ELECTRICAL ENGINEERING

ELECTRICAL ENGINEERING Electrical Engineering program was first established by Department of Electrical Engineering in the Faculty of Engineering, King Mongkut s University of Technology Thonburi, which now offers a four-year Bachelor degree program in Electrical Engineering, three years for Transfer Program and master degree program in Electrical Engineering. The undergraduate curriculum of Electrical Engineering program is designed to give students a sound knowledge of engineering fundamentals, strong physical science background and adequate practical training so that they will be ready to quickly achieve competence in treating current technical problems as well as those that may arise with the rapidly changing technologies of years-to-come. The Electrical Engineering program prepares students for careers in such areas as electronics, computer, power, control and instrumentation. In the Bachelor of Engineering degree program in Electrical Engineering, the curriculum is developed to include basic knowledge in science, social science and humanities, electrical engineering and electric circuit theory, electronic circuit electrical machines, power electronics, microprocessors, electromagnetic fields, feedback control and instruments. The supporting work outside electrical engineering consists of a strong background in mathematics, physical sciences, social sciences and humanities.

ELECTRICAL ENGINEERING PROGRAM TITLE DEGREE TITLE Bachelor of Engineering Program in Electrical Engineering Bachelor of Engineering (Electrical Engineering) B. Eng. (Electrical Engineering) PROGRAM STRUCTURE Four - year Transfer 1. General Education Courses 40 Credits 30 Credits 1.1 Social Sciences and Humanities 13 Credits 3 Credits 1.2 Linguistics 9 Credits 9 Credits 1.3 Sciences and Mathematics 18 Credits 18 Credits 2. Field of Specialization Courses 103 Credits 84 Credits 2.1 Mathematics & Basic Engineering 20 Credits 18 Credits 2.2 Core Courses 65 Credits 60 Credits 2.3 Elective Courses 18 Credits 6 Credits 3. Free Elective Courses not less than 6 Credits 6 Credits Total Program Credits 149 Credits 120 Credits 222 The Undergraduate Bulletin 2005-2006

Curriculum Four - year Transfer 1. General Education Courses 40 Credits 24 Credits 1.1 Social Sciences and Humanities 13 Credits 3 Credits SSC 101 Physical Education * 1 (0-2 - 2) SSC 210 Man and Ethics for Quality of Life 3 (2-2 - 6) SSC 260 Introduction to Social Sciences 3 (3-0 - 6) SSC 290 Environment and Development * 3 (3-0 - 6) SSC xxx Social Science and Humanities Elective 3 (3-0 - 6) The student select 1 Course from the following Courses SSC 162 Society and Culture 3 (3-0 - 6) SSC 211 General Philosophy 3 (3-0 - 6) SSC 212 Introduction to Ethics 3 (3-0 - 6) SSC 213 Introduction to Logic 3 (3-0 - 6) SSC 214 Ethics and Reasoning 3 (3-0 - 6) SSC 221 History of Civilization 3 (3-0 - 6) SSC 231 General Psychology 3 (3-0 - 6) SSC 241 Principle of Political Science 3 (3-0 - 6) SSC 251 Principles of Jurisprudence 3 (3-0 - 6) SSC 261 Human and Society 3 (3-0 - 6) SSC 271 Managerial Accounting 3 (3-0 - 6) SSC 272 Production Cost 3 (3-0 - 6) SSC 281 Economics 3 (3-0 - 6) SSC 291 Man and Environment 3 (3-0 - 6) SSC 311 Buddhist Philosophy 3 (3-0 - 6) SSC 331 Human Relations 3 (3-0 - 6) SSC 333 Industrial and Organizational Psychology 3 (3-0 - 6) SSC 334 Psychology of Adjustment 3 (3-0 - 6) SSC 335 Managerial Psychology 3 (3-0 - 6) SSC 336 Art and Living 3 (3-0 - 6) SSC 351 Labour Law 3 (3-0 - 6) SSC 371 Marketing 3 (3-0 - 6) SSC 372 Personnel Management 3 (3-0 - 6) SSC 373 Management for Small and Medium Enterprises 3 (3-0 - 6) 1.2 Linguistics 9 Credits 9 Credits LNG 101 Fundamental English I 3 (2-2 - 6) LNG 102 Fundamental English II 3 (2-2 - 6) LNG 103 Fundamental English III 3 (2-2 - 6) LNG 104 Content based Language Learning I * 3 (2-2 - 6) The Undergraduate Bulletin 2005-2006 223

