For more details on the courses, please refer to the Course Catalog
| Code | Course Title | Credit | Learning Time | Division | Degree | Grade | Note | Language | Availability |
|---|---|---|---|---|---|---|---|---|---|
| EEE2007 | Semiconductor Electronics | 3 | 3 | Major | Bachelor | 2-3 | Electronic and Electrical Engineering | Korean | Yes |
| A background information of Physics in Electronics will give plenty of benefits to the student taking this course. Junction analysis is expanded from homojunc-tion to heterojunction. Semiconductor growth technology, diffusion mechanism, donor and acceptor materials, metalization method and surface state effect of semiconductor are described mainly featuring silicon and compound semiconductorsThe main stream line of the lecture will be the different semiconductor device applications such as bipolar transistors, field effect transistors, integrated circuits and optoelectronic devices like light emitting diode, photovoltaic devices, laser, detectors. device application includes device fabrication, analysis, design and characterization of the different semiconductor devices. | |||||||||
| EEE2012 | Circuit Theory II | 3 | 3 | Major | Bachelor | 2-3 | Electronic and Electrical Engineering | Korean,English,Korean | Yes |
| Nonsinusoidal wave, transient phenomena, laplace transform. Fourier analysis techniques. Admittance parameters, Impedance parameters, Hybrid Admittance parameters. Parameter Conversions. T-π equivalent networks. Two-port networks Sinusoidal frequency analysis, Resonant circiutis. Distributed parameter circuit. | |||||||||
| EEE2014 | Electronic Circuits II | 3 | 6 | Major | Bachelor | 2-3 | Electronic and Electrical Engineering | English,Korean | Yes |
| Introduction to advanced concepts of active electronic circuits. Topics include operational amplifier characteristics and systems, stability and oscillators, wave shaping and waveform generator, analog-to-digital converter, digital-to- analog converter, active filters, and power circuits and systems. | |||||||||
| EEE3006 | Modern Optics | 3 | 3 | Major | Bachelor | 3-4 | Electronic and Electrical Engineering | Korean | Yes |
| The goal of this class is to understand the propagation of light in free space and in materials. The light propagation is first explained by the wave theory or Huygens's principle. Then the principles of reflection and refraction are explained. Next the light propagation is explained by the oscillating dipoles of atoms. Based on this theory the light scattering is explained. Next the operation of simple optical systems such as simple lens system, compound lens system, camera and human eyes is explained. | |||||||||
| EEE3019 | Electrical Power System Engineering | 3 | 3 | Major | Bachelor | 3-4 | Electronic and Electrical Engineering | 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 | Electronic and Electrical Engineering | 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. | |||||||||
| EEE3025 | Control Engineering Design | 3 | 3 | Major | Bachelor | 3-4 | Electronic and Electrical Engineering | 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 | |||||||||
| EEE3056 | Entrepreneurship Seminar in Electronic and Electrical Engineering | 1 | 2 | Major | Bachelor | 3 | Electronic and Electrical Engineering | Korean | Yes |
| This class provides broad knowledge about many fields of Electronic and Electrical Engineering. Various subjects are selected which are currently hot issues in Electronic and Electrical Engineering, and invited talks are given about the selected subjects such as the start-up business, patent process and so on. This course also aims to cultivate the non-technical competencies of the electronic and electrical engineering students. Topics covered will include economy, managing skill, current affairs, teamwork skill, but not limited to. | |||||||||
| EME2013 | Mechanical Engineering Materials | 3 | 6 | Major | Bachelor | 2-4 | Mechanical Engineering | English,Korean | Yes |
| As the fundamental course in mechanical engineering, both theoretical and applied lectures are given to provide the basic knowledge necessary for the effective material selection and design of the machinery components and structures. Focused on metallic materials, the crystal structures, defects and strength, deformation, fracture, heat treatments, phase diagrams, strengthening mechanisms, the mechanical properties and characteristics of various steels, cast irons and nonferrous alloys will be discussed. | |||||||||
| EME3015 | Energy and Environment | 3 | 6 | Major | Bachelor | 2-4 | Mechanical Engineering | English,Korean | Yes |
| This course covers the basic concepts of energy and environment. In particular, emphasis is placed on developing of ability to work better together in an effective and realistic fashion to create ideal models to the problem of the energy/environmental problem. Also, the futute energy system and conservation of environment are studied. | |||||||||
| EME3021 | Machine Elements Design | 3 | 6 | Major | Bachelor | 3-4 | Mechanical Engineering | Korean | Yes |
| Machine elements such as clutches, brakes, gears, bearing, and etc. are widely used as integral parts for most mechanical systems ranging from robots, precision machines to automobiles and airplanes. Thus, in order to operate and design those mechanical systems, analysis of mechanical parts and related design principles are required for those machine elements. In this course, application of fundamental mechanics, analysis, design methodology of those machine elements are studied. Additionally, synthesis and analysis of machine design project is carried out in order to cultivate the design capability as an engineer. | |||||||||
| EME3022 | Measurement Engineering | 3 | 6 | Major | Bachelor | 2-4 | Mechanical Engineering | English | Yes |
| This course covers the basic principles of measurement systems in engineering application. Fundamentals of measurement, modeling and characteristics of measurement systems are studied and sensors, electrronic circuit, components, operational amplifier are introduced, and the practical case studies for measuring dimension angle, velocity, force, flow rate, temperature and power are treated. method & principles of measurement at not only existing sensor but also MEMS sensor, and data-handling, database, system diagnosing for measuring data are studied for using computer | |||||||||
| EME3030 | Computer Aided Engineering | 3 | 6 | Major | Bachelor | 2-4 | Mechanical Engineering | Korean | Yes |
| In this course, computer-aided engineering(CAE) techniques for solving a variety of mechanics problems are introduced. First finite elements formulations for solving statics problems(truss and beam) and solid mechanics problems(two-dimensional plane and axisymmetry) are deals with. Subsequently the general purpose finite element program is introduced and the application of the program for practical machine design is introduced. Finally numerical techniques for solving dynamics and heat transfer problems are introduced. | |||||||||
| EME4905 | Convergence Business Model Planning | 3 | 6 | Major | Bachelor/Master | 1-4 | Mechanical Engineering | Korean | Yes |
| This course amis to learn the methodologies for developing a new business model based on understandings on the needs of internet user group and network communities which are expanding the interconnections and creating new values. Students will study various technological trends such as IoT, cultural trends, big data, and methods for user study. This will be used to establish technology-converging business models and appropriate marketting strategies through multidisciplinary approach. | |||||||||
| EME4908 | Processing and properties of thin films | 3 | 6 | Major | Bachelor/Master | Mechanical Engineering | - | No | |
| This course covers the fundamentals of the processing methods of thin films, such as photolithography, PVD, CVD, etching processes, etc. A variety of properties of thin films, such as mechanical, structural, electrical, thermal properties and their characterization methods are introduced. | |||||||||