Synopses & Reviews
This is the only comprehensive book in the market for engineers that covers the design of CMOS and bipolar analog integrated circuits. The fifth edition retains its completeness and updates the coverage of bipolar and CMOS circuits.
A thorough analysis of a new low-voltage bipolar operational amplifier has been added to Chapters 6, 7, 9, and 11.
Chapter 12 has been updated to include a fully differential folded cascode operational amplifier example. With its streamlined and up-to-date coverage, more engineers will turn to this resource to explore key concepts in the field.
Review
"Intended both for students and as a reference for working engineers, the fifth edition of this popular engineering textbook is updated to include discussions of newly available integrated circuits as well as general advances in the field. Drawn from material taught to high level seniors and graduate students at the University of California's Berkeley and Davis engineering departments, the work covers such topics as the physics of bipolar and MOS transistors, the technology of integrated circuit (IC) fabrication and the design and uses of operational amplifiers as well as many advanced topics in IC principles and design." (Reference and Research Book News, February 2011)
Synopsis
The Fifth Edition of this academically rigorous text provides a comprehensive treatment of analog integrated circuit analysis and design starting from the basics and through current industrial practices. The authors combine bipolar, CMOS and BiCMOS analog integrated-circuit design into a unified treatment that stresses their commonalities and highlights their differences. The comprehensive coverage of the material will provide the student with valuable insights into the relative strengths and weaknesses of these important technologies.
Table of Contents
1. Models for Integrated-Circuit Active Devices
2. Bipolar, MOS, and BiCMOS Integrated-Circuit Technology
3. Single-Transistor and Multiple-Transistor Amplifiers
4. Current Mirrors, Active Loads, and References
5. Output Stages
6. Operational Amplifiers with Single-Ended Outputs
7. Frequency Response of Integrated Circuits
8. Feedback
9. Frequency Response and Stability of Feedback Amplifiers
10. Nonlinear Analog Circuits
11. Noise in Integrated Circuits
12. Fully Differential Operational Amplifiers