Advanced Analog Integrated Circuits

Advanced Analog Integrated Circuits 是Berkeley 电子工程专业研究生课程，共29讲，每讲80分钟左右。该门课程包括：.rm格式的课程视频和与视频课程内容配套使用的完整的课程讲义。有了课程讲义让您的学习更有效，在潜移默化中提高专业知识和英语能力。

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This course covers the design of building blocks for analog circuits; Analysis and optimized design of monolithic operational amplifiers and wide-band amplifiers; methods of achieving wide-band amplification, gain-bandwidth considerations; analysis of noise in integrated circuits and low noise design. Extensive use will be made of the circuit simulation program SPICE in the homework problems. Some specific topics talked about in this course are:

Analog circuit building blocks: biasing, references, amplifiers, comparators

Nonidealities: noise, matching, supply/io/substrate coupling

Applications: SC gain stages, offset cancellation

The course does not follow a text book and uses a unique approach to design that alleviates problems arising from deviations of modern short channel processes from simple transistor models and teaches design of amplifiers that optimally meet specifications, e.g. using minimum power. The references listed below provide additional information and give different points of view on analog circuit analysis and design.

1. P. Gray and R. Meyer, Analysis and Design of Integrated Circuits, 4th edition, Wiley, 2001.

2. A. Hastings, The Art of ANALOG LAYOUT, Prentice Hall, 2001.

Students taking this course will learn the following:

1. Characteristics of modern IC technologies

     ● Device speed and power performance metics

     ● Deviations of sub-micron MOS transistors from square-law model

     ● Device parameters variations

     ● Passive devices

     ● Electronic noise

2. Transconductance amplifiers

    ● Transconductance versus operational amplifiers

    ● Single- and multi-stage topologies

    ● Feedback, stability, compensation

    ● Static & dynamic, large & small signal characteristics

    ● Amplifier design: from specification to bias currents and transistor sizes

3. Analog circuit building blocks

    ● Supply and temperature independent references

    ● Current sources & bias networks

    ● MOS switches

    ● Comparators