University of Wisconsin Madison
Analog MOS Integrated Circuit Design (E C E 541) Syllabus
Course Learning Outcomes
    Course Learning Outcome
  • 1
    Students will be able to analyze analog integrated circuits using metal-oxide-semiconductor field-effect (MOSFET) transistors and bipolar transistors.
  • 2
    Students will be able to analyze the frequency response, stability and noise of analog amplifiers.
  • 3
    Students will be able to design analog amplifiers using MOSFET transistors and bipolar transistors.
Details
Analog MOS Integrated Circuit Design
E C E 541 ( 3 Credits )
Description
Analysis, design and applications of modern analog circuits using integrated bipolar and field-effect transistor technologies. Provides the student with a working knowledge of the basic circuits used in modern analog integrated circuits and techniques for analysis and design.
Prerequisite(s)
ECE 342 or ECE 340 & cons inst
Department: ELECTRICAL AND COMPUTER ENGR
College: College of Engineering
Instructor
Instructor Name
Instructor Campus Address
instructorEmail@emailaddress.edu
Contact Hours
2.5
Course Coordinator
HONGRUI JIANG
Text book, title, author, and year

Analysis and Design of Analog Integrated Circuits, Gray, Hurst, Lewis and Meyer.

Supplemental Materials
None
Required / Elective / Selected Elective
Selected Elective
ABET Program Outcomes Associated with this Course
Program Specific Student Outcomes
 
Brief List of Topics to be Covered
  1. Bipolar and MOSFET device physics, model, and fabrication
  2. Single stage, multiple stage, and differential amplifiers
  3. Current mirrors
  4. Active loads
  5. Voltage and current references
  6. Output stages
  7. Operational amplifiers
  8. Frequency response of analog amplifiers
  9. Feedback
  10. Stability and frequency stability of analog amplifiers
  11. Noise in integrated circuits
Additional Information
 
AEFIS
Printed: Dec 15, 2017 11:56:19 AM
Generated by AEFIS. Developed by AEFIS, LLC Copyright © University of Wisconsin Madison 2017. All rights reserved.