Note : 1. Student must earn core courses 9 credits. 2. Student must to pass a Placement Test to divide two group. Group A : LNG 101, LNG 102 and LNG 103 Group B : LNG 102, LNG 103 and LNG 104 1.3 Sciences and Mathematics 18 Credits 18 Credits MTH 101 Calculus and Analytic Geometry I 3 (3-0 - 6) MTH 102 Calculus and Analytic Geometry II 3 (3-0 - 6) CHM 103 Fundamental Chemistry 3 (3-0 - 6) CHM 160 Chemistry Laboratory 1 (0-3 - 2) PHY 103 General Physics I 3 (3-0 - 6) PHY 104 General Physics II 3 (3-0 - 6) PHY 191 General Physics Laboratory I 1 (0-3 - 2) PHY 192 General Physics Laboratory II 1 (0-3 - 2) 2. Field of Specialization Courses 103 Credits 84 Credits 2.1 Mathematics and Basic Engineering 20 Credits 18 Credits MTH 201 Linear Algebra and Vector Calculus 3 (3-0 - 6) MTH 202 Differential Equations 3 (3-0 - 6) MEE 111 Engineering Drawing 3 (2-3 - 4) MEE 224 Engineering Mechanics 3 (3-0 - 6) MEE 233 Thermodynamics 3 (3-0 - 6) PRE 103 Production Technology * 2 (1-3 - 2) MEN 111 Engineering Materials 3 (3-0 - 6) 2.2 Core Courses 65 Credits 60 Credits EEE 110 Electric Circuits 3 (3-0 - 6) EEE 111 Computer Programming for Electrical Engineers 3 (3-1 - 6) EEE 220 Electromechanical Energy Conversion 3 (3-0 - 6) EEE 221 Electromagnetics Fields 3 (3-0 - 6) EEE 260 Electrical Instruments and Measurements 3 (3-0 - 6) EEE 270 Engineering Electronics 3 (3-0 - 6) EEE 271 Digital Techniques 3 (3-0 - 6) EEE 292 Electronical Engineering Laboratory I * 1 (0-3 - 4) EEE 300 Industrial Training 2 (S/U) EEE 321 Electrical Machines 3 (3-0 - 6) EEE 330 Power Plant, Transmission and Distribution Systems 3 (3-0 - 6) EEE 331 Electric Power Systems Analysis 3 (3-0 - 6) EEE 332 Electrical System Design 3 (3-0 - 6) EEE 361 Illumination Engineering 3 (3-0 - 6) EEE 372 Power Electronics 3 (3-0 - 6) EEE 380 Control Systems 3 (3-0 - 6) 224 The Undergraduate Bulletin 2005-2006

EEE 390 Electrical Practice * 1 (0-3 - 4) EEE 391 Electrical Engineering Drawing * 3 (3-0 - 6) EEE 393 Electrical Engineering Laboratory II 1 (0-3 - 4) EEE 394 Electrical Engineering Laboratory III 1 (0-3 - 4) EEE 440 Power System Protection and Relays 3 (3-0 - 6) EEE 450 High Voltage Engineering 3 (3-0 - 6) EEE 493 Electrical Power Laboratory IV 1 (0-3 - 4) EEE 494 Electrical Power Laboratory V 1 (0-3 - 6) EEE 496 Electrical Engineering Project Study 1 (0-3 - 2) EEE 497 Electrical Engineering Project 3 (0-6 - 9) INC 101 Electrotechnology Laboratory (Instrumentation and Control) 1 (0-3 - 3) INC 336 Industrial Process Measurement 3 (3-0 - 6) 2.3 Elective Courses 18 Credits 6 Credits A. Electroical Engineering 12 Credits 6 Credits EEE 211 Electric Circuit Analysis 3 (3-0 - 6) EEE 212 Electrical Engineering Mathematics 3 (3-0 - 6) EEE 213 Signals and Systems 3 (3-0 - 6) EEE 381 Microprocessors 3 (3-0 - 6) EEE 395 Electrical Energy Conservation and Management 3 (3-0 - 6) EEE 396 Renewable Energy 3 (3-0 - 6) EEE 423 Analysis of Electrical Machines 3 (3-0 - 6) EEE 424 Electric Drives 3 (3-0 - 6) EEE 442 Computer Method in Power System Analysis 3 (3-0 - 6) EEE 451 Electrical Engineering Materials 3 (3-0 - 6) EEE 483 Introduction to Digital Signal Processing 3 (3-0 - 6) EEE 495 Special Topics in Electrical Engineering 3 (3-0 - 6) EEE 498 Safety and Environment 3 (3-0 - 6) B. Engineering 6 Credits - Credits MTH 302 Statistics for Engineers 3 (3-0 - 6) MTH 303 Numerical Methods 3 (3-0 - 6) PRE 290 Industrial Organization and Management 3 (3-0 - 6) PRE 380 Engineering Economics 3 (3-0 - 6) EEE xxx Electrical Engineering Elective 3 (3-0 - 6) 3. Free Elective Courses 6 Credits 6 Credits XXX xxx Free Elective 3 (3-0 - 6) XXX xxx Free Elective 3 (3-0 - 6) At least six credits of free electives can be chosen from any course offered by King Mongkut s University of Technology Thonburi. * The transfer program except The Undergraduate Bulletin 2005-2006 225

