EE 212: Circuits & Signals II
Spring 2003 Schedule: MWF 10:00am - 10:50am in MSEC 103
Instructor: Kevin Wedeward, Office: Workman 221, Phone: 835-5708, e-mail: wedeward@nmt.edu, web-page: www.ee.nmt.edu/~wedeward/
Office Hours: MWF 09:00am - 10:00am, MWF 11:00am - 12:00pm and by appointment
Associated Lab: EE212L (Circuits & Signals II Lab)
Course Objective: Develop an understanding of linear circuits and their analysis using
steady-state sinusoidal analysis
frequency-domain techniques
Course Prerequisite: EE211 (Circuits & Signals I)
Required Text: "Elementary Linear Circuit Analysis, 2nd ed." by Leonard S. Bobrow
Topics:
Sinusoidal analysis using frequency-based approach (chapter 8)
Power definitions for waveforms (chapter 9)
Frequency response (chapter 10)
Laplace Transform (chapter 11)
Two-port networks (chapter 12)
Fourier Series (chapter 13)
Homework: Homework will be assigned, collected, and graded on a weekly basis. You are encouraged to work with other students so long as the written work turned in is your own.
HW1 due beginning of class (BOC) W 01/29/03: 8.6 (assume in steady-state), 8.16 (use Euler's formula), 8.19 (write answer in both rectangular and exponential (polar) form, sketch answers in complex plane)
HW2 due BOC F 02/07/03: 8.25, 8.27, 8.28, 8.42, 8.46
HW3 due BOC W 02/19/03: 9.2, 9.3, 9.11, 9.16, 9.17, 9.19
HW4 due BOC M 03/03/03: 9.28, 9.30, 10.6, 10.7
HW5 due BOC W 03/19/03: 10.11, 10.14, 10.16; use matlab to plot frequency response and frequency response as Bode plot for 10.14
HW6 due M 3/24: 10.15, 10.17 (include phase response); use matlab to plot frequency response and frequency response as Bode plot for both
HW7 due F 3/28: 10.20, 10.21, 10.26
HW8 due W 4/9: 10.40, 10.46, 10.47, 10.55
HW9 due W 4/16: 11.1, 11.2, 11.3, 11.4, 11.7
HW10 due F 4/25: 11.12a,d, 11.13a, 11.14b,c, 11.15, 11.16
HW11 due F 5/9: 11.22, 11.38, 11.40, 11.46, 11.49
Grading:
Homework: 15%
Three Exams: 55%
Final Exam: 30%
Scheduled for Tuesday, May 13 at 1:30pm in MSEC 103 (review sheet)
Reading Assignments:
Chapter 8
Chapter 9
Chapter 10
Chapter 11
Matlab Examples:
example 1: frequency response
example 2: frequency response