and production. In addition, the volumes contain over 2000 references, 900 figures, and 250 tables. Part I: Technology Drivers covers the driving force of microelectronics packaging - electrical, thermal, and reliability. It introduces the technology developer to aspects of manufacturing that must be considered during product development. Part II: Semiconductor Packaging discusses the interconnection of the IC chip to the first level of packaging and all first level packages. Electrical test, sealing, and encapsulation technologies are also covered in detail. Part III: Subsystem Packaging explores board level packaging as well as connectors, cables, and optical packaging.

Microelectronics Packaging Handbook

Microelectronics Packaging Handbook
Author :
Publisher : Springer Science & Business Media
Total Pages : 742
Release :
ISBN-10 : 9781461540861
ISBN-13 : 1461540860
Rating : 4/5 (61 Downloads)

Synopsis Microelectronics Packaging Handbook by : R.R. Tummala

Electronics has become the largest industry, surpassing agriCUlture, auto. and heavy metal industries. It has become the industry of choice for a country to prosper, already having given rise to the phenomenal prosperity of Japan. Korea. Singapore. Hong Kong. and Ireland among others. At the current growth rate, total worldwide semiconductor sales will reach $300B by the year 2000. The key electronic technologies responsible for the growth of the industry include semiconductors. the packaging of semiconductors for systems use in auto, telecom, computer, consumer, aerospace, and medical industries. displays. magnetic, and optical storage as well as software and system technologies. There has been a paradigm shift, however, in these technologies. from mainframe and supercomputer applications at any cost. to consumer applications at approximately one-tenth the cost and size. Personal computers are a good example. going from $500IMIP when products were first introduced in 1981, to a projected $lIMIP within 10 years. Thin. light portable. user friendly and very low-cost are. therefore. the attributes of tomorrow's computing and communications systems. Electronic packaging is defined as interconnection. powering, cool ing, and protecting semiconductor chips for reliable systems. It is a key enabling technology achieving the requirements for reducing the size and cost at the system and product level.

Thermal Stress and Strain in Microelectronics Packaging

Thermal Stress and Strain in Microelectronics Packaging
Author :
Publisher : Springer Science & Business Media
Total Pages : 904
Release :
ISBN-10 : 9781468477672
ISBN-13 : 1468477676
Rating : 4/5 (72 Downloads)

Synopsis Thermal Stress and Strain in Microelectronics Packaging by : John Lau

Microelectronics packaging and interconnection have experienced exciting growth stimulated by the recognition that systems, not just silicon, provide the solution to evolving applications. In order to have a high density/ performance/yield/quality/reliability, low cost, and light weight system, a more precise understanding of the system behavior is required. Mechanical and thermal phenomena are among the least understood and most complex of the many phenomena encountered in microelectronics packaging systems and are found on the critical path of neatly every design and process in the electronics industry. The last decade has witnessed an explosive growth in the research and development efforts devoted to determining the mechanical and thermal behaviors of microelectronics packaging. With the advance of very large scale integration technologies, thousands to tens of thousands of devices can be fabricated on a silicon chip. At the same time, demands to further reduce packaging signal delay and increase packaging density between communicat ing circuits have led to the use of very high power dissipation single-chip modules and multi-chip modules. The result of these developments has been a rapid growth in module level heat flux within the personal, workstation, midrange, mainframe, and super computers. Thus, thermal (temperature, stress, and strain) management is vital for microelectronics packaging designs and analyses. How to determine the temperature distribution in the elec tronics components and systems is outside the scope of this book, which focuses on the determination of stress and strain distributions in the electronics packaging.

Microelectronic Packaging

Microelectronic Packaging
Author :
Publisher : CRC Press
Total Pages : 564
Release :
ISBN-10 : 9780203473689
ISBN-13 : 020347368X
Rating : 4/5 (89 Downloads)

Synopsis Microelectronic Packaging by : M. Datta

Microelectronic Packaging analyzes the massive impact of electrochemical technologies on various levels of microelectronic packaging. Traditionally, interconnections within a chip were considered outside the realm of packaging technologies, but this book emphasizes the importance of chip wiring as a key aspect of microelectronic packaging, and focuses on electrochemical processing as an enabler of advanced chip metallization. Divided into five parts, the book begins by outlining the basics of electrochemical processing, defining the microelectronic packaging hierarchy, and emphasizing the impact of electrochemical technology on packaging. The second part discusses chip metallization topics including the development of robust barrier layers and alternative metallization materials. Part III explores key aspects of chip-package interconnect technologies, followed by Part IV's analysis of packages, boards, and connectors which covers materials development, technology trends in ceramic packages and multi-chip modules, and electroplated contact materials. Illustrating the importance of processing tools in enabling technology development, the book concludes with chapters on chemical mechanical planarization, electroplating, and wet etching/cleaning tools. Experts from industry, universities, and national laboratories submitted reviews on each of these subjects, capturing the technological advances made in each area. A detailed examination of how packaging responds to the challenges of Moore's law, this book serves as a timely and valuable reference for microelectronic packaging and processing professionals and other industrial technologists.

