Sophomore - 1st semester
| Course No. | Course Title | Courcse Description | Credit-Lecture Hr.-Prac. Training |
|---|---|---|---|
| COE3051 | ENGINEERING MATHEMATICS 1 | In this subject, we learn ordinary differential equation (O.D.E.), linear differential equation(L.D.E.), series and 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. | 3.00-3.00-0.00 |
| CSE2010 | DATA STRUCTURES | Provides a comprehensive introduction to the modern study of computer algorithms and data structure: formal specifications and representation of lists, arrays, trees, graphs, and multi-linked structures. Analysis of associated algorithms. Sorting and searching file structures and relational data models. | 3.00-3.00-0.00 |
| ECC1004 | CIRCUIT THEORY 1 | 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. | 4.00-3.00-2.00 |
| ELE4077 | THE PHYSICS OF SOLID STATE ELECTRONICS | As a introduction of lecture about solid-state electronics, after learning the basis of the quantum theory about solid materials, explains device physics in detail.1. Crystal properties and growth of semiconductors: Semiconductor materials, crystal lattices, bulk crystal growth, epitaxial growth2. Atoms and electrons: The Bohr model, quantum mechanics, atomic structure and the periodic table3. Energy bands and charge carriers in semiconductors: Bonding forces and energy bands in solids, charge carriers in semiconductors, carrier concentrations, drift of carriers in electric and magnetic fields, invariance of the Fermi level at equilibrium4. Excess carriers in semiconductors: Optical absorption, luminescence, carrier lifetime and photoconductivity, diffusion of carriers5. Junctions Fabrication of p-n junctions, equilibrium conditions, forward- and reverse-biased junctions; steady state conditions, reverse-bias breakdown, transient and A-C conditions, metal-semiconductor junctions, heterojunctions | 3.00-3.00-0.00 |
| MAT2003 | LINEAR ALGEBRA | In this course, we will study the matrix theory which is indispensible to the whole engineering and science areas such as electrical engineering, computer engineering, physics, chemistry, biology, econimics, psychology, etc. The subjects covered in this course include Systems of linear equations, Gaussian elimination, Vector spaces, Fundamentals up spaces of matrix, Matrix arithmetic, Determinants, Eigenvalues and eigenvectors, Orthogonality, Gram-Schmidt orthogonalization, Diagonalization, Similarity, Positive definite. | 2.00-2.00-0.00 |
| PHY2013 | ENGINEERING ELECTROMAGNETICS | This course covers the fundamentals of electromagnetics. