Dept. of Electrical and Electronics Engineering Technology (ELET)

Transcription

1 Dept. of Electrical and Electronics Engineering Technology (ELET) Course Code (Revamped) Course Title 1 ELET101 Electric Circuit I Course Description This course provides the student with an understanding of the concepts and techniques in the characterization of electrical circuits and their components. This course introduces the student to the basic concepts of current, voltage, power, electromagnetism, basic laws and theorems for the analysis of electric circuits. Students are familiarized with ohm s law, KVL, KCL and other basic theorems. Theory classes are supported by laboratory experiments to study, test and verify the characteristics of these basic electrical concepts. 2 ELET102 Electrical Circuits II This course provides the student with an understanding of concepts of alternating current fundamentals and AC Circuits. The course includes topics related to Three phase systems, Filters, Two port networks and resonance. Practical circuits are analysed using fundamental Electrical Laws and theorems to promote and strengthen the mathematical and analytical capabilities of the students and to help them understand and apply the concepts in the implementation of these Electrical circuits.theory classes are supported by Laboratory exercises to model, simulate, test electrical circuits. 3 ELET103 Electrical Machines I This course deals with the fundamentals magnetism, electromagnetism magnetic circuits, DC electrical machines and single phase transformers. This course covers principle of magnetism, magnetic field. It also includes the study of magnetic behavior of ferromagnetic material, B-H curves, and the phenomenon of hysteresis and energy losses in ferromagnetic core. It includes the study of construction, operation and characteristics of DC machines (generators and motors) and the starting speed control and applications of DC motors in industries. The theory, calculations, construction and operation of ideal and practical transformers and the theory of autotransformer are also covered. In addition, several state-of-art applications and laboratory exercises are illustrated throughout the course to support and reinforce class discussions. 4 ELET104 Computer Programming This course introduces techniques to solve problems through computer programming using high level computer language 'C'. The students will learn problem solving techniques, basic programming concepts such as input/output statements and control statements, use of sub programs and structured data types such as arrays, pointers and structures. The course is supported by exercises in the laboratory. 5 ELET105 Electronics I The Electronics 1 course provides the student with an understanding of the physical properties and principles of operation of some common solid state devices. It introduces the student to bipolar devices such as semiconductors, diodes, transistors, and unipolar devices such as junction field effect transistors. Concepts of ideal op-amp characteristics and some basic applications are also included. It also deals with basic electronics circuits such as amplifier, oscillator and regulated power supply. Course is supported by laboratory experiments to study, test, troubleshoot and verify the characteristics and orientations of these devices in typical electronic circuits using multimeters, oscilloscopes, function generator and drawing graphical presentations.

2 6 ELET201 Basic Industrial Electronics This course introduces the student with applications of power electronic devices typically used in industry, including thyristors, DIACs, TRIACs, SCRs, and UJTs and PUTs. The course deals with fundamentals and applications of rectifiers, controllers, converters, and inverters and high power products including heat controls, light controls and power supplies. And also its include the troubleshooting of power supplies. 7 ELET202 Digital Electronics I This course introduces the basic understanding and application of digital Electronics. It covers logicgates,ttl,number systems,codes and adder,subtractor circuits,boolean algebra laws and Rules, analysing the operation of combinational logic circuits and DeMorgan s theorem and K- map method. This course also includes flip flops, construction of flip flops using NAND/ NOR gates. Conversion of flip flops. Also includes shift registers, counters and introduction to basic microprocessor (8085).Laboratory exercises support and clarify class room discussion. 8 ELET203 Control System Components The course covers the basics of process control systems. It provides fundamentals of process control in theory and practical work. It covers various types of control systems, their comparison and applications and includes the study of control system components and auxiliaries used in the industries. Application of control system theory to analyse the control system is given with the help of Simulink software. Description and programming of PLC are also part of this course. 9 ELET204 Industrial Electricity This course deals with the fundamentals of DC and AC circuits, DC and AC machines and electronic logic control circuits. The first part is devoted to study DC circuits. The second part considers both single phase and three phase AC circuits. DC and AC machines widely used in electric power plants are covered in the third part. Basic principles of semiconductors and their applications in control circuits are studied in the last part of this course. 10 ELET211 Instrumentation Electronics This course provides the student with the knowledge and application of operational amplifiers to perform a variety of functions in the areas of signal conditioning, signal processing, filtering, and signal converting and control circuits. This is a comprehensive electronic course tailored for instrumentation students where students should be able to explain the working principles of the circuits and how they being applied in the context of instrument designs. Students will be taught to calculate the performances and plot responses of these circuits in addition to designing of simple operational amplifier circuits applications. Students will learn to troubleshoot comparator and filter circuits in order to identify the faults. In order to enforce the understanding and concepts, experimental studies are conducted in both hardware and simulation environment where students will assemble, test and measure performances of the circuits. 11 ELET212 Microcontroller The Microcontroller course acquaints students with basic concepts and functions of microcontroller and its applications. Starting from the basic architecture of microcontroller, various types of hardware blocks and their interconnectivity, serial, parallel and interrupt operations and basic assembly language instructions set are covered in this course. Additionally, design and interfacing examples are also included in the course. Laboratory exercises support and reinforce class instructions.

