While retaining the same basic depth of coverage, four "read-only" chapters have been specifically added herein to broaden the coverage and enhance the transmission of factual information. In the read-only chapters the emphasis is more on describing the exciting world of modern-day devices.
Compound semiconductor devices likewise receive increased coverage throughout the text. There is also a natural tradeoff between the effort devoted to developing qualitative insight and the implementation of a quantitative analysis. Careful attention has been given to avoid slighting the development of "intuition" in light of the greatly enhanced quantitative capabilities arising from the integrated use of the computer. Hopefully, the proper tradeoffs have been achieved whereby the reader is reasonably knowledgeable about the subject matter and acceptably equipped to perform device analyses after completing the text.
The present text is intended for undergraduate juniors or seniors who have had at least an introductory exposure to electric field theory. With some deletions, the material in each of the three parts is covered during a five-week segment of a one-semester, three-credit-hour, junior-senior course in Electrical and Computer Engineering at Purdue University.
A day-by-day course outline is supplied on the Instructor's Disk accompanying the Solutions Manual. If necessary to meet time constraints, read-only Chapters 4, 9, 13, and 19 could be deleted from the lecture schedule. An instructor might preferably assign the chapters as independent readings and reward compliant students by including extra-credit examination questions covering the material. Standard Chapters 12, 14, and 15, except for the general field-effect introduction in Section Although a complete listing of special features is given in the General Introduction, instructors should take special note of the Problem Information Tables inserted prior to the end-of-chapter problems.
These tables should prove useful in assigning problems and in dealing with homework graders. When faced with constructing a test, instructors may also be interested in examining the Review Problem Sets found in the mini-chapters identified by thumb tabs at the end of the three book parts. The Review Problem Sets are derived from old "open-book" and "closed-book" tests. Concerning the computer-based exercises and problems, the use of either the student or professional version of MATLAB is recommended but not required.
It is critical, however, that the user complete a large percentage of the computer-based exercises and problems in the first three chapters. The exercises and problems found in later chapters not only assume a reasonably competent use of MATLAB, but also build upon the programs developed in the earlier chapters. The author gratefully acknowledges the assistance of associates, EE students, the respondents to an early marketing survey, the manuscript reviewers, and Addison-Wesley personnel in making Book a reality.
Deserving of special thanks is Ali Keshavarzi for arranging the author's sabbatical at Intel Corporation and for providing photographs of equipment inside the Albuquerque fabrication facility. Mark Lundstrom at Purdue University was also most helpful in supplying key information and figures for several book sections. Of the undergraduate students asked to examine the manuscript for readability and errors, Eric Bragg stands out as especially perceptive and helpful.
The very conscientious manuscript reviewers were Prof. Kenneth A. Gary S. Leave this field empty. Trending Today. Load more. Get New Updates Email Alerts Enter your email address to subscribe this blog and receive notifications of new posts by email.
Join With us. Today Updates. August 8. July June Duggal Free Download June Charles H. Roth, Larry April April 6. Popular Files. Grewal Book Free Download April Bansal Book Free October Verma Book Free Download February March Trending on EasyEngineering. November September 9. Thereafter the book is concerned with the principles of operation of specific devices, beginning with the Gunn Diode and the p-n junction.
The remaining chapters cover the on specific devices, including the LED, the bipolar transistor, the field-effect transistor, and the semiconductor laser. The book concludes with a chapter providing a brief introduction to quantum theory. Not overtly mathematical, Introduction to Semiconductor Device Physics introduces only those physical concepts required for an understanding of the semiconductor devices being considered.
The author's intuitive style, coupled with an extensive set of worked problems, make this the ideal introductory text for those concerned with understanding electrical and electronic engineering, applied physics, and related subjects.
Navon David H. Author : David H. Students will benefit from the brief introduction to the fundamentals of semiconductor materials, which emphasizes for example the advantages of using GaAs instead of Si for the fabrication of certain devices. Navon explains how to use computer modeling in analysis and design, and provides numerous practical, relevant worked problems to reinforce the material.
From physical process to practical applications - Singh makes the complexities of modern semiconductor devices clear! The semiconductor devices that are driving today's information, technologies may seem remarkably complex, but they don't have to be impossible to understand.
Filled with figures, flowcharts, and solved examples, Jasprit Singh's Semiconductor Devices provides an accessible, well-balanced introduction to semiconductor physics and its application to modern devices. Beginning with the physical process behind semiconductor devices, Singh clearly explains difficult topics, including bandstructure, effective masses, holes, doping, carrier transport, and lifetimes. Following these physical fundamentals, you'll explore the operation of important semiconductor devices, such as diodes, transistors, light emitters, and detectors, along with issues relating to the optimization of device performance.
Discussion of device optimization issues explains why you have to trade one performance against another in devices. Technology Roadmaps outline what's currently happening in the field and present a look at where device technology is headed in the future.
A Bit of History sections, included in each chapter, explore the history of the concepts developed and provide a snapshot of the personalities involved and the challenges of the time. The basic semiconductor devices are explored at two levels: 1 a mathematically rigorous but simple model for each device is developed and then; 2 the motivations of modern devices which are more complex are provided. Most subsections end with a solved example so that the reader develops a feel of real numbers and the importance of device design.
Morant M. Semiconductor deviceshavealsoenabledeconomicallyreasonable? Alongwiththese tremendous technological developments, semiconductors have changed the way we work, communicate, entertain and think. The technological progress of semiconductor materials and devices is evolving continuously with a large worldwide e?
It brings them to the point where they can specialize and enter supervisedlaboratoryresearch. Since the book can be followed with little or no pre-existing knowledge in solid-state physics and quantum mechanics, it is also suitable for undergraduate students. For the interested reader some additional topics are included in the book that can be covered in subsequent, more speci- ized courses. The material is selected to provide a balance between aspects of solid-state and semiconductor physics, the concepts of various semiconductor devices and modern applications in electronics and photonics.
Brennan Kevin F. Author : Kevin F. From semiconductor fundamentals to semiconductor devices used in the telecommunications and computing industries, this book provides a solid grounding in the most important devices used in the hottest areas of electronic engineering. The book includes coverage of future approaches to computing hardware and RF power amplifiers, and explains how emerging trends and system demands of computing and telecommunications systems influence the choice, design and operation of semiconductors.
Short channel effects and the challenges faced by continuing miniaturisation are then addressed. The rest of the book discusses the structure, behaviour, and operating requirements of semiconductor devices used in lightwave and wireless telecommunications systems. Morgan D. Author : D. Sze Simon M.
0コメント