Division Of Electrical And Biomedical Engineering Major In Electrical Engineering

College/Department info
Dept. location Seoul Campus Engineering Center 503
Phone 02-2220-0379/0340 Fax 02-2220-1886
Email /
Homepage
SNS

Introduction

In the engineering field, electricity is the most basically used energy. From electrical appliances such as electronic clocks, which can be easily seen from the surroundings, to motion of robots and control of precision systems, electric signals are used. Likewise, electric energy is the most fundamental energy in engineering. Electricity is also the most important energy source now that alternative energy is needed due to the surge in petroleum use and oil depletion. The need for electricity is growing. Electrical engineering is a discipline that studies everything from the production of electricity to transmission and consumption. 
Electrical engineering is divided into four main areas: power systems and power conversion, plasma and power, electrical materials and system control. The first is electric power and electric power system, and the second is  electric energy conversion and system control, which transfer and use generated electric energy. Furthermore, the field of system control is extended to the field of communication using electric energy. 
The electrical engineering curriculum covers all aspects of the full range of generation, conversion, transmission, and consumption of electrical energy, which is the only solution to our future energy problem.

Information

Highlights

High employment rate due to wide range of study
Electrical engineering sets the foundation for all disciplines as the course of study provides a strong and broad base of knowledge about electricity, electronics, measurement, construction, and bioengineering. This is why electrical engineering major has higher employment rates than other majors. Among the majors that show high employment rate, electrical engineering, chemical engineering, and mechanical engineering departments are included. The common point of these three majors is that they are the foundations of other engineering studies. Of these, the electrical department is used extensively in all engineering areas. In other words, all engineering companies have a demand for graduates of electrical engineering. Therefore, the employment rate of electrical engineering major is very high compared to other engineering majors.

High Demand and Bright Outlook
The prospect is bright as the interest in electrical engineering is growing due to the development of alternative energy such as renewable energy, solar and wind power.

Outlook

Outlook
Corporations Electronics company(semiconductor, display, appliances, operation divisions in Samsung, LG, etc.), automobiles, mechanics(HYUNDAI Motors,, HYUNDAI MOBIS, Mando, etc), heavy industry, construction, design ENG(HYUNDAI Heavy Industries, HYUNDAI ENG, STX, Samsung C & T, Large construction company), Hospitals and large buildings electrical facilities, etc.
Public enterprises KEPCO, Korea Power Exchange (KPX), Power Generation Company, KHNP, KORAIL, Korea Expressway Corporation, Seoul Metro, K Water, etc
Research institutes Government research institute researcher, researcher of corporations, etc
Others Patent attorney, etc
Faculty info
Kim Jin-O

Kim Jin-O / Professor

Kyu-Sun Chung

Kyu-Sun Chung / Professor

Chung Choo Chung

Chung Choo Chung / Professor

Ko, Kwang Cheol

Ko, Kwang Cheol / Professor

Lee Ju

Lee Ju / Professor

KIM RAE-YOUNG

KIM RAE-YOUNG / Assistant Professor

Tae-Hyun Sung

Tae-Hyun Sung / Professor

Chung, ChinWook

Chung, ChinWook / Professor

Lee, Hyeongcheol

Lee, Hyeongcheol / Professor

허엽

허엽 / Adjunct Professor

Jun-Won Choi

Jun-Won Choi / Assistant Professor

Ming-Chieh Lin

Ming-Chieh Lin / Associate Professor

Jabbar Hamid

Jabbar Hamid / Research Assistant Professor

BAE SUNGWOO

BAE SUNGWOO / Assistant Professor

임동영

임동영 / Post-Doc.

