ENGR 337: Analog Electronics, Spring 2020 (4 Credits)
Dr. Yiyan Li, Office hours: MWF 9-11 am, 1/13 – 4/24.
1. Basic Information
Time & Place:
Lecture: 1/13 – 5/1, BH 400, MWF 1:25 – 2:20 pm.
Lab: 1/13 – 5/1, SFH 2771, T 8 – 11:05 am (Section 2), and 11:15 – 2:20 pm (Section 1).
Yiyan Li: SFH 2755B, email@example.com, firstname.lastname@example.org
Lab Website: http://www.yilectronics.com/Courses/ENGR337L/ENGR337L_2020s/ENGR337L_s2020.html
2. Course Overview
This course introduces students to the basic concepts of analog circuits, including analysis and design. The lecture starts with an introduction to electronics, then introduces signals, bandwidth, amplifiers, diodes, bipolar junction transistors, and MOSFETs. The second half of the semester will focus on using these electronic devices to design analog integrated circuits.
3. Course Topics
a) Semiconductor physics and electronic devices.
b) Diodes, bipolar junction transistors, MOSFETs.
d) Analog integrated circuits.
e) CMOS integrated circuits.
4. Course Outcomes
Students completing this course should be able to:
a) Analyze and design basic op–amp circuits including inverting, non–inverting, and integrator topologies.
b) Identify the currents, and how they change with applied potentials, flowing through a semiconductor, diode, and transistor.
c) Discuss the movement of electrons and holes in a semiconductor device under various operating conditions.
d) Analyze and design diode circuits including clipping/clamping, rectification, and regulation circuits.
e) Analyze transistor amplifier circuits including operating point, small–signal gain, and large–signal operating range.
f) Design transistor amplifier circuits for a required gain, input/output impedance, and/or operating voltage.
g) Use SPICE to simulate the operation of diode and transistor circuits.
Undergraduate level ENGR 104 Minimum Grade of C- and Undergraduate level ENGR 201 Minimum Grade of C-.
Adel Sedra, Kenneth Smith, Microelectronic Circuits, Theory and Applications, 7th edition. (required). (To get an additional 20% off of the OUP course materials, please visit www.oup.com/us/he and enter discount code DELLIBO2017).
R. Jacob Baker, CMOS: Circuit Design, Layout, and Simulation, 3rd Edition (Recommended).
20% Lab Reports
A: 93-100, A-: 90-92, B+: 87-89, B: 83-86, B-: 80-82, C+: 77-79, C: 73-76, C-: 70-72, D+: 67-69, D: 63-66, D-: 60-62, F: < 60
No laptops, Internet appliances (e.g. Kindle, Nook, Ipad, etc.), smart phones, may be used during lectures or exams.
Exam and quiz are close book close notes if not specified.
The final exam will not be returned at the end of the semester, not even temporarily for you to review.
Regularly being tardy for lectures, leaving in the middle of lectures, or earlier from lectures is unacceptable without prior consent of the instructor.
Cheating or plagiarism will result in an automatic F grade in the course (so do your own homework and projects!).
****"Fort Lewis College is committed to providing all students a liberal arts education through a personalized learning environment. If you think you have or you do have a documented disability which will need reasonable academic accommodations, and/or if you are a Veteran who may need services, please contact the Disability Services Office, 280 Noble Hall, 970-247-7383, email@example.com for an appointment as soon as possible.”
Go back to yilectronics.com