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Flip Chip Technologies

Author: John H. Lau

Publisher: McGraw-Hill Professional Publishing

Published: 1996

Total Pages: 600

ISBN-13:

A guide to flip chip technologies, for professionals in flip chip and MCM research and development, and for engineers and technical managers choosing design and manufacturing processes for electronic packaging and interconnect systems. Discusses economic, design, material, quality, and reliability issues of flip chip technologies, and details aspects of classical solder-bumped flip chip interconnect technologies; the next generations of flip chip technologies; and known-good-die testing for multiple module applications. Annotation copyright by Book News, Inc., Portland, OR

Advanced Flip Chip Packaging

Author: Ho-Ming Tong

Publisher: Springer Science & Business Media

Published: 2013-03-20

Total Pages: 562

ISBN-13: 1441957685

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Advanced Flip Chip Packaging presents past, present and future advances and trends in areas such as substrate technology, material development, and assembly processes. Flip chip packaging is now in widespread use in computing, communications, consumer and automotive electronics, and the demand for flip chip technology is continuing to grow in order to meet the need for products that offer better performance, are smaller, and are environmentally sustainable.

Low Cost Flip Chip Technologies

Author: John H. Lau

Publisher: McGraw Hill Professional

Published: 2000

Total Pages: 616

ISBN-13: 9780071351416

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Of the Standard NuBGA Packages -- Thinner Substrate and Nonuniform Heat Spreader NuBGA -- Thermal Performance of the New NuBGA Package -- Temperature Distribution -- Thermal Resistance -- Cooling Power -- Wind Tunnel Experimental Analysis -- Solder Joint Reliability of the New NuBGA Package -- Electrical Performance of the New NuBGA Package -- Capacitance -- Inductance -- Summary of the New NuBGA Package -- Solder-Bumped Flip Chip in PBGA Packages -- Intel's OLGA Package Technology -- OLGA Package Design -- OLGA Wafer Bumping -- OLGA Substrate Technology -- OLGA Package Assembly -- OLGA Package Reliability -- Mitsubishi's FC-BGA Package -- Wafer Bumping -- Mitsubishi's SBU Substrate -- PC-BGA Assembly Process -- Thermal Management -- Electrical Performance -- Qualification Tests and Results -- IBM's FC-PBGA Package -- CFD Analysis for Thermal Boundary Conditions -- Nonlinear Finite Element Stress Analysis -- Simulation Results -- Solder Joint Thermal Fatigue Life Prediction -- Motorola's FC-PBGA Packages -- Thermal Management of FC-PBGA Assemblies with E3 Bumps -- Solder Joint Reliability of FC-PBGA Assemblies with C4 Bumps -- Failure Analysis of Flip Chip on Low-Cost Substrates -- Failure Analysis of FCOB with Imperfect Underfills -- Test Chip -- Test Board -- Flip Chip Assembly -- Preconditions, Reflows, and Qualification Tests -- Failure Modes and Discussions -- Die Cracking -- Interfacial Shear Strength -- Interfacial Shear Strength Between Solder Mask and Underfill.

Low Cost Flip Chip Technologies

Author: John H. Lau

Publisher: McGraw-Hill Professional Publishing

Published: 2000

Total Pages: 616

ISBN-13:

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Reflow Soldering Processes

Author: Ning-Cheng Lee

Publisher: Newnes

Published: 2002-01-11

Total Pages: 282

ISBN-13: 0750672188

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Focused on technological innovations in the field of electronics packaging and production, this book elucidates the changes in reflow soldering processes, its impact on defect mechanisms, and, accordingly, the troubleshooting techniques during these processes in a variety of board types. Geared toward electronics manufacturing process engineers, design engineers, as well as students in process engineering classes, Reflow Soldering Processes and Troubleshooting will be a strong contender in the continuing skill development market for manufacturing personnel. Written using a very practical, hands-on approach, Reflow Soldering Processes and Troubleshooting provides the means for engineers to increase their understanding of the principles of soldering, flux, and solder paste technology. The author facilitates learning about other essential topics, such as area array packages--including BGA, CSP, and FC designs, bumping technique, assembly, and rework process,--and provides an increased understanding of the reliability failure modes of soldered SMT components. With cost effectiveness foremost in mind, this book is designed to troubleshoot errors or problems before boards go into the manufacturing process, saving time and money on the front end. The author's vast expertise and knowledge ensure that coverage of topics is expertly researched, written, and organized to best meet the needs of manufacturing process engineers, students, practitioners, and anyone with a desire to learn more about reflow soldering processes. Comprehensive and indispensable, this book will prove a perfect training and reference tool that readers will find invaluable. Provides engineers the cutting-edge technology in a rapidly changing field Offers in-depth coverage of the principles of soldering, flux, solder paste technology, area array packages--including BGA, CSP, and FC designs, bumping technique, assembly, and the rework process

Flip Chip, Hybrid Bonding, Fan-In, and Fan-Out Technology

Author: John H. Lau

Publisher: Springer Nature

Published:

Total Pages: 515

ISBN-13: 9819721407

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Flip-Chip Technologies and Global Markets

Author: BCC Research

Publisher:

Published: 2013-12

Total Pages:

ISBN-13: 9781569656655

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Multichip Module Technologies and Alternatives: The Basics