Taihyeop Lho

Taihyeop Lho / Adjunct Professor

KIM WONHEE

KIM WONHEE / Adjunct Professor

HONG Suk-Ho

HONG Suk-Ho / Adjunct Professor

조종만

조종만 / Adjunct Professor

Hyung-Boo Kang

Hyung-Boo Kang / Emeritus Professor

Byung Suhl Suh

Byung Suhl Suh / Emeritus Professor

Dong-Seok Hyun

Dong-Seok Hyun / Emeritus Professor

College/Department curriculum
Year Term No. Curriculum Course Credits-lecture-experiential learning  
2 1 COE3051 Engineering Mathematics 1 (Compulsory) Requirement in Fundamental Studies 3-3-0
In this subject, we learn ordinary differential equation(O.D.E.), linear differential equation(L.D.E.), series, series solution in differential equations and Laplace transformation systematically based on differential and integral calculus (fundamental prerequisite). Moreover, we improve ability to make these basic concepts and principles applicable.
2 1 ECN1001 DIGITAL LOGIC DESIGN Core Major 3-3-0
This lecture provides comprehensive coverage of digital logics such as gates, circuit, and component. It includes hardware design principles of boolean algebra, and shows combinatorial logic and sequential logic. This lecture is intended primarily for understanding of the major computer component while students are designing projects of some topics.
2 1 ELE2001 Circuit Theory 1 Core Major 3-3-0
This course deals with the fundamental characteristics of linear circuits, emphasizing the analysis of simple electric circuits; resistive elements; response of RC, RL and RLC circuits; node voltage and mesh current techniques; superposition theorem and Norton equivalents; sinusoidal steady state response and AC power.
2 1 ELE2051 Basic Electric Engineering Lab. 1 (Compulsory) Requirement in Fundamental Studies 1-0-2
Electric Circuit Lab.1This course covers measurements of voltage, current, resistance, power, transient response : Ohm's law, Kirchihoff's law,serial/parallel circuit, Thevenin's and Norton's theorem, trigger circuit: characteristics of sinusoid, impedance, frequence response of RLC circuit, resonant circuit, and filter.
2 1 ENE2001 Basic Electronics Core Major 3-3-0
Basic electronics provide circuit characteristics of semiconductor and basic concepts of hardware to students studying electronics. We discuss potential calculation in P-N junction; derivation of current-voltage relation in diodes; rectifier and filter circuit using diodes; current-voltage characteristics, bias operational point and application circuits of pnp(npn) bipolar transistor electrical characteristics, bias circuit and load characteristics in MOSFET; operational principle of memory devices, SRAM and DRAM .
2 1 GEN6032 PROFESSIONAL ACADEMIC ENGLISH (Compulsory) Requirement in Fundamental Studies 3-4-0
The Professional Academic English for students at Hanyang University focuses on the development of the oral and written communication skills, which are required in the globalized world community. The course aims to help students develop the competencies that are required in their future studies and career: professional knowledge, interpersonal and communicative competences. The course requires the students to develop creative problem solving skills. For this, the students perform various tasks by investigating and analyzing engineering topics as well as developing solutions. The students’ communication and negotiation skills are systematically supported by language skill development such as learning academic forms and structures of the language that are used in formal oral presentations and essays. The expected course outcome is that students are able to write academic reports, participate in discussions and make oral presentations in English on their major topics. Throughout the course, the students are encouraged to explore various major-related topics, to conduct systematic problem analyses, and to collaborate for creative problem solutions. Classroom activities mainly focus on the oral presentation and writing skills, and the preparatory activities of the essay writing. The course requires the students to make three oral presentations and write three essays in English on their major-related topics. Students are required to make a portfolio of their work, to be submitted and assessed. This will be discussed in class.
2 1 MAT2017 Probability & Statistics Core Major 3-3-0
Topics covered include: formulation and solution in sample space, random variables, Function of Random Variables (Discrete and Continuous), transform techniques, simple random processes and their probability distributions, Bernoulli and Poisson and Gaussian Process, Markov processes, Central limit theorems, and elements of statistical inference.
2 1 PHY2008 Modern Physics Core Major 3-3-0
This course aims at understanding modern physics that is background of electrical and electronic device. To overcome the failure of classical physics, various postulates and concepts will be discussed. This covers various topics such as the special relativity, the duality of particles, quantum mechanics founded by Schrodinger, atomic structure, atomic bonding, and molecular structure.
2 1 PHY2013 ENGINEERING ELECTROMAGNETICS Core Major 3-3-0
This course provides theories for design and analysis of digital system; technology and knowledge for manufacture of hardware to students. We discuss a binary scale; basic theory and property of Boolean algebra; logic gates and simplification method of Boolean function; systematic design and analytical method of combination circuit; introduction of MSI and LSI chipsfor digital system and Flip-Flop; design method of sequential circuit, registers and counters; memories for storage of data and program; Programmable Logic Device; design analysis and interface of asynchronous circuit.
2 1 COE3051 Engineering Mathematics 1 (Compulsory) Requirement in Fundamental Studies 3-3-0
In this subject, we learn ordinary differential equation(O.D.E.), linear differential equation(L.D.E.), series, series solution in differential equations and Laplace transformation systematically based on differential and integral calculus (fundamental prerequisite). Moreover, we improve ability to make these basic concepts and principles applicable.
2 1 ELE2001 Circuit Theory 1 Core Major 3-3-0
This course deals with the fundamental characteristics of linear circuits, emphasizing the analysis of simple electric circuits; resistive elements; response of RC, RL and RLC circuits; node voltage and mesh current techniques; superposition theorem and Norton equivalents; sinusoidal steady state response and AC power.
2 1 ELE2051 Basic Electric Engineering Lab. 1 (Compulsory) Requirement in Fundamental Studies 1-0-2
Electric Circuit Lab.1This course covers measurements of voltage, current, resistance, power, transient response : Ohm's law, Kirchihoff's law,serial/parallel circuit, Thevenin's and Norton's theorem, trigger circuit: characteristics of sinusoid, impedance, frequence response of RLC circuit, resonant circuit, and filter.
2 1 ENE2001 Basic Electronics Core Major 3-3-0
Basic electronics provide circuit characteristics of semiconductor and basic concepts of hardware to students studying electronics. We discuss potential calculation in P-N junction; derivation of current-voltage relation in diodes; rectifier and filter circuit using diodes; current-voltage characteristics, bias operational point and application circuits of pnp(npn) bipolar transistor electrical characteristics, bias circuit and load characteristics in MOSFET; operational principle of memory devices, SRAM and DRAM .
2 1 GEN6032 PROFESSIONAL ACADEMIC ENGLISH (Compulsory) Requirement in Fundamental Studies 3-3-0
The Professional Academic English for students at Hanyang University focuses on the development of the oral and written communication skills, which are required in the globalized world community. The course aims to help students develop the competencies that are required in their future studies and career: professional knowledge, interpersonal and communicative competences. The course requires the students to develop creative problem solving skills. For this, the students perform various tasks by investigating and analyzing engineering topics as well as developing solutions. The students’ communication and negotiation skills are systematically supported by language skill development such as learning academic forms and structures of the language that are used in formal oral presentations and essays. The expected course outcome is that students are able to write academic reports, participate in discussions and make oral presentations in English on their major topics. Throughout the course, the students are encouraged to explore various major-related topics, to conduct systematic problem analyses, and to collaborate for creative problem solutions. Classroom activities mainly focus on the oral presentation and writing skills, and the preparatory activities of the essay writing. The course requires the students to make three oral presentations and write three essays in English on their major-related topics. Students are required to make a portfolio of their work, to be submitted and assessed. This will be discussed in class. Professional Academic English (PAE) is a required course for all HYU students that develops students’ academic presentation and writing skills using major-related content. Instruction will focus on the concepts and strategies needed in order to both organize and deliver a presentation, along with informal and formal opportunities to practice them. Students will also learn to improve their academic writing through assignments that require the dem
2 1 MAT2017 Probability & Statistics Core Major 3-3-0
Topics covered include: formulation and solution in sample space, random variables, Function of Random Variables (Discrete and Continuous), transform techniques, simple random processes and their probability distributions, Bernoulli and Poisson and Gaussian Process, Markov processes, Central limit theorems, and elements of statistical inference.
2 1 PHY2008 Modern Physics Core Major 3-3-0
This course aims at understanding modern physics that is background of electrical and electronic device. To overcome the failure of classical physics, various postulates and concepts will be discussed. This covers various topics such as the special relativity, the duality of particles, quantum mechanics founded by Schrodinger, atomic structure, atomic bonding, and molecular structure.
2 1 PHY2013 ENGINEERING ELECTROMAGNETICS Core Major 3-3-0
This course provides theories for design and analysis of digital system; technology and knowledge for manufacture of hardware to students. We discuss a binary scale; basic theory and property of Boolean algebra; logic gates and simplification method of Boolean function; systematic design and analytical method of combination circuit; introduction of MSI and LSI chipsfor digital system and Flip-Flop; design method of sequential circuit, registers and counters; memories for storage of data and program; Programmable Logic Device; design analysis and interface of asynchronous circuit.
2 1 COE3051 Engineering Mathematics 1 Basic Major 3-3-0
In this subject, we learn ordinary differential equation(O.D.E.), linear differential equation(L.D.E.), series, series solution in differential equations and Laplace transformation systematically based on differential and integral calculus (fundamental prerequisite). Moreover, we improve ability to make these basic concepts and principles applicable.
2 1 ELE2001 Circuit Theory 1 Core Major 3-3-0
This course deals with the fundamental characteristics of linear circuits, emphasizing the analysis of simple electric circuits; resistive elements; response of RC, RL and RLC circuits; node voltage and mesh current techniques; superposition theorem and Norton equivalents; sinusoidal steady state response and AC power.
2 1 ELE2051 Basic Electric Engineering Lab. 1 Core Major 1-0-2
Electric Circuit Lab.1This course covers measurements of voltage, current, resistance, power, transient response : Ohm's law, Kirchihoff's law,serial/parallel circuit, Thevenin's and Norton's theorem, trigger circuit: characteristics of sinusoid, impedance, frequence response of RLC circuit, resonant circuit, and filter.
2 1 GEN6032 PROFESSIONAL ACADEMIC ENGLISH Compulsory General Studies 3-3-0
The Professional Academic English for students at Hanyang University focuses on the development of the oral and written communication skills, which are required in the globalized world community. The course aims to help students develop the competencies that are required in their future studies and career: professional knowledge, interpersonal and communicative competences. The course requires the students to develop creative problem solving skills. For this, the students perform various tasks by investigating and analyzing engineering topics as well as developing solutions. The students’ communication and negotiation skills are systematically supported by language skill development such as learning academic forms and structures of the language that are used in formal oral presentations and essays. The expected course outcome is that students are able to write academic reports, participate in discussions and make oral presentations in English on their major topics. Throughout the course, the students are encouraged to explore various major-related topics, to conduct systematic problem analyses, and to collaborate for creative problem solutions. Classroom activities mainly focus on the oral presentation and writing skills, and the preparatory activities of the essay writing. The course requires the students to make three oral presentations and write three essays in English on their major-related topics. Students are required to make a portfolio of their work, to be submitted and assessed. This will be discussed in class.
2 1 PHY2008 Modern Physics Core Major 3-3-0
