斯坦福课程讲义

icetools

STANFORD UNIVERSITY
Department of Electrical Engineering
Prof. Boris Murmann
EE214: Analog Integrated Circuit Design
- Autumn 2006/07 -
http://eeclass.stanford.edu/ee214/

Table of Contents

  Introduction
3
Lecture 1  Long Channel MOS Model
10
Lecture 2  Common Source Amplifier
19
Lecture 3  Figures of Merit for Transistors
31
Lecture 4  Subthreshold Operation, Short Channel Effects
41
Lecture 5  fT and Intrinsic Gain, gm/ID-based Design
53
Lecture 6  Extrinsic Capacitances
67
Lecture 7  Miller Effect, Zero Value Time Constant Analysis
78
Lecture 8  Electronic Noise
90
Lecture 9  Electronic Noise (Continued)
103
Lecture 10  Body Effect, Common Gate Stage
112
Lecture 11  Common Drain Stage
124
Lecture 12  Differential Pair
135
Lecture 13  Offset Voltage, Current Mirrors
146
Lecture 14  Process Variations, Feedback
159
Lecture 15  Fully Differential Amplifiers
169
Lecture 16  Stability, Feedback Circuit Analysis
178
Lecture 17  Loop Gain Simulation
189
Lecture 18  Two-Stage OTA
201
Lecture 19  Compensation, Noise in Feedback OTAs
210
Lecture 20  OTA Design Considerations
221
Lecture 21  Step Response
226
Lecture 22  Slewing
236
Lecture 23  Feedback and Port Impedances, OTA Variants, CMFB
Implementation
246
Lecture 24  Single Ended OTAs, Output Stages
259
Lecture 25  Supply Insensitive Biasing
268
Lecture 26  Bandgap Reference
278
Lecture 27  Bandgap Reference (Continued)
284
Lecture 28  Technology Scaling
293
Lecture 29  Class Summary
309

icetools

继续发斯坦福课件

xajingle

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icetools

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斯坦福课程讲义