EET 103: Basic Electrical
Technology
AZRALMUKMIN BIN AZMI
COURSE OBJECTIVES (OUTCOME)

Ability to analyze the DC and AC circuit by using Ohm’s
law, Kirchhoff’s Current Law, Kirchhoff’s Voltage Law,
Source Transformation and Thevenin’s theorem.

Ability to calculate and analyze parameter of three phase
AC system for Wye and Delta connection.

Ability to explain and apply the basic concept of
magnetism and electromagnetism and its application in
DC and AC machines.
COURSE CONTENT (SYLLABUS)
CHAPTER 1 : INTRODUCTION & DC CIRCUIT
CHAPTER 2 : AC CIRCUIT
CHAPTER 3 : THREE PHASE SYSTEM
CHAPTER 4 : ELECTROMAGNETIC
CHAPTER 5 : TRANSFORMER
CHAPTER 6 : DC & AC MACHINES
COURSE CONTENT (SYLLABUS)
1. Introduction and DC Circuit
- current, voltage, resistance, power, conductor and
insulator.
- series and parallel circuits
- Ohm’s Law, Kirchhoff Current Law, Kirchhoff Voltage
Law, Source Transformation, Thevenin's theorem
COURSE CONTENT (SYLLABUS) Cont…
2. AC Circuit
- sine wave, frequency, amplitude, phase angle, complex
number
- impedance, inductance, phase shifting
- active power, reactive power, power factor
- series and parallel AC circuits using Ohm’s law
- series and parallel AC circuit using Ohm’s Law,
Kirchhoff Current Law, Kirchhoff Voltage Law, Source
Transformation, Thevenin’s theorem.
COURSE CONTENT (SYLLABUS) Cont…
3. Three Phase System
- single phase system, three phase voltage generation
and the phasor diagram
- line and phase quantities.
- three phase connection in balanced load: Wye and
Delta
- phase and line voltages and currents
- active and reactive power
COURSE CONTENT (SYLLABUS) Cont…
4. Magnetic and Electromagnetic
- Faraday’s Law, Lenz’s Law, Flemming Law, magnetic
field, magnetic material and magnetization curve
- reluctance, magnetic equivalent circuit, air gap,
electromagnetic induction, Sinusoidal excitation
- magnetic losses, eddy current, hysteresis
COURSE CONTENT (SYLLABUS) Cont…
5. Transformer
- principle of transformer, its parameters and structure
- ideal transformer, its equivalent circuit and phasor
diagram
- non-ideal transformer, its equivalent circuit and phasor
diagram
- efficiency, losses, performance
- the principle of auto transformer and three phase
transformer
COURSE CONTENT (SYLLABUS) Cont…
6. DC and AC machine
- operating principle, voltage and torque equation
- motor classification, speed torque characteristics and
calculate losses and efficiency
- the operating principle of three phase induction motor,
speed-torque characteristics and calculate losses and
efficiency
- other motor and equivalent circuits and calculate the
parameters
COURSE IMPLEMENTATIONS

Lecture

Laboratory : 2 hours/week for 7 week (21 hours)

Tutorial
: 3 hours/week for 14 week (42 hours)
: 2 hours/week for 7 week (21 hours)
TOTAL
(84 hours)
TIME TABLE


LECTURE
TUESDAY
THURSDAY
[11.00 am – 01.00 pm] [BKD3]
[03.00 pm – 04.00 pm] [DKD1]
LABORATORY OR TUTORIAL
FRIDAY
[03.30 pm – 05.30 pm] [MEY1]
ASSESSMENTS

Final Exam :
50 %


Theory Test 1
Theory Test 2
10 %
10 %

Assignment
5%

Laboratory
25 %
TOTAL 100 %
TEXT & REFFERENCE BOOK

Boylestad, Robert L., Introductory Circuit Analysis, 11th
Edition, Prentice Hall, 2007

Hughes, Electrical and Electronic Technology, 9th Edition,
Prentice Hall, 2005
Richard J. Fowler, Electricity Principles and Applications,
7th Edition, Mc Graw Hill, 2008
Charles K. Alexander & Matthew N. O. Sadiku,
Fundamentals of Electric Circuits, International Third
Edition, Mc Graw Hill
Nilsson, J.W. & Riedel S.A., Electric Circuits, 7th Edition,
Pearson Prentice Hall, 2005



CONTACT

AZRALMUKMIN BIN AZMI
School Of Electrical System Engineering
Kompleks Seberang Ramai Blok A
Kuala Perlis

azralmukmin@unimap.edu.my

019-3867034