For more details on the courses, please refer to the Course Catalog
| Code | Course Title | Credit | Learning Time | Division | Degree | Grade | Note | Language | Availability |
|---|---|---|---|---|---|---|---|---|---|
| COV7001 | Academic Writing and Research Ethics 1 | 1 | 2 | Major | Master/Doctor | SKKU Institute for Convergence | Korean | Yes | |
| 1) Learn the basic structure of academic paper writing, and obtain the ability to compose academic paper writing. 2) Learn the skills to express scientific data in English and to be able to sumit research paper in the international journals. 3) Learn research ethics in conducting science and writing academic papers. | |||||||||
| DCE5003 | Advanced Topics on Display | 3 | 6 | Major | Master/Doctor | Display Convergence Engineering | Korean | Yes | |
| Professional engineers from LG display company are invited to teach the latest technologies related to display applications. The core technologies of various fields of display technology such as OLED manufacturing process, back-plane technology, display materials, display driving technologies, and image quality evaluation and improvement are taught directly by the experts in each field. | |||||||||
| DED5006 | Light-Emitting Diodes and Displays | 3 | 6 | Major | Master/Doctor | 1-4 | Display Engineering | Korean | Yes |
| This lecture course covers the fundamentals of semiconductor light-emitting diodes (LEDs) and their applications in display technology. In the first half of the course, topics include the optical and electrical properties of semiconductors, recombination theory, electrical and electroluminescent characteristics, junction structure and its operating principles, structures designed to enhance quantum efficiency, packaging, and optical systems. In the second half, students will study the fabrication of LED displays and micro-LED displays. In particular, the course will address the latest technological trends in ultra-realistic AR (Augmented Reality) and XR (Extended Reality) displays. | |||||||||
| EAM5601 | Photonic Semiconductors and Devices | 3 | 6 | Major | Master/Doctor | 1-4 | Advanced Materials Science and Engineering | - | No |
| The class aims to introduce the operating principles and the structure of photonic devices such as laser diodes (LD), light emitting diodes (LED) and photodiodes (PD). The kinds of semiconductors that show high light emitting efficiency and high sensitivity to light are introduced and the basic physical processes for light emission and detection are explained. The heterostructures generally adopted for these photonic devices are introduced and the physical properties the heterostructures show are expalined. | |||||||||
| EAM5701 | Study for Functional Materials | 3 | 6 | Major | Master/Doctor | 1-4 | Advanced Materials Science and Engineering | - | No |
| Students discuss a wide variety of functionality of materials and the methods to address critical issues and resolve the issue. This activity is carried out by students via short term projects. | |||||||||
| EAM5737 | Inorganic Hybrid Materials | 3 | 6 | Major | Master/Doctor | Advanced Materials Science and Engineering | - | No | |
| There have been significant progress in the novel synthesis and various applications of Inorganic hybrid nanomaterials. In this course, various hybrid materials and nanocomposites based on the metals, metal-oxides, and carbons will be covered. In specific, students will study the basic understanding of the synthesis and the analysis of nanomaterials such as nanowire, nanoparticles, nanosheets, hollow structures etc, the chemical principles of the hybridization, and their physical and chemical properties. Finally, various applications such as energy-conversion technologies of water spitting and triboelectric nanogenerator, eco-friendly technologies to reduce fine dust, and the antibacterial technologies will be studied, based on the deep understanding of the nanomaterials. | |||||||||
| EAM7001 | Plasma Processes and Equipment | 3 | 6 | Major | Bachelor/Master/Doctor | 3-4 | Advanced Materials Science and Engineering | Korean | Yes |
| This class will discuss theoretical and experimental backgrounds on processing, diagnostic, and equipment technologies related to plasma deposition and etching applied to semiconductor, displays, and various nanodevice processing. The contents are as follows; 1) Gas Collision Processes, 2) Vacuum and Parts, 3) Plasma Technology, 4) DC, RF, High Density Plasmas, 5) Plasma Dignostics, 6) Plasma Deposition, 7) Plasma Etching, 8) Seminar on Recent Plasma Application Technologies | |||||||||
| ECE4223 | Semiconductor Process Technology | 3 | 6 | Major | Bachelor/Master | 1-4 | Electrical and Computer Engineering | English | Yes |
