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Introduction to CMOS OP-AMPs and Comparators [Kõva köide]

(Exar Corporations, Fremont, California)
  • Formaat: Hardback, 376 pages, kõrgus x laius x paksus: 245x162x23 mm, kaal: 653 g
  • Ilmumisaeg: 15-Jul-1999
  • Kirjastus: Wiley-Interscience
  • ISBN-10: 0471317780
  • ISBN-13: 9780471317784
Teised raamatud teemal:
Introduction to CMOS OP-AMPs and ComparatorsSuurem pilt
  • Formaat: Hardback, 376 pages, kõrgus x laius x paksus: 245x162x23 mm, kaal: 653 g
  • Ilmumisaeg: 15-Jul-1999
  • Kirjastus: Wiley-Interscience
  • ISBN-10: 0471317780
  • ISBN-13: 9780471317784
Teised raamatud teemal:
Püsilink: https://www.kriso.ee/db/9780471317784.html
Märksõnad:
A step-by-step guide to the design and analysis of CMOS operational amplifiers and comparators

This volume is a comprehensive text that offers a detailed treatment of the analysis and design principles of two of the most important components of analog metal oxide semiconductor (MOS) circuits, namely operational amplifiers (op-amps) and comparators. The book covers the physical operation of these components, their design procedures, and applications to analog MOS circuits-particularly those involving switched-capacitor circuits, and analog-to-digital (A/D) and digital-to-analog (D/A) converters. Roubik Gregorian, a leading authority in the field, gives circuit designers the technical knowledge they need to design high-performance op-amps and comparators suitable for most analog circuit applications. In this self-contained treatment, which is loosely based on his well-received 1986 book, Analog MOS Integrated Circuits for Signal Processing (coauthored with Gabor C. Temes), Gregorian reviews the required basics before advancing to state-of-the-art topics and problem-solving techniques. This valuable guide:
* Clearly explains configuration and performance limitation issues affecting the operation of CMOS op-amps and comparators
* Details advanced design procedures to improve performance
* Provides practical design examples suitable for a broad range of analog circuit applications
* Incorporates hundreds of illustrations into the text
* Concludes each chapter with problems and references to advanced topics, useful in textbook adoptions

Introduction to CMOS Op-Amps and Comparators is invaluable for analog and mixed-signal designers, for senior and graduate students in electrical engineering, and for anyone who would like to keep up with this essential technology.
PREFACE ix
1 INTRODUCTION
1(16)
1.1 Classification of Signal Processing Techniques
1(5)
1.2 Examples of Applications of Op-Amps and Comparators in Analog MOS Circuits
6(10)
Problems
16(1)
References
16(1)
2 MOS DEVICES AS CIRCUIT ELEMENTS
17(31)
2.1 Semiconductors
17(4)
2.2 MOS Transistors
21(6)
2.3 MOS Transistor Types: Body Effect
27(3)
2.4 Small-Signal Operation and Equivalent Circuit of MOSFET Transistors
30(9)
2.5 Weak Inversion
39(1)
2.6 Impact Ionization
40(1)
2.7 Noise in MOSFETS
41(3)
2.8 CMOS Process
44(1)
Problems
45(2)
References
47(1)
3 BASIC ANALOG CMOS SUBCIRCUITS
48(47)
3.1 Bias Circuits in MOS Technology
48(7)
3.2 MOS Current Mirrors and Current Sources
55(8)
3.3 MOS Gain Stages
63(11)
3.4 MOS Source Followers
74(3)
3.5 MOS Differential Amplifiers
77(7)
3.6 Frequency Response of MOS Amplifier Stages
84(8)
Problems
92(2)
References
94(1)
4 CMOS OPERATIONAL AMPLIFIERS
95(80)
4.1 Operational Amplifiers
95(5)
4.2 Single-Stage Operational Amplifiers
100(6)
4.3 Two-Stage Operational Amplifiers
106(6)
4.4 Stability and Compensation of CMOS Amplifiers
112(14)
4.5 Dynamic Range of CMOS Op-Amps
126(6)
4.6 Frequency Response, Transient Response, and Slew Rate of Compensated CMOS Op-Amps
132(5)
4.7 Noise Performance of CMOS Op-Amps
137(3)
4.8 Fully Differential Op-Amps
140(9)
4.9 CMOS Output Stages
149(15)
4.10 Op-Amps with Rail-to-Rail Input Common-Mode Range
164(6)
Problems
170(3)
References
173(2)
5 COMPARATORS
175(39)
5.1 Circuit Modeling of a Comparator
175(2)
5.2 Single-Ended Auto-Zeroing Comparators
177(5)
5.3 Differential Comparators
182(10)
5.4 Regenerative Comparators (Schmitt Triggers)
192(6)
5.5 Fully Differential Comparators
198(7)
5.6 Latches
205(7)
Problems
212(1)
References
213(1)
6 DIGITAL-TO-ANALOG CONVERTERS
214(41)
6.1 Digital-to-Analog Conversion: Basic Principles
214(4)
6.2 Voltage-Mode D/A Converter Stages
218(13)
6.3 Charge-Mode D/A Converter Stages
231(3)
6.4 Hybrid D/A Converter Stages
234(4)
6.5 Current-Mode D/A Converter Stages
238(6)
6.6 Segmented Current-Mode D/A Converter Stages
244(8)
Problems
252(2)
References
254(1)
7 ANALOG-TO-DIGITAL CONVERTERS
255(48)
7.1 Analog-to-Digital Conversion: Basic Principles
255(8)
7.2 Flash A/D Converters
263(7)
7.3 Interpolating Flash A/D Converters
270(3)
7.4 Two-Step A/D Converters
273(9)
7.5 Successive-Approximation A/D Converters
282(12)
7.6 Counting and Tracking A/D Converters
294(1)
7.7 Integrating A/D Converters
295(5)
Problems
300(1)
References
301(2)
8 PRACTICAL CONSIDERATIONS AND DESIGN EXAMPLES
303(54)
8.1 Practical Considerations in CMOS Op-Amp Design
303(13)
8.2 Op-Amp Design Techniques and Examples
316(33)
8.3 Comparator Design Techniques and Examples
349(6)
Problems
355(1)
References
355(2)
INDEX 357


ROUBIK GREGORIAN is Senior Vice President, Chief Technology Officer, and General Manager for the Communications Division at Exar Corporation in Fremont, California. He is a well-known industry expert who has made many original contributions to analog MOS and switched-capacitor circuits. Dr. Gregorian earned his PhD and MSc in electrical engineering from the University of California at Los Angeles and his BSc in electrical engineering from Tehran University. He has published numerous papers, is the coauthor of Analog MOS Integrated Circuits for Signal Processing, and holds eighteen patents in the area of switched-capacitors and analog MOS circuits.