3 12 ELET221 Electrical Installations This course provides students installation practice with estimation of power requirements for electrical lighting, power equipment and electrical machines and estimation of total cost of different types of installations. This course provides students with Interpreting Layout Drawings, perform different operations like cutting, filing operations, drilling and tapping operations. This course gives experience in the use of national code, manufacturer s catalogue, technical data, books and other references along with practice in preparing floor plans to install the electrical circuits. It also deals with calculation of insulation and capacity requirements of various circuit elements, devices, cable requirements, planning and installing feeders using metallic and non-metallic conduit in hazardous and non hazardous locations for residential, commercial and industrial wiring using the appropriate national electrical code as reference. Laboratory exercises support the theory classes. 13 ELET222 Electrical Machines II This course provides students with an understanding of poly-phase electrical circuits, construction, principles operation and applications. In addition, calculation of three-phase system values are studied. This course provides students with an understanding of operation three phase transformer circuit and applications, properties of transformer bank, different types of connections phase shift, three phase to two phase transformation of threephase transformers. It covers the operation and applications, rotating field of three-phase induction motors, types, characteristics, slip, active power flow efficiency and equivalent circuit of three-phase induction motors. Construction and principle of operation types of single phase motor. Uses, types, construction, operating, characteristics, excitation, voltage regulation, and synchronization of alternator are also covered by this course. Different types of industrial motors including explosion proof motors (Ex Motors) and motor testing are included. 14 ELET223 Electrical Motor Control This course covers the industrial control systems, relating to manual and automatic system control directed towards industrial applications and includes electromagnetic control, solid state control, state control circuits and sequencial control. The course also deals with components of a control system such as the contactors, relays, pilot devices, push button switches, master switches circuit breakers, manual and automatic starters for AC and DC motors, electrical braking methods, speed control methods, inverters and choppers. The students are trained to perform installatin and testing of various control circuits. Laboratory exercises support the theory classes. Practical circuits are analyzed to promote and strengthen the mathematical and analyticalcapabilitiesofthestudents,and to help them understand & apply their concepts in the design and implementation of electrical systems. 15 ELET224 Electrical Power Systems This is an introductory course to Electrical Power Systems. The course provides students with an understanding of electrical power generation, transmission and distribution. The course covers conventional methods of electrical power generation and components of electrical power transmission and distribution system. Electrical substation, its equipment, switch gears and its layout is also covered. The course also introduces the students to concepts of power factor correction and power tariffs. Laboratory exercises reinforce theory and provide students with hands on experience.

