ZT: Standford EE214 course

Original blog is here.

Course name:

Advanced Analog Integrated Circuit Design

Analysis and design of analog integrated circuits in advanced MOS and bipolar technologies. Device operation and compact modeling in support of circuit simulations needed for design. Emphasis on quantitative evaluations of performance using hand calculations and circuit simulations; intuitive approaches to design. Analytical and approximate treatments of noise and distortion; analysis and design of feedback circuits. Design of archetypal analog blocks for networking and communications such as broadband gain stages and transimpedance amplifiers.

Stanford EE214 course - Advanced Analog Integrated Circuit Design


1. Introduction
2. BJTs – Basic Device Behavior
3. BJTs – Model Extensions and Technology
4. MOS Transistor Modeling
5. Elementary Stages
6. Distortion Analysis
7. Electronic Noise
8. Feedback Intro
9. Feedback Loading
10. Noise in Feedback Circuits
11. Frequency Response of Feedback Circuits
12. Wideband Amplifiers
13. Translinear Circuits & VGAs
14. OpAmp Example
15. High-Frequency Distortion

Courseware Link: http://web.stanford.edu/class/archive/ee/ee214/ee214.1032/

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