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For two-semester/three-quarter, upper-level courses in Electronic Circuit Design.
A basic understanding of circuit design is useful for many engineers—even those who may never actually design a circuit—because it is likely that they will fabricate, test, or use these circuits in some way during their careers. This text provides a thorough and rigorous explanation of both analog and digital transistor-level circuit design with a focus on the underlying principles of how different circuits work—instead of relying completely on design procedures or “rules of thumb.” In this way, students develop the intuition that is essential to understanding and solving design problems.
Note: 2 Volume Set
CD contents are available at www.prenhall.com/spencer
- Sales Rank: #1103600 in Books
- Published on: 2002-08-19
- Ingredients: Example Ingredients
- Original language: English
- Number of items: 2
- Dimensions: 10.00" h x 2.30" w x 7.90" l, 5.29 pounds
- Binding: Paperback
- 1132 pages
From the Back Cover
Richard R. Spencer received the B.S.E.E. degree from San Jose State University in 1978 and the M.S. and Ph.D. degrees in electrical engineering from Stanford University in 1982 and 1987, respectively. He has been with the Department of Electrical and Computer Engineering at the University of California, Davis, since 1986, where he is currently the Vice Chair for Undergraduate Studies and the Child Family Professor of Engineering. His research focuses on analog and mixed-signal circuits for signal processing and digital communication. He is an active consultant to the IC design industry. Professor Spencer is a senior member of the IEEE. He has won the UCD-IEEE Outstanding Undergraduate Teaching Award three times. He served on the IEEE International Solid-State Circuits Conference program committee for nine years, has been a guest editor of the IEEE Journal of Solid-State Circuits and has been an organizer and session chair for various IEEE conferences and workshops.
Mohammed S. Ghausi is a Professor Emeritus of Electrical and Computer Engineering as well as Dean Emeritus of the College of Engineering, University of California, Davis. His research interests are in electronics circuits and systems, network theory, and active filters. He is a recipient of the Alexander von Humboldt Prize, the IEEE Centennial Medal, and the IEEE Circuits and Systems Society's 1991 Education Award.
About the Author
Richard R. Spencer received the B.S.E.E. degree from San Jose State University 'in 1978 and the M.S. and Ph.D. degrees in Electrical Engineering from Stanford University in 1982 and 1987, respectively. He is a senior member of the IEEE.
He has been with the Department of Electrical and Computer Engineering at the University of California, Davis, since 1986, where is he is currently the Vice Chair for Undergraduate Studies and the Child Family Professor of Engineering. His research focuses on analog and mixed-signal circuits for signal processing and digital communication. He is an active consultant to the IC design industry.
Professor Spencer has won the UCD-IEEE Outstanding Undergraduate Teaching Award three times. He served on the IEEE International Solid-State Circuits Conference program committee for nine years, has been a guest editor of the IEEE Journal of Solid-State Circuits and has been an organizer and session chair for various IEEE conferences and workshops.
Mohammed S. Ghausi received the B.S.E.E., M.S. and Ph.D. degrees in Electrical Engineering from the University of California at Berkeley. He is a Professor Emeritus of Electrical and Computer Engineering as well as Dean Emeritus of the College of Engineering at UC Davis. His research interests are in electronics circuits and systems, and network theory, and he is the author or co-author of six textbooks. He was formerly a Professor of Electrical Engineering at New York University and later John F. Dodge Professor and Dean of Engineering and Computer Science at Oakland University. He is a recipient of the Alexander von Humboldt Prize, the IEEE Centennial Medal, the Circuits and Systems Society's 1991 Education Award, and the 1988 Outstanding Alumnus award of the Department of Electrical Engineering and Computer Science at the University of California at Berkeley.
Excerpt. © Reprinted by permission. All rights reserved.
In the forward to the first issue of the IEEE Journal of Solid-State Circuits in September 1966, Dr. James D. Meindl wrote
"Within the past two decades, perhaps no sector of electronics has
developed more rapidly than solid-state circuits. The nature of this
development has imposed an expanding set of requirements on the breadth
of knowledge one must possess in order to design a circuit well. – Most
recently, the uniquely interdependent material, device, circuit, and system
design considerations of large scale integration have again extended the
scope of the problem of circuit design."
It is remarkable that such broad statements, written over 30 years ago, are still accurate today. Given the complexity of present-day integrated circuits, circuit designers need to have a greater breadth of knowledge than ever before. This text is intended to provide an introduction to this important and rapidly changing discipline.