4 16 ELET225 Electrical Trbl Shtg & Maint The course covers the maintenance and troubleshooting of electrical machines and equipment. Topics covered under this course include right from safety in electrical maintenance, CPR (Cardio Pulmonary resuscitation) methods, different types of maintenance programs and preparation of maintenance schedules. It also throws the light on mechanical maintenance of electrical machines. It covers topic of electrical troubleshooting in depthits definition, sensory inspection in troubleshooting, common types of troubles, classification of troubles, tools and equipment used for troubleshooting. It has got comprehensive coverage of testing, troubleshooting and repairing of direct current machines, alternating machines, electrical control systems, transformer, emergency lighting system and battery charging system. Preparation of troubleshooting charts with causes and remedies are also included for all the machines/equipment mentioned. 17 ELET230 PCB Fabrication This course provides the students with skills in designing and fabricating a PCB. It deals with the fundamentals of PCB design, layout and fabrication and utilizes computer software and soldering techniques. 18 ELET231 Electronics II This course introduces students to the basics of linear integrated circuits and applications of op-amp covering integrator, differentiator and comparator. This further includes topics on differential and instrumentation amplifiers, VCO, and generation of non-sinusoidal waveforms. Troubleshooting of Opamp circuits is carriedout. The course also covers timers and their applications such as clock and pulse generation, different types of voltage and power amplifiers using FETs. This is a comprehensive electronic course.emphasis is placed on the principles of operations and applications of these circuits.laboratory experiments are used to give practical reinforcement of theories dealt with this course. 19 ELET232 Digital Electronics II This course introduces advanced digital circuits and systems to the students. It deals with different digital logic families and their characteristics. Data control devices like encoder, decoder, MUX, DEMUX, comparator, different types of ADCs and DACs, memory devices along with PLDs and digital simulations are also included. Combinational and Synchronous logic systems are analyzed and designed. Laboratory and practical experiments are part of this course. 20 ELET233 Analog & digital Communications The course provides the student with an understanding of analog and digital communications signals and systems. The course introduces the transmission and reception of analog signals in amplitude and angle modulations. For digital signals, the modulation schemes include pulse modulation and digital transmission. Laboratory experiments supplement the theory.

5 21 ELET234 Troubleshooting and Maintenance This course provides the student, theoretical knowledge and practical skills to perform board level and component level troubleshooting using various electronic circuits and systems. The student will be able to apply troubleshooting techniques and step by step procedures to identify, locate the causes of trouble by the logical process of eliminating various alternatives, recognize trouble symptoms in electronic circuits and systems and correct the troubles. The student will be able to identify electronic components, their specifications (data sheet) and test them. The student can test and troubleshoot power supply circuits with a list of troubles expected from each specifying trouble symptoms and suspected faults. The student will be able to test and troubleshoot analog electronics and communication circuits.the course lab is being done using troubleshooting trainers with fault insertion facility through external toggle switch and by software using computer including Computer Based Laboratory (CBL) system with WinFACET software from LabVolt and Power and Control Electronics System-T7018 with FaultPro Troubleshooting Management Software from Amatrol. 22 ELET235 Telecommunication systems This course includes fours topics; The first topic covers comprehensive understanding of the fundamental concepts of the telephone communication systems, their different parts and operation principles. The course analyzes the various switching systems and explains the basic concepts of telephone traffic measurement and also telephone network troubleshooting. The second topic introduce the student to network systems, which includes the fundamentals of protocol architecture & Internet applications and Wide Area Network (WAN). The students will acquire knowledge and skill of network design, troubleshooting and application. The third topic gives the opportunity to the student to deal with RF circuits, Antennas and microwave devices. The students will acquire information and skill of the performance and characteristics of different antennas and how to measure their radiation patterns, beamwidth, gain and directivity. The last topic is an introduction to fiber optics: Analysis, operation, application, and measurements of both characteristics of optic fiber components and signal transmission. 23 ELET241 Process Instrumentation This course provides an understanding of various instruments used in process control system. Student will learn to read, interpret and draw process and instrumentation diagrams (P & IDs) and instrument loop diagrams (ILDs). The course explains a variety of sensors used to measure basic process variables, and focuses on the working principle of various types of transmitters and transducers used in process control system. The course demonstrates the operation of processing equipment with an emphasis on process control strategies being used. The course introduces the basic operation of rotating equipment with further concentration on monitoring devices. Laboratory experiments are introduced to test and repair various types of instruments and process equipment that fulfil the theoretical aspects of the course. 24 ELET242 Process Control Systems This course provides the concepts of control loops, transfer functions, system disturbances, and outlines of process control synthesis such as adjusting and tuning P, PI, PD, PID controllers as well as the principle of operation of advanced control loops and techniques such as cascade control, ratio control and adaptive control. It also deals with features and types of control valves, actuators, recorders, indicators, alarms and counters. Laboratory experiments complement the theoretical aspects of the course.

