[pdf] Analysis and Design of Analog Integrated Circuits-Fourth Edition

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In the 23 years since the publication of the first edition of this book, the field df analog integrated circuits has developed and matured. The initial groundwork was laid in bipolar technology, followed by a rapid evolution of MOS analog integrated circuits. Furthermore, BiCMOS technology (incorporating both bipolar and CMOS devices on one chip) has emerged as a serious contender to the original technologies.A key issue is that CMOS technologies have become dominant in building digital circuits because CMOS digital circuits are smaller and dissipate less power than their bipolar counterparts. To reduce system cost and power dissipation, analog and digital circuits are now often integrated together, providing a strong economic incentive to use CMOS-compatible analog circuits. As a result, an important question in many applications is whether to use pure CMOS or a BiCMOS technology. Although somewhat more expensive to fabricate, BiCMOS allows the designer to use both bipolar and MOS devices to their best advantage, and also allows innovative combinationsof the characteristics of both devices. In addition, BiCMOS can reduce the design time by allowing direct use of many existing cells in realizing a given analog circuit function. On the other hand, the main advantage of pure CMOS is that it offers the lowest overall cost. Twenty years ago, CMOS technologies were only fast enough to support applications at audio frequencies. However, the continuing reduction of the minimum feature size in integrated-circuit (IC) technologies has greatly increased the maximum operating frequencies, and CMOS technologies have become fast enough for many new applications as a result. For example, the required bandwidth in video applications is about 4 MHz, requiring bipolar technologies as recently as 15 years ago. Now, however, CMOS can easily accommodate the required bandwidth for video and is even being used for radio-frequency applications.

 

In this fourth edition, we have combined the consideration of MOS and bipolar circuits into a unified treatment that also includes MOS-bipolar connections made possible by BiCMOS technology. We have written this edition so that instructors can easily select topics related to only CMOS circuits, only bipolar circuits, or a combination of both. We believe that it has become increasingly important for the analog circuit designer to have a thorough appreciation of the similarities and differences between MOS and bipolar devices, and to be able to design with either one where this is appropriate. 

 

Since the SPICE computer analysis program is now readily available to virtually all electrical engineering students and professionals, we have included extensive use of , SPICE in this edition, particularly as an integral part of many problems. We have used computer analysis as it is most commonly employed in the engineering design processboth as a more accurate check on hand calculations, and also as a tool to examine complex circuit behavior beyond the scope of hand analysis. In the problem sets, we have also included a number of open-ended design problems to expose the reader to real-world situations where a whole range of circuit solutionsmay be found to satisfy a given performance specification.

This book is intended to be useful both as a text for students and as a reference book for practicing engineers. For class use, each chapter includes many worked problems; the problem sets at the end of each chapter illustrate the practical applications of the material in the text. All the authors have had extensive industrial experience in IC design as well as in the teaching of courses on this subject, and this experience is reflected in the choice of text material and in the problem sets.

 

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