Many engineers who will never design an electronic circuit need to have a basic understanding of the characteristics of electronic circuits because they fabricate, test, or use these circuits, or they design systems that eventually have to be implemented using these circuits. In addition, there are many techniques and principles used in the design of electronic circuits that find widespread use outside of this discipline (e.g., small-signal linearity and feedback). Therefore, for those of you who will not become circuit designers this text still has much to offer that will be important in your careers.
The field of electrical engineering changes very rapidly. What can you expect to learn from this book that will still be useful in ten or twenty years? A great deal I hope. Although the devices, the economics of which components you favor, (e.g., resistors used to be cheaper than transistors, but the opposite is true in integrated circuits), and the computer-aided design tools will definitely change; there is still much that will stay the same. I can't predict exactly what will remain useful, but it seems unlikely that the concept of how to analyze a circuit so that you can see how to improve it will change, or that the concept of small-signal linearity will become unimportant, and certainly the ability you develop to solve problems will always be useful; after all, that is what engineers do.
I have tried to concentrate on helping you learn the concepts in this book. To be good at circuit design and many other engineering disciplines requires a healthy dose of intuition. While you certainly need to know how to write nodal equations and solve them, no one is going to pay you to do that because you can't possibly compete with a computer program. As soon as any area of engineering is well enough understood that we can write rigid procedures guaranteed to produce a correct answer, a computer program will take over. Therefore, it is true that you will always be working with systems that you don't completely understand and systems that cannot be analyzed exactly. Design will always require an ability to model the real system with a model that is simultaneously simple enough to allow you to "see" what is going on and think of ways to improve the performance, while being complete enough to adequately model the salient characteristics of the system. In addition, design requires that we do our analyses in a different way; we aren't just seeking the answer, but an understanding of how we can modify the system and/or choose the component values to achieve a desired result. That is, at least in part, what it takes to do design.
Therefore, I have focused on providing explanations and examples of how different circuits work and have focused on the underlying principles more than "rules of thumb" or design procedures, although some of these are certainly given. If you are searching for a cookbook approach, you won't find it here. However, remember that no one will pay you to follow set procedures. A designer is only valuable if he or she understands the problem well enough to come up with a good solution, even when no "procedure" exists.
This textbook came together when the second author, who was looking for someone to revise an existing text, met with the first author, who was contemplating writing a new book. After discussion, it was agreed that a new textbook was needed, but that material from the older text could be used. The result is the book you have in your hands; most of the material is completely new and written by the first author, but some of it is adapted from Electronic Devices and Circuits: Discrete and Integrated, by Mohammed S. Ghausi.
Organization and Features of the TextThe material in this text is organized logically by topic, rather than sequentially in the order I would present it. Therefore, I do not expect that you will read this book linearly. Rather, I expect that you will at times, jump around a bit. Organizing the book in this way has two advantages; first, I do not dictate the order of presentation and second, it emphasizes the different types of analyses that must be used in the design process.
Not specifying the order of presentation is important, because it allows each instructor more flexibility in choosing the topics to be covered and the depth of coverage of each topic. For example, you may cover field-effect transistor (FET) circuits first, or bipolar junction transistor (BJT) circuits first. This flexibility is partly brought about by placing the material on small-signal linearity in a separate chapter, and partly through the use of a generic transistor to present certain information that is common to both FETs and BJTs.
Emphasizing the different types of analyses used in design is important, because students are frequently confused about when and why a particular analysis or model should be used. For example, why is a capacitor modeled as an open or short circuit for some analyses while it is retained for others? And how do I know which model I should use for the transistors in my circuit? By covering DC bias point analysis, small-signal midband AC analysis, frequency response, large-signal AC performance, and digital circuits in different chapters, I emphasize the models, methods, and motivation for each type of analysis. Where possible, one example will be used throughout several chapters so, for example, you can learn about the DC biasing, midband gain, frequency response and large-signal swing of a common-emitter amplifier using a single example circuit. But the distinctions between the different types of analyses are emphasized by having each of them in a different chapter.
One feature of this text is the use of a generic transistor to present many of the basic principles that are common to FET and BJT circuits. While this transistor is fictitious, the terminal names used focus attention on the functionality of the device and the models used are the same as real transistors. The advantages of using this slight fiction are:
With this mode of thinking, the designer first considers the functionality of the circuit and then considers which type of device is best suited to a given application.
