CMOS Mixed-Signal Circuit Design [Hardcover]

R. Jacob Baker (Author)

Book Description

ISBN-10: 0471227544 | ISBN-13: 978-0471227540 | Publication Date: May 2002 | Edition: 1

An important continuation to CMOS: Circuit Design, Layout, and Simulation

The power of mixed-signal circuit designs, and perhaps the reason they are replacing analog-only designs in the implementation of analog interfaces, comes from the marriage of analog circuits with digital signal processing. This book builds on the fundamental material in the author's previous book, CMOS: Circuit Design, Layout, and Simulation, to provide a solid textbook and reference for mixed-signal circuit design. The coverage is both practical and in-depth, integrating experimental, theoretical, and simulation examples to drive home the why and the how of doing mixed-signal circuit design. Some of the highlights of this book include:

• A practical/theoretical approach to mixed-signal circuit design with an emphasis on oversampling techniques
• An accessible and useful alternative to hard-to-digest technical papers without losing technical depth
• Coverage of delta-sigma data converters, custom analog and digital filter design, design with submicron CMOS processes, and practical at-the-bench deadbug prototyping techniques
• Hundreds of worked examples and questions covering all areas of mixed-signal circuit design

A helpful companion Web site, http://cmosedu.com, provides worked solutions to textbook problems, SPICE simulation netlist examples, and discussions concerning mixed-signal circuit design.

Editorial Reviews

Review

"...contains numerous worked-out examples...usable in formal courses..." (Choice, Vol. 40, No. 5, January 2003)

"...recommended and should be purchased with volume 1." (E-Streams, Vol. 6, No. 5, May 2003)

From the Back Cover

An important continuation to CMOS: Circuit Design, Layout, and Simulation

The power of mixed-signal circuit designs, and perhaps the reason they are replacing analog-only designs in the implementation of analog interfaces, comes from the marriage of analog circuits with digital signal processing. This book builds on the fundamental material in the author's previous book, CMOS: Circuit Design, Layout, and Simulation, to provide a solid textbook and reference for mixed-signal circuit design. The coverage is both practical and in-depth, integrating experimental, theoretical, and simulation examples to drive home the why and the how of doing mixed-signal circuit design. Some of the highlights of this book include:
* A practical/theoretical approach to mixed-signal circuit design with an emphasis on oversampling techniques
* An accessible and useful alternative to hard-to-digest technical papers without losing technical depth
* Coverage of delta-sigma data converters, custom analog and digital filter design, design with submicron CMOS processes, and practical at-the-bench deadbug prototyping techniques
* Hundreds of worked examples and questions covering all areas of mixed-signal circuit design

A helpful companion Web site, http://cmosedu.com, provides worked solutions to textbook problems, SPICE simulation netlist examples, and discussions concerning mixed-signal circuit design.

See all Editorial Reviews

Product Details

• Hardcover: 502 pages
• Publisher: Wiley-IEEE Press; 1 edition (May 2002)
• Language: English
• ISBN-10: 0471227544
• ISBN-13: 978-0471227540
• Product Dimensions: 9.4 x 6.2 x 1.2 inches
• Shipping Weight: 1.8 pounds
• Average Customer Review: 4.7 out of 5 stars  See all reviews (6 customer reviews)
• Amazon Best Sellers Rank: #1,655,916 in Books (See Top 100 in Books)

More About the Author

Russel Jacob (Jake) Baker was born in Ogden, Utah, on October 5, 1964. He received the B.S. and M.S. degrees in electrical engineering from the University of Nevada, Las Vegas, in 1986 and 1988. He received the Ph.D. degree in electrical engineering from the University of Nevada, Reno in 1993.

From 1981 to 1987, he served in the United States Marine Corps Reserves. From 1985 to 1993, he worked for E. G. & G. Energy Measurements and the Lawrence Livermore National Laboratory designing nuclear diagnostic instrumentation for underground nuclear weapons tests at the Nevada test site. During this time he designed over 30 electronic and electro-optic instruments including high-speed (750 Mb/s) fiber-optic receiver/transmitters, PLLs, frame- and bit-syncs, data converters, streak-camera sweep circuits, micro-channel plate gating circuits, and analog oscilloscope electronics. From 1993 to 2000, he served on the faculty in the department of electrical engineering at the University of Idaho on the Boise State campus. In 2000, he joined a new electrical and computer engineering program at Boise State University, where he served as department chair from 2004 to 2007. At Boise State he helped establish graduate programs in electrical and computer engineering including, in 2006, the university's second PhD degree. Also, since 1993, he has consulted for various companies and laboratories including Amkor, Lawrence Berkeley Laboratory, Micron, Nascentric, Rendition, Sun, and Tower. His research interests lie in analog/mixed-signal integrated circuit design (combining analog circuit design with digital signal processing) and the design of memory/displays/imagers (arrays) in new and emerging fabrication technologies.