Modern Physics deals with the essential scientific discoveries of the late 19th century to the early 20th century which have led to the science and technology of the modern age. The concepts about nature in the late 19th century began to change as engineering enabled new experimental methods to discovery and understanding unexplainable phenomena. This lecture will guide students through the discoveries of modern physics and how it has led to the current understanding of nature. For understanding the limit of classical physics to examine the quantum phenomena, the course introduces the special relativistic theory and quantum physics. The course discusses the special relativistic theory, the particle properties of waves, the wave properties of particles, and the atomic structure. Students will examine the method of solving the Schrodinger equation for getting the eigenvalues and the Eigen functions, and investigate the quantum phenomena where one dimensional Schrodinger equation was applied to several kinds of potentials. Additionally, the course deals with the potential application of next generation quantum structures such as Nano semiconductors.
2 1 PHY2013 ENGINEERING ELECTROMAGNETICS Core Major 3-3-0
This course provides theories for design and analysis of digital system; technology and knowledge for manufacture of hardware to students. We discuss a binary scale; basic theory and property of Boolean algebra; logic gates and simplification method of Boolean function; systematic design and analytical method of combination circuit; introduction of MSI and LSI chipsfor digital system and Flip-Flop; design method of sequential circuit, registers and counters; memories for storage of data and program; Programmable Logic Device; design analysis and interface of asynchronous circuit.
2 2 COE3052 Engineering Mathematics 2 (Compulsory) Requirement in Fundamental Studies 3-3-0
In this subject, we learn complex functions, complex analysis fuctions, fundamental complex functions, Conformal mapping, linear fractional transformation, line integral in the complex plane, Cauchy's integral theorem and integral formula, derivatives in analysis function, power seriesm Taylor's series, Laurent's series, residue integration, ideal integration, matrix multiplication systematically. This subject is a prerequisite for understanding special subjects and helps us improve mathematical and scientific way of thinking.
2 2 CSE2011 Microprocessor Core Major 3-3-0
Course topics include architecture and assembly language of u-processor; theory and manufacturing of processor board; concepts of ALU, buffer sorts of registers, data and address bus; basic instructions and their operational procedure based on basic instruction cycle; logic and arithmetic, conditional branch, input and output instructions; concepts of DMA interrupt.
2 2 ECC1010 ELECTRONIC CITCUITS 1 Core Major 3-3-0
This course provides theories for design and analysis of digital system; technology and knowledge for manufacture of hardware to students. We discuss a binary scale; basic theory and property of Boolean algebra; logic gates and simplification method of Boolean function; systematic design and analytical method of combination circuit; introduction of MSI and LSI chipsfor digital system and Flip-Flop; design method of sequential circuit, registers and counters; memories for storage of data and program; Programmable Logic Device; design analysis and interface of asynchronous circuit.
2 2 ECE3008 Signals and Systems Core Major 3-3-0
The purpose of this course is to express continuous-time signals and systems in time, and frequency domain, and to teach students to analyze the expressed equations utilizing the Fourier transform and Laplace transform. The contents of this course include the definition of convolutions, Fourier transformation, and Laplace transformation so that students can analyze the continuous time signals & systems both in time and frequency domain. System design is also included in this course to provide the general concepts on causality and stability in designing linear time-invariant systems.
2 2 ELE2002 Circuit Theory 2 Core Major 3-3-0
This course deals with complex frequency and frequency response; two port and magnetically coupled circuits; Fourier, Fourier transforms and their use in understanding modulation and sampling; Laplace transforms and application to circuit analysis; transfer functions and Bode plots.
2 2 ELE2052 Basic Electric Engineering Lab. 2 (Compulsory) Requirement in Fundamental Studies 1-0-2
This course focuses on the principles of logic gates and circuits and includes Boolean algebra, adder, encode/decoder design, flip-flop, register, counter, clock generator, Decimal-to- BCM coder, arithmetic logic unit, multiplier, A/D and D/A converter, memory device, and CAD.
2 2 ELE4073 Electrical Properties of Materials 1 Core Major 3-3-0
This course will be provided the principles of electrical and electronic materials and devices which electrical engineers should know. This course will be tried to use many schematic diagrams and figures and to summarize the defining terms in the end of each chapter to be understood concepts of principles easily. The text book for this course is used the book titled 'Principles of Electronic Materials and Devices'. This course is divided into two parts. The first part is an introduction to the basics of concepts and composed of 4 chapters : Chapter 1 Elementary Materials Science Concepts, Chapter 2 Electrical and Thermal Conduction in Solids, Chapter 3 Elementary Quantum Physics, Chapter 4 Modern Theory of Solids The second part covers the applied materials for various electrical fields and is composed of 5 Chapters : Chapter 5 Semiconductors, Chapter 6 Semiconductor Devices, Chapter 7 Dielectri Materials and Insulation, Chapter 8 Magnetic Properties and Chapter 9 Optical Properties of Materials. The first and second semester will cover from Chapter 1 to Chapter 4, and from Chapter 5 to Chapter 9, respectively. This course will form the basis for new ideas in the electric utility & application field.
2 2 MEE4011 Measurement Engineering Core Major 3-3-0
Measurement is to analyze some quantity in quantitatively and numerically. This measurement is essential for whole engineering field. This course enhances ability of measurement system organization and design appropriate for required goal through stating working fundamentals and characteristics of sensor and element of signal transform, which are elements of measurement conducted by measurement system. Furthermore, accurate measurement, indirect measurement, non-contacting measurement method which are recently implemented using laser, ultrasonic wave are introduced with principles and characteristic of the recent measurement system. This part will be accompanied with experiments and demo to support understanding.
2 2 PHY2014 Field & Wave Electromagnetics Core Major 3-3-0
Understanding the operation of the basic characteristic and the structure of the analog amplifier, the integrated circuit analog amplifier, the wave filter and the ocilator, the cultivating the ability about the design and analysis of electronic circuit is aimed. The contents are as following. 1. The frequency characteristic of the amplifier 2. The characteristic and analysis of the feed-back circuit 3. The stability of the feed-back circuit 4. The characteristic of the power amplification circuit 5. The stability of the intergrated circuit 6. The wave filter and the ocilator
2 2 SYH0002 GLOBAL LEADERSHIP (Compulsory) Requirement in Fundamental Studies 2-2-0
Hanyang Leadership(HELP: Hanyang Essential Leadership Plus) is the leadership development program of Hanyang University that "helps" Hanyang students to be CEOs. The second step of this program, Global Leadership(HELP2) is the core course for sophomores. In the 21st century, we are moving into a global society where all countries are interconnected. Everything is changing at the speed of light. Competition is increasing. Digital convergence is occurring. Global leaders are the key to success for all organizations. In the global society, you can prepare for your future through HELP2. The purpose of HELP is to prepare students to be global leaders for the next generation. HELP2 teaches students: Global Leadership, Global Paradigm, Global Literacy, Global Manners and Global Mindset. Hanyang University students will be global leaders through HELP2.
2 2 COE3052 Engineering Mathematics 2 (Compulsory) Requirement in Fundamental Studies 3-3-0
In this subject, we learn complex functions, complex analysis fuctions, fundamental complex functions, Conformal mapping, linear fractional transformation, line integral in the complex plane, Cauchy's integral theorem and integral formula, derivatives in analysis function, power seriesm Taylor's series, Laurent's series, residue integration, ideal integration, matrix multiplication systematically. This subject is a prerequisite for understanding special subjects and helps us improve mathematical and scientific way of thinking.
2 2 CSE2011 Microprocessor Core Major 3-3-0
Course topics include architecture and assembly language of u-processor; theory and manufacturing of processor board; concepts of ALU, buffer sorts of registers, data and address bus; basic instructions and their operational procedure based on basic instruction cycle; logic and arithmetic, conditional branch, input and output instructions; concepts of DMA interrupt.
2 2 ECC1010 ELECTRONIC CITCUITS 1 Core Major 3-3-0
This course provides theories for design and analysis of digital system; technology and knowledge for manufacture of hardware to students. We discuss a binary scale; basic theory and property of Boolean algebra; logic gates and simplification method of Boolean function; systematic design and analytical method of combination circuit; introduction of MSI and LSI chipsfor digital system and Flip-Flop; design method of sequential circuit, registers and counters; memories for storage of data and program; Programmable Logic Device; design analysis and interface of asynchronous circuit.
2 2 ECE3008 Signals and Systems Core Major 3-3-0
The purpose of this course is to express continuous-time signals and systems in time, and frequency domain, and to teach students to analyze the expressed equations utilizing the Fourier transform and Laplace transform. The contents of this course include the definition of convolutions, Fourier transformation, and Laplace transformation so that students can analyze the continuous time signals & systems both in time and frequency domain. System design is also included in this course to provide the general concepts on causality and stability in designing linear time-invariant systems.
2 2 ECL3005 EMBEDDED CONTROL SYSTEM Core Major 3-3-0
This course provides theoretical backgrounds and practical exercises for the embedded system design. This course introduces microprocessors, memory system, and varying input and output devices; and how to interconnect these components. Interrupt, real-time operating system, buses, access arbitration, timing, and protocols are also introduced to effectively operate the embedded system. Term projects implementing an embedded system using microcontrollers will be an essential component of the course to practice the theories and earn know-hows.
2 2 ELE2002 Circuit Theory 2 Core Major 3-3-0
This course deals with complex frequency and frequency response; two port and magnetically coupled circuits; Fourier, Fourier transforms and their use in understanding modulation and sampling; Laplace transforms and application to circuit analysis; transfer functions and Bode plots.
2 2 ELE2052 Basic Electric Engineering Lab. 2 (Compulsory) Requirement in Fundamental Studies 1-0-2
This course focuses on the principles of logic gates and circuits and includes Boolean algebra, adder, encode/decoder design, flip-flop, register, counter, clock generator, Decimal-to- BCM coder, arithmetic logic unit, multiplier, A/D and D/A converter, memory device, and CAD.
2 2 ELE4073 Electrical Properties of Materials 1 Core Major 3-3-0
This course will be provided the principles of electrical and electronic materials and devices which electrical engineers should know. This course will be tried to use many schematic diagrams and figures and to summarize the defining terms in the end of each chapter to be understood concepts of principles easily. The text book for this course is used the book titled 'Principles of Electronic Materials and Devices'. This course is divided into two parts. The first part is an introduction to the basics of concepts and composed of 4 chapters : Chapter 1 Elementary Materials Science Concepts, Chapter 2 Electrical and Thermal Conduction in Solids, Chapter 3 Elementary Quantum Physics, Chapter 4 Modern Theory of Solids The second part covers the applied materials for various electrical fields and is composed of 5 Chapters : Chapter 5 Semiconductors, Chapter 6 Semiconductor Devices, Chapter 7 Dielectri Materials and Insulation, Chapter 8 Magnetic Properties and Chapter 9 Optical Properties of Materials. The first and second semester will cover from Chapter 1 to Chapter 4, and from Chapter 5 to Chapter 9, respectively. This course will form the basis for new ideas in the electric utility & application field.
2 2 PHY2014 Field & Wave Electromagnetics Core Major 3-3-0
Understanding the operation of the basic characteristic and the structure of the analog amplifier, the integrated circuit analog amplifier, the wave filter and the ocilator, the cultivating the ability about the design and analysis of electronic circuit is aimed. The contents are as following. 1. The frequency characteristic of the amplifier 2. The characteristic and analysis of the feed-back circuit 3. The stability of the feed-back circuit 4. The characteristic of the power amplification circuit 5. The stability of the intergrated circuit 6. The wave filter and the ocilator
2 2 SYH0002 GLOBAL LEADERSHIP (Compulsory) Requirement in Fundamental Studies 2-2-0