Area Array Packaging Handbook

Area Array Packaging Handbook
Author :
Publisher : McGraw Hill Professional
Total Pages : 832
Release :
ISBN-10 : UOM:39015053514967
ISBN-13 :
Rating : 4/5 (67 Downloads)

Synopsis Area Array Packaging Handbook by : Ken Gilleo

*Covers design, packaging, construction, assembly, and application of all three approaches to Area Array Packaging: Ball Grid Array (BGA), Chip Scale Package (CSP), and Flip Chip (FC) *Details the pros and cons of each technology with varying applications *Examines packaging ramifications of high density interconnects (HDI)

RF and Microwave Microelectronics Packaging

RF and Microwave Microelectronics Packaging
Author :
Publisher : Springer Science & Business Media
Total Pages : 295
Release :
ISBN-10 : 9781441909848
ISBN-13 : 1441909842
Rating : 4/5 (48 Downloads)

Synopsis RF and Microwave Microelectronics Packaging by : Ken Kuang

RF and Microwave Microelectronics Packaging presents the latest developments in packaging for high-frequency electronics. It will appeal to practicing engineers in the electronic packaging and high-frequency electronics fields and to academic researchers interested in understanding leading issues in the commercial sector. It covers the latest developments in thermal management, electrical/RF/thermal-mechanical designs and simulations, packaging and processing methods as well as other RF/MW packaging-related fields.

3D Microelectronic Packaging

3D Microelectronic Packaging
Author :
Publisher : Springer Nature
Total Pages : 629
Release :
ISBN-10 : 9789811570902
ISBN-13 : 9811570906
Rating : 4/5 (02 Downloads)

Synopsis 3D Microelectronic Packaging by : Yan Li

This book offers a comprehensive reference guide for graduate students and professionals in both academia and industry, covering the fundamentals, architecture, processing details, and applications of 3D microelectronic packaging. It provides readers an in-depth understanding of the latest research and development findings regarding this key industry trend, including TSV, die processing, micro-bumps for LMI and MMI, direct bonding and advanced materials, as well as quality, reliability, fault isolation, and failure analysis for 3D microelectronic packages. Images, tables, and didactic schematics are used to illustrate and elaborate on the concepts discussed. Readers will gain a general grasp of 3D packaging, quality and reliability concerns, and common causes of failure, and will be introduced to developing areas and remaining gaps in 3D packaging that can help inspire future research and development.

Fundamentals of Microsystems Packaging

Fundamentals of Microsystems Packaging
Author :
Publisher : McGraw Hill Professional
Total Pages : 979
Release :
ISBN-10 : 9780071500593
ISBN-13 : 0071500596
Rating : 4/5 (93 Downloads)

Synopsis Fundamentals of Microsystems Packaging by : Rao Tummala

LEARN ABOUT MICROSYSTEMS PACKAGING FROM THE GROUND UP Written by Rao Tummala, the field’s leading author, Fundamentals of Microsystems Packaging is the only book to cover the field from wafer to systems, including every major contributing technology. This rigorous and thorough introduction to electronic packaging technologies gives you a solid grounding in microelectronics, photonics, RF, packaging design, assembly, reliability, testing, and manufacturing and its relevance to both semiconductors and systems. You’ll find: *Full coverage of electrical, mechanical, chemical, and materials aspects of each technology *Easy-to-read schematics and block diagrams *Fundamental approaches to all system issues *Examples of all common configurations and technologies—wafer level packaging, single chip, multichip, RF, opto-electronic, microvia boards, thermal and others *Details on chip-to-board connections, sealing and encapsulation, and manufacturing processes *Basics of electrical and reliability testing

Die-Attach Materials for High Temperature Applications in Microelectronics Packaging

Die-Attach Materials for High Temperature Applications in Microelectronics Packaging
Author :
Publisher : Springer
Total Pages : 292
Release :
ISBN-10 : 9783319992563
ISBN-13 : 3319992562
Rating : 4/5 (63 Downloads)

Synopsis Die-Attach Materials for High Temperature Applications in Microelectronics Packaging by : Kim S. Siow

This book presents the scientific principles, processing conditions, probable failure mechanisms, and a description of reliability performance and equipment required for implementing high-temperature and lead-free die attach materials. In particular, it addresses the use of solder alloys, silver and copper sintering, and transient liquid-phase sintering. While different solder alloys have been used widely in the microelectronics industry, the implementation of sintering silver and transient liquid-phase sintering remains limited to a handful of companies. Hence, the book devotes many chapters to sintering technologies, while simultaneously providing only a cursory coverage of the more widespread techniques employing solder alloys. Addresses the differences between sintering and soldering (the current die-attach technologies), thereby comprehensively addressing principles, methods, and performance of these high-temperature die-attach materials; Emphasizes the industrial perspective, with chapters written by engineers who have hands-on experience using these technologies; Baker Hughes, Bosch and ON Semiconductor, are represented as well as materials suppliers such as Indium; Simultaneously provides the detailed science underlying these technologies by leading academic researchers in the field.