For more details on the courses, please refer to the Course Catalog
| Code | Course Title | Credit | Learning Time | Division | Degree | Grade | Note | Language | Availability |
|---|---|---|---|---|---|---|---|---|---|
| EEE3009 | Display Electronics | 3 | 3 | Major | Bachelor | 3-4 | Korean | Yes | |
| This course studies various display systems including TFT-LCDs. Newly emerging devices like electroluminescence (EL), field emission display (FED), and plasma display panel (PDP) are the major topics in the course work. Important consideration factors in display system are given as fast response time and excellent mechanical properties of EL, high speed operation and long device lifetime of FED, and ease of large area implementation of PDP. | |||||||||
| EEE3011 | Digital Signal Processing | 3 | 3 | Major | Bachelor | 3-4 | English | Yes | |
| The topics to be covered are : Analysis and process techniques used in computer processing of signals. Analog to digital conversion. Recursive digital filters, and matched filters. Time series analysis of waveforms, z-transforms, and Fast Fourier transforms (FFT) for digital signal analysis, complex demodulaion and data compression. Cepstrum tecnique and spectral estimation. | |||||||||
| EEE3012 | Digital Communication | 3 | 3 | Major | Bachelor | 3-4 | Korean | Yes | |
| This course covers the essential theories and principles of digital and data communication. The topics to be included are ; digital network configuration, circuit and packet switching system, digital representation of information, synchronous and asynchronouse time division multiplexing, network architecture modem, layered protocol, packet data network, local area network, and the concept of ISDN (Integrated Services Digital Network). | |||||||||
| EEE3019 | Electrical Power System Engineering | 3 | 3 | Major | Bachelor | 3-4 | Korean | Yes | |
| The electric utility industry is probably the largest and most complex system in the world. The electrical power system engineers are concerned with every steps in the process of generation, transmission, distribution and utilization of electrical energy.The objective of this course is to study methods of power system analysis and design, particularly with the aid of a computer and information technology in sufficient depth to give the student the basic theory at the undergraduate level. The approach is designed to develop students' thinking process, enabling them to reach a sound understanding of a broad range of topics to power system engineering and application of computer technology, while motivating their interest in the electrical power industry | |||||||||
| EEE3023 | Electromagnetic Wave Engineering | 3 | 3 | Major | Bachelor | 3-4 | Korean | Yes | |
| This course covers theory of electromagnetic wave and the application. This course assumes the student has basic understanding of electromagnetic theory and emphasizes on the practical application of wave trammission and propagation.Topics to be covered include: transmission lines, graphical aids to transmission line analysis(Smith chart), transmission line impedance matching, transmission line equations and representation, field equations, propagation of plane waves and guided waves, resonant cavities, waveguide as a circuit element,radiation of elecromagnetic waves, and general theory on antennas. | |||||||||
| EEE3024 | Introduction to Automatic Control | 3 | 3 | Major | Bachelor | 3-4 | Korean,English,Korean | Yes | |
| This course provides an introduction to automatic control of linear dynamic systems. The topics include definition of input-output and state variables, mathematical modeling of control systems based on physical laws, block diagram representation of systems, transfer function and Laplace transform, state space representation of dynamic systems. Feedback control concept, stability of systems, transient and steady state responses of systems in the time domain, and basic controller formsare treated and computer simulations of dynamic control systems using control software toolbox are assigned as homework. | |||||||||
| EEE3025 | Control Engineering Design | 3 | 3 | Major | Bachelor | 3-4 | English | Yes | |
| This course provides design methods for control of linear dynamic systems. The controllers introduced in this course include PID controllers, Lead-Lag compensators, state feedback controllers, etc., for which the design and analysis techniques are reviewed in both the time and frequency domains. Among the design methods are the root-locus technique which plots the root of transfer function in terms of controller gain parameter in the complex plane, the Bode plot and Nyquist diagram that make it possible to determine the stability of controller by using the gain and phase responses of transfer function with respect to the frequency change, the pole placement control design method based on the state equation and state feedback controller, etc.. Application of these techniques to various linear dynamic systems are explained and simulations using the control software toolbox are done to compare its result with the theoretic prediction. The topics enable us to get accustomed to the design and analysis of controllers which play a key role in controlling the systems and devices used for man's convenience sake in our modern life : from the home electronic commodities as electric fans, air conditioner, refrigerator, etc.; and the electronic facilities of computer, audio- and video-players, wired- and wireless communication systems, etc.; to the products of mechatronic systems as automobile, elevator, airplane, robot, space ship, etc.. A term project to design a controller for a g | |||||||||