Hanyang Leadership(HELP: Hanyang Essential Leadership Plus) is the leadership development program of Hanyang University that "helps" Hanyang students to be CEOs. The second step of this program, Global Leadership(HELP2) is the core course for sophomores. In the 21st century, we are moving into a global society where all countries are interconnected. Everything is changing at the speed of light. Competition is increasing. Digital convergence is occurring. Global leaders are the key to success for all organizations. In the global society, you can prepare for your future through HELP2. The purpose of HELP is to prepare students to be global leaders for the next generation. HELP2 teaches students: Global Leadership, Global Paradigm, Global Literacy, Global Manners and Global Mindset. Hanyang University students will be global leaders through HELP2.
2 2 COE3052 Engineering Mathematics 2 Basic Major 3-3-0
In this subject, we learn complex functions, complex analysis fuctions, fundamental complex functions, Conformal mapping, linear fractional transformation, line integral in the complex plane, Cauchy's integral theorem and integral formula, derivatives in analysis function, power seriesm Taylor's series, Laurent's series, residue integration, ideal integration, matrix multiplication systematically. This subject is a prerequisite for understanding special subjects and helps us improve mathematical and scientific way of thinking.
2 2 ECE3008 Signals and Systems Core Major 3-3-0
The purpose of this course is to express continuous-time signals and systems in time, and frequency domain, and to teach students to analyze the expressed equations utilizing the Fourier transform and Laplace transform. The contents of this course include the definition of convolutions, Fourier transformation, and Laplace transformation so that students can analyze the continuous time signals & systems both in time and frequency domain. System design is also included in this course to provide the general concepts on causality and stability in designing linear time-invariant systems.
2 2 ELE2002 Circuit Theory 2 Core Major 3-3-0
This course deals with complex frequency and frequency response; two port and magnetically coupled circuits; Fourier, Fourier transforms and their use in understanding modulation and sampling; Laplace transforms and application to circuit analysis; transfer functions and Bode plots.
2 2 ELE2052 Basic Electric Engineering Lab. 2 Core Major 1-0-2
This course focuses on the principles of logic gates and circuits and includes Boolean algebra, adder, encode/decoder design, flip-flop, register, counter, clock generator, Decimal-to- BCM coder, arithmetic logic unit, multiplier, A/D and D/A converter, memory device, and CAD.
2 2 ELE4073 Electrical Properties of Materials 1 Core Major 3-3-0
This course will be provided the principles of electrical and electronic materials and devices which electrical engineers should know. This course will be tried to use many schematic diagrams and figures and to summarize the defining terms in the end of each chapter to be understood concepts of principles easily. The text book for this course is used the book titled 'Principles of Electronic Materials and Devices'. This course is divided into two parts. The first part is an introduction to the basics of concepts and composed of 4 chapters : Chapter 1 Elementary Materials Science Concepts, Chapter 2 Electrical and Thermal Conduction in Solids, Chapter 3 Elementary Quantum Physics, Chapter 4 Modern Theory of Solids The second part covers the applied materials for various electrical fields and is composed of 5 Chapters : Chapter 5 Semiconductors, Chapter 6 Semiconductor Devices, Chapter 7 Dielectri Materials and Insulation, Chapter 8 Magnetic Properties and Chapter 9 Optical Properties of Materials. The first and second semester will cover from Chapter 1 to Chapter 4, and from Chapter 5 to Chapter 9, respectively. This course will form the basis for new ideas in the electric utility & application field.
2 2 ENE3001 Microelectronic Circuits Core Major 3-3-0
2 2 PHY2014 Field & Wave Electromagnetics Extended Major 3-3-0
This course covers Faraday's law and displacement current; fundamental concepts fo Maxwell's equations; basic transmission line theory; basic properties and phenomenon of wave line; investigate wave reflection from terminated transmission line; power transmission and loss characterization; wave reflection at discontinuities; graphical methods and transient analysis; wave propagation; Poynting's theorem and wave power; skin effect; standing wave ratio theory; plane wave propagation and plane wave reflection; wave propagation and pulse broadening in disperdive media.
2 2 SYH0002 GLOBAL LEADERSHIP Compulsory General Studies 2-2-0
Hanyang Leadership(HELP: Hanyang Essential Leadership Plus) is the leadership development program of Hanyang University that "helps" Hanyang students to be CEOs. The second step of this program, Hanyang Leadership(HELP2) is the core course for Sophomores. In the 21st century, we are moving into a global soceity where all countries are interconnected. Everything is changing at the speed of light. Competition is increasing. Digital Convergence is occurring. Global leaders are the key to success for all organizations. In a global soceity, you can prepare for your future through HELP2. The purpose of HELP is to prepare students to be global leaders for the next generation. HELP2 teaches students: Global Leadership, Global Paradigm, Global Literacy, Global Manners, and Global Mindset. Hanyang university students will be global leaders through HELP2.
3 1 DME3003 Design and Analysis of Dynamic Systems Core Major 3-3-0
This course deals with the mathematical modeling and analysis of the electrical, mechanical, and control systems by applying the circuit theory, electromagnetic theory, and dynamics; and programing and simulation of the systems using Matlab/SimuLink. This course also deals with the linear system analysis in the time domain and frequency domain and the introduction to feedback control systems.
3 1 ECC3003 Electric Power Engineering Core Major 3-3-0
An electrical power system can be defined as a network of interconnected components designed to convert nonelectrical energy continuously into the electrical form; transport the electrical energy over potentially great distances; transform the electrical energy into a specific form subject to close tolerances; and convert the electrical energy into a usable nonelectrical form. To be practical, such a system must be safe, reliable, economical, benign to the environment, and socially acceptable. For organizational purposes, a system can be divided into subsystems; Generation, Transmission, Subtransmission and Distribution. This course includes ; - Representation of the basic components consisting of electrical power system such as generator, transformer, transmission line and load. - Characteristic parameters of distributed and lumped circuit of transmission line - Analysis of transmission lines at normal and transient states - Analysis of unbalanced and faulted power system - Various disturbance phenomena in power system- System protection with circuit breaker and protective relay
3 1 ECL3001 ELECTRICAL AND CONTROL LABORATORY1 Core Major 1-0-2
This course focuses on the principles of logic gates and circuits and includes Boolean algebra, adder, encode/decoder design, flip-flop, register, counter, clock generator, Decimal-to- BCM coder, arithmetic logic unit, multiplier, A/D and D/A converter, memory device, and CAD. In addition, it includes the control of various motors using Servo System.
3 1 ECL3006 PLASMA ENGINEERING 1 Core Major 3-3-0
We will treat the basic concepts of plasma engineering like the following: (1) Definition of plasma; (2) History of plasma research; (3) Generation of plasmas; (4) Plasma as a single charged particle; (5) Plasma as statistical particles; (6) Plasma as fluids.
3 1 ELE3071 Energy Conversion Machines Core Major 3-3-0
ELECTRO-MECHANICAL ENERGY CONVERSION MACHINES The purpose of the lecture is to know what electromagnetic theory of the energy conversion machines is and their characteristics are. Energy conversion machine is the mutual transformation machines between electric energy and mechanical energy. In this class, various machines' principle and characteristics will be focused. Especially, about brushless motors', stepping motors' principles, and their control. At the end of the class, all the students can explain the electric machines' principle according to electromagnetic field theory and understand the motor operating in physically.
3 1 ELE4074 Electrical Properties of Materials 2 Extended Major 3-3-0
This course will be provided the principles of electrical and electronic materials and devices which electrical engineers should know. This course will be tried to use many schematic diagrams and figures and to summarize the defining terms in the end of each chapter to be understood concepts of principles easily. The text book for this course is used the book titled 'Principles of Electronic Materials and Devices'. This course is divided into two parts. The first part is an introduction to the basics of concepts and composed of 4 chapters : Chapter 1 Elementary Materials Science Concepts, Chapter 2 Electrical and Thermal Conduction in Solids, Chapter 3 Elementary Quantum Physics, Chapter 4 Modern Theory of Solids The second part covers the applied materials for various electrical fields and is composed of 5 Chapters : Chapter 5 Semiconductors, Chapter 6 Semiconductor Devices, Chapter 7 Dielectri Materials and Insulation, Chapter 8 Magnetic Properties and Chapter 9 Optical Properties of Materials. The first and second semester will cover from Chapter 1 to Chapter 4, and from Chapter 5 to Chapter 9, respectively. This course will form the basis for new ideas in the electric utility & application field.
3 1 ENE3002 Electronic Circuits 2 Core Major 3-3-0
Understanding the operation of the basic characteristic and the structure of the analog amplifier, the integrated circuit analog amplifier, the wave filter and the ocilator, the cultivating the ability about the design and analysis of electronic circuit is aimed. The contents are as following. 1. The frequency characteristic of the amplifier 2. The characteristic and analysis of the feed-back circuit 3. The stability of the feed-back circuit 4. The characteristic of the power amplification circuit 5. The stability of the intergrated circuit 6. The wave filter and the ocilator
3 1 ENE4015 Signal Processing Core Major 3-3-0
This course provides digitalizing analog signal, representation of digital signal, filtering of digital signal, fourier transform & its analysis, and basic filter design, fast fourier transform using FFT(Fast Fourier Transform) and so on, i.e. about processing digital signal in time and frequency domain.
3 1 GEN6094 Fieldwork 1 Extended Major 3-0-3
This course provides students with professional and academic experiences through internships in companies
3 1 MAT2003 Linear Algebra (Compulsory) Requirement in Fundamental Studies 3-3-0
Basic subject on matrix theory and linear algebra, emphasizing topics useful in other disciplines, including systems of equations, vector spaces, determinants, eigenvalues, similarity, and positive definite matrices. Applications to least-squares approximations, stability of differential equations, networks, Fourier transforms, and Markov processes.
3 1 TEA3008 Engineering Educational Theories on Subject Compulsory for Teacher Certification 2-2-0
In this course typical issues and themes about the engineering education and engineering teaching system are investigated in order to maximize the educational effect of engineering courses in junior and senior high schools. Special emphases are given on concrete educational strategy highlighting the basic relationship between modern industry and engineering courses, development and performing technique of engineering themes and relevant experimental methods as well as development of educational strategy and systematic teaching materials to enhance engineering originality.
3 1 TEA5008 Engineering Educational Theories on Subject --Major for Teacher Certifica-- 3-3-0
In this course typical issues and themes about the engineering education and engineering teaching system are investigated in order to maximize the educational effect of engineering courses in junior and senior high schools. Special emphases are given on concrete educational strategy highlighting the basic relationship between modern industry and engineering courses, development and performing technique of engineering themes and relevant experimental methods as well as development of educational strategy and systematic teaching materials to enhance engineering originality.
3 1 DME3003 Design and Analysis of Dynamic Systems Core Major 3-3-0
This course deals with the mathematical modeling and analysis of the electrical, mechanical, and control systems by applying the circuit theory, electromagnetic theory, and dynamics; and programing and simulation of the systems using Matlab/SimuLink. This course also deals with the linear system analysis in the time domain and frequency domain and the introduction to feedback control systems.
3 1 ECC3003 Electric Power Engineering Core Major 3-3-0
An electrical power system can be defined as a network of interconnected components designed to convert nonelectrical energy continuously into the electrical form; transport the electrical energy over potentially great distances; transform the electrical energy into a specific form subject to close tolerances; and convert the electrical energy into a usable nonelectrical form. To be practical, such a system must be safe, reliable, economical, benign to the environment, and socially acceptable. For organizational purposes, a system can be divided into subsystems; Generation, Transmission, Subtransmission and Distribution. This course includes ; - Representation of the basic components consisting of electrical power system such as generator, transformer, transmission line and load. - Characteristic parameters of distributed and lumped circuit of transmission line - Analysis of transmission lines at normal and transient states - Analysis of unbalanced and faulted power system - Various disturbance phenomena in power system- System protection with circuit breaker and protective relay