STUDY PLAN For Four-year Program First Year First Semester EEE 111 Computer Programming for Electrical Engineers 3 (3-1 - 6) LNG 101 Fundamental English I 3 (2-2 - 6) OR LNG 102 Fundamental English II MTH 101 Calculus and Analytic Geometry I 3 (3-0 - 6) PHY 103 General Physics I 3 (3-0 - 6) PHY 191 General Physics Laboratory I 1 (0-3 - 2) SSC 260 Introduction to Social Science 3 (3-0 - 6) OR SSC 210 Man and Ethics for Quality of Life 3 (2-2 - 6) MEE 111 Engineering Drawing 3 (2-3 - 4) Total 19 (16-8 - 36) 19 (15-9 - 34) Hours / Week = 60 Second Semester EEE 110 Electrical Circuits 3 (3-0 - 6) LNG 102 Fundamental English II 3 (2-2 - 6) OR LNG 103 Fundamental English III PHY 104 General Physics II 3 (3-0 - 6) PHY 192 General Physics Laboratory II 1 (0-3 - 2) MTH 102 Calculus and Analytic Geometry II 3 (3-0 - 6) MEE 224 Engineering Mechanics 3 (3-0 - 6) SSC 260 Introduction to Social Science 3 (3-0 - 6) OR SSC 210 Man and Ethics for Quality of Life 3 (2-2 - 6) Total 19 (17-5 - 38) 19 (16-7 - 38) Hours / Week = 60 226 The Undergraduate Bulletin 2005-2006

Second Year First Semester EEE 2xx Electrical Engineering Elective 3 (3-0 - 6) EEE 260 Electrical Instruments and Measurements 3 (3-0 - 6) EEE 270 Engineering Electronics 3 (3-0 - 6) LNG 103 Fundamental English III 3 (2-2 - 6) OR LNG 104 Content Based Language Learning I MTH 201 Linear Algebra and Vector Calculus 3 (3-0 - 6) MTH 202 Differential Equations 3 (3-0 - 6) SSC 101 Physical Education 1 (0-2 - 2) Total 19 (17 4-38) Hours / Week = 59 Second Semester CHM 103 Fundamental Chemistry 3 (3-0 - 6) CHM 160 Chemistry Laboratory 1 (0-3 - 2) EEE 220 Electromechanical Energy Conversion 3 (3-0 - 6) EEE 221 Electromagnetics Fields 3 (3-0 - 6) EEE 271 Digital Techniques 3 (3-0 - 6) EEE 292 Electrical Engineering Laboratory I 1 (0-3 - 4) PRE 103 Production Technology 2 (1-3 - 2) XXX xxx Engineering Elective 3 (3-0 - 6) Total 19 (16-9 - 38) Hours / Week = 63 Third Year First Semester EEE 321 Electrical Machines 3 (3-0 - 6) EEE 330 Power Plant, Transmission and Distribution Systems 3 (3-0 - 6) EEE 361 Illumination Engineering 3 (3-0 - 6) EEE 390 Electrical Practice 1 (0-3 - 4) EEE 391 Electrical Engineering Drawing 1 (0-3 - 6) EEE 393 Electrical Engineering Laboratory II 1 (0-3 - 4) EEE 3xx Electrical Engineering Elective 3 (3-0 - 6) SSC xxx Social Science or Humanities Elective 3 (3-0 - 6) Total 18 (15-9 - 44) Hours / Week = 68 The Undergraduate Bulletin 2005-2006 227

Second Semester EEE 331 Electric Power Systems Analysis 3 (3-0 - 6) EEE 332 Electrical System Design 3 (3-0 - 6) EEE 372 Power Electronics 3 (3-0 - 6) EEE 380 Control Systems 3 (3-0 - 6) EEE 394 Electrical Engineering Laboratory III 1 (0-3 - 4) EEE xxx Electrical Engineering Elective 3 (3-0 - 6) MEE 233 Thermodynamics 3 (3-0 - 6) Total 19 (18-3 - 40) Hours / Week = 61 Summer Session EEE 300 Industrial Training 2 (S/U) Fourth Year First Semester EEE 440 Power System Protection and Relays 3 (3-0 - 6) EEE 450 High Voltage Engineering 3 (3-0 - 6) EEE 493 Electrical Power Laboratory IV 1 (0-3 - 4) EEE 496 Electrical Engineering Project Study 1 (0-3 - 2) EEE 4xx Electrical Engineering Elective 3 (3-0 - 6) XXX xxx Free Elective I 3 (3-0 - 6) INC 101 Electrotechnology Laboratory (Instrumentation and Control) 1 (0-3 - 3) INC 336 Industrial Process Measurement 3 (3-0 - 6) Total 18 (15-9 - 39) Hours / Week = 63 Second Semester EEE 497 Electrical Engineering Project 3 (0-6 - 9) EEE 494 Electrical Power Laboratory V 1 (0-3 - 6) MEN 111 Engineering Materials 3 (3-0 - 6) SSC 290 Environment and Development 3 (3-0 - 6) EEE xxx Engineering Elective 3 (3-0 - 6) XXX xxx Free Elective II 3 (3-0 - 6) Total 16 (12-9 - 39) Hours / Week = 60 228 The Undergraduate Bulletin 2005-2006

