Analysis and Design of Analog Integrated Circuits,9780471574958

Analysis and Design of Analog Integrated Circuits

by ;
Edition: 3rd
ISBN13: 9780471574958
ISBN10: 0471574953
Format: Hardcover
Pub. Date: 1992-08-01
Publisher(s): JOHN WILEY & SONS INC
List Price: $107.95

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Summary

This edition combines the consideration of metal-oxide-semiconductors (MOS) and bipolar circuits into a unified treatment that also includes MOS-bipolar connections made possible by BiCMOS technology. Contains extensive use of SPICE, especially as an integral part of many examples in the problem sets as a more accurate check on hand calculations and as a tool to examine complex circuit behavior beyond the scope of hand analysis. Concerned largely with the design of integrated circuits, a considerable amount of material is also included on applications.

Table of Contents

Symbol Convention xiv
Models for Integrated-Circuit Active Devices
1(88)
Introduction
1(1)
Depletion Region of a pn Junction
1(9)
Large-Signal Behavior of Bipolar Transistors
10(20)
Small-Signal Models of Bipolar Transistors
30(16)
Large-Signal Behavior of Junction Field-Effect Transistors
46(9)
Small-Signal Model of the JFET
55(4)
Large-Signal Behavior of Metal-Oxide-Semiconductor Field-Effect Transistors
59(8)
Small-Signal Model of the MOS Transistor in Saturation
67(5)
Short-Channel Effects in FETs
72(4)
Subthreshold Conduction in MOSFETs
76(3)
Substrate Current Flow in MOSFETs
79(10)
Appendix
Summary of Active-Device Parameters
81(8)
Bipolar, Mos, and BiCmos Integrated-Circuit Technology
89(104)
Introduction
89(1)
Basic Processes in Integrated-Circuit Fabrication
90(12)
High-Voltage Bipolar Integrated-Circuit Fabrication
102(3)
Advanced Bipolar Integrated-Circuit Fabrication
105(6)
Active Devices in Bipolar Analog Integrated Circuits
111(22)
Passive Components in Bipolar Integrated Circuits
133(10)
Modifications to the Basic Bipolar Process
143(6)
MOS Integrated-Circuit Fabrication
149(5)
Active Devices in MOS Integrated Circuits
154(13)
Passive Components in MOS Technology
167(5)
BiCMOS Technology
172(1)
Economics of Integrated-Circuit Fabrication
173(7)
Packaging Considerations for Integrated Circuits
180(13)
Appendix
SPICE Model-Parameter Files
185(8)
Single-Transistor and Two-Transistor Amplifiers
193(76)
Device Model Selection for Approximate Analysis of Analog Circuits
195(1)
Basic Single-Transistor Amplifer Stages
196(23)
Two-Transistor Amplifer Stages
219(8)
Emitter-Coupled Pairs
227(17)
Source-Coupled FET Pairs
244(6)
Device Mismatch Effects in Differential Amplifiers
250(19)
Appendix
Elementary Statistics and the Gaussian Distribution
260(9)
Transistor Current Sources and Active Loads
269(86)
Introduction
269(1)
Current Sources
270(17)
Current Sources as Active Loads
287(68)
Appendix
Matching Considerations in Transistor Current Sources
317(5)
Supply-Independent Biasing
322(11)
Temperature-Independent Biasing
333(13)
Low-Current Biasing
346(9)
Output Stages
355(54)
Introduction
355(1)
The Emitter Follower as an Output Stage
355(15)
The Common-Emitter Output Stage
370(7)
The Common-Base Output Stage
377(1)
Class B (Push-Pull) Output Stage
378(31)
Operational Amplifiers
409(70)
Applications of Operational Amplifiers
410(10)
Deviations from Ideality in Real Operational Amplifiers
420(5)
Analysis of Monolithic Operational Amplifiers
425(20)
Design Considerations in Monolithic Operational Amplifiers
445(15)
MOS Operational Amplifiers
460(19)
Appendix
Calculation of the Input Offset Voltage and Current of the 741
466(5)
Input Offset Voltage of MOS Op Amps
471(8)
Frequency Response of Integrated Circuits
479(56)
Introduction
479(1)
Single-Stage Amplifier Frequency Response
479(21)
Multistage Amplifier Frequency Response
500(19)
Analysis of the Frequency Response of the 741 Op Amp
519(5)
Relation Between Frequency Response and Time Response
524(11)
Feedback
535(62)
Ideal Feedback Equation
535(2)
Gain Sensitivity
537(1)
Effect of Negative Feedback on Distortion
538(2)
Feedback Configurations
540(7)
Practical Configurations and the Effect of Loading
547(30)
Single-Stage Feedback
577(7)
The Voltage Regulator as a Feedback Circuit
584(13)
Frequency Response and Stability of Feedback Amplifiers
597(64)
Introduction
597(1)
Relation Between Gain and Bandwidth in Feedback Amplifiers
597(2)
Instability and the Nyquist Criterion
599(8)
Compensation
607(16)
Root-Locus Techniques
623(19)
Slew Rate
642(19)
Nonlinear Analog Circuits
661(54)
Introduction
661(1)
Precision Rectification
662(5)
Analog Multipliers Employing the Bipolar Transistor
667(14)
Phase-Locked Loops (PLL)
681(27)
Nonlinear Function Synthesis
708(7)
Noise in Integrated Circuits
715(70)
Introduction
715(1)
Sources of Noise
716(8)
Noise Models of Integrated-Circuit Components
724(4)
Circuit Noise Calculations
728(9)
Equivalent Input Noise Generators
737(10)
Effect of Feedback on Noise Performance
747(9)
Noise Performance of Other Transistor Configurations
756(5)
Noise in Operational Amplifiers
761(7)
Noise Bandwidth
768(5)
Noise Figure and Noise Temperature
773(12)
Index 785

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