EE 212: Circuits & Signals II
Spring 2004 Schedule: MWF 10:00am  10:50am in Cramer 121
Instructor: Kevin Wedeward, Office: Workman 221, Phone: 8355708,
email: wedeward@nmt.edu, webpage:
www.ee.nmt.edu/~wedeward/
Office Hours: MWF 9:00am  10:00am, MWF 11:00am  12:00pm and by appointment
Help Session: T 7:00pm in Workman 109
Associated Lab:
EE212L (Circuits & Signals II Lab)
Course Objective: Develop an understanding of linear circuits
and their analysis using
Course Prerequisite:
EE211 (Circuits & Signals I)
Required Text:
"Elementary
Linear Circuit Analysis, 2nd ed." by
Leonard S. Bobrow
Topics:

Sinusoidal analysis using frequencybased approach (chapter 8)

Power definitions for waveforms (chapter 9)

Frequency response (chapter 10)

Laplace Transform (chapter 11)
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 01/28/2004:
handout

HW2 due BOC W 02/04/2004: Problems 8.17b, c, f, g; 8.18b, c, f, g;
Drill Exercise 8.5

HW3 due BOC F 02/13/2004: Problems 8.27, 8.29, 8.33 (use v_{s}
from Problem 8.1), 8.34 (use i_{s} from Problem 8.2), 8.36
(also show Thevenin and Norton equivalent circuits), 8.44

HW4 due BOC W 02/18/2004: Problems 9.2, 9.3, 9.4

HW5 due BOC M 03/01/2004: Drill Exercise 9.3, Problems 9.15a, 9.17,
9.20, 9.21

HW6 due BOC W 03/10/2004: Problems 9.22, 9.23, 9.30 (use meshcurrents
given in 9.29), 9.34, 9.40

HW7 due BOC W 03/24/2004: Problems 10.1, 10.4, 10.5, 10.7

HW8 due BOC W 03/31/2004: Drill Exercises 10.3, 10.4, Problems 10.11, 10.13;
in addition, use matlab to plot frequency response and frequency response as Bode plot for
DE10.4, PR10.13

HW9 due BOC M 04/12/2004: Problems 10.15, 10.17, 10.22, 10.23; check sketched Bode plots
with matlab Bode plots

HW10 due BOC W 04/21/2004: Problems 11.1c,d, 11.2a,b, 11.3b,c, 11.4d

HW11 due BOC W 04/28/2004: handout

HW12 due BOC W 05/05/2004: Problems 5.40, 6.6, 11.39 (also find transfer function)
Grading:

Homework: 15%

Three Exams: 55%

Final Exam: 30%
 final exam is scheduled for Monday 05/10/2004 at 01:30pm in Cramer 121
Reading Assignments:

Chapter 8

Chapter 9

Chapter 10
Matlab examples:
 example 1: plotting frequency response of transfer
function with simple poles and zeros
 example 2: plotting frequency response of transfer
function with complex poles