3 1 ECL3001 ELECTRICAL AND CONTROL LABORATORY1 Core Major 1-0-2
This course focuses on the principles of logic gates and circuits and includes Boolean algebra, adder, encode/decoder design, flip-flop, register, counter, clock generator, Decimal-to- BCM coder, arithmetic logic unit, multiplier, A/D and D/A converter, memory device, and CAD. In addition, it includes the control of various motors using Servo System.
3 1 ECL3006 PLASMA ENGINEERING 1 Core Major 3-3-0
We will treat the basic concepts of plasma engineering like the following: (1) Definition of plasma; (2) History of plasma research; (3) Generation of plasmas; (4) Plasma as a single charged particle; (5) Plasma as statistical particles; (6) Plasma as fluids.
3 1 ELE4074 Electrical Properties of Materials 2 Extended Major 3-3-0
This course will be provided the principles of electrical and electronic materials and devices which electrical engineers should know. This course will be tried to use many schematic diagrams and figures and to summarize the defining terms in the end of each chapter to be understood concepts of principles easily. The text book for this course is used the book titled 'Principles of Electronic Materials and Devices'. This course is divided into two parts. The first part is an introduction to the basics of concepts and composed of 4 chapters : Chapter 1 Elementary Materials Science Concepts, Chapter 2 Electrical and Thermal Conduction in Solids, Chapter 3 Elementary Quantum Physics, Chapter 4 Modern Theory of Solids The second part covers the applied materials for various electrical fields and is composed of 5 Chapters : Chapter 5 Semiconductors, Chapter 6 Semiconductor Devices, Chapter 7 Dielectri Materials and Insulation, Chapter 8 Magnetic Properties and Chapter 9 Optical Properties of Materials. The first and second semester will cover from Chapter 1 to Chapter 4, and from Chapter 5 to Chapter 9, respectively. This course will form the basis for new ideas in the electric utility & application field.
3 1 ENE3002 Electronic Circuits 2 Core Major 3-3-0
Understanding the operation of the basic characteristic and the structure of the analog amplifier, the integrated circuit analog amplifier, the wave filter and the ocilator, the cultivating the ability about the design and analysis of electronic circuit is aimed. The contents are as following. 1. The frequency characteristic of the amplifier 2. The characteristic and analysis of the feed-back circuit 3. The stability of the feed-back circuit 4. The characteristic of the power amplification circuit 5. The stability of the intergrated circuit 6. The wave filter and the ocilator
3 1 ENE4015 Signal Processing Core Major 3-3-0
This course provides digitalizing analog signal, representation of digital signal, filtering of digital signal, fourier transform & its analysis, and basic filter design, fast fourier transform using FFT(Fast Fourier Transform) and so on, i.e. about processing digital signal in time and frequency domain.
3 1 GEN6094 Fieldwork 1 Extended Major 3-0-3
This course provides students with professional and academic experiences through internships in companies
3 1 MAT2003 Linear Algebra (Compulsory) Requirement in Fundamental Studies 3-3-0
Basic subject on matrix theory and linear algebra, emphasizing topics useful in other disciplines, including systems of equations, vector spaces, determinants, eigenvalues, similarity, and positive definite matrices. Applications to least-squares approximations, stability of differential equations, networks, Fourier transforms, and Markov processes.
3 1 TEA5008 Engineering Educational Theories on Subject --Major for Teacher Certifica-- 3-3-0
In this course typical issues and themes about the engineering education and engineering teaching system are investigated in order to maximize the educational effect of engineering courses in junior and senior high schools. Special emphases are given on concrete educational strategy highlighting the basic relationship between modern industry and engineering courses, development and performing technique of engineering themes and relevant experimental methods as well as development of educational strategy and systematic teaching materials to enhance engineering originality.
3 1 DME3003 Design and Analysis of Dynamic Systems Core Major 3-3-0
This course deals with the mathematical modeling and analysis of the electrical, mechanical, and control systems by applying the circuit theory, electromagnetic theory, and dynamics; and programing and simulation of the systems using Matlab/SimuLink. This course also deals with the linear system analysis in the time domain and frequency domain and the introduction to feedback control systems.
3 1 ECC3003 Electric Power Engineering Core Major 3-3-0
An electrical power system can be defined as a network of interconnected components designed to convert nonelectrical energy continuously into the electrical form; transport the electrical energy over potentially great distances; transform the electrical energy into a specific form subject to close tolerances; and convert the electrical energy into a usable nonelectrical form. To be practical, such a system must be safe, reliable, economical, benign to the environment, and socially acceptable. For organizational purposes, a system can be divided into subsystems; Generation, Transmission, Subtransmission and Distribution. This course includes ; - Representation of the basic components consisting of electrical power system such as generator, transformer, transmission line and load. - Characteristic parameters of distributed and lumped circuit of transmission line - Analysis of transmission lines at normal and transient states - Analysis of unbalanced and faulted power system - Various disturbance phenomena in power system- System protection with circuit breaker and protective relay
3 1 ECL3010 Basic Electric Engineering Lab. 3 Core Major 1-0-2
3 1 ELE4074 Electrical Properties of Materials 2 Extended Major 3-3-0
This course will be provided the principles of electrical and electronic materials and devices which electrical engineers should know. This course will be tried to use many schematic diagrams and figures and to summarize the defining terms in the end of each chapter to be understood concepts of principles easily. The text book for this course is used the book titled 'Principles of Electronic Materials and Devices'. This course is divided into two parts. The first part is an introduction to the basics of concepts and composed of 4 chapters : Chapter 1 Elementary Materials Science Concepts, Chapter 2 Electrical and Thermal Conduction in Solids, Chapter 3 Elementary Quantum Physics, Chapter 4 Modern Theory of Solids The second part covers the applied materials for various electrical fields and is composed of 5 Chapters : Chapter 5 Semiconductors, Chapter 6 Semiconductor Devices, Chapter 7 Dielectri Materials and Insulation, Chapter 8 Magnetic Properties and Chapter 9 Optical Properties of Materials. The first and second semester will cover from Chapter 1 to Chapter 4, and from Chapter 5 to Chapter 9, respectively. This course will form the basis for new ideas in the electric utility & application field.
3 1 MAT2003 Linear Algebra Basic Major 3-3-0
Basic subject on matrix theory and linear algebra, emphasizing topics useful in other disciplines, including systems of equations, vector spaces, determinants, eigenvalues, similarity, and positive definite matrices. Applications to least-squares approximations, stability of differential equations, networks, Fourier transforms, and Markov processes.
3 1 MAT2017 Probability & Statistics Core Major 3-3-0
Topics covered include: formulation and solution in sample space, random variables, Function of Random Variables (Discrete and Continuous), transform techniques, simple random processes and their probability distributions, Bernoulli and Poisson and Gaussian Process, Markov processes, Central limit theorems, and elements of statistical inference.
3 1 MAT3008 Numerical Analysis Basic Major 3-3-0
This course aims at Poisson's and Laplace's equations and their applications, static magnetic fields, magnetic force, and the behavior of magnetic materials; the physical concept of inductance and its calculation for various components.
3 2 ECL3002 ELECTRICAL AND CONTROL LABORATORY2 Core Major 1-0-2
This course includes the principles of diodes, transistors and intergrated circuits; evaluation of semi-conductor circuits, diodes and transistor circuits, voltage gain and current gain,FET characteristics; MOSFET amplifiers,OP amplifiers, digital IC, timing circuits oscillators, flip-flop,counter IC, shift register, encode and decoder.
3 2 ECL3004 POWER SEMICONDUCTOR DEVICES Extended Major 3-3-0
In spite of significant progress in the development of power devices, there are some trade-off in different power devices. The requirement of the specific application must be matched to the capabilities of the available devices. This often requires clever and innovative design approaches. In this environment, it is important for the user to have a firm qualitative understanding of the physics of power devices and of how the are fabricated and packaged. A superficial knowledge of low-power solid-state devices is insufficient for the effective use oh high-power devices. In the several chapters, the operation, fabrication, and packaging of high-power devices will be explored.
3 2 ECL3005 EMBEDDED CONTROL SYSTEM Core Major 3-3-0
This course provides theoretical backgrounds and practical exercises for the embedded system design. This course introduces microprocessors, memory system, and varying input and output devices; and how to interconnect these components. Interrupt, real-time operating system, buses, access arbitration, timing, and protocols are also introduced to effectively operate the embedded system. Term projects implementing an embedded system using microcontrollers will be an essential component of the course to practice the theories and earn know-hows.
3 2 ECL3007 PLASMA ENGINEERING 2 Core Major 3-3-0
We will treat the advanced concepts of plasma engineering like the following: (1) Plasma wave propagation (2) Plasma as a magneto-hydrodynamic fluid (3) Plasma transport (4) Plasma non-linear phenomena (5) Plasma diagnostics
3 2 ECL3009 Analog Circuit Core Major 3-3-0
3 2 ELE3004 Control Engineering Core Major 3-3-0
This course provides an introduction to the design of feedback systems. Topics covered include: properties and advantages of feedback systems, time-domain and frequency-domain performance measures, stability and degree of stability, root locus method, Nyquist criterion, frequency-domain design, compensation techniques, application to a wide variety of physical systems, internal and external compensation of operational amplifiers, modelling and compensation of power converter
3 2 ELE3013 Electric Machines Core Major 3-3-0
His career as a wide range of knowledge and lessons learned in the previous semester plan to explore in depth the process. Employment working in the industry of major interest to seniors invited to hear the information about the industry to prepare for what you need to learn knowhow. In addition, students who already have a job that aim to visit seniors plan their careers and the skills necessary to equip determined to develop a career that any plan.
3 2 ELE4019 Power System Analysis Extended Major 3-3-0
Modern electric power systems are very large, complex and highly integrated, and industrial, commercial, and domestic electric appliance depend on electric energy increasingly with high quality and reliability level. Therefore, a systematic and integrated scheme is required to supply and control electric energy in efficient and effective manner. This course treats various topics related to the operation, control, and management of electric power and energy, which includes ; ‧ Economic Load Dispatch and Unit Committment ‧ Control of Active and Reactive Power ‧ Principle and Applications of new technologies to control electric power using the modern Power Electron Scheme, such as SVC(Static VAR Compensator), FACTS(Flexible AC Transmission System), and HVDC(High Voltage DC) System ‧ Analysis of Transient Stability and Voltage Stability problems
3 2 ELE4025 Pulsed Power Engineering Extended Major 3-3-0
The pulsed power is the huge power generated by compressing electromagnetic energy temporally and spatially. The pulsed power engineering is a novel educational lecture for the future industry applications. In this lecture the fundamental phenomena of discharge plasmas, pulsed high current phenomena, high voltage technologies, pulsed power technologies, and the applications of the pulsed power and discharge plasmas, is introduced.
3 2 GEN5026 Techno-Business Administration (Compulsory) Requirement in Fundamental Studies 3-2-2
The Techno-Business Administration program basically educates sophomore of engineering in both managerial principles and technological issues in order to deal with the future management environment. The program offers rigorous academic and applied courses along with an extensive international exposure. The program is also committed to educating future business leaders to successfully compete in global markets. The tracks include: Marketing Venture Management eBusiness Accounting, Finance & Business Analysis Strategy & Organization etc.
3 2 GEN6095 Fieldwork 2 Extended Major 3-0-3
This course provides students with professional and academic experiences through internships in companies
3 2 MAT3008 Numerical Analysis (Compulsory) Requirement in Fundamental Studies 3-3-0