| EEE3026 | Integrated Circuits | 3 | 3 | Major | Bachelor | 3-4 | Korean,Korean | Yes | |
| Modern VLSI design, Methodology of CMOS circuit design. Fundamentals of MOS transistor and its operating principle. CMOS IC design and its circuits. cons- truction of CMOS logic gates, inverter, NAND, NOR and complex gates. Duality of P and N structure. Bsic structure of multiplexor and memory. Representation of circuit design. Behavioral representation, structure representation, physical representation. Design equations in cutoff, linear,saturation region. DC characteristic of CMOS inverter and related noise margin. Alternatives of staticCMOS, Dynamic CMOS, Domino CMOS. | |||||||||
| EEE3032 | Communication Systems | 3 | 3 | Major | Bachelor | 3-4 | Korean | Yes | |
| This course covers diverse topics related to the communication, and the topics related to the application of the communication theory. The topics to be covered include communication channel model, fading phenomena, receiver struc- ture, basics of mobile communication, basics of satellite communication, wave propagation model, communication traffic model, and synchronization theory. | |||||||||
| EEE3033 | VLSI Design | 3 | 3 | Major | Bachelor | 3-4 | - | No | |
| This course aims to convey a knowledge of basic concepts of circuit designand automation for digital LSI and VLSI components in state of the art MOStechnologies. This course also covers recent issues of the circuit design optimization of low power circuits for use in applications such as micro-processors, signal and multimedia processors. | |||||||||
| EEE3039 | Power Electronics Engineering and Design | 3 | 3 | Major | Bachelor | 3-4 | Korean | Yes | |
| Circuit for Digital electronic equipment is an application oriented and interdisciplinary course, which require a background in mathematics, electrical circuits, control system, analog and digital electronics, microprocessor and electric machines.The understanding of the operation of a electronic equipment requires a clear knowledge of the transient behavior of current and voltage waveforms for each and every circuit element at every instant time.These features make circuit for electronic equipments a difficult course for students to understand.Therefore using software such as PSpice, MatLab and PSIM, the students get experience simulation for the operation of a electronic equipment. | |||||||||
| EEE3040 | Electric Machines | 3 | 3 | Major | Bachelor | 3-4 | Korean | Yes | |
| This course provides students with fundamental principles and applications of electrical machines that cover the topics including magnetic circuits, transformers, principles of electro-mechanical energy conversion and rotating machines, synchronous machine, induction machines, various D.C. machines, small power A.C. motors. It deals with various application of electric machines such as robot, MEMS, electric car. | |||||||||
| EEE3043 | Design of Distribution Automation | 3 | 3 | Major | Bachelor | 3-4 | Korean | Yes | |
| This lesson includes topics on distribution system planning, load characteristics, application of distribution transformers, design of subtransmission lines, distribution substations, primary systems, and secondary systems; voltage drop and power-loss calculations; application of capacitors; harmonics on distribution systems; and distribution system protection and reliability. | |||||||||
| EEE3047 | Basic RF Circuit Design | 3 | 6 | Major | Bachelor | Korean | Yes | ||
| In this course, basic theories on electromagnetic waves are introduced, and special emphases are put on the passive elements in the wireless transmitter-receiver (transceiver) circuit system such as transmission line/waveguide, Smith chart, microwave network, coupler/divider, filter, simple noise theory, and basic antenna theories. The principles of transmission line and waveguides are explained electromagnetically, and Smith chart and S-parameters are introduced to graphically explain the impedance matching concepts. Principles of filter designs are explored, and the methods on how to implement the filters are discussed. The radiation principle of an antenna with radiation patterns, directivity, and Friis equation is explained, and noise analysis of the whole transceiver circuit is addressed after the brief introduction of noise theory. | |||||||||
| EEE3049 | Introduction to Computer Networks | 3 | 6 | Major | Bachelor | 3-4 | Korean | Yes | |
| There are details about the upper layer, protocols, standards, and interfaces, based on the basic concept of data communication. This course is concerned with the mode of operation of the different types of data network that are used to interconnect a distributed community of computers and the various interface a standards and protocols associated with them. Also, describe the function and operation of the additional protocols that are needed to enable a set of aplication programs to communicate with one another to perform specific distributed application functions. | |||||||||