6 25 ELET243 Instrumentation Troubleshooting and Maintenance This course provides instruction and practice in maintenance, calibration and repair of electronic and pneumatic components in control loops. It also deals with fault diagnosis techniques, noise reduction techniques, concept of Distributed Control System (DCS) and its use in troubleshooting of control loops. Analysis of Plant Case Studies and scenarios will be discussed to enhance troubleshooting capabilities of the student and laboratory experiments include calibration, diagnosis and rectification faults of components in control loops. The safety of the technician and the safe use of the equipment are stressed throughout the course. 26 ELET301 Signals and Systems The course introduces students to complex variables, types of signals, periodic and aperiodic signals. It also provides an in-depth learning of linear systems, time-invariance, causality, and signal properties. The course includes the Laplace transform and z-transform and their applications. Other topics include transfer functions, impulse response, convolution, Fourier series and Fourier transform, Frequency-domain analysis of systems, the sampling theorem, discrete time systems. Students have the chance to develop their learning with computer-based applications using MATLAB. 27 ELET311 Digital System Design This course aims to provide students with an understanding of the basic concepts in the field of digital circuits and modern digital system design. Emphasis is placed on the study of digital design techniques using hardware description languages (HDLs) such as very high speed integrated circuit HDL (VHDL). Starting from the basic concepts of VHDL, various types of combinational and sequential logic circuit designs are covered. The course introduces the required hardware implementation technologies for digital design. Laboratory exercises support and reinforce class discussions. 28 ELET312 Embedded systems This course introduces the concepts of embedded system designs and demonstrates some of its practical applications covering trends and challenges of both hardware and software aspects. Aware of the real need for a multidisciplinary approach, the course prepares students with in-depth and comprehensive knowledge of the underlined technologies involved in embedded systems. Principles and practices of advanced microcontroller architecture, an embedded programming language, and an embedded RTOS (Real Time Operating System) are carried out to build small embedded systems. The course could be considered as a prerequisite course for many multidisciplinary technology courses such as multimedia communication, low power sensor networks, and biomedical devices. The mandatory laboratory exercises support and reinforce class discussions. 29 ELET313 Power Electronics This course deals with the different types of power electronics systems, and their applications. Detailed analysis of the four major power electronics systems (rectifiers, ac voltage controllers, choppers and inverters) are covered. The characteristics and operation of power semiconductor devices are also covered in the course. Theory classes are supported by laboratory experiments to study, test and verify the operation of such power electronics systems. 30 ELET314 PLC and Industrial Applications This is a basic course in programmable logic controllers for engineering students. It covers: input/output devices, programming, internal relays, timers, counters, shift registers, data handing, practical applications and testing and debugging. Laboratory exercises based on Siemens Simatic S7-300 PLC support and reinforce theory classes.