For Transfer Program Pre - Summer Session MTH 101 Calculus and Analytic Geometry I 3 (3-0 - 6) LNG 101 Fundamental English I 3 (2-2 - 6) Total 6 (5-2 - 12) Hours / Week = 19 First Year First Semester EEE 110 Electric Circuits 3 (3-0 - 6) EEE 111 Computer Programming for Electrical Engineers 3 (3-1 - 6) LNG 102 Fundamental English II 3 (2-2 - 6) MEE 111 Engineering Drawing 3 (2-3 - 4) MTH 102 Calculus and Analytic Geometry II 3 (3-0 - 6) PHY 103 General Physics I 3 (3-0 - 6) PHY 191 General Physics Laboratory I 1 (0-3 - 2) Total 19 (16-9 - 36) Hours / Week = 61 Second Semester EEE 260 Electrical Instruments and Measurements 3 (3-0 - 6) LNG 103 Fundamental English III 3 (2-2 - 6) EEE 2xx Electrical Engineering Elective 3 (3-0 - 6) MTH 201 Linear Algebra and Vector Calculus 3 (3-0 - 6) MEE 224 Engineering Mechanics 3 (3-0 - 6) PHY 104 General Physics II 3 (3-0 - 6) PHY 192 General Physics Laboratory II 1 (0-3 - 2) Total 19 (17-5 - 38) Hours / Week = 60 The Undergraduate Bulletin 2005-2006 229

Summer Session MTH 202 Differential Equations 3 (3-0 - 6) Total 3 (3 0-6) Hours / Week = 9 Second Year First Semester EEE 220 Electromechanical Energy Conversion 3 (3-0 - 6) EEE 221 Electromagnetics Fields 3 (3-0 - 6) EEE 270 Engineering Electronics 3 (3-0 - 6) EEE 271 Digital Techniques 3 (3-0 - 6) EEE 330 Power Plant, Transmission and Distribution Systems 3 (3-0 - 6) EEE 393 Electrical Engineering Laboratory II 1 (0-3 - 4) MEE 233 Thermodynamics 3 (3-0 - 6) LNG 104 Content based Language Learning 3 (2 2 6) Total 22 (20 5-46) Hours / Week = 61 Note: For transfer program student pass a placement test must to take LNG 104. Second Semester CHM 103 Fundamental Chemistry 3 (3-0 - 6) CHM 160 Chemistry Laboratory 1 (0-3 - 2) EEE 321 Electrical Machines 3 (3-0 - 6) EEE 331 Electric Power Systems Analysis 3 (3-0 - 6) EEE 372 Power Electronics 3 (3-0 - 6) EEE 394 Electrical Engineering Laboratory III 1 (0-3 - 4) EEE 3xx Electrical Engineering Elective 3 (3-0 - 6) Total 17 (15-6 - 36) Hours / Week = 57 230 The Undergraduate Bulletin 2005-2006

Third Year First Semester EEE 332 Electrical System Design 3 (3-0 - 6) EEE 361 Illumination Engineering 3 (3-0 - 6) EEE 380 Control Systems 3 (3-0 - 6) EEE 440 Power System Protection and Relays 3 (3-0 - 6) EEE 493 Electrical Power Laboratory IV 1 (0-3 - 4) EEE 496 Electrical Engineering Project Study 1 (0-3 - 2) INC 101 Electrotechnology Laboratory (Instrumentation and Control) 1 (0-3 - 3) INC 336 Industrial Process Measurement 3 (3-0 - 6) Total 18 (15-9 - 39) Hours / Week = 63 Second Semester EEE 450 High Voltage Engineering 3 (3-0 - 6) EEE 494 Electrical Power Laboratory V 1 (0-3 - 6) EEE 497 Electrical Engineering Project 3 (0-6 - 9) MEN 111 Engineering Materials 3 (3-0 - 6) XXX xxx Free Elective I 3 (3-0 - 6) XXX xxx Free Elective II 3 (3-0 - 6) SSC 260 Introduction to Social Science 3 (3-0 - 6) OR SSC 210 Man and Ethics for Quality of Life 3 (2-2 - 6) Total 19 (15-9 - 45) 19 (14-11 - 45) Hours / Week = 69 The Undergraduate Bulletin 2005-2006 231

