MWF 11:00 - 11:50 AM
Room 1131 Learned
KU course # 59487
Instructor
E-mail
[ Lab info: KU course # 59488, 3010 Eaton, Friday 8:00 - 9:50 AM or
KU course # 59489, 3010 Eaton, Tuesday 12:30 - 2:20 PM]
: Prof. Chris Allen
: callen@eecs.ku.edu
Offices : 3024 Eaton Hall
323 Nichols Hall
864-8801
864-3017
Office Hours : Room 3024 Eaton Hall: Mondays and Wednesdays
9:30 - 10:30 AM or by appointment
Catalog Listing : EECS 412 Electronic Circuits II (4). Discrete and integrated amplifier analysis and design. Introduction to feedback amplifier analysis and design. Introduction to feedback amplifiers. Prerequisites: EECS 312 and upper-level EECS eligibility.
Course Objective : To provide EE majors with an introduction of a broad range of discrete and integrated amplifier circuit configurations and techniques, and to provide experience in analysis and design of various configurations.
Required Text : Microelectronic Circuits , by Sedra & Smith, 6 th
Edition, Oxford University Press,
New York, 2010.
Grading : The following factors will be used to arrive at the final course grade
Homework & Quizzes
Exam I
Exam II
Final Exam
20 %
20 %
20 %
25 %
Grading Scale : Grades will be assigned to the following scale:
A 90 - 100 %
B
C
80 - 89 %
70 - 79 %
D
F
60 - 69 %
< 60 %
These are guaranteed maximum scales and may be revised downward at the instructor's discretion.
Homework : Homework will be collected at the beginning of class on a roughly weekly basis.
Collaboration with classmates is permitted. Copying is not permitted.
Exams : Make-ups for missed exams will not be given. The first missed exam will be scored by taking 90% of the average of your other exams. Subsequent missed exams will be scored as zero.
Ethics Policy : Academic misconduct will not be tolerated. It may result in a failing grade and may result in further disciplinary action by the University. For details see the Academic
Misconduct section of the Rules and Regulations of the School of Engineering.
Students with
Disabilities Any student in this course who has a disability that may prevent him/her from fully demonstrating his/her abilities should contact me personally as soon as possible so we can discuss accommodations necessary to ensure full participation in this course and your college experience.

Plagiarism: The issue of digital plagiarism has raised concerns about ethics, student writing experiences, and academic integrity. Digital plagiarism detection techniques called may be used to check papers submitted in this course. You may be asked to submit your papers in a digital format so that your paper can be checked against web pages and databases of existing papers.
Course Outline (subject to change):
1.
Amplifier analysis
2.
Op Amps
3.
BJT circuits and amplifiers
4.
FET circuits and amplifiers
5.
Multistage amplifiers
6.
Differential amplifiers
7.
High-frequency modeling