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Microelectronic Devices
Author: Keith Leaver
Publisher: World Scientific
ISBN: 186094020X
Pages: 236
Year: 1997
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The second edition of this introductory book sets out clearly and concisely the principles of operation of the semiconductor devices that lie at the heart of the microelectronic revolution. The book aims to teach the reader how semiconductor devices are modelled. It begins by providing a firm background in the relevant semiconductor physics. These ideas are then used to construct both circuit models and mathematical models for diodes, bipolar transistors and MOSFETs. It also describes the processes involved in fabricating silicon chips containing these devices. The first edition has already proved a highly useful textbook to first and second year degree students in electrical and electronic engineering, and related disciplines. It is also useful to HND students in similar subject areas, and as supplementary reading for anyone involved in integrated circuit design and fabrication.
Integrated Microelectronic Devices
Author: J. A. Del Alamo
Publisher: Pearson
ISBN: 0134670906
Pages: 880
Year: 2017-01-20
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A modern take on microelectronic device engineering Microelectronics is a 50-year-old engineering discipline still undergoing rapid evolution and societal adoption. Integrated Microelectronic Devices: Physics and Modeling fills the need for a rigorous description of semiconductor device physics that is relevant to modern nanoelectronics. The central goal is to present the fundamentals of semiconductor device operation with relevance to modern integrated microelectronics. Emphasis is devoted to frequency response, layout, geometrical effects, parasitic issues and modeling in integrated microelectronics devices (transistors and diodes). In addition to this focus, the concepts learned here are highly applicable in other device contexts. This text is suitable for a one-semester junior or senior-level course by selecting the front sections of selected chapters (e.g. 1-9). It can also be used in a two-semester senior-level or a graduate-level course by taking advantage of the more advanced sections.
Microelectronic devices and circuits
Author: Clifton G. Fonstad
Publisher: McGraw-Hill College
ISBN: 0070214964
Pages: 686
Year: 1994
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Microelectronic Devices
Author: Edward S. Yang
Publisher: McGraw-Hill College
ISBN: 0070722382
Pages: 447
Year: 1988-01-01
View: 322
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Microelectronic Devices And Circuits
Author: B. P. Singh
Publisher: New Age International
ISBN: 812241303X
Pages: 300
Year: 2005-01-01
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This Book Presents A Simple And Systematic Exposition Of Various Devices And Circuits In Terms Of The Indefinite Admittance Matrix.Beginning With A Clear Description Of The Basic Features Of This Matrix The Book Considers H- And Fet Parameters.L.F. And H.F. Response Of Bjt And Fet Amplifiers Are Then Discussed Followed By Multistage Amplifiers, Oscillators And Passive Circuits.Throughout The Book, The Basic Concepts And Techniques Are Lucidly Explained And Illustrated Through Suitable Solved Examples. Numerous Problems And Objective Questions Have Also Been Included.The Book Would Be Extremely Useful For Undergraduate Electronics, Communication And Computer Engineering Students. Amie Candidates And Practising Engineers Would Also Find It A Valuable Reference Source.
Microelectronic Devices
Author:
Publisher: Allied Publishers
ISBN: 8177644599
Pages:
Year:
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Defects in Microelectronic Materials and Devices
Author: Daniel M. Fleetwood, Ronald D. Schrimpf
Publisher: CRC Press
ISBN: 1420043773
Pages: 770
Year: 2008-11-19
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Uncover the Defects that Compromise Performance and Reliability As microelectronics features and devices become smaller and more complex, it is critical that engineers and technologists completely understand how components can be damaged during the increasingly complicated fabrication processes required to produce them. A comprehensive survey of defects that occur in silicon-based metal-oxide semiconductor field-effect transistor (MOSFET) technologies, this book also discusses flaws in linear bipolar technologies, silicon carbide-based devices, and gallium arsenide materials and devices. These defects can profoundly affect the yield, performance, long-term reliability, and radiation response of microelectronic devices and integrated circuits (ICs). Organizing the material to build understanding of the problems and provide a quick reference for scientists, engineers and technologists, this text reviews yield- and performance-limiting defects and impurities in the device silicon layer, in the gate insulator, and/or at the critical Si/SiO2 interface. It then examines defects that impact production yield and long-term reliability, including: Vacancies, interstitials, and impurities (especially hydrogen) Negative bias temperature instabilities Defects in ultrathin oxides (SiO2 and silicon oxynitride) Take A Proactive Approach The authors condense decades of experience and perspectives of noted experimentalists and theorists to characterize defect properties and their impact on microelectronic devices. They identify the defects, offering solutions to avoid them and methods to detect them. These include the use of 3-D imaging, as well as electrical, analytical, computational, spectroscopic, and state-of-the-art microscopic methods. This book is a valuable look at challenges to come from emerging materials, such as high-K gate dielectrics and high-mobility substrates being developed to replace Si02 as the preferred gate dielectric material, and high-mobility substrates.