COURSE DESCRIPTIONS EEE 100 Electrotechnology (Power) 3 (3-0 - 6) Prerequisite : PHY 104, PHY 192 (For non-electrical engineering students) Magnetic aspects of electrical machines : magnetism, magnetic circuits, magnetic core losses. Voltage induced in a conductor as a sinusoidal wave, phasor representation. Active, reactive and apparent power in single and three-phase circuits. Single and three-phase transformers. DC and AC generators: construction, induced voltage, efficiency. DC and AC motors: construction, efficiency, speed control, direction of rotation control, selection, application, and maintenance. Electrical measurements. Introduction to semiconductor devices for power electronics. EEE 101 Electrotechnology Laboratory (Power) 1 (0-3 - 3) Prerequisite : EEE 100 A laboratory course to accompany the topics covered in EEE 100. EEE 102 Electrotechnology I (Power) 3 (2-3 - 4) Prerequisite : PHY 103 (For non-electrical students) Basic dc and ac circuit analysis; voltage, current and power; transformers; introduction to electrical machinery; generators, motors and their uses; concepts of three-phase system; method of power transmission; introduction to some basic electrical instruments. EEE 103 Electrotechnology (Power and Electronics) 3 (3-0 - 6) (For non-electrical engineering students) Introduction to magnetic circuits. Induced voltage in a conductor as a sinusoidal wave. Instantaneous, average, and effective value of voltage and current. Representation of sinusoidal wave by phasors. Active, reactive and apparent power, power factor correction. Faraday s law and Lenz s law, transformers, induced voltage, voltage and current ratio. Equivalent circuit of a practical transformer. Conduction in metals and semiconductors, P N junction characteristics of semiconductor devices, transistor amplifiers, operational amplifier circuits and applications. Power electronics, phase controlled rectifiers and their applications. 232 The Undergraduate Bulletin 2005-2006

EEE 104 Electrotechnology Laboratory (Power and Electronics) Prerequisite : EEE 103 1(0-3- 3) (For non-electrical engineering students) Electrical Power and Electronic laboratory course to accompany with topics covered in EEE 103. EEE 105 Electric Circuits 3 (3-0 - 6) (For non-electrical engineering students) Electrical units and definitions: voltage, current, power, energy, resistor, capacitor, inductor, dependent and independent sources, lumped circuit, Y- transformation. Network theorems and circuit analysis : Kirchhoff s laws, voltage and current deviders, network analysis by node voltages and mesh currents, Thevinn s and Nortion s theorems, superposition, maximum power transfer, two-port analysis. Sinusoidal steady state : sinusoidal signals, complex numbers, phasors, AC circuit analysis, power in AC circuits, analysis of three phase circuits. EEE 106 Basic Instrumentation 3 (3-0 - 6) (For non electrical engineering students) Concept and definition of process measurement and control; temperature measurement; pressure measurement; flow measurement, level measurement; analytical measurement (e.g,ion concentration, ph etc.); electromagnetic radiation measurement; standard symbols for process instrumentation drafting; electronic controller; pneumatic controller; control valve; use of instrument manual; maintenance procedure. EEE 107 Electrical Systems and Safety 3 (3-0 - 6) (For non electrical engineering students) Generation, transmission and distribution of electrical energy systems. Selection of wire and cable conductor according to permissible against physical damage, temperature rise and voltage drop, wiring regulations for electrical installation. Electrical installation in industrial and building relate to safety; panel board, metering equipment, fuses and circuit breakers. Protection of conductor and motors against overloads, and electric chock, grounding systems. Calculation and design considerations for office building and industrial lighting EEE 110 Electric Circuits 3 (3-0 - 6) Prerequisite : PHY 103, PHY 193 Circuit clement, node and mesh analysis; Thevening and Norton equivalent circuits, superposition theorems, maximum power transfer. DC Transient and AC sinusoidal steady-state responses; pharos diagram; three-phase circuits. The Undergraduate Bulletin 2005-2006 233

EEE 111 Computer Programming for Electrical Engineers 3 (3-1 - 6) Lecture : Introduction to the principle and structure of a computer system. Hardware and software relation. Program structure design and development methodology using flow chart. Structure of data and variables, mathematical and logical operation, decisions and repetitive loop processes, Subprogram with function and procedure, type of declarations, array, file, creative thinking by high level language programming. Introduction to visual programming. Lab : Creative thinking and programming design. Testing and solving of mathematical and electrical engineering problem. EEE 117 Electrical Power Laboratory 1 (0-3 - 3) (For non-electrical engineering students) Experiments on characteristics and performance of transformers, motors and generators : AC, DC, 1-phase and 3-phase systems, topics covered in EEE 118. EEE 118 Electromechanical Energy Conversion 3 (3-0 - 6) (For non-electrical engineering students) Transformer : Voltage induced in a coil, polarity of a transformer, equivalent circuit of a practical transformer, measuring transformer impedances, autotransformer, voltage regulation. DC generators : contruction; field, armature, commutator and brushes. Induced voltage of separately excited generator, shunt, series and compound generators, load characteristics. DC motors : counter emf, mechanical power and torque, armature speed control, field speed control, shunt, series and compound motor. Reversing the direction of rotation. Three phase induction motors : construction, rotating field, direction of rotation. Starting characteristics of a squirrel-cage motor, wound rotor motor. Three-phase alternators : construction, stator, rotor. Equivalent circuit of an alternator. Alternator under load. Synchronization of an altemator. Synchronous motors : starting a synchronous motor, motor under load, mechanical and electrical angles, V- curve. Single-phase motor : construction, Torque-speed characteristic, Principle of operation, capacitor start motor, capacitor run motor, shaded-pole motor, series motor, hysteresis motor. 234 The Undergraduate Bulletin 2005-2006