| This course helps to understand the overall semiconductor processes by introducing the theory and the application of unit processes; photolithography, photo-mask, dry-etch, cleaning, chemical-mechanical polishing(CMP), diffusion and thin film, and module processes; transistor, isolation, capacitor, interconnection. This also suggests the direction of process technologies for the future generations. | |||||||||
| ECE4238 | Linear Systems | 3 | 6 | Major | Bachelor/Master | 1-4 | Electrical and Computer Engineering | English | Yes |
| Methods of analysis for continuous and discrete-time linear systems. Convolution, classical solution of dynamic equations, transforms and matrices are reviewed. Emphasis is on the concept of state space. Linear spaces, concept of state, modes, controllability, observability, state transition matrix, state variable feedback, compensation, decoupling are treated. | |||||||||
| ECE4261 | Nano Device | 3 | 6 | Major | Bachelor/Master | 1-4 | Electrical and Computer Engineering | English | Yes |
| In this course, we will cover many topics including the growth methods and the physical/electrical characteristic for sub-nanometer dimensional materials. With the basic knowledge on nano scale materials, we deal with the nano devices (e.g., memory, logic, display devices, etc.), nano structures and operation principles. | |||||||||
| ECE4270 | Image Processing | 3 | 6 | Major | Bachelor/Master | 1-4 | Electrical and Computer Engineering | English | Yes |
| This class provides fundamental knowledge for acquisition, processing, display of digital image signals by studying such topics as mathematical modeling of image signal, sampling, spatial and temporal resolution, human visual system, quantization theory, basic 2D signal processing, 2D transform, frequency analysis, filtering, image enhancement, color space, color processing, and compression and reconstruction. Selected practical applications are analysed for better understanding of such techniques. | |||||||||
| ECE4274 | Technological Innovation and Business Management | 3 | 6 | Major | Bachelor/Master | 1-4 | Electrical and Computer Engineering | - | No |
| This course covers four essential stages of the necessary and sufficient conditions for technological innovation and commercialization that make today's dreams become tomorrow’s daily life for everyone. The first stage is the preparation stage for gaining insight by reading and systematically analyzing the changes in the future, the second stage is systematically understanding innovative values and strategically devising SMART, and the third stage is successfully creating, communicating, and managing teams to innovate. The final stage covers the business essentials and business know-how and conditions that management should know. | |||||||||
| ECE4275 | Solid State Physics for Electrical Engineers | 3 | 6 | Major | Bachelor/Master | 1-4 | Electrical and Computer Engineering | English | Yes |
| The fundamentals of solid-state physics is to be lectured, in order to design and develop the solid-state electron devices. To figure out the basic properties of insulator/semiconductor/conductor as well as how to draw the energy band diagram, the fundamentals on solid-state physics are provided. Afterwards, students can learn how carriers are moving in semiconductor (e.g., drift, diffusion, recombination-generation). Before taking the advanced classes such as semiconductor device engineering and nano device engineering, the theory for metal-semiconductor junction and p-n junction are to be studied in great detail (including DC, AC, and transient responses). | |||||||||
| ECE4276 | Introduction to Intelligent Bioelectronic Devices | 3 | 6 | Major | Bachelor/Master | 1-4 | Electrical and Computer Engineering | - | No |
| The course covers the basic knowledge to understand interdisciplinary research area of modern flexible and stretchable devices in the field of bioelectronics. The convergence of electrical, material, and nano-scale fabricating techniques allows recent novel bioelectric platform, with a consequences in improved performance and multimodal operation. In this course work, we will discuss the electrode geometry, device structures, signal analysis, and other topics related to the implantable and biointegrated electronics. All materials in the course work requires the basic knowledge covered in other electrical engineering course from the Freshman to Junior. | |||||||||
| ECE4278 | SOC Design and Practice | 3 | 6 | Major | Bachelor/Master | 1-4 | Electrical and Computer Engineering | - | No |
| This course delivers fundamentals of SoC design, including basic concepts, components, and design flows. It provides an introduction to SoC and its components. It also teaches design flows of SoC, including Register-Transfer-Level (RTL) design, verification, logic synthesis, formal verification, clocking, synchronous/asynchrouns signal interface. | |||||||||