For more details on the courses, please refer to the Course Catalog
| Code | Course Title | Credit | Learning Time | Division | Degree | Grade | Note | Language | Availability |
|---|---|---|---|---|---|---|---|---|---|
| MCC3006 | Electronics and Electrical Circuits Laboratory | 2 | 4 | Major | Bachelor | Korean | Yes | ||
| This course basically learns how to use general voltage meter, current meterr, oscilloscope, and power supply unit used in electronic and electrical circuit experiments. It aims to improve understanding of the theory by experimentally verifying the theories, such as Kirchhoff's law, superposition principles, R-L-C series resonance circuits, operational amplifiers, transistor amplifiers, differential amplifiers, and AC-DC transformations. | |||||||||
| MCC3007 | ElectronicCircuit Engineering | 3 | 6 | Major | Bachelor | Korean | Yes | ||
| In this course, students will learn about basic knowledge and circuit analysis skills that is necessary for electronic circuit design, and also study the circuit design method that reflects the design requirements. As a basic electronic circuit, the knowledge of diode-based rectifier circuit, BJT/MOSFET operation areas and device-based amplifier circuit configuration, frequency characteristic analysis, and Op-Amp amplifier characteristic will be covered. | |||||||||
| MCC3008 | CapstoneDesignand Project for material-component convergence engineering | 3 | 6 | Major | Bachelor | Korean | Yes | ||
| This course provides students with the design ability using knowledge of electrical-electronic engineering, material science and engineering, mechanical engineering and chemical engineering, which are the essentials of material-component convergence engineering. Furthermore, it encourages to apply the design to practical problems. The student will have completed a single project from conceptual design (problem selection, definition, and analysis), through preliminary design of the complete material-component convergence systems and performance design (demonstration), to final design (demonstration) of the system. | |||||||||
| MCC3009 | Introduction to Dynamics and Kinematics | 3 | 6 | Major | Bachelor | Korean | Yes | ||
| This course covers fundamentals and applications of dynamics which studies the relations between force and motion. Through analyzing the motion of bodies (particles and rigid body), students study the principles of kinematics and kinetics which include relationships of force, mass, velocity, and acceleration with time, impulse and momentum, and work and energy. Instrumental interpretations about mechanisms of typical rigid body elements are studied. | |||||||||
| MCC3010 | Introduction to SemiconductorProcessing | 3 | 6 | Major | Bachelor | Korean | Yes | ||
| The working principles and applications examples will be discussed for semiconductor device fabrication. - Semiconductor & semiconductor devices - Filmdeposition processes(chemical vapor deposition, metallization) - Photo-lithography - Plasma etching - Doping processes - Cleaning processes | |||||||||
| MCC3011 | RF Engineering | 3 | 6 | Major | Bachelor | Korean | Yes | ||
| This course covers the principles and applications of the electromagnetic waves. Based on basic principles of the electromagnetism, this course focuses on thepractical applications of wave transmission and propagation. Topics to be covered include: basic operation principles of the radio-frequency transceivers and their building blocks, transmission lines, graphical aids to the transmission line analysis (Smithchart), transmission line impedance matching, transmission lineequations and representation, radiation of electromagnetic waves, and general theory on antennas. | |||||||||
| MCC3012 | Fundamental Principles of ElectricMachines | 3 | 6 | Major | Bachelor | Korean | Yes | ||
| This course deals with fundamental principles and comprehensive understanding of electric machines operating with electromechanical energy conversion theory, which covers characteristic analysis, design, and control of electric machines. Moreover, variety of industrial applications, such as home appliances, future personal mobility, electric ship and locomotive, smart factory operation, high efficiency devices and apparatus will be considered. | |||||||||
| MCC3013 | Energy Conversion Theory | 3 | 6 | Major | Bachelor | Korean | Yes | ||
| Based on the basic understanding of the power semiconductor switching device, it acquires circuit configurations, operating principles and control algorithms of AC-DC rectifiers, DC-DC converters and DC-AC inverters. In order to acquire the design ability of power conversion circuits that are variously applied to industries, PSIM and Matlab simulation programs are used to help understand the theory through simulation practice. | |||||||||
| MCC3014 | ElectronicPackagingEngineering | 3 | 6 | Major | Bachelor | Korean | Yes | ||
| Electronic package engineering is closely related to materials-, chemical-. electronic-, and mechanical-engineering. The troubles in the electonic packaging caused at the interface between different electron components can be solved by various surface finishes such as ENIG, ENEPIG, OSP, HASL, electro- and electroless-plating, etc. Electronic package technology has to satisfy requirements such as power- and signal- redistributions, thermal management, and mechanical support, and the package components have to pass their characteristics after reliability test such as IPC, JEDEC, etc. This lecture describes the manufacture process of electronic package components and the core technologies including materials for electronic packaging, SIP, SOC, PCB, surface finishes, flip chip, TSV, interconnection technology, printed electronics, the reliability regulation for electronic components, and testkits, etc. | |||||||||
| MCC3015 | Control System Engineering | 3 | 6 | Major | Bachelor | Korean | Yes | ||
| In this course, students learn basic knowledge about control systems, modeling, and mathematical analysis methods of various systems. Modeling for dynamic systems, analysis for characteristics, and controller design that satisfies the design specifications will also be covered. Students will learn about system stability analysis, output characteristic analysis in time domain, root locus diagram, response in frequency domain, controller design method in frequency domain, and controller design method that uses MATLAB program. | |||||||||