EEE 119 Electric Machinery 3 (3-0 - 6) (For non-electrical engineering students) Magnetic aspects of machines. Principles of DC machines, DC generators, DC motors, three-phase voltage generators, synchronous generators, Transformers, 3-phase induction motors, single-phase motors. EEE 211 Electric Circuit Analysis 3 (3-0 - 6) Prerequisite : EEE 110 Complex frequency. Frequency responses, Resonance. Twoport network. Fourier series : trigonometric and exponential forms including their application in circuit analysis. EEE 212 Electrical Engineering Mathematics 3 (3-0 - 6) Prerequisite : MTH 202 Complex number. Complex analytic function. Conformal mapping. Complex integral and residue theorem. Fourier and Laplace transforms : their definitions, properties and applications. Partial differential equations and boundary value problems. Separation of variables technique. Solution of wave equation, diffusion equation and Laplace equations. EEE 213 Signals and Systems 3 (3 0 6) Continuous signals, discrete signals, signal analysis using Fourier analysis, Fourier transforms, Z-transforms, convolutions of signals, sampling theory, state variables, time domain and frequency domain representation of a system, system responses. EEE 220 Electromechanical Energy Conversion 3 (3-0 - 6) Prerequisite : EEE 110 Magnetic circuits, electromagnetic torque, ideal transformers, equivalent circuits of transformers, induced emf, electromagnetic torque of dc machines, dc armature windings, equivalent circuits of dc machines; synchronous speed; rotating fields, generated voltage, ac armature windings, equivalent circuits of synchronous machines, slip speed of induction motor, power transfer across air gap, electromagnetic torque of induction motors. EEE 221 Electromagnetic Fields 3 (3 0 6) Electrostatic fields; conductors and dielectrics, capacitance; convection and conduction currents; magnetostatic fields; inductance; time-varying electromagnetic fields; Maxwell s equations; propagation of plane wave, the wave propagation in dielectrics and conductors, radiation, transmission lines and wave guide. The Undergraduate Bulletin 2005-2006 235

EEE 260 Electrical Instrument and Measurements 3 (3-0 - 6) Units and standard instruments; shielding; safety; precision; voltage, current and power measurement, impedance measurement at low and high frequencies; transducers; magnetic measurements; digital techniques in measurements; noise; signal-to-noise radio, enhancement techniques, instruments in electrical power plants. EEE 270 Engineering Electronics 3 (3-0 - 6) Prerequisite : EEE 110 Current voltage characteristics of electronic devices; basic electronic circuits; amplifier; operational amplifier and its applications in linear and nonlinear circuits, oscillator; power amplifiers; power supply; introduction to power electronics. EEE 271 Digital Techniques 3 (3 0 6) Number systems and computer codes, boolean algebra. Analysis and synthesis of combinational logic : switching function, canonical forms, cubes, Karnaugh map, minimization techniques, don t cares, multilevel NAND and NOR circuits and hazards. Analysis and synthesis of sequential logic : state variables, state transition diagram, state table, minimization of states, state assignment techniques and races, implementation with flip flop. EEE 292 Electrical Engineering Laboratory I 1 (0-3 - 4) Prerequisite : EEE 110, EEE 260 Experiments electrical circuits, electrical instruments and measurements EEE 300 Industrial Training 2 Credits Practical training in an industry during summer for not less than six weeks. EEE 321 Electrical Machines 3 (3-0 - 6) Prerequisite : EEE 220 Energy sources, magnetic circuits, principles of electromagnetic and electromechanical energy conversion, energy and co-energy, principles of rotating machines, dc machines, starting method of dc motors, speed control methods of dc motor, theory and analysis of single phase and three phase transformers, ac machines construction, stead state performance and analysis of induction machines and synchronous machines, starting methods of polyphase induction motors and synchronous motors, protection of machines. 236 The Undergraduate Bulletin 2005-2006