7 31 ELET321 Electrical Transmission and Distribution This course provides students with an understanding of electrical power transmission and distribution systems. The course covers the electrical and mechanical properties of overhead transmission lines and underground cables. Performance of transmission lines is covered in detail. The power substation and distribution substations are covered along with different types of distribution systems. Laboratory exercises reinforce theory and provide students with hands on experience. 32 ELET322 Microcontrollers This course is designed to provide students with an understanding of functions, capabilities and limitations of micro-controller. The course topics include evolution, architecture, organization, addressing modes and instruction sets of the Microcontrollers. The course acquaints students with basic concepts and functions of microcontrollers and its applications. Starting from the basic architecture of microcontroller, various types of hardware blocks and their interconnectivity, serial, parallel and interrupt operations and basic assembly language instructions set are covered in this course. Additionally, design and interfacing examples are also included in the course. Laboratory exercises support and reinforce class instructions. 33 ELET323 Electrical Machines III 34 ELET331 Analog system Design This course provides students with the principles of electrical machines and the techniques used for their analysis. It covers in detail the concepts of three phase induction motors, alternators, synchronous motor and special machines. These concepts include the principle of operation, performance analysis, operating characteristics under different conditions, control and uses of these machines. Theory classes are supported by laboratory experiments to study, test and verify the characteristics of these machines. The course covers advanced aspects of analogue electronics. The topics include: frequency response of metal oxide semiconductor (MOS) and bipolar junction transistor (BJT) amplifiers, differential and multistage amplifiers, filters and tuned amplifiers, and communication circuits. The course is supplemented by laboratory exercises consisting of analysis and simulations using software design suite. 35 ELET332 Applied Control Engineering This course introduces the students to the theory and practice of control systems, emphasizing on classical control theory and covering fundamentals of modern control theory. It focuses on time-domain systems dynamic control fundamentals and their design issues for different engineering applications. Topics covered in this course includes: Open & closed loop control systems; modelling principles for electrical & mechanical systems; the Laplace transform; block diagram and signal flow graph modelling; transient and steady state analysis; root locus; frequency response analysis; bode plots; Nyquist criterion; stability issues. This course also covers the state space modelling and analysis of linear systems. The MATLAB/SIMULINK computer software package will be used extensively to assist in the understanding of concepts and fundamentals of system dynamics and control, and also to analyze and design control systems.

8 36 ELET333 Applied Electromagnetics The Applied Electromagnetics course provides a quantitative understanding of the Electromagnetics (EM) phenomenon with the purpose of developing the necessary analytical approach needed by potential engineers in the fields of transmission lines, propagation and antennas. The approach is to provide the students with a basic understanding of Maxwell equations for the time varying case, hence, analysing uniform plane wave propagation, reflection, transmission lines and antennas. The laboratory component of the course is intended to emphasize the engineering applications of electromagnetics, namely, transmission lines and antennas. Experiments include power, standing wave ratio (SWR) and impedance measurements. The antennas laboratory is used to investigate the performance and characteristics of several antenna configurations. 37 ELET341 Electrical Measurements & Transducers This course aims to provide students a strong foundation of measurement practices which include the concepts of accuracy, precision, types of errors & methods to eliminate them, application of statistical principles in measurement etc. Course covers PMMC movement, working principles and applications of different analogue and digital equipments such as ammeters, voltmeters, Ohmmeters, multimeters, Power measurement meters, Function generators, Cathode Ray Oscilloscopes (Analogue & Digital Storage) etc. The course exposes different types of DC & AC bridges and their applications. Detailed study of various transducers and their applications are also covered. Laboratory exercises support and reinforce class room discussions. 38 ELET342 Communication Engineering and Telemetry This course introduces basic concepts of electronic communication systems, which exposes the techniques of sending information from one place to another. Students are taught different types of analog & digital modulation and demodulation techniques, principles of radio wave propagation and different types of antennas. The course also introduces different types of telemetry systems and their working principles. 39 ELET343 Control System Engineering This course provides introduction to mathematical modelling of various physical systems and their analysis together with stability criterion. Signal flow graph and block diagram reduction techniques will be covered and discussed in details. It also covers time-domain and frequency-domain analysis and how to use various frequency response analysis techniques of different control systems. Additionally, it covers state-space and statevariable representation, modelling and analysis approach to continuous time systems. Observability and controllability will be discussed. This course also provides and covers the design and synthesis of feedback control strategies to meet system performance criteria using proportional, integral, and derivative controllers and lead-lag compensators. 40 ELET404 Electro-Mechanical Devices This course provides students with an understanding of polyphase electrical circuits, construction, principle of operation and applications of three-phase transformers and types of synchronous machine construction, operating characteristics, voltage regulation also covered. The three-phase induction motors. Types, characteristics, speed and torque regulation methods and efficiency the course are also coverd circuit breaker and relay rectifier and inverter are also given in details. Laboratory exercises reinforce theory and provide students with hands on experience.