Jake holds over 200 granted or pending patents in integrated circuit design. Among his inventions is the K-Delta-1-Sigma modulator topology used in the Baker analog-to-digital converter. He is a member of the electrical engineering honor society Eta Kappa Nu, a licensed Professional Engineer, and the author of the books CMOS Circuit Design, Layout, and Simulation, CMOS Mixed-Signal Circuit Design, and a coauthor of DRAM Circuit Design: Fundamental and High-Speed Topics. He received the 2000 Best Paper Award from the IEEE Power Electronics Society and the 2007 Frederick Emmons Terman Award.

Customer Reviews

Most Helpful Customer Reviews

25 of 26 people found the following review helpful:

5.0 out of 5 stars An excellent text for learning and for reference!, July 31, 2002

By 

Anna Gomm (Boise, ID United States) - See all my reviews

This review is from: CMOS Mixed-Signal Circuit Design (Hardcover)

The book begins by covering basic data converter theory and includes methods for SPICE modeling of data converters. An important aspect to this coverage is that the metrics for evaluating data converters are explained clearly (this makes the book a great reference when wading through some of the spec sheets or journal articles covering data converters).

After the fundamentals of data converters are established, the text covers noise-shaping converters (including a review of some of the digital filtering concepts required to understand/implement these devices). This is one of the hottest topics in solid-state circuit design today, with journal articles appearing monthly on new topologies and uses for sigma-delta data converters. Very few textbooks are available that cover this topic, and it is great to have a book that teaches the noise-shaping concepts in such a straightforward manner.

There are a few chapters that cover implementation of data converters, including a very useful chapter on submicron CMOS circuit design. Rather than simply focus on the academic and `ideal' implementations of circuitry, this text takes a practical approach and recognizes that the real world is not perfect. This approach is seen throughout the text and gives a deeper appreciation for the specifications used to characterize converter performance, as well as the limitations with various circuit topologies.

In addition to data converters, there is a chapter on integrator-based CMOS filters (this is very applicable in today's mixed-signal CMOS designs), including filters that use the noise-shaping concepts discussed earlier.

Very few technical textbooks are as well thought as this one. From start to finish, the text is filled with practical examples that aid in the learning process. There are SPICE examples throughout the book, and the netlists will all run using WinSPICE (all netlists and WinSPICE are available for download ...). It is great to be able to play with these netlists and get a feel for how the circuits operate.

The final chapter in the book takes the concepts taught and shows real implementations of several circuits (on a breadboard and with hand-soldered circuits), including a noise-shaping modulator and a discrete analog integrator. The author proves that the concepts work with these implementations and discusses proper laboratory measurement and characterization techniques.

This book is a great teaching tool as a classroom text or as a self-study reference. The problems at the end of each chapter and the prototypes at the end of the book allow the reader to verify understanding, whether on paper or in the laboratory.

14 of 15 people found the following review helpful:

5.0 out of 5 stars Best book on mixed-signal circuit design, September 24, 2002

By 

Charles Jiang (Austin, TX) - See all my reviews

This review is from: CMOS Mixed-Signal Circuit Design (Hardcover)

This is the best book I have found so far on CMOS mixed-signal circuit design. It is not only an excellent textbook for senior or graduate student to learn mixed-signal circuit design but also a "must have" reference book for circuit designers doing analog/mixed-signal design. The book presents not only the therectical background for data converter using SPICE modeling approach, but also the practical considerations for implementing data converters at the circuit level. The materials it covers about submicron CMOS circuit design has provided reader with necessary background and techniques (which are very practical) for transistor level design like no other analog textbook you can find.

3 of 3 people found the following review helpful:

5.0 out of 5 stars Great resource for learning mixed mode simulation, September 12, 2009

By 

Howard R. Hansen (Chicago, IL USA) - See all my reviews
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Amazon Verified Purchase

This review is from: CMOS: Mixed-Signal Circuit Design, Second Edition (Hardcover)

If you want to learn how to use SPICE to simulate mixed mode systems then this book is a great resource. The author does not provide step by step instructions. Instead the author provides a large set of examples to learn from. The examples mainly cover topics like switched capacitor analog filters, digital filters, analog to digital converters and digital to analog converters. You can use either Cadence IC51, Cadence IC61 or LTspice versions of SPICE as examples are provided for all three versions.