EEE 330 Power Plant, Transmission and Distribution Systems 3 (3-0 - 6) Load curve, load duration curve and load factor, energy resources, hydropower plant, steam turbine power plant, gas turbine power plant, combined cycle plants, gas turbine plant, diesel plant, nuclear power plant, economic operation of power systems, substation, parameter of transmission line, performance of transmission line, per-unit systems. EEE 331 Electric Power Systems Analysis 3 (3-0 - 6) Prerequisite : EEE 330 Review of fundamental knowledge in electrical power systems; transmission and distribution network calculation, load flow, load flow control, symmetrical short circuit analysis, unsymmetrical short circuit analysis, power system protection, transient stability, economic operation, insulation co-ordination, grounding. EEE 332 Electrical System Design 3 (3-0 - 6) Basic design concepts, power distribution schemes; codes and standards for electrical installation, electrical drawing, load estimation, wiring design, grounding, short-circuit calculation, coordination of protective devices, power factor improvement, emergency power systems. EEE 361 Illumination Engineering 3 (3-0 - 6) Physics of light : nature of light; light and energy spectrum; luminous efficiency of radiant energy, light detection and light generation; nature of sight-human eyes and and visual process, relationship between light and sight; units and measurement of light and laboratory measurements. Illumination: quantity and quality of illumination; light sources : incandescent, fluorescent, mercury and high intensity discharge sources and their characteristics. Light control and luminairs : physical principle of light control, luminairs and their selection. Interior and exterior lighting calculations and design. Considerations for office building, school, commercial building, industrial lighting, street and flood lighting. EEE 372 Power Electronics 3 (3-0 - 6) Prerequisite : EEE 270 Characteristics of power electronics devices, power diode, SCR, GTO, power bipolar junction transistor, power MOSFET, IGBT, characteristics of magnetic material, power transformer core, ferrite core, iron powder core, converters, ac to dc converter, dc to dc converter, cycloconverter, inverter, dc to ac converters, frequency changer, solid-state motor drive, direct current motor control, induction motor control, synchronous motor control. The Undergraduate Bulletin 2005-2006 237

EEE 373 Electric Motor Drives 3 (3-0 - 6) Prerequisite : EEE 119 Power - semiconductor devices as switch elements in power electronic circuits i.e. power diode, power transistors, power MOSFET, Thyristor, IGBT ete., Conversion of ac to dc, dc to dc, and dc to ac Servo amplifiers for driving dc motor brushless dc motor, ac motor and stepped motor in 1,2,4 quadrants and position control. EEE 374 Electric Motor Drive Laboratory 1 (0-3 - 4) Prerequisite : EEE 373 A Laboratory course to accompany the topics covered in EEE 373. EEE 380 Control Systems 3 (3-0 - 6) Closed-loop and open-loop control system, transfer function, signal flow graphs, time-domain and frequency-domain analysis and design of control system, root locus, Nyquist plots, Bode plots, system stability, compensations. EEE 381 Microprocessors 3 (3-0 - 6) Prerequisite : EEE 271 Data representation, organization of microprocessor, microprocessor programming, Semiconductor memories and Meories interfacing. Input-Output units, Interfacing techniques, Interfacing devices and peripheral systems. Applications of microprocessors. EEE 390 Electrical Practice 1 (0-3 - 4) A course of practice covers the topics on interior and exterior wiring, transformer winding, printed circuit techniques, soldering and PCB design software. The course provides students with practical experiences in dc/ac machine windings. Included in the course is a practice on simple control of electrical machines. EEE 391 Electrical Engineering Drawing 1 (0-3 - 6) Introduction to electrical drafting procedures, material instruments, basic dimension and notes. International and Thai standards graphic symbols, and abbreviations for electrical and electronic diagrams, pictorial, wiring, one-line, schematic and riser diagrams. Assembly and details of electrical machines, generation, transmission, distribution, power stations, and lighting layouts, miniaturization, printed graphical representation of data. Introduction to computer programs, such as AutoCAD, Visio, Protel, Orcad. 238 The Undergraduate Bulletin 2005-2006

EEE 393 Electrical Engineering Laboratory II 1 (0-3 - 4) Prerequisite : EEE 220, EEE 270 Experiment of electrical energy conversion and engineering electronics. EEE 394 Electrical Engineering Laboratory III 1 (0-3 - 4) Prerequisite : EEE 271, EEE 321 Experiment of electrical machines and digital techniques. EEE 395 Electrical Energy Conservation and Management 3 (3-0 - 6) Overview of electrical energy system, Load monitoring and data translation. Energy consumption in buildings and factories. Electrical energy billing comply with MEA rate. Economics of energy efficiency, Introduction to an energy audit, comply with Thailand s energy conservation act. Psychrometrics, comfort and health. Elements of heat transfer. Solar radiation and window system. Daylighting. Designing for good electrical energy efficiency. Electrical load management and control. Case study. EEE 396 Renewable Energy 3 (3-0 - 6) Overview of energy usage and energy sources. Solar thermal energy: the nature and availability of solar radiation, active solar heating, passive solar heating, daylighting, solar thermal engines and electricity generation. Solar photovoltaics: principle of photovoltaic power generation, type of photovoltaic cells, electrical characteristic of photovoltaic cells, batteries and their characteristics stand-alone and grid-connected PV systems, economic of PV energy systems. Fuel cells: type and principle of operation, electrical characteristic of full cells. Biomass: biomass as a fuel, extracting the energy, energy from refuse. Hydroelectricity: type of hydroelectric plant, small-scale hydroelectricity. Tidal power: technical factors. Wind energy: type of wind turbines and their characteristics, power and energy from wind turbines, economics, commercial developments. Wave energy: physical principle of wave energy, wave energy technology. Geothermal energy: physics of geothermal resources, technologies for geothermal resource exploitation, economic and world potential. Renewable energy system integration. EEE 423 Analysis of Electrical Machines 3 (3-0 - 6) MMF and Rotating magnetic field equations due to 1-phase and 3-phase currents in 1-phase and 3-phase distributed winding. Synchronous machines : general load diagram for a synchronous machine connected to infinite bus due to effects of changing field excitation and prime mover power, steady-state power-angle The Undergraduate Bulletin 2005-2006 239

