INTRODUCTION TO ELECTRIC CIRCUITS EMT 1143 Intake 201213

INTRODUCTION TO ELECTRIC CIRCUITS EMT 114/3 Intake 2012/13 ~INTRO~

Lecturers n n n n n Assoc. Prof. Dr. Zaliman Sauli zaliman@unimap. edu. my Office : Block 8, GF – Pauh Putra Office Num : 049885577 Mobile : 0192663388 Mr. Steven Taniselass steven@unimap. edu. my Office : Block 9, 1 st Floor - Pauh Putra Office Num : 049885581 Mobile: 0164432098 School of Microelectronic Engineering, Universiti Malaysia

Outline 1. Course structure 2. Course Outcome (CO’s) 3. Teaching Plan School of Microelectronic Engineering, Universiti Malaysia

Course Structure Examination: 70% Ø Ø § § Final Examination Mid Term Examinations = 50% = 20% Mid Term (Test 1) End Term (Test 2) = 10% Continual Assessment (Course Work): 30% Ø Ø Ø Laboratory (Labs) = 15% Lab Test = 10% Assignments = 5% School of Microelectronic Engineering, Universiti Malaysia

Course Outcome (CO’s) CO 1: n Ability to analyze and solve the circuit problems using the basic circuit theory. CO 2: n Ability to choose and apply circuit analysis techniques for circuit problems. CO 3: n Ability to apply knowledge of problem solving in circuit analysis for integrated circuit systems. School of Microelectronic Engineering, Universiti Malaysia

Teaching Plan Study week 1 Course Content Delivery Mode Introduction to Circuit Elements and variables Principles of circuit analysis, SI unit, Voltage and currents, power, energy, elements on the circuit (passive and active) voltage and current source, Ohm’s Law, Kirchhoff’s Law and circuit model for circuit analysis. (3 Hours) 2 Lecture Resistive Circuit Series and parallel circuit, Voltage divider circuit, Current divider circuit, Voltage and current measurement, Wheatstone Bridge and equivalent circuit for delta-wye (Pi-Tee) (2 Hours) Laboratory experime nt Intro-Electro-Technique 1 (2 Hours) 3 Circuit Analysis Method : Node Voltage Method Node-Voltage method, Node-Voltage method with dependent sources and special cases. Lecture (3 Hours) 4 Circuit Analysis Method : Mesh Current Method Mesh-Current method, Mesh-Current method with dependent sources and special case. Lecture (3 Hours) School of Microelectronic Engineering, Universiti Malaysia

5 Circuit Analysis Method : Source Transformation Source transformations, Thevenin and Norton equivalent circuit, Maximum power transfer and Superposition in circuit analysis. Lecture (2 Hours) Lab 1: Series-Parallel Resistance (2 Hours) 6 Inductance and Capacitance Concepts and principles of Inductor and Capacitor, principles of the relationship between Voltage, Current, Power and Energy, series-parallel combinations circuit for inductance and capacitance. Laboratory experime nt Lecture (2 Hours) Lab 2: Nodal Analysis and Mesh Analysis Techniques (2 hours) 7 First Order and Second Order Response of RL and RC Circuit Natural Response of RL and RC Circuit, the Step response of RL and RC Circuit, general solutions for natural and step response and sequential switching, concepts of natural and step response of RLC circuit. Lecture (2 Hours) Tutorial 1 (2 Hours) 8 Laboratory experime nt First Order and Second Order Response of RL Natural Response of RL Circuits, the Step response of RL Circuits, general solutions for natural and step response and sequential switching, Concepts of natural and step response of RLC circuit. Problem Solving Lecture (3 Hours) School of Microelectronic Engineering, Universiti Malaysia

9 Sinusoidal Steady-State Analysis 1 Sinusoidal source and sinusoidal response, Phasor and Phasor diagram, Passive circuit elements in frequency domain. Lecture (3 Hours) 10 Sinusoidal Steady-State Analysis 2 Impedances and reactance, the Kirchhoff’s Laws and techniques of circuit analysis in frequency domain. Lecture (2 Hours) Tutorial 2 (2 Hours) 11 Sinusoidal Steady-State Calculation Instantaneous Power, Average (active) and Reactive Power, RMS value power calculation, Complex and Power Triangle and Maximum Power Transfer in ac circuits. Problem Solving Lecture (2 Hours) Lab 3: Sinusoidal Steady State Analysis – RLC Circuit (2 hours) 12 Power System Circuit Principles of Single and Three-Phase system (Y and ∆ circuit) and Balanced Three -Phase voltage sources, the Y-Y circuit analysis and Y-∆ circuit analysis, the power in Three-Phase balanced circuit and average power measurement in Three. Phase circuit. Laboratory experiment Lecture (3 Hours) 13 Two-Port Networks (R 2 P) 1 Open circuit parameter (z -parameter) and Short circuit parameter (y - parameter), Hybrid Parameter (h - parameter) and Transmission Parameter (t - parameter @ ABCD parameter). Lecture (2 Hours) Tutorial 3 (2 Hours) 14 Two-Port Networks (R 2 P) 2 Bilateral and symmetrical circuits, Conversions between the Two-Port Parameters and Interconnected Two-Port Circuits. (3 Hours) Problem Solving Lecture

Books/References List of Books/references : n n Alexander, C. K, Sadiku, M. N. O, Fundamental of Electric Circuit, 3 rd Editions, Mc Graw-Hill, 2009 Nilsson, J. W. Riedel, S. A, Electric Circuit, 6 th Edition, Prentice Hall, 2001 Irwin, J. D, Nelms, R. M, Basic Engineering Circuit Analysis, 8 th Edition, John Wiley, 2005 Robbins, A. H, Miller, W. C, Circuit Analysis: Theory and Practice, 3 rd Edition, Thomson/Delmar Learning, 2003 School of Microelectronic Engineering, Universiti Malaysia

Ilmu Keikhlasan Kecemerlangan School of Microelectronic Engineering, Universiti Malaysia