CMOS Analog IC Design - ECE51214
The course covers general topics in CMOS analog IC design; biasing, noise, single stage amplifiers, Op-Amp, OTA, frequency domain analysis, and active filter. While the focus of the course is on CMOS IC design, design in bipolar and BiCMOS technologies are introduced as well. A design project is a key component of the course. The students conduct a group or individual design project. Process Design Kit and EDA tools are provided for the design project.
Credit Hours: 3
Instructor(s): Byunghoo Jung
Phone: (765) 494-2866
Email: jungb@purdue.edu
Office: MSEE 218
Web: Instructor Homepage
Learning Objective:
A student who successfully fulfills the course requirements will have demonstrated:
- a basic knowledge of bias circuit using CMOS current mirror
- a basic knowledge of noise analysis
- an understanding of single stage amplifiers - gain/bandwidth/noise/stability
- an understanding of different Op-amp and OTA
- an understanding of feedback circuit
- and understanding of basic active filter
Topics Covered:
| Lectures | Topics |
|---|---|
| 1 | CMOS device physic review |
| 3 | Spice models and layout |
| 2 | Current Biasing |
| 2 | Voltage reference |
| 5 | Noise analysis |
| 7 | Single stage amplifiers |
| 6 | OTA and Op-amp design |
| 4 | Gain boosting and bandwidth extension |
| 4 | Feedback |
| 4 | Stability and compensation |
| 1 | Integrated active filter design |
| 3 | Switched capacitor filter design |
Prerequisites:
General knowledge of terminology and concepts from undergraduate courses in circuit design and microelectronics; familiarity with SPICE
Web Address:
https://purdue.brightspace.com
Projects:
The students are asked to demonstrate their project design (schematic level) at the end of the semester.
Exams:
Two midterm exams:
- Covers bias circuit design, noise analysis, and single stage amplifiers
- Covers differential Op-amp, OTA, frequency domain analysis, and active filter design
Textbooks:
Required:
Design of Analog CMOS Integrated Circuits, Behzad Razavi, McGraw-Hill, ISBN No. 0072380322
Recommended:
- Analog Integrated Circuit Design, David Johns and Ken Martin, Wiley, ISBN No. 0471144487
- CMOS Analog Circuit Design, Phillip E. Allen, Oxford, ISBN No. 0795116445
- CMOS Circuit Design, Layout, and Simulation, Wiley, ISBN No. 9780470229415