Microelectronic Devices
Author: Dipankar Nagchoudhuri
Publisher: Prentice Hall
ISBN: 8178083647
Pages: 494
Year: 2001-02-01
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Plastic packaging of microelectronic devices
Author: Louis T. Manzione
Publisher: Van Nostrand Reinhold Company
ISBN:
Pages: 377
Year: 1990
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Notes on SEM examination of microelectronic devices
Author: John R. Devaney, Kathryn O. Leedy, W. J. Keery
Publisher:
ISBN:
Pages: 48
Year: 1977
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Introduction to Microelectronic Devices
Author: David L. Pulfrey, N. Garry Tarr
Publisher:
ISBN: 1740160207
Pages: 434
Year: 2000
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Manufacturing process control for microelectronic devices and circuits
Author: Anant G. Sabnis, Society of Photo-optical Instrumentation Engineers
Publisher: Society of Photo Optical
ISBN:
Pages: 250
Year: 1994
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Plasma Electronics
Author: Toshiaki Makabe, Zoran Lj. Petrovic
Publisher: CRC Press
ISBN: 1420012274
Pages: 360
Year: 2006-03-27
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Without plasma processing techniques, recent advances in microelectronics fabrication would not have been possible. But beyond simply enabling new capabilities, plasma-based techniques hold the potential to enhance and improve many processes and applications. They are viable over a wide range of size and time scales, and can be used for deposition, etching, and even process monitoring and diagnosis. Plasma Electronics: Applications in Microelectronic Device Fabrication explains the fundamental physics and numerical methods necessary to bring these technologies from the laboratory to the factory. Beginning with an overview of the basic characteristics and applications of low-temperature plasma, preeminent experts Makabe and Petrovic explore the physics underlying the complex behavior of non-equilibrium (or low temperature) plasma. They discuss charged particle transport in general and in detail as well as macroscopic plasma characteristics and elementary processes in gas phase and on surfaces. After laying this groundwork, the book examines state-of-the-art computational methods for modeling plasma and reviews various important applications including inductively and capacitively coupled plasma, magnetically enhanced plasma, and various processing techniques, while numerous problems and worked examples reinforce the concepts. Uniquely combining physics, numerical methods, and practical applications, Plasma Electronics: Applications in Microelectronic Device Fabrication equips you with the knowledge necessary to scale up lab bench breakthroughs into industrial innovations.
Vacuum Microelectronics
Author: Wei Zhu
Publisher: John Wiley & Sons
ISBN: 0471464090
Pages: 416
Year: 2004-04-07
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Expert coverage of vacuum microelectronics-principles, devices, and applications The field of vacuum microelectronics has advanced so swiftly that commercial devices are being fabricated, and applications are being developed in displays, wireless communications, spacecraft, and electronics for use in harsh environments. It is a rapidly evolving, interdisciplinary field encompassing electrical engineering, materials science, vacuum engineering, and applied physics. This book surveys the fundamentals, technology, and device applications of this nascent field. Editor Wei Zhu brings together some of the world's foremost experts to provide comprehensive and in-depth coverage of the entire spectrum of vacuum microelectronics. Topics include: Field emission theory Metal and silicon field emitter arrays Novel cold cathode materials Field emission flat panel displays Cold cathode microwave devices Vacuum Microelectronics is intended for practitioners in the display, microwave, telecommunications, and microelectronics industries and in government and university research laboratories, as well as for graduate students majoring in electrical engineering, materials science, and physics. It provides cutting-edge, expert coverage of the subject and serves as both an introductory text and a professional reference.
Quantum Heterostructures
Author: Vladimir Vasilʹevich Mitin, Viacheslav Kochelap, Michael A. Stroscio
Publisher: Cambridge University Press
ISBN: 0521636353
Pages: 642
Year: 1999-07-13
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Quantum Heterostructures provides a detailed description of the key physical and engineering principles of quantum semiconductor heterostructures. Blending important concepts from physics, materials science, and electrical engineering, it also explains clearly the behavior and operating features of modern microelectronic and optoelectronic devices. The authors begin by outlining the trends that have driven development in this field, most importantly the need for high-performance devices in computer, information, and communications technologies. They then describe the basics of quantum nanoelectronics, including various transport mechanisms. In the latter part of the book, they cover novel microelectronic devices, and optical devices based on quantum heterostructures. The book contains many homework problems and is suitable as a textbook for undergraduate and graduate courses in electrical engineering, physics, or materials science. It will also be of great interest to those involved in research or development in microelectronic or optoelectronic devices.

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