# EE 201

Text Book:

Course outline:

Topic
Chapters

Definitions and Laws
1-4

Series/Parallel (DC) circuits analysis
5-8

Network Theorems (DC) circuits
9

Sinusoidal alternating and phasors
13-14

Series/Parallel (AC) circuits analysis
15-17

Network Theorems (AC) circuits
18

Power (AC)
19

Polyphase Systems
22

-------------------------------------------------------------------------

Mid-Term Exams:                               50%
Home Works + Quizzes                      10%
Final Exam                                          40%

-----------------------------------------------------------------------
Weekly Teaching Plan:

Subjects
Week

Chapter 2- Current and Voltage
2.2 Current
2.3 Voltage
2.4 Fixed dc supplies
Chapter 4- Ohm’s Law, Power and Energy
4.1 Ohm’s law
4.3 Power
Chapter 5- Series Circuit
5.2 Series circuits
5.3 Voltage sources in series
5.4 Kirchhoff’s voltage law
5.5 Voltage divider rule
5.6 Notation
2

Chapter 6- Parallel Circuits
6.2 Parallel elements
6.3 Total conductance and resistance
6.4 Parallel networks
6.5 Kirchhoff’s current law
6.6 Current divider rule
6.7 Voltage sources in parallel
6.8 Open and short circuits

3

Chapter 7- Series- Parallel Networks
7.1 Series-Parallel networks
7.2 Descriptive Examples
4

Chapter 8- Methods of Analysis and Selected Topics (dc) 5
8.2 Current sources
8.3 Source conversions
8.4 Current sources in parallel
8.5 Current sources in series
8.7 Mesh analysis (general approach)
8.8 Mesh analysis (formatted approach)

5

Chapter 8- Methods of Analysis and Selected Topics (dc)
8.9 Nodal analysis (general approach)
8.10 Nodal analysis (formatted approach)
8.11 Bridge network
8.12 Star- Delta conversions

6

Chapter 9- Network Theorems
9.2 Superposition theorem
9.3 Thevenin’s theorem

7

Chapter 9- Network Theorems
9.4 Norton’s theorem
9.5 Maximum power transfer Theorem
Chapter 13- Sinusoidal Alternating Waveforms
13.2 AC Voltage Definition
13.4 General format for the sinusoidal V or I
13.5 Phase relation
13.7 Effective value

8,9

Chapter 14- The basic Elements and Phasors
14.3 Response of basic R, L, and C elements to a sinusoidal V or I
14.5 Average power and power factor
14.6 Complex numbers

10

Chapter 14- The basic Elements and Phasors
14.1 Rectangular form
14.2 Polar form
14.3 Conversion between forms
14.4 Mathematical operations with complex numbers
14.5 Phasors
Chapter 15- Series and Parallel ac Circuits
15.2 Impedance and the phasor diagram
15.3 Series configuration

11

Chapter 15- Series and Parallel ac Circuits
15.4 Voltage divider rule
15.7 Basic elements in parallel ac networks
15.8 Current divider rule
15.9 Equivalent circuits
Chapter 16- Series-Parallel ac Networks
16.1 Introduction
16.2 Illustrative example

12

Chapter 17- Methods of Analysis and Selected Topics (ac)
17.3 Source conversions
17.4 Mesh analysis (formatted approach)
17.5 Nodal analysis (formatted approach)
17.6 Bridge networks (ac)
17.7 Star-Delta conversions
Chapter 18- Network Theorems
Same theorems as in Chapter 9

13

Chapter 19- Power (ac)
19-3 Apparent Power
19-4 Inductive circuit and reactive power (Q)
19-5 Capacitive circuit
19-6 The power triangle
19-7 The total P, Q, and S
19-8 Power factor correction

Chapter 22- Polyphase Systems

22-2 The three-phase generator
22.3 The Y-connected generator
22.4 Phase sequence (Y-connected Generator)
22.6 The Y-D system
22.10 Three-phase Power

Course Materials