9 41 ELET411 Digital Signal Processing This course introduces the concepts of digital signal processing (DSP) and demonstrates some of its practical applications using programmable DSP chips. The course begins with a basic discussion on principal methods for design of FIR and IIR digital filters and their realization. This is followed by topics on adaptive filters, sample rate conversion, audio/speech, and image/video processing. Using MATLAB and DSP kits, hands-on examples and demonstration are routinely performed to close the gap between theory and practice. A number of modern applications are examined to give students a good understanding of what is needed to apply DSP techniques to new areas. The course could be considered as a prerequisite for many advanced topics such as multimedia communication, medical imaging, graphics rendering, high performance compression, and so on; henceforth it gives the necessary background for successful graduate level research in DSP. 42 ELET412 Wireless Sensors Networks; Technology and Applications This course is a practical/implementation oriented and introduces the students to the emerging low-power (and cost) wireless sensors networks (WSNs) technology and its applications. WSNs are pervasive computing systems that consist of sensors embedded in the physical world. These systems have wide range of applications including energy and water resource metering, smart grids, smart farming, industrial control, long-term monitoring of habitats, or monitoring the physiology and activity patterns of patients. Wireless sensor networks provide the basis for new computing paradigms that challenge many of the contemporary approaches to developing distributed and networking systems. This course considers the challenges of developing resource conscious operating systems, protocols, and management techniques to support this new type of systems. Covered topics include network architectures, node discovery and localization, deployment strategies, and routing protocols. In lab, students will design and implement wireless sensor network systems using wireless nodes (or motes) to develop new products and services. The laboratory exercises support hands-on experience and reinforce class discussions. 43 ELET413 Biomedical Instrumentation The course is designed to make the student acquire an adequate knowledge of the physiological systems of the human body and relate them to the parameters that have clinical importance. The fundamental principles of equipment that are actually in use at the present day are introduced. 44 ELET414 Design and Control for Renewable energy Technology 45 ELET415 Computer Control of Process NOT DEVELOPED YET The course introduces data acquisition systems in process control applications together with various adds-on cards and standard field buses. The course also exposes in detail about distributed control systems by exploring various process examples along with smart sensors and transmitters. The course also introduces virtual instrumentation and LabVIEW software. 46 ELET416 Robotics & Automation NOT DEVELOPED YET 47 ELET417 Energy Audit & Management This course includes inspection, survey and analysis of energy flows, for energy conservation in a building, process or system to reduce the amount of energy input into the system without negatively affecting the output. This course also deals with principles of economic analysis in energy management, principles of energy efficient motors, power factor improvement, lighting and energy instruments.

10 48 ELET421 Switchgear and Protection This course deals with different switchgears in power system. Circuit breakers, reclosers, sectionalizers and different types of protective relays will be discussed. Relay setting concepts and Relay coordination problems will be explained. Protection schemes for different power system equipments like transformers, transmission lines, generators will be discussed. Lightning phenomenon and its protective equipment are explained. Current-limiting reactors, grounding lightning arresters will be discussed. Laboratory exercises are designed to reinforce the concepts. 49 ELET422 Control System Analysis This basic course to control system technology focuses on the knowledge required by practitioners to understand an existing control system.the course presents classical control systems, emphasizing on concepts. The use of MATLB + SIMULINK to implement practical solutions is also emphasized. Topics covered include: introduction to control systems, Laplace transform, control system models, Stability, frequency response analysis, root locus, and state space analysis. Laboratory exercises support and reinforce control theories studied in class. 50 ELET423 Power System Analysis This course presents engineering techniques of power system analysis used in the power industry. At the completion of the course, students should be able to apply different methods to analyse power system for the purpose of system planning and operation. The course covers: representation of power system, per unit quantities, network admittance formation,, power flow analysis, symmetrical components, sequence impedances and sequence networks symmetrical and unsymmetrical fault analysis and stability analysis. Laboratory exercises together with engineering software toolboxes will be involved to reinforce theory and provide students with hands on experience. 51 ELET424 Renewable Energy This Course addresses the problem of sustainable energy production as part of the design of power grid renewable energy systems. The course covers the basic concepts, modelling and design of photovoltaic solar energy systems, wind energy system, and battery energy storage. This course provides the fundamental concepts of power grid integration using renewable energy sources. With the help of MATLAB software, student will be able to simulate different microgrid renewable energy systems. 