This course aims at Poisson's and Laplace's equations and their applications, static magnetic fields, magnetic force, and the behavior of magnetic materials; the physical concept of inductance and its calculation for various components.
3 2 SYH0003 BUSINESS LEADERSHIP (Compulsory) Requirement in Fundamental Studies 2-2-0
Businesss Leadership (HELP 3) program is a course for juniors, which aims to help students 1) understand principles of capitalism and market economy and learn common sense in relation to economy and finance, 2) learn principles and nature of corporations and how to develop a critical view toward them, and 3) acquire an administrative mind through self-management.
3 2 TEA3028 ENGINEERING LOGIC AND ESSAY WRITING --Major for Teacher Certifica-- 2-2-0
The lecture helps students to develop the logical system of philosophy in variety engineering field as reflecting on philosophical values and developing a logic which should be essentially practiced in technical education. Furthermore, it is learned that several techniques for developing current view-point about many subjects related to the engineering and suggesting subjectivity very clearly. Therefore students are able to learn how to approach to the problems related to the engineering and how to solve the problem in logically. Finally students will develop ability to present results of the methods effectively.
3 2 ECL3002 ELECTRICAL AND CONTROL LABORATORY2 Core Major 1-0-2
This course includes the principles of diodes, transistors and intergrated circuits; evaluation of semi-conductor circuits, diodes and transistor circuits, voltage gain and current gain,FET characteristics; MOSFET amplifiers,OP amplifiers, digital IC, timing circuits oscillators, flip-flop,counter IC, shift register, encode and decoder.
3 2 ECL3007 PLASMA ENGINEERING 2 Core Major 3-3-0
We will treat the advanced concepts of plasma engineering like the following: (1) Plasma wave propagation (2) Plasma as a magneto-hydrodynamic fluid (3) Plasma transport (4) Plasma non-linear phenomena (5) Plasma diagnostics
3 2 ECL4017 Plasma Electronics Extended Major 3-3-0
in electronics industry, low temperature plasmas are widely used. Especially plasma processing in ULSI semiconductor fabrication & display processing is a main processing and various applications to solar cells and environmental disposals have been developed. It is essential to understand low temperature plasma for inventing new fabrication process and development of a new processing apparatus. Fundamentals of plasma used in electronic industry and its applications will be introduced.
3 2 ELE3004 Control Engineering Core Major 3-3-0
This course provides an introduction to the design of feedback systems. Topics covered include: properties and advantages of feedback systems, time-domain and frequency-domain performance measures, stability and degree of stability, root locus method, Nyquist criterion, frequency-domain design, compensation techniques, application to a wide variety of physical systems, internal and external compensation of operational amplifiers, modelling and compensation of power converter
3 2 ELE3013 Electric Machines Core Major 3-3-0
His career as a wide range of knowledge and lessons learned in the previous semester plan to explore in depth the process. Employment working in the industry of major interest to seniors invited to hear the information about the industry to prepare for what you need to learn knowhow. In addition, students who already have a job that aim to visit seniors plan their careers and the skills necessary to equip determined to develop a career that any plan.
3 2 ELE4005 Power Electronics Core Major 3-3-0
The power conversion control, which can control and convert an electrical energy according to the load characteristic, is divided into four types; AC/AC, AC/DC, DC/DC and DC/AC. The design and analysis of general power conversion control circuits and the implementation of application circuits about these types are treated. Also, the composition of control algorithm is lectured.
3 2 ELE4019 Power System Analysis Extended Major 3-3-0
Modern electric power systems are very large, complex and highly integrated, and industrial, commercial, and domestic electric appliance depend on electric energy increasingly with high quality and reliability level. Therefore, a systematic and integrated scheme is required to supply and control electric energy in efficient and effective manner. This course treats various topics related to the operation, control, and management of electric power and energy, which includes ; ‧ Economic Load Dispatch and Unit Committment ‧ Control of Active and Reactive Power ‧ Principle and Applications of new technologies to control electric power using the modern Power Electron Scheme, such as SVC(Static VAR Compensator), FACTS(Flexible AC Transmission System), and HVDC(High Voltage DC) System ‧ Analysis of Transient Stability and Voltage Stability problems
3 2 ELE4025 Pulsed Power Engineering Extended Major 3-3-0
The pulsed power is the huge power generated by compressing electromagnetic energy temporally and spatially. The pulsed power engineering is a novel educational lecture for the future industry applications. In this lecture the fundamental phenomena of discharge plasmas, pulsed high current phenomena, high voltage technologies, pulsed power technologies, and the applications of the pulsed power and discharge plasmas, is introduced.
3 2 ELE4037 Applications of Digital Signal Processing Extended Major 3-3-0
The main purpose of this course is to provide basic theories on random process and statistical signal processing. This course covers basic random process theory, fixed-point system design, FFT algorithm, filter bank theory, adaptive filter theory, and multimedia signal processing. In addition, it demonstrates how statistical signal processing techniques are used in various engineering problems.
3 2 GEN5026 Techno-Business Administration(Startup Capstone Design) (Compulsory) Requirement in Fundamental Studies 3-3-0
The Techno-Business Administration program basically educates sophomore of engineering in both managerial principles and technological issues in order to deal with the future management environment. The program offers rigorous academic and applied courses along with an extensive international exposure. The program is also committed to educating future business leaders to successfully compete in global markets. The tracks include: Marketing Venture Management eBusiness Accounting, Finance & Business Analysis Strategy & Organization etc.
3 2 GEN5100 Career Development II (Portfolio and Business model Creation) (Compulsory) Requirement in Fundamental Studies 1-1-0
His career as a wide range of knowledge and lessons learned in the previous semester plan to explore in depth the process. Employment working in the industry of major interest to seniors invited to hear the information about the industry to prepare for what you need to learn knowhow. In addition, students who already have a job that aim to visit seniors plan their careers and the skills necessary to equip determined to develop a career that any plan.
3 2 GEN6095 Fieldwork 2 Extended Major 3-0-3
This course provides students with professional and academic experiences through internships in companies
3 2 MAT3008 Numerical Analysis (Compulsory) Requirement in Fundamental Studies 3-3-0
This course aims at Poisson's and Laplace's equations and their applications, static magnetic fields, magnetic force, and the behavior of magnetic materials; the physical concept of inductance and its calculation for various components.
3 2 SYH0003 ENTREPRENEURSHIP AND BUSINESS LEADERSHIP (Compulsory) Requirement in Fundamental Studies 2-2-0
Businesss Leadership (HELP 3) program is a course for juniors, which aims to help students 1) understand principles of capitalism and market economy and learn common sense in relation to economy and finance, 2) learn principles and nature of corporations and how to develop a critical view toward them, and 3) acquire an administrative mind through self-management.
3 2 TEA3028 ENGINEERING LOGIC AND ESSAY WRITING --Major for Teacher Certifica-- 2-2-0
The lecture helps students to develop the logical system of philosophy in variety engineering field as reflecting on philosophical values and developing a logic which should be essentially practiced in technical education. Furthermore, it is learned that several techniques for developing current view-point about many subjects related to the engineering and suggesting subjectivity very clearly. Therefore students are able to learn how to approach to the problems related to the engineering and how to solve the problem in logically. Finally students will develop ability to present results of the methods effectively.
3 2 ECL3011 Power Electronics Extended Major 3-3-0
3 2 ECL4017 Plasma Electronics Extended Major 3-3-0
in electronics industry, low temperature plasmas are widely used. Especially plasma processing in ULSI semiconductor fabrication & display processing is a main processing and various applications to solar cells and environmental disposals have been developed. It is essential to understand low temperature plasma for inventing new fabrication process and development of a new processing apparatus. Fundamentals of plasma used in electronic industry and its applications will be introduced.
3 2 ELE3004 Control Engineering Core Major 3-3-0
This course provides an introduction to the design of feedback systems. Topics covered include: properties and advantages of feedback systems, time-domain and frequency-domain performance measures, stability and degree of stability, root locus method, Nyquist criterion, frequency-domain design, compensation techniques, application to a wide variety of physical systems, internal and external compensation of operational amplifiers, modelling and compensation of power converter
3 2 ELE3013 Electric Machines Core Major 3-3-0
His career as a wide range of knowledge and lessons learned in the previous semester plan to explore in depth the process. Employment working in the industry of major interest to seniors invited to hear the information about the industry to prepare for what you need to learn knowhow. In addition, students who already have a job that aim to visit seniors plan their careers and the skills necessary to equip determined to develop a career that any plan.
3 2 ELE4019 Power System Analysis Extended Major 3-3-0
Modern electric power systems are very large, complex and highly integrated, and industrial, commercial, and domestic electric appliance depend on electric energy increasingly with high quality and reliability level. Therefore, a systematic and integrated scheme is required to supply and control electric energy in efficient and effective manner. This course treats various topics related to the operation, control, and management of electric power and energy, which includes ; ‧ Economic Load Dispatch and Unit Committment ‧ Control of Active and Reactive Power ‧ Principle and Applications of new technologies to control electric power using the modern Power Electron Scheme, such as SVC(Static VAR Compensator), FACTS(Flexible AC Transmission System), and HVDC(High Voltage DC) System ‧ Analysis of Transient Stability and Voltage Stability problems
3 2 ELE4025 Pulsed Power Engineering Extended Major 3-3-0
The pulsed power is the huge power generated by compressing electromagnetic energy temporally and spatially. The pulsed power engineering is a novel educational lecture for the future industry applications. In this lecture the fundamental phenomena of discharge plasmas, pulsed high current phenomena, high voltage technologies, pulsed power technologies, and the applications of the pulsed power and discharge plasmas, is introduced.
3 2 ENE4015 Signal Processing Extended Major 3-3-0
This course will deal with advanced theory and applications of digital signal processing. This course is offered for senior undergraduate students who have basic knowledge about signal and systems and probability theory. Throughout the semester, the course covers basic digital signal processing theory including sampling theory, frequency-domain analysis of the signal and systems, structure of the filters, filter design theory, discrete Fourier transform (DFT) and short-time Fourier transform (STFT) and time-frequency analysis of signals. Then, probability theory and random process will be briefly reviewed and more advanced signal processing techniques including Wiener filter, minimum mean square error (MMSE) estimation, adaptive filtering, digital filter bank, and array signal processing techniques will be discussed. In this course, the students will practice various signal processing applications using MATLAB and C Programming.
3 2 GEN5026 Techno-Business Administration(Startup Capstone Design) Compulsory General Studies 3-3-0
Techno-business Administration is a practical and strategic course for producing techno-leaders of the New Millennium that the university pursues strategically. In this course, students will learn business process from the discovery of business items to sales through project based class. Through this, students develop entrepreneurship and collaboration ability and understand business process of enterprise through practice as well as theory.
3 2 GEN5100 Career Development II (Portfolio and Business model Creation) Compulsory General Studies 1-1-0
His career as a wide range of knowledge and lessons learned in the previous semester plan to explore in depth the process. Employment working in the industry of major interest to seniors invited to hear the information about the industry to prepare for what you need to learn knowhow. In addition, students who already have a job that aim to visit seniors plan their careers and the skills necessary to equip determined to develop a career that any plan.
3 2 SYH0003 ENTREPRENEURSHIP AND BUSINESS LEADERSHIP Compulsory General Studies 2-2-0
