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Updated in [October 18th, 2023]
What does this course tell?
(Please note that the following overview content is from the original platform)
This course will introduce advanced concepts in analog circuit design specifically relevant to CMOS IC design It will cover circuit noise and mismatch their analysis and their impact on CMOS opamp design As prerequisites the student is expected to have undergone a course on (a) basic circuit theory and analysis (b) signals and systems and (c) MOS analog circuits At the end of this course the student should be able to design and analyze several types of CMOS opamps at the transistor levelINTENDED AUDIENCE : BE&BTechME&MTechMSPhD engineering subjectPRE-REQUISITES : UG course (or equivalent) on: Basic Electrical Circuits Signals and Systems Analog CircuitsINDUSTRY SUPPORT : NILL
We considered the value of this course from many aspects, and finally summarized it for you from two aspects: skills and knowledge, and the people who benefit from it:
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What skills and knowledge will you acquire during this course?
During this course on Analog IC Design, the student will acquire the following skills and knowledge:
1. Advanced concepts in analog circuit design: The course will introduce the student to advanced concepts specifically relevant to CMOS IC design. This includes understanding the intricacies of designing analog circuits using CMOS technology.
2. Circuit noise and mismatch analysis: The student will learn how to analyze circuit noise and mismatch in analog circuits. They will understand the sources of noise and mismatch in CMOS circuits and how to mitigate their impact on circuit performance.
3. Impact of noise and mismatch on CMOS opamp design: The course will cover the impact of noise and mismatch on CMOS operational amplifier (opamp) design. The student will learn how to design opamps that are robust against noise and mismatch effects.
4. Design and analysis of CMOS opamps at the transistor level: By the end of the course, the student should be able to design and analyze various types of CMOS opamps at the transistor level. They will have a deep understanding of the underlying principles and techniques involved in designing high-performance opamps.
Overall, this course will equip the student with the necessary skills and knowledge to design and analyze CMOS opamps, considering noise and mismatch effects. It is intended for engineering students at the undergraduate, postgraduate, and doctoral levels who have a background in basic electrical circuits, signals and systems, and analog circuits.
Who will benefit from this course?
This course on Analog IC Design will benefit engineering students and professionals who are interested in or working in the field of CMOS IC design. Specifically, it will be beneficial for individuals who have already completed courses on basic circuit theory and analysis, signals and systems, and MOS analog circuits.
The course is suitable for undergraduate and postgraduate engineering students (BE, BTech, ME, MTech, MS, PhD) who are pursuing a specialization in engineering subjects. It will provide them with advanced knowledge and skills in analog circuit design, particularly in the context of CMOS IC design.
Professionals working in the semiconductor industry, particularly those involved in the design and development of CMOS integrated circuits, will also benefit from this course. It will enhance their understanding of circuit noise, mismatch analysis, and their impact on CMOS opamp design. By the end of the course, participants will be able to design and analyze various types of CMOS opamps at the transistor level.
Although the course does not explicitly mention industry support, it is likely to be valued by companies in the semiconductor industry as it focuses on a specialized area of IC design.