EEE 302 Electrical Networks II

Course Objectives

This course is structured to help you achieve the following goals:

Catalog Description

EEE 302 Electrical Networks II (3) Analysis of linear and nonlinear networks. Analytical and numerical methods. Prerequisite: ECE 201. Pre- or corequisite: MAT 362.


Course Links

Homework Assignments

Homework Due Date Chapter Problems (points)
#1 Monday,
June 4
8 11, 15, 20, 35, 43, 44, 54, 61, 66, 69, 70, 71, 76, 77, 87, 88 (5 points each)
Unrestricted Withdrawal Deadline: Tuesday, June 5
#2 Wednesday,
June 6
8 85, 99, 100 (5,10,10 pts)
9 8, 12, 13, 69, 71 (8,8,5,5,5 pts)
#3 Monday,
June 11
9 21, 23, 28, 30, 33, 43, 45, 47, 49, 52 (5,8,8,5,5,3,5,6,5,8 pts each)
Web Many typical household (120 VAC) hair dryers are rated at 1200 Watts. Write a time domain expression for both the hair dryer voltage and current assuming the hair dryer is a purely resistive load. (5 pts)
#4 Wednesday,
June 13
9 63, 66, 68 (5,5,5 pts)
10 4, 6, 8 (5 pts each)
Restricted Withdrawal Deadline: Friday, June 15
#5 Wednesday,
June 20
10 44 (5 pts)
11 1, 4, 31, 33 (5 pts each)
#6 Monday,
June 25
11 45, 47, 66, 73 (5 pts each)
13 1, 3, 5, 7 (5 pts each)
#7 Wednesday,
June 27
13 15, 18, 26, 29, 35, 39, 42 (5,8,8,5,5,5,6 pts)
#8 Monday,
July 2
14 3, 4, 6, 11, 14, 20, 26, 28, 37 (3,2,6,5,5,6,5,6,3 pts)
For 6 & 20, also plot transient with labels, etc. using MATLAB.
#9 Wednesday,
July 11
14 42, 44 (6,4 pts)
12 1, 3, 7, 12 (3,3,5,5 pts)
For 7 & 12, also plot magnitude and phase with labels, etc. using MATLAB.
#10 Monday,
July 16
12 20, 23, 27, 35, 37, 41, 51, 64 (5,5,5,6,4,5,3,3 pts)
For 20, also plot magnitude and phase with labels, etc. using MATLAB.
#11 Wednesday,
July 18
12 53, 55, 57, 60, 73 (5 pts each)
For 73, plot magnitude and phase with labels, etc. using MATLAB.

Lectures

Week Day Material
1 Mon ### Memorial Day Holiday ###
Tue Phasors (8.3); Phasor Relationships (8.4); Impedance & Admittance (8.5)
Wed Kirchhoff's Laws (8.7); AC Analysis: Nodal & Loop (8.8)
Thu AC Analysis: Superposition, Source Transform, and Thevenin (8.8)
2 Mon AC Analysis: Norton (8.8); PSpice Analysis (8.9)
Tue Instantaneous Power (9.1); Average Power (9.2)
Wed Max Avg Power Xfer (9.3); Effective or rms Values (9.4)
Thu Power Factor (9.5); Complex Power (9.6)
3 Mon Single-Phase Three-Wire (9.9); Safety (9.10)
Tue Three-Phase Circuits (10.1); Three-Phase Connections (10.2)
Wed Source/Load Connections (10.3); Power Relationships (10.4)
Thu Work Hmwk; Review for Exam
4 Mon *** Exam #1 (Chaps 8, 9 and 10) ***
Tue Mutual Inductance (11.1); Energy Analysis (11.2)
Wed Ideal Transformer (11.3)
Thu Laplace Transform (13.1); Singularity Functions (13.2); Transform Pairs (13.3); Transform Properties (13.4)
5 Mon Inverse Laplace Transform (13.5)
Tue Convolution Integral (13.6); IV & FV Theorems (13.7); Applications (13.8)
Wed Laplace Circuit Solutions (14.1); Circuit Element Models (14.2)
Thu Analysis Techniques (14.3)
6 Mon cont (14.3); Transfer Function (14.4); Steady-State Response (14.6)
Tue Work Hmwk; Review for Exam
Wed ### Fourth of July Holiday ###
Thu *** Exam #2 (Chaps 11, 13 and 14) ***
7 Mon Variable-Frequency Response Analysis (12.1)
Tue Sinusoidal Frequency Analysis [Bode Plots] (12.2)
Wed cont (12.2) and BodePlt.m
Thu Resonant Circuits (12.3); Scaling (12.4)
8 Mon Filter Networks: Passive (12.5) and E12-18 PSpice schematic
Tue Filter Networks: Active (12.5)
Wed Work Hmwk; Review for Final Exam
Thu *** Final Exam (Chap 12 and more) ***

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Last updated: February 22, 2002
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