Another feature of this text is that it often breaks complex topics up into different levels of coverage to enable an instructor to decide how much detail to cover on a given topic at a given time. For example, most sections in Chapter 2 describing the operation of solid-state devices have an intuitive description followed by a more detailed derivation of the equations. The intuitive description can be used by students who have already had—or will have—a more detailed course in device physics. The detailed derivations can be used by students who have only one course covering electronic circuits and devices. As another example, the frequency response chapter presents both first-order methods for estimating the band-width of simple circuits (e.g., the Miller effect) and the more general zero-value time constant method. The more advanced zero-value time constant method may be left out of an introductory course taken by general Electrical and Computer Engineering students and can then be added in during a second-term course for students specializing in the circuits area.
One other feature of this text is that full solutions are provided for the exercises, rather than just numerical answers. It is my belief that if an exercise is involved enough to be of any real use to the student, simply providing the numerical answer is insufficient.
The final major feature of this text is the use of Asides. Asides are used for two different purposes. Sometimes, they are used to present material that is essential, but the student may already know from a prerequisite course, or may want to refer to later. Having the material in a separate Aside allows students to skip it or easily refer to it later. Asides are also sometimes used to present optional material that may expand on or further explain the material covered in the section. A separate index is provided to the Asides.
The CD that accompanies this text is also important. In addition to containing an evaluation version of the MicroSim DesignLab 8 software, which includes PSPICE, a postprocessor (PROBE), and a schematic capture program, the CD also includes all of the simulation files for over 100 exercises, examples, figures, and comments in the text. There are indexes on the CD for these files so that you can find, for example, a simulation file that shows how to use PSPICE to find the input or output resistance of an amplifier. In addition, the CD contains companion sections for a few places in the text where material was not printed for the sake of brevity (including two appendixes). I felt that some students would want this material.
There is more than enough material in this text for a two semester or three quarter sequence in electronic circuit design. Several different instructors have used drafts of this text for a two-quarter sequence at the University of California at Davis for several years. The first quarter of that sequence is required of all Electrical and Computer Engineering majors and covers Chapters 1 and 6, parts of Chapters 2, 7, and 8, the introductory material in Chapter 9, Chapter 14 and part of Chapter 15. The second quarter then adds the zero-value time constant method in Chapter 9, covers all of Chapter 10 and some of Chapters 4,12, and 13. The material in Chapters 5 and 11 is used as reference material in other courses and Chapter 3 is left for the students to read, if they are interested.
Most helpful customer reviews
17 of 18 people found the following review helpful.
The BEST book for Electrical Engineering Undergrad
By Chris G. Sebastian
I am an undergraduate electrical engineering student, and I wish I had found Spencer/Ghausi years ago; It is by far the best, best, BEST book I have ever seen on circuit design.
There are three main things that make this book so great:
#1 -- It explains things extremely well. Things are explained simply, concisely, completely, and in a way that is down-to-earth and easy to understand. There are so many other books that get lost in math proofs before even explaining basic concepts; This book first explains concepts and builds an intuitive understanding of the topic, and explains WHY the topic is important to learn about, and then goes through the math proofs in a very easy-to-follow way. But don't think that you are going to be bogged down with long chapters; even with all the enlightening explanations, the sections are shorter and quicker to read than other books.
#2 -- This book is actually FUN to read! When I entered college, I decided to study electrical engineering because I thought that this stuff was really interesting and fun. The textbook that Arizona State University uses (Sedra/Smith) quickly squashed all joy and fun out of the subject. The Sedra/Smith textbook was so boring, difficult, and frustrating, and it never once made electrical engineering seem fun at all! Every time I would open up Sedra/Smith to study, I would fall asleep because it was so boring! THIS BOOK IS NOT BORING. It is interesting and fun to read. No coffee is required to read this book! Since I have been using this book, I have rediscovered the reason why I chose this major in the first place.
#3 -- This book always answers the question "...so why should I care?" Every subject is accompanied with an explanation about why the subject is important to you, and how it fits in with the real world. It is surprising how many other books just throw a bunch of information at you, and just expect you to be able to figure out what it's all for. With this book, you always know what each piece is for, and how they all relate to each other. For example, I now know WHY I would want to choose one amplifier type over another; The Sedra/Smith book never explained that to me - it just presented me with a bunch of amplifier types...
Get this book! You won't regret it.
2 of 5 people found the following review helpful.
Awesome book
By Jay
This book is great. Exlains everything crystal clear. Just be careful when you order it...I ordered a hardback and they gave me two paperback sections, part A and part B.
2 of 17 people found the following review helpful.
no comment about the content
By Morsi
the book was expected as hardcover, received is paperback and the printing quality looks like photocopy.. sorry the price became too much.
i returned the book immediately.
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