52 ELET425 Electrical Drives The course provides the student with an understanding of the concepts of electric drive systems of both DC and AC motors. The course covers topics related to DC motor drives, three-phase induction motor drives, synchronous motor drives and stepper motor drives. Principles of operation, performance characteristics, control schemes, and mathematical analyses of such drive systems are covered. Theory classes are supported by laboratory experiments in order to test and verify the operation and performance of such integrated systems. 53 ELET426 Power System Operation and Control 54 ELET427 Electric Traction This course deals with day to day operation of the power system and the control actions to be implemented on the system in order to meet the minuteto-minute variation of system load demand. The course also covers the economic load dispatch, unit commitment, Transient stability of Power systems and computer control of power systems. Introducing students to the Electric Traction system. Different types of track electrification methods. Speed time curve, Tractive effort, Mechanics of train movement. Different electrical equipments, motors for traction purpose, types of Electric Braking. Hybrid Electric Vehicles will also be introduced. Simulation of different conditions, calculation and study projects will be undertaken in lab sessions to reinforce the concepts learnt in theory sessions.

11 55 ELET428 HVDC Systems High Voltage DC Transmission (HVDC) can provide several advantages compared to conventional AC transmission in terms of power quality of modern electric grids. This elective course provides basic and necessary knowledge about the HVDC system components and operation. Different types of power electronics converters of HVDC systems are investigated such as forced commutated converters, capacitor commutated converters and static compensators. Control of HVDC system is also considered. Design issues are discussed in the course. Moreover, the environmental impact and economical characteristics are also addressed. 56 ELET429 Advanced Power System This course provides students with an understanding of advanced topics in Electrical Power System.. The course covers, formation of Y bus and Z bus matrices, calculating the impact of different contingencies on power systems, different methods of voltage control and modeling of synchronous machines. Laboratory exercises and tutorial sessions reinforce theory and provide students with hands on experience and problem solving skills. 57 ELET431 Network Engineering In this course students are introduced to computer network engineering in the framework of electronic communication engineering. At the end of the theory course, the students are able to understand and analyse the network engineering concepts, pattern, models, media and security issues which are required to cope with the challenges of 21st century. The class lectures have been mapped with the lab experiment for clear and better understanding of the subject. The labs EEET-435 have been designed in such way that it covers lab experiments of logical and physical designing, connection, configuration, testing, troubleshooting, managing and security issues of Local Area Networks (LANs), Wireless Local Area Networks (LANs) and Wide Area Networks (WANs), Network Security and Management exercises by using network hardware and software at different layers of OSI, TCP/IP and IEEE reference models. In this lab students apply concepts acquired during the theory section of the subject. At the end of the lab course, the students are able to identify network hardware, software, media and security issues by designing, connecting configuring, testing, troubleshooting, maintaining and analysing the small network to medium type of network.. 58 ELET432 Antennas and Microwave 59 ELET433 Digital Image Processing (DIP) This course will introduce the students to the design, fabrication and characterisation of passive and active microwave circuits and devices such as: antennas, filters and amplifiers. The course will discuss synthesis techniques for element and distributed structures. This will involve synthesis of distributed filters, power divider, and couplers using microstrip structures. Computer oriented design techniques using The emphasis will be placed on communication applications such as wireless communications systems. The laboratory program will provide students with the opportunity to utilise modern tools to design their circuits. and the latest in microwave test equipment to characterise their circuit designs. The powerful simulator Advanced Design System will be performed as an integral part of the design of microwave components. This course provides an introduction to methodologies and algorithms of digital image processing focusing on the following two major problems concerned with digital images: (1) image enhancement and restoration for easier interpretation of images, and (2) image analysis and object recognition. Some advanced image processing techniques (e.g., wavelet and multi-resolution processing) will also be studied in this course. The primary goal of this course is to lay a solid foundation for students to study advanced image analysis topics such as computer vision systems, quality of oil well drilling, underground pipe blocking, biomedical image analysis, and multimedia processing & retrieval. Using MATLAB and DSP kits, hands-on examples and demonstration will be routinely performed to close the gap between theory and practice. The course could be considered as a prerequisite course for many multidisciplinary technology courses such as multimedia communication.