Businesss Leadership (HELP 3) program is a course for juniors, which aims to help students 1) understand principles of capitalism and market economy and learn common sense in relation to economy and finance, 2) learn principles and nature of corporations and how to develop a critical view toward them, and 3) acquire an administrative mind through self-management.
4 1 CSE4021 Robotics Extended Major 3-3-0
This course provides a basic principle about setting coordination in considering robot manipulator, homogeneous transform, forward kinematics, inverse kinematics, forward dynamics, inverse dynamics, position & compliance control, statics, path setting, obstacle avoidance, degree of freedom robot and its application and so on. In this course, basic theory and application fields of robot engineering are introduced. Basic theory deals with coordinate setting method, coordinate transform, theory of mechanism, mechanical dynamics, robot mechanism, and control theory. To enhance understanding, robot theory of inverse-mechanics, computer simulation, robot construction practice using Lego, and design & experiment for robot mechanism, controller and sensor implementation. In addition, this course introduces field of robot research in present and future.
4 1 ECL4007 RENEWABLE DISTRIBUTED GENERATION Extended Major 3-3-0
Recently, renewable energy is expected to replace the coal and petroleum resources, due to their exhaustion. This lecture introduces the renewable energy resources and their electric characteristics, analysis their roles in the existing electric power networks and their performance as distributed generations, and also analysis the effect on the reduction of CO2 in the electrical and environmental viewpoints.
4 1 ECL4012 DIGITAL LOGIC DESIGN1 Extended Major 3-0-2
This course educates on the abilities for creativeness and application and it will start with the winter vacation of junior. Student should choose design subject by himself or herself or suggested by professor before November. A lesson is composed of one-hour lecture and two-hour experiment. Every student will perform design and experimentation based on the lecture with creativeness. This course should be evaluated and passed for his/her graduation.
4 1 ECL4016 Nolinear Circuit Design Core Major 3-3-0
His career as a wide range of knowledge and lessons learned in the previous semester plan to explore in depth the process. Employment working in the industry of major interest to seniors invited to hear the information about the industry to prepare for what you need to learn knowhow. In addition, students who already have a job that aim to visit seniors plan their careers and the skills necessary to equip determined to develop a career that any plan.
4 1 ECL4017 Plasma Electronics Extended Major 3-3-0
in electronics industry, low temperature plasmas are widely used. Especially plasma processing in ULSI semiconductor fabrication & display processing is a main processing and various applications to solar cells and environmental disposals have been developed. It is essential to understand low temperature plasma for inventing new fabrication process and development of a new processing apparatus. Fundamentals of plasma used in electronic industry and its applications will be introduced.
4 1 ECL4019 Intelligent Vehicle Control System Extended Major 3-3-0
In this course, students will be given an overview of vehicle control systems for Intelligent Transportation Systems (ITS). Background on modeling and control of vehicle control system is to be introduced, e.g. vehicle kinematics, vehicle dynamics, power steering system, tire model, adaptive cruise control, power train control, brake system, human factors and the role of the deriver in the control loop. Sensor system such as Radar, camera, Lidar, ultrasonic sensor, and GPS are covered. Further, they will learn how to design an controller for an integrated lateral and longitudinal vehicle control including collision detection and avoidance through object vehicle tracking, Upon completion of the course, they will be able to design an integrated control system for Lane keeping system (LKS) and lane change system (LXC) using a camera and radars.
4 1 ECR4004 Modern Control Theory Extended Major 3-3-0
This course provides stability, performance analysis and design of control system using bode diagram and Mathematical Modeling of Dynamic Systems, analysis and controller design method for Control System. Topics covered include: state-space models, modes, stability, controllability, observability, transfer function matrices, poles and zeros, minimality, internal stability of interconnected systems, feedback compensators, state feedback, optimal regulation, observers, observer-based compensators, measures of control performance, and robustness issues using singular values of transfer functions
4 1 ELE4004 Energy Conversion Engineering Extended Major 3-3-0
ELECTRO-MECHANICAL ENERGY CONVERSION Electro-Mechanical Energy Conversion is about the process of energy conversion. Usually, electric field and magnetic field are utilized for the process of energy conversion. As the magnetic field has an excellent characteristics for energy density, the magnetic field is usually used as a medium of transformation. Therefore, this lecture aims to acquire the expertism of machines' operating theory and analysis methods. In addition, we also focus on the study of induction machine, DC machines, special machine to gain useful information of the design, control, and analysis of electric machines.
4 1 ELE4005 Power Electronics Core Major 3-3-0
The power conversion control, which can control and convert an electrical energy according to the load characteristic, is divided into four types; AC/AC, AC/DC, DC/DC and DC/AC. The design and analysis of general power conversion control circuits and the implementation of application circuits about these types are treated. Also, the composition of control algorithm is lectured.
4 1 ELE4011 Electric Application Lab. 1 Extended Major 1-0-2
This course includes the application of electrical and control area, which is divided into five categories; Power Electronics, Power System, Control, Electrical Machinery, High Voltage and Electric Materials.
4 1 SYH0004 SELF-LEADERSHIP (Compulsory) Requirement in Fundamental Studies 2-2-0
HELP(Hanyang Essential Leadership Plus) is a key program of Hanyang University for educating students who want to be future CEOs. Self Leadership(HELP4) is a leadership development online program for seniors. This program aims to foster leaders based on an analysis of an individual's strengths and weaknesses and complete the Leadership Road Map. Learning contents of Self Leardership(HELP4) incluse Self-Assessment, Self-Management and Skills to apply in Social Practices. Learning objectives of each module are as follows; Self-Assessment: Grade value of the work to do and decide priority, understand importance and meaning of manners and improve manners in social life, and understand attitudes associated with success and put them into practice. Skills to Apply in Social Practice: Define followership, understand the principles of imagination and creativity. This 16 week length course had been developed by the high-tech teaching system and online course development methods.
4 1 TEA4008 Engineering Research and Guidance in Subject Matters Compulsory for Teacher Certification 2-2-0
In this course the contents and material of recent engineering textbooks are analyzed and the construction principle of engineering textbooks according to the 7th curriculum is investigated. The constitutional method of teaching materials is studied and the ability of application and variation of teaching materials is cultivated. Moreover, the purpose, contents, organization and strategies of the engineering education to be taught in junior and senior high schools are widely discussed.
4 1 TEA6008 Engineering Research and Guidance in Subject Matters --Major for Teacher Certifica-- 3-3-0
In this course the contents and material of recent engineering textbooks are analyzed and the construction principle of engineering textbooks according to the 7th curriculum is investigated. The constitutional method of teaching materials is studied and the ability of application and variation of teaching materials is cultivated. Moreover, the purpose, contents, organization and strategies of the engineering education to be taught in junior and senior high schools are widely discussed.
4 1 ECL4007 RENEWABLE DISTRIBUTED GENERATION Extended Major 3-3-0
Recently, renewable energy is expected to replace the coal and petroleum resources, due to their exhaustion. This lecture introduces the renewable energy resources and their electric characteristics, analysis their roles in the existing electric power networks and their performance as distributed generations, and also analysis the effect on the reduction of CO2 in the electrical and environmental viewpoints.
4 1 ECL4012 DIGITAL LOGIC DESIGN1 Extended Major 3-0-3
This course educates on the abilities for creativeness and application and it will start with the winter vacation of junior. Student should choose design subject by himself or herself or suggested by professor before November. A lesson is composed of one-hour lecture and two-hour experiment. Every student will perform design and experimentation based on the lecture with creativeness. This course should be evaluated and passed for his/her graduation.
4 1 ECL4015 Power Electronics Control Extended Major 3-3-0
Develop understanding of power devices and switching power converters including rectifiers and inverters, and develop skills for analysis and design of electronic power processing circuits and their control as applied to computer, telecommunication, transportation, and industrial systems.
4 1 ECL4018 ELECTRICAL ENGINEERING SEMINAR Extended Major 3-3-0
This course comprises of a seminar on electrical engineering and covers a broad spectrum of applications and fundamentals of electrical engineering. Invited speakers from various industries will review recent applications of electrical engineering in each field. after midterm, students will be strongly encouraged to make a presentation for a specific topic on electrical engineering. This course help student understand electrical engineering deeply and provide an opportunity for mapping out their career.
4 1 ECL4019 Intelligent Vehicle Control System Extended Major 3-3-0
In this course, students will be given an overview of vehicle control systems for Intelligent Transportation Systems (ITS). Background on modeling and control of vehicle control system is to be introduced, e.g. vehicle kinematics, vehicle dynamics, power steering system, tire model, adaptive cruise control, power train control, brake system, human factors and the role of the deriver in the control loop. Sensor system such as Radar, camera, Lidar, ultrasonic sensor, and GPS are covered. Further, they will learn how to design an controller for an integrated lateral and longitudinal vehicle control including collision detection and avoidance through object vehicle tracking, Upon completion of the course, they will be able to design an integrated control system for Lane keeping system (LKS) and lane change system (LXC) using a camera and radars.
4 1 ECR4004 Modern Control Theory Extended Major 3-3-0
This course provides stability, performance analysis and design of control system using bode diagram and Mathematical Modeling of Dynamic Systems, analysis and controller design method for Control System. Topics covered include: state-space models, modes, stability, controllability, observability, transfer function matrices, poles and zeros, minimality, internal stability of interconnected systems, feedback compensators, state feedback, optimal regulation, observers, observer-based compensators, measures of control performance, and robustness issues using singular values of transfer functions
4 1 ELE4004 Energy Conversion Engineering Extended Major 3-3-0
ELECTRO-MECHANICAL ENERGY CONVERSION Electro-Mechanical Energy Conversion is about the process of energy conversion. Usually, electric field and magnetic field are utilized for the process of energy conversion. As the magnetic field has an excellent characteristics for energy density, the magnetic field is usually used as a medium of transformation. Therefore, this lecture aims to acquire the expertism of machines' operating theory and analysis methods. In addition, we also focus on the study of induction machine, DC machines, special machine to gain useful information of the design, control, and analysis of electric machines.
4 1 ELE4011 Electric Application Lab. 1 Extended Major 1-0-2
This course includes the application of electrical and control area, which is divided into five categories; Power Electronics, Power System, Control, Electrical Machinery, High Voltage and Electric Materials.
4 1 SYH0004 SELF-LEADERSHIP (Compulsory) Requirement in Fundamental Studies 2-2-0
SELP Leadership(HELP4) program will give students chances to look back on themselves before they enter society and to analyze their advantages and weak points to complete the road map for leadership development. This class trains prepared leaders based on analysis of personal strengths and weaknesses and helps them to complete the Leadership Road Map.
4 1 TEA6008 Engineering Research and Guidance in Subject Matters --Major for Teacher Certifica-- 3-3-0
In this course the contents and material of recent engineering textbooks are analyzed and the construction principle of engineering textbooks according to the 7th curriculum is investigated. The constitutional method of teaching materials is studied and the ability of application and variation of teaching materials is cultivated. Moreover, the purpose, contents, organization and strategies of the engineering education to be taught in junior and senior high schools are widely discussed.
4 1 ECL4012 DIGITAL LOGIC DESIGN1 Extended Major 1-0-2
