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DESIGN FOR EXCELLENCE IN ELECTRONICS MANUFACTURING 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.
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.
This text explores the re-emergence of product excellence in the design and manufacturing process. It is a knowledge-based approach to manufacturing that attempts to design products that maximize all desirable characteristics in a product design, while at the same time minimizing lifetime costs, including manufacturing costs. DFX objectives include quality and reliability, safety, serviceability, user friendliness and environmental friendliness. This book explains techniques and procedures behind DFX and how it is being incorporated into sound product design.
Offers a blueprint for various stages of the manufacturing process. This handbook provides directions for solid and practical design, including a quick check of do's and don'ts as well as specific tips for developing the most producible design. It also includes the details needed to forecast a successful design project.
Next Generation HALT and HASS presents a major paradigm shift from reliability prediction-based methods to discovery of electronic systems reliability risks. This is achieved by integrating highly accelerated life test (HALT) and highly accelerated stress screen (HASS) into a physics-of-failure-based robust product and process development methodology. The new methodologies challenge misleading and sometimes costly mis-application of probabilistic failure prediction methods (FPM) and provide a new deterministic map for reliability development. The authors clearly explain the new approach with a logical progression of problem statement and solutions. The book helps engineers employ HALT and HASS by illustrating why the misleading assumptions used for FPM are invalid. Next, the application of HALT and HASS empirical discovery methods to quickly find unreliable elements in electronics systems gives readers practical insight to the techniques. The physics of HALT and HASS methodologies are highlighted, illustrating how they uncover and isolate software failures due to hardware-software interactions in digital systems. The use of empirical operational stress limits for the development of future tools and reliability discriminators is described. Key features: * Provides a clear basis for moving from statistical reliability prediction models to practical methods of insuring and improving reliability. * Challenges existing failure prediction methodologies by highlighting their limitations using real field data. * Explains a practical approach to why and how HALT and HASS are applied to electronics and electromechanical systems. * Presents opportunities to develop reliability test discriminators for prognostics using empirical stress limits. * Guides engineers and managers on the benefits of the deterministic and more efficient methods of HALT and HASS. * Integrates the empirical limit discovery methods of HALT and HASS into a physics of failure based robust product and process development process.
Beyond Six Sigma and Lean! Design your processes to facilitate real business growth, in both healthy and unhealthy economies Design for Operational Excellence defines why companies embark upon continuous improvement—and the true answer is not to improve efficiency, quality, or eliminate waste! The reason is to achieve Operational Excellence. Duggan, an established authority on OpEx, provides the design criteria and guidelines that enable you to grow your business organically by refocusing management’s attention from running the business to growing the business. Founded on eight key principles, this groundbreaking system facilitates the continuous flow of value into any operation—from customer service to sales to manufacturing. Kevin J. Duggan is a renowned speaker, executive mentor, and educator in applying advanced lean techniques to achieve Operational Excellence and the author of two books on the subject: Creating Mixed Model Value Streams and The Office That Grows Your Business—Achieving Operational Excellence in Your Business Processes. As the Founder of the Institute for Operational Excellence, the leading educational center on Operational Excellence, and Duggan Associates, an international training and advisory firm, Kevin has assisted many major corporations worldwide, including United Technologies Corporation, Caterpillar, Pratt & Whitney, Singapore Airlines, IDEX Corporation, GKN and Parker Hannifin. A recognized expert on Operational Excellence, Kevin is a frequent keynote speaker, master of ceremonies, and panelist at international conferences, and has appeared on CNN and the Fox Business Network.
An engineer's guidebook demonstrating non-toxic electronics manufacturing processes
If you have designs for wonderful machines in mind, but aren’t sure how to turn your ideas into real, engineered products that can be manufactured, marketed, and used, this book is for you. Engineering professor and veteran maker Tom Ask helps you integrate mechanical engineering concepts into your creative design process by presenting them in a rigorous but largely nonmathematical format. Through mind stories and images, this book provides you with a firm grounding in material mechanics, thermodynamics, fluid dynamics, and heat transfer. Students, product and mechanical designers, and inventive makers will also explore nontechnical topics such as aesthetics, ethnography, and branding that influence product appeal and user preference. Learn the importance of designing functional products that also appeal to users in subtle ways Explore the role of aesthetics, ethnography, brand management, and material culture in product design Dive into traditional mechanical engineering disciplines related to the behavior of solids, liquids, and gases Understand the human factors of design, such as ergonomics, kinesiology, anthropometry, and biomimicry Get an overview of available mechanical systems and components for creating your product
This book constitutes the refereed proceedings of the 21st International TRIZ Future Conference on Automated Invention for Smart Industries, TFC 2021, held virtually in September 2021 and sponsored by IFIP WG 5.4. The 28 full papers and 8 short papers presented were carefully reviewed and selected from 48 submissions. They are organized in the following thematic sections: inventiveness and TRIZ for sustainable development; TRIZ, intellectual property and smart technologies; TRIZ: expansion in breadth and depth; TRIZ, data processing and artificial intelligence; and TRIZ use and divulgation for engineering design and beyond. Chapter ‘Domain Analysis with TRIZ to Define an Effective “Design for Excellence’ is available open access under a Creative Commons Attribution 4.0 International License via link.springer.com.
This book provides comprehensive and in-depth coverage of manufacturing processes from the standpoint of the product designer. Reflecting a growing need in industry and education for design-driven instruction, this book demonstrates the importance of considering the selection of manufacturing method early in the design process, illustrating how the selection of method directly affects the geometric characteristics of products. Beginning with a study of the design process itself in Chapter 1, readers are taken through the product development process, with concurrent engineering presented in Chapter 2 (new to this Second Edition) and cost - as a factor affecting design and manufacturability - covered in a new Chapter 11. Augmenting the book's design orientation are new chapters on design for assemble (Chapter 12) and environmentally conscious design and manufacturing (Chapter 13). The book also includes a wealth of worked-out design examples and design projects (in Chapters 3-11), and an appendix on materials engineering that explains how materials are selected in the design of products. This book provides engineers and product designers with solidly quantitative, design-driven discussion of manufacturing processes that supports a systems approach to manufacturing.