12 60 ELET434 Mobile Applications Development This course examines the principles of mobile application design and development. Students will learn application development on the Android platform. Topics will include memory management; user interface design; user interface building; input methods; data handling; network techniques and URL loading; and, finally, specifics such as GPS and motion sensing. Students are expected to work on a project that produces a professional-quality mobile application. Projects will be deployed in real-world applications. Course work will include project conception, design, implementation, and pilot testing of mobile phone software applications, using weight loss and physical activity motivation health applications as the target domain 61 ELET435 Data Acquisition and Control The data acquisition and control course acquaints the student with basic concepts of data acquisition for instrumentation and control systems. It gives a solid grasp of principles and practical implementation of interfacing the PC and stand-alone instruments with real world signals. The main objective of this course is to enable the student to design, specify, install, configure, and program data acquisition systems quickly and effectively. Laboratory exercises support and reinforce class instructions. The course explains how wireless systems work, how mobility is supported, how infrastructure underlies such systems, and what interactions are needed among different functional components. Topics on qualitative descriptions and realistic explanations of 62 ELET436 Wireless and Mobile Communications relationships between wireless systems and performance parameters are focused. Apart of this recent advances are covered with emphasis on the research areas of wireless and mobile computing. The course is supplemented with rigorous MATLAB and wireless digital communication training platform exercises. The fiber-optic communications course addresses one of the modern and important technologies. This technology enables the world to 63 ELET437 Fiber-Optic Communications communicate easily and exchange vast amount of data. The students, therefore, learn this modern technology in a way that their technical skills match the market demand of fiber-optic communication applications. 64 ELET438 Introduction to Nanotechnology Developmental analysis of nano technological fabrication developments with a focus on nano particles, nano scale devices, production techniques, and their interdisciplinary applications in various industrial fields such as material science, manufacturing, physical sciences, electronic technology. 65 ELET439 Parallel Processing Systems This course introduces the principles of parallel processing systems embodied in several high performance application domains wherein a collection of processing elements that communicate and cooperate to achieve a common goal. Modern systems contain parallelism in both hardware and software. For many applications, the system must be supported with multiple processors in order to meet imposed application constraints. Such situations can occur when tasks need to be physically distributed (as in a traffic control systems) or when the inherent parallelism of the application need to be fully exploited (as in a high-performance multimedia application). Advances in processor technology have resulted in today's computing systems using parallelism at all levels: by introducing multiple cores in a single chip; by using multiple chips; or via multiple networked nodes to form a cluster. This course explores the paradigms of parallel processing, basic communication, parallel algorithms and architectures, parallel programming, high performance multimedia and scientific applications. The laboratory exercises support hands-on experience and reinforce class discussions.

13 66 ELET441 System Modeling & Simulation 67 ELET442 Intelligent Systems and Control The course starts with the analysis of various first-order systems and, progressively, analysis of second-order and complex industrial processes. The course explains various techniques of system analysis and also introduces the designing of industrial control systems using PID algorithm. Further, the course exposes industrial digital control and multi-variable control systems. The objective of this course is to provide a thorough introduction to the field of soft computing techniques to modelling, optimization, and control. It highlights current topics and applications, addresses issues encountered in the development of applied systems, and describes a wide range of intelligent systems techniques, including neural networks, fuzzy logic, evolutionary strategy, and genetic algorithms. The course also demonstrates concepts through simulation examples and practical experimental results. Case studies are also presented from each field to facilitate understanding.