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