This course educates on the abilities for creativeness and application and it will start with the winter vacation of junior. Student should choose design subject by himself or herself or suggested by professor before November. A lesson is composed of one-hour lecture and two-hour experiment. Every student will perform design and experimentation based on the lecture with creativeness. This course should be evaluated and passed for his/her graduation.
4 1 ECL4015 Power Electronics Control Extended Major 3-3-0
Develop understanding of power devices and switching power converters including rectifiers and inverters, and develop skills for analysis and design of electronic power processing circuits and their control as applied to computer, telecommunication, transportation, and industrial systems.
4 1 ECL4018 Plasma technology for semiconductor Extended Major 3-3-0
This lecture provides basic knowledge about semiconductor & display device industry which accounts for 30-40% of Korea's GDP. Semiconductor manufacturing technology is gradually evolving, and it is time to make transistor of less than 10nm. Plasma etching technology is an ultrafine etching technology to make electronic devices on silicon with a size of about 100 atoms. This course provides basic knowledge of plasma process and plasma process equipment based on the understanding of electromagnetic characteristics of plasma which is the fourth state of material . It will be able to understand the state of the art for plasma etching technology and semiconductor industry.
4 1 ECL4019 Intelligent Vehicle Control System Extended Major 3-3-0
In this course, students will be given an overview of vehicle control systems for Intelligent Transportation Systems (ITS). Background on modeling and control of vehicle control system is to be introduced, e.g. vehicle kinematics, vehicle dynamics, power steering system, tire model, adaptive cruise control, power train control, brake system, human factors and the role of the deriver in the control loop. Sensor system such as Radar, camera, Lidar, ultrasonic sensor, and GPS are covered. Further, they will learn how to design an controller for an integrated lateral and longitudinal vehicle control including collision detection and avoidance through object vehicle tracking, Upon completion of the course, they will be able to design an integrated control system for Lane keeping system (LKS) and lane change system (LXC) using a camera and radars.
4 1 ECL4020 Energy Harvesting Technologies Extended Major 3-3-0
4 1 ECR4004 Modern Control Theory Extended Major 3-3-0
This course provides stability, performance analysis and design of control system using bode diagram and Mathematical Modeling of Dynamic Systems, analysis and controller design method for Control System. Topics covered include: state-space models, modes, stability, controllability, observability, transfer function matrices, poles and zeros, minimality, internal stability of interconnected systems, feedback compensators, state feedback, optimal regulation, observers, observer-based compensators, measures of control performance, and robustness issues using singular values of transfer functions
4 1 ELE4004 Energy Conversion Engineering Extended Major 3-3-0
ELECTRO-MECHANICAL ENERGY CONVERSION Electro-Mechanical Energy Conversion is about the process of energy conversion. Usually, electric field and magnetic field are utilized for the process of energy conversion. As the magnetic field has an excellent characteristics for energy density, the magnetic field is usually used as a medium of transformation. Therefore, this lecture aims to acquire the expertism of machines' operating theory and analysis methods. In addition, we also focus on the study of induction machine, DC machines, special machine to gain useful information of the design, control, and analysis of electric machines.
4 1 NUE4030 Introduction to Plasma Engineering Core Major 3-3-0
4 1 SYH0004 SELF-LEADERSHIP Compulsory General Studies 2-2-0
HELP(Hanyang Essential Leadership Plus) is a key program of Hanyang University for educating students who want to be future CEOs. Self Leadership(HELP4) is a leadership development online program for seniors. This program aims to foster leaders based on an analysis of an individual's strengths and weaknesses and complete the Leadership Road Map. Learning contents of Self Leardership(HELP4) incluse Self-Assessment, Self-Management and Skills to apply in Social Practices. Learning objectives of each module are as follows; Self-Assessment: Grade value of the work to do and decide priority, understand importance and meaning of manners and improve manners in social life, and understand attitudes associated with success and put them into practice. Skills to Apply in Social Practice: Define followership, understand the principles of imagination and creativity. This 16 week length course had been developed by the high-tech teaching system and online course development methods.
4 2 ECL4008 SPECIAL ELECTRIC MACHINES Extended Major 3-3-0
Generally electric machineries are classified as transformers, DC machines, induction machines, and synchronous machines. But the electric machineries can be assorted newly as following used materials or operation types. Especially because there appear many high effectiveness electric machines combined with power converters and position sensors in these days, the operation principle and characteristic analysis of them are very important learning. The specialized electric machineries are introduced and their applications are dealt with in this lecture.
4 2 ECL4009 FEEDBACK SYSTEMS Extended Major 3-3-0
This course provides an introduction to the basic principles and tools for the design and analysis of feedback systems. It is intended to serve the students who are interested in understanding and utilizing feedback in physical, biological, engineering, and information sciences. Basic principles of feedback and its use as a tool for altering the dynamics of systems and managing uncertainty are covered. Key themes throughout the course will include input/output response, modeling and model reduction, linear versus nonlinear models, and local versus global behavior.
4 2 ECL4010 VEHICLE ELECTRONIC CONTROL Extended Major 3-3-0
This course deals with the principles and functions of varying vehicle control systems. Especially, this course covers the fundamentals of engine control systems, chassis control systems, and hybrid electric vehicles; and some special issues such as the in-vehicle communication, the vehicle control development procedure, and the failsafe technique.
4 2 ECL4011 MOTOR DRIVE APPLICATION Extended Major 3-3-0
The Speed ․ Torque control principle, application and output performance is investigation in accordance with the control method of the dc and ac motor. To control of motor, the classic and modern control theory is utilized. This control theory used to analyze the control characteristic on a motor steady ․ dynamic state model. To realization, this lecture progress with microprocessor and power control circuit.
4 2 ECL4013 DIGITAL LOGIC DESIGN2 Extended Major 3-0-2
This course is prepared for the students who will graduate in summer or could not pass Creative Engineering Research I course. The contents of this course is same with Creative Engineering Research I.
4 2 ECL4014 INTRODUCTION TO INDUSTRIAL PLASMAS Extended Major 3-3-0
We will cover the plasma technologies (fiesta) like the following; (1) Fusion energy technology (FT: Tokamak, Stellerator, etc); (2) Information/Nano technology(IT/NT: Semi-conductor processing, Flat-panel display, etc); (3) Environmental technology (ET: Radioactive waste treatment, Flue gas treatment, Dust removal, Air cleaning, etc); (4) Space technology (ST; Propulsion system, Space charging, etc) (5) Accelerator technology (AT: Proton and Electron accelerator, etc). Besides these, special plasma applications will be treated such as Medical technology (Skin treatment, etc), Cosmology (Hawking radiation, Plasma beam expansion, etc), and Helio-science (Magnetic re-connection, Ionosphere/magnetosphere phenomena, Aurora, etc)
4 2 ECL4015 Power Electronics Control Extended Major 3-3-0
Develop understanding of power devices and switching power converters including rectifiers and inverters, and develop skills for analysis and design of electronic power processing circuits and their control as applied to computer, telecommunication, transportation, and industrial systems.
4 2 ECL4018 ELECTRICAL ENGINEERING SEMINAR Extended Major 3-3-0
This course comprises of a seminar on electrical engineering and covers a broad spectrum of applications and fundamentals of electrical engineering. Invited speakers from various industries will review recent applications of electrical engineering in each field. after midterm, students will be strongly encouraged to make a presentation for a specific topic on electrical engineering. This course help student understand electrical engineering deeply and provide an opportunity for mapping out their career.
4 2 ELE4012 Electric Application Lab. 2 Extended Major 1-0-2
This course includes the application of electrical and control area, which is divided into five categories; Power Electronics, Power System, Control, Electrical Machinery, High Voltage and Electric Materials.
4 2 ECL4009 FEEDBACK SYSTEMS Extended Major 3-3-0
This course provides an introduction to the basic principles and tools for the design and analysis of feedback systems. It is intended to serve the students who are interested in understanding and utilizing feedback in physical, biological, engineering, and information sciences. Basic principles of feedback and its use as a tool for altering the dynamics of systems and managing uncertainty are covered. Key themes throughout the course will include input/output response, modeling and model reduction, linear versus nonlinear models, and local versus global behavior.
4 2 ECL4010 VEHICLE ELECTRONIC CONTROL Extended Major 3-3-0
This course deals with the principles and functions of varying vehicle control systems. Especially, this course covers the fundamentals of engine control systems, chassis control systems, and hybrid electric vehicles; and some special issues such as the in-vehicle communication, the vehicle control development procedure, and the failsafe technique.
4 2 ECL4011 MOTOR DRIVE APPLICATION Extended Major 3-3-0
The Speed ․ Torque control principle, application and output performance is investigation in accordance with the control method of the dc and ac motor. To control of motor, the classic and modern control theory is utilized. This control theory used to analyze the control characteristic on a motor steady ․ dynamic state model. To realization, this lecture progress with microprocessor and power control circuit.
4 2 ECL4013 DIGITAL LOGIC DESIGN2 Extended Major 3-0-3
This course is prepared for the students who will graduate in summer or could not pass Creative Engineering Research I course. The contents of this course is same with Creative Engineering Research I.
4 2 ECL4014 INTRODUCTION TO INDUSTRIAL PLASMAS Extended Major 3-3-0
We will cover the plasma technologies (fiesta) like the following; (1) Fusion energy technology (FT: Tokamak, Stellerator, etc); (2) Information/Nano technology(IT/NT: Semi-conductor processing, Flat-panel display, etc); (3) Environmental technology (ET: Radioactive waste treatment, Flue gas treatment, Dust removal, Air cleaning, etc); (4) Space technology (ST; Propulsion system, Space charging, etc) (5) Accelerator technology (AT: Proton and Electron accelerator, etc). Besides these, special plasma applications will be treated such as Medical technology (Skin treatment, etc), Cosmology (Hawking radiation, Plasma beam expansion, etc), and Helio-science (Magnetic re-connection, Ionosphere/magnetosphere phenomena, Aurora, etc)
4 2 ELE4012 Electric Application Lab. 2 Extended Major 1-0-2
This course includes the application of electrical and control area, which is divided into five categories; Power Electronics, Power System, Control, Electrical Machinery, High Voltage and Electric Materials.
4 2 ECL4007 RENEWABLE DISTRIBUTED GENERATION Extended Major 3-3-0
Recently, renewable energy is expected to replace the coal and petroleum resources, due to their exhaustion. This lecture introduces the renewable energy resources and their electric characteristics, analysis their roles in the existing electric power networks and their performance as distributed generations, and also analysis the effect on the reduction of CO2 in the electrical and environmental viewpoints.
4 2 ECL4010 VEHICLE ELECTRONIC CONTROL Extended Major 3-3-0
This course deals with the principles and functions of varying vehicle control systems. Especially, this course covers the fundamentals of engine control systems, chassis control systems, and hybrid electric vehicles; and some special issues such as the in-vehicle communication, the vehicle control development procedure, and the failsafe technique.
4 2 ECL4013 DIGITAL LOGIC DESIGN2 Extended Major 1-0-2
This course is prepared for the students who will graduate in summer or could not pass Creative Engineering Research I course. The contents of this course is same with Creative Engineering Research I.
4 2 ECL4014 INTRODUCTION TO INDUSTRIAL PLASMAS Extended Major 3-3-0
We will cover the plasma technologies (fiesta) like the following; (1) Fusion energy technology (FT: Tokamak, Stellerator, etc); (2) Information/Nano technology(IT/NT: Semi-conductor processing, Flat-panel display, etc); (3) Environmental technology (ET: Radioactive waste treatment, Flue gas treatment, Dust removal, Air cleaning, etc); (4) Space technology (ST; Propulsion system, Space charging, etc) (5) Accelerator technology (AT: Proton and Electron accelerator, etc). Besides these, special plasma applications will be treated such as Medical technology (Skin treatment, etc), Cosmology (Hawking radiation, Plasma beam expansion, etc), and Helio-science (Magnetic re-connection, Ionosphere/magnetosphere phenomena, Aurora, etc)