This volume provides a comprehensive introduction to electronic technology, products, and manufacturing processes.Reviews principles of production and electronics fundamentals (electronic components, interconnections, printed wiring boards, soldering and solderability); explains automatic assembly (automation, leaded component insertion, and surface-mount device placement); discusses life-cycle engineering (design for assembly, quality and reliability, testability, and environmental stress screening); and explores manufacturing systems (facilities and materials handling, production and inventory control, production economics).For electrical or industrial engineers interested in electronics manufacturing.
This book provides a systemized presentation of new techniques and methods in electronics manufacture. It helps the reader reduce the cost and increase the reliability of electronic products by employing up-to-date technology. It also details the latest ideas for reducing the scale of electronic components and products to the nano-scale by organizing all the elements of the complicated modern electronics manufacturing process showing how they affect each other.
The Handbook of Electronics Packaging Design and Engineering has been writ ten as a reference source for use in the packaging design of electronics equip ment. It is designed to provide a single convenient source for the solution of re curring design problems. The primary consideration of any design is that the end product meet or exceed the applicable product specifications. The judicious use of uniform design practices will realize the following economies and equipment improvements: • Economics of design. Uniform design practices will result in less engineering and design times and lower costs. They will also reduce the number of changes that may be required due to poor reliability, maintainability, or producibility. • Improved design. Better designs with increased reliability, maintainability, and producibility will result from the use of uniform design practices. • Production economies. Uniform designs employing standard available tools, materials, and parts will result in the cost control of manufacturing. The Handbook is intended primarily for the serious student of electronics packaging and for those engineers and designers actively engaged in this vital and interesting profession. It attempts to present electronics packaging as it is today. It can be used as a training text for instructional purposes and as a reference source for the practicing designer and engineer.
An authoritative guide to optimizing design for manufacturability and reliability from a team of experts Design for Excellence in Electronics Manufacturing is a comprehensive, state-of-the-art book that covers design and reliability of electronics. The authors—noted experts on the topic—explain how using the DfX concepts of design for reliability, design for manufacturability, design for environment, design for testability, and more, reduce research and development costs and decrease time to market and allow companies to confidently issue warranty coverage. By employing the concepts outlined in Design for Excellence in Electronics Manufacturing, engineers and managers can increase customer satisfaction, market share, and long-term profits. In addition, the authors describe the best practices regarding product design and show how the practices can be adapted for different manufacturing processes, suppliers, use environments, and reliability expectations. This important book: Contains a comprehensive review of the design and reliability of electronics Covers a range of topics: establishing a reliability program, design for the use environment, design for manufacturability, and more Includes technical information on electronic packaging, discrete components, and assembly processes Shows how aspects of electronics can fail under different environmental stresses Written for reliability engineers, electronics engineers, design engineers, component engineers, and others, Design for Excellence in Electronics Manufacturing is a comprehensive book that reveals how to get product design right the first time.
Introduction Advanced Surface Mount Technology and Die Attach Techniques Solder Material Soldering Chemistry Solderability Microstructure of Solders Aqueous-Cleaning Manufacture No-Clean Manufacture Protective and Reactive Atmosphere Soldering Surface Mount Fine Pitch Technology Surface Mount-BGA/PAC Technology Soldering Methodology and Equipment Soldering and Soldering Related Issues Strengthened Solders Lead-Free Solders Solder Joint Failure Mode Solder Joint Failure Assessment-Case Studies Solder Joint Quality and Reliability New and Emerging Specifications and Standards Future Trends.
This single source reference offers a pragmatic and accessible approach to the basic methods and procedures used in the manufacturing and design of modern electronic products. Providing a stategic yet simplified layout, this handbook is set up with an eye toward maximizing productivity in each phase of the eletronics manufacturing process. Not only does this handbook inform the reader on vital issues concerning electronics manufacturing and design, it also provides practical insight and will be of essential use to manufacturing and process engineers in electronics and aerospace manufacturing. In addition, electronics packaging engineers and electronics manufacturing managers and supervisors will gain a wealth of knowledge.
Describes this process at it relates to the electronics industry, focusing on such areas as printed wiring boards, networking, automatic assembly, surface mount technology, tape automated bonding, bar coding, and electro-static discharge. Also studies the effects of group work ethics as a factor in
The sequence of events which led to the writing of this book started at a seminar on Manufacturing Technology in the Electronics Industry given by the Institution of Production Engineers in 1987. The seminar identified that the field of manufacturing engineering for the electronics industry was effectively missing from the vast majority of production engineering degree courses. The reason for this was that production engineering departments typically spring from mechanical engineering departments. This leads to a mechanical bias in the practical aspects of such courses. The consequence of this was that electronics companies could not recruit graduates with both relevant production engineering and electronic engineering backgrounds. This necessitated either recruiting production engineering graduates and giving them the necessary electronic engineering training, or giving production engineering training to electronic engineering graduates. A consequence of the lack of courses in a subject is that there is also a lack of relevant textbooks in the area, as most textbooks are intended to tie into courses. In the field of manufacturing technology for the electronics industry, existing textbooks tend to be highly specialized and mainly concerned with the fabrication of semiconductor devices.