Author: Daryl Ann Doane

Publisher: Springer Science & Business Media

Published: 2013-11-27

Total Pages: 895

ISBN-13: 1461531004

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Far from being the passive containers for semiconductor devices of the past, the packages in today's high performance computers pose numerous challenges in interconnecting, powering, cooling and protecting devices. While semiconductor circuit performance measured in picoseconds continues to improve, computer performance is expected to be in nanoseconds for the rest of this century -a factor of 1000 difference between on-chip and off-chip performance which is attributable to losses associated with the package. Thus the package, which interconnects all the chips to form a particular function such as a central processor, is likely to set the limits on how far computers can evolve. Multichip packaging, which can relax these limits and also improve the reliability and cost at the systems level, is expected to be the basis of all advanced computers in the future. In addition, since this technology allows chips to be spaced more closely, in less space and with less weight, it has the added advantage of being useful in portable consumer electronics as well as in medical, aerospace, automotive and telecommunications products. The multichip technologies with which these applications can be addressed are many. They range from ceramics to polymer-metal thin films to printed wiring boards for interconnections; flip chip, TAB or wire bond for chip-to-substrate connections; and air or water cooling for the removal of heat.

Antenna-in-Package Technology and Applications

Author: Duixian Liu

Publisher: John Wiley & Sons

Published: 2020-03-31

Total Pages: 416

ISBN-13: 1119556635

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A comprehensive guide to antenna design, manufacturing processes, antenna integration, and packaging Antenna-in-Package Technology and Applications contains an introduction to the history of AiP technology. It explores antennas and packages, thermal analysis and design, as well as measurement setups and methods for AiP technology. The authors—well-known experts on the topic—explain why microstrip patch antennas are the most popular and describe the myriad constraints of packaging, such as electrical performance, thermo-mechanical reliability, compactness, manufacturability, and cost. The book includes information on how the choice of interconnects is governed by JEDEC for automatic assembly and describes low-temperature co-fired ceramic, high-density interconnects, fan-out wafer level packaging–based AiP, and 3D-printing-based AiP. The book includes a detailed discussion of the surface laminar circuit–based AiP designs for large-scale mm-wave phased arrays for 94-GHz imagers and 28-GHz 5G New Radios. Additionally, the book includes information on 3D AiP for sensor nodes, near-field wireless power transfer, and IoT applications. This important book: • Includes a brief history of antenna-in-package technology • Describes package structures widely used in AiP, such as ball grid array (BGA) and quad flat no-leads (QFN) • Explores the concepts, materials and processes, designs, and verifications with special consideration for excellent electrical, mechanical, and thermal performance Written for students in electrical engineering, professors, researchers, and RF engineers, Antenna-in-Package Technology and Applications offers a guide to material selection for antennas and packages, antenna design with manufacturing processes and packaging constraints, antenna integration, and packaging.

Solder Joint Reliability of BGA, CSP, Flip Chip, and Fine Pitch SMT Assemblies

Author: John H. Lau

Publisher: McGraw-Hill Professional Publishing

Published: 1997

Total Pages: 440

ISBN-13:

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The explosive growth of high-density packaging has created a tremendous impact on the electronic assembly and manufacturing industry. Ball grid array (BGA), chip-scale package (CSP), and solder-bumped flip chip technologies are taking the lead in this advanced manufacturing process. Many major equipment makers and leading electronic companies are now gearing up for these emerging and advanced packaging technologies. For these technologies, solder is the electrical and mechanical "glue," and thus solder joint reliability is one of the most critical issues in the development of these technologies. This book is a one-stop guide to the state of the art of solder joint reliability problem-solving methods, or choose a creative, high-performance, robust, and cost-effective design and high-yield manufacturing process for their interconnect systems will be able to do so with this unique sourcebook. It meets the reference needs of design, material, process, equipment, manufacturing, quality control, product assurance, reliability, component, packaging, vendor, marketing, and system engineers, and technical managers working in electronic packaging and interconnection. This book is structured to provide readers with the necessary know-how for practical, on-the-job problem-solving guidance. The book covers the solder joint reliability of BGA, CSP, flip chip, and FPT assemblies completely, proceeding from the theoretical basics to applications. Specific areas covered include: Definition of reliability, life distribution, failure rate, mean time to failure, etc.; Some well-known life distributions; Accelerated testing; Parameter estimation of life distributions; Acceleration factors for solders;Solder mechanics: plasticity, creep, and constitutive equations; Design, material, and manufacturing processes of BGA, CSP, flip chip, and FTP; Failure analysis and root cause of failure for BGA, CSP, flip chip, and FPT solder joints; Design for reliability of BGA, CSP, flip chip and FPT solder joints; Solder joint reliability of CBGA, PBGA, DBGA, and TBGA assemblies under thermal fatigue, mechanical bending and twisting, and shock and vibration conditions; solder joint reliability of flip chip (e.g., high-temperature and eutectic solder bumped flip chips on ceramic and PCB) assemblies under thermal fatigue, mechanical pulling, shearing, bending and twisting, and shock and vibration conditions; Solder joint reliability of CSP (e.g., LG Semicon's, Mitsubishi's, Motorola's, Tessera's, NEC's, nitto Denko's and Toshiba's) assemblies under thermal fatigue and mechanical bending conditions; Solder joint reliability of PQFP and TSOP assemblies under thermal fatigue, mechanical bending and twisting, and vibration conditions.