characteristics of cylindrical and salient-pole rotor machines, interconnected synchronous generators, transient short-circuit current of synchronous generator. Induction machines : Flux and mmf waves in induction motor, effects of rotor resistance, calculation of external rotor resistance for wound rotor to control the starting current and torque. Machines : effect of armature mmf interpole, commutating pole, brush shifting, dynamic equations. Amplidyne. Saturable reactor (transductor) characteristics. EEE 424 Electric Drives 3 (3-0 - 6) Kinetic energy of linear motion, Kinetic energy of rotation, moment of inertia, Power flow in a mechanically coupled system. Electric motor driving linear motion loads. Efficiency and heating of electrical machines, temperature rise, llimiting ambient temperature and hot-spot temperature. Selection and application of three-phase induction motors. Standardization and classification of induction motors. Plugging an induction motor, effect of inertia, braking with direct current. Iinduction motor operating as a generator. Electronic control of direct current motors; two-quadrant control, regenerative braking, four - quadrant control, dc traction. Electronic control of alternating current motors: Type of ac drives, shape of the torque-speed curve, current-speed curves. Regenerative braking. Synchronous motor and Squirrel cage induction motor with cycloconverter, variable voltage controller, voltage and frequency control. EEE 440 Power System Protection and Relays 3 (3-0 - 6) Prerequisite : EEE 331 Causes and statistics of faults, role of protective relays, fundamental of protective relaying, protative relays requirement, relay structures and characteristics, over current and earth fault protection for transmission line, differential protection, transmission line protection by pilot relaying and distance relaying, transformer protection, generator protection, bus-zone protection, motor protection. EEE 442 Computer Methods in Power Systems Analysis Prerequisite : EEE 321, EEE 330, EEE 331 3 (3-0 - 6) Computer methods in power systems applied to transient stability studies, economic dispatch, and security load flows. Use of a sparse-matrix techniques. Comparision of algorithms. Emphasis on the use of the digital computer in the planning and operation of large-scale power systems. 240 The Undergraduate Bulletin 2005-2006

EEE 450 High voltage Engineering 3 (3-0 - 6) Generation and uses of high voltage, high voltage measurement techniques, electric field and electrical insulation, electrical breakdown of gas, liquid and solid dielectrics, test of high voltage material and equipment, lightning and switching over voltages, lightning protection EEE 451 Electrical Engineering Materials 3 (3-0 - 6) Introduction of motion in solids : free electron model, Kroning- Penney model, energy bands, band representation of insulator, semiconductors and conductors. Basic statistical mechanics : density of states, probabilities of occupation, population density. Intrinsic and extrinsic semiconductors. Semiconductor PN junction. Tunneling phenomena. Tunnel diodes. Magnetic properties of materials : atomic state and magnetic moment, diamagnetism, paramagnets, ferromagnetism, domain theory and devices. Superconductivity and applications. EEE 483 Introduction to Digital Signal Processing 3 (3-0 - 6) Prerequisite : EEE 212 Discrete-time signals and systems, sampling of continuous time signals, Z-transform FIR and IIR filter design, discrete Fourier transform and Fast Fourier Ttransform. EEE 493 Electrical Engineering Laboratory IV 1 (0-3 - 4) Prerequisite : EEE 372, EEE 380 Experiments on power electronics and closed loop control systems, basic of power system protection and basic of high voltage engineering. EEE 494 Electrical Engineering Laboratory V 1 (0-3 - 6) Prerequisite : EEE 440, EEE 450 Experiments on power system protection, high voltage engineering and electric motor control. EEE 495 Special Topics in Electrical Engineering 3 (3-0 - 6) An undergraduate special topic not included in the current curriculum EEE 496 Electrical Engineering Project Study 1 (0-3 - 2) For the fourth year electrical engineering students or consents of instructor. Students work either individually or in groups under the supervision of department s members. Each group is encouraged to develop and design a systematic method of investigation in The Undergraduate Bulletin 2005-2006 241

solving electrical engineering problems which demand theoretical background. EEE 497 Electrical Engineering Project 3 (0-6 - 9) Prerequisite : EEE 496 Continuation and completion of project assigned in EEE 496. EEE 498 Safety and Environment 3 (3-0 - 6) Nature of accident in industrial and need of accident prevention. Planning for safety such as plant layout. Organization and administration of safety program. Safety training and case study in accident analysis. Understanding safety regulation of modern power stations, transmission and distribution systems. Nature of accident in high voltage systems and need of accident prevention. Fundamental of air pollution and control. Wastewater and methods of treatment. 242 The Undergraduate Bulletin 2005-2006