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The #1 book in the industry for more than 15 years! Utilizing a straightforward, math-free pathology, this is a novice-friendly guide to the semiconductor fabrication process from raw materials through shipping the finished, packaged device. Challenging quizzes and review summaries make this the perfect learning guide for technicians in training. * NEW chapter on nanotechnology * NEW sections on 300mm wafer processing * Processes and devices, and Green processing * Every chapter updated to reflect the latest processing techniques
s an easy-to-follow introduction to semiconductor fabrication that proceeds from basic materials and process chemicals to chip packaging procedures. New methods and data related to packaging, memory circuits, and semiconductor devices are key updates in this new edition.
Novice-friendly intro to semiconductor processing.The most readable and comprehensive guide to semiconductorprocessing, Peter Van Zant's Microchip Fabrication is considered the bible of basic microchip technology. Now in an updated new fourth edition, this completely math-free introduction to a complex field is an efficient tool for high-powered engineers and technology-clueless salespeople alike. You'll find fully illuminating, easy-reading explanations of semiconductor materials and process chemicals...contamination control...process yields...all aspects of basic patterning....doping,deposition, and metallization...wafer, device, and circuit evaluation...semiconductor devices and integrated circuit formation and types...and packaging. This new fourth edition puts at your fingertips new sections on: *Copper metallization and damascene patterning *BGA and CSP* Cutting-edge cleaning techniques *And more!
A practical guide to semiconductor manufacturing from processcontrol to yield modeling and experimental design Fundamentals of Semiconductor Manufacturing and Process Controlcovers all issues involved in manufacturing microelectronic devicesand circuits, including fabrication sequences, process control,experimental design, process modeling, yield modeling, and CIM/CAMsystems. Readers are introduced to both the theory and practice ofall basic manufacturing concepts. Following an overview of manufacturing and technology, the textexplores process monitoring methods, including those that focus onproduct wafers and those that focus on the equipment used toproduce wafers. Next, the text sets forth some fundamentals ofstatistics and yield modeling, which set the foundation for adetailed discussion of how statistical process control is used toanalyze quality and improve yields. The discussion of statistical experimental design offers readers apowerful approach for systematically varying controllable processconditions and determining their impact on output parameters thatmeasure quality. The authors introduce process modeling concepts,including several advanced process control topics such asrun-by-run, supervisory control, and process and equipmentdiagnosis. Critical coverage includes the following: * Combines process control and semiconductor manufacturing * Unique treatment of system and software technology and managementof overall manufacturing systems * Chapters include case studies, sample problems, and suggestedexercises * Instructor support includes electronic copies of the figures andan instructor's manual Graduate-level students and industrial practitioners will benefitfrom the detailed exami?nation of how electronic materials andsupplies are converted into finished integrated circuits andelectronic products in a high-volume manufacturingenvironment. An Instructor's Manual presenting detailed solutions to all theproblems in the book is available from the Wiley editorialdepartment. An Instructor Support FTP site is also available.
The first years of the company that developed the microchip and created the model for a successful Silicon Valley start-up. In the first three and a half years of its existence, Fairchild Semiconductor developed, produced, and marketed the device that would become the fundamental building block of the digital world: the microchip. Founded in 1957 by eight former employees of the Schockley Semiconductor Laboratory, Fairchild created the model for a successful Silicon Valley start-up: intense activity with a common goal, close collaboration, and a quick path to the market (Fairchild's first device hit the market just ten months after the company's founding). Fairchild Semiconductor was one of the first companies financed by venture capital, and its success inspired the establishment of venture capital firms in the San Francisco Bay area. These firms would finance the explosive growth of Silicon Valley over the next several decades. This history of the early years of Fairchild Semiconductor examines the technological, business, and social dynamics behind its innovative products. The centerpiece of the book is a collection of documents, reproduced in facsimile, including the company's first prospectus; ideas, sketches, and plans for the company's products; and a notebook kept by cofounder Jay Last that records problems, schedules, and tasks discussed at weekly meetings. A historical overview, interpretive essays, and an introduction to semiconductor technology in the period accompany these primary documents.
An examination of the environmental and economic implications of the computer microchip industry's exodus from California's Silicon Valley to New Mexico, Virginia, Ireland, and Taiwan. In Making Microchips, Jan Mazurek examines the environmental and economic implications of the computer microchip industry's exodus from California's Silicon Valley to New Mexico, Virginia, Ireland, and Taiwan. Globalization, economic restructuring, and changing manufacturing processes in this rapidly growing industry present difficult new questions for environmental policy. Mazurek challenges the assumptions of U.S. policies designed to promote the competitiveness of domestic microchip makers. She argues that, although these initiatives focus on the economic effects of environmental regulation, they fail to acknowledge how economic and organizational changes within the industry collide with and often confound efforts to monitor and manage pollution from chemicals used in microchip manufacturing. Despite its reputation as a clean industry, microchip manufacturing is fraught with hazards. More than sixty dangerous acids, solvents, caustics, and gases are used to make microchips, and some of them are suspected to be carcinogens and/or reproductive toxins. Mazurek describes the environmental by-products of chipmaking, including soil contamination, air and water pollution, and damage to human health. Applying insights from economic geography to questions of how and where companies organize production, she shows how Silicon Valley played a pivotal role in the development of the microchip. Pairing federal environmental data with structural and geographic information on the six firms that continue to build wafer fabrication plants in the United States, she demonstrates how reorganization and relocation of manufacturing facilities divert attention from trends in toxic emissions and how they complicate public and private efforts to improve the industry's environmental performance. In the concluding chapter, Mazurek marshals her findings in a broader analysis of the expansion of global manufacturing and the resultant environmental problems.
This book provides a unique account of the history of integrated circuit, the microelectronics industry and the people involved in the development of transistor and integrated circuit. In this richly illustrated account the author argues that the group of inventors was much larger than originally thought. This is a personal recollection providing the first comprehensive behind-the-scenes account of the history of the integrated circuit.
The Guide to Semiconductor Engineering is concerned with semiconductor materials, devices and process technologies which in combination constitute an enabling force behind the growth of our technical civilization. This book was conceived and written keeping in mind those who need to learn about semiconductors, who are professionally associated with select aspects of this technical domain and want to see it in a broader context, or for those who are simply interested in state-of-the-art semiconductor engineering. In its coverage of semiconductor properties, materials, devices, manufacturing technology, and characterization methods, this Guide departs from textbook-style, monothematic in-depth discussions of each topic. Instead, it considers the entire broad field of semiconductor technology and identifies synergistic interactions within various areas in one concise volume. It is a holistic approach to the coverage of semiconductor engineering which distinguishes this Guide among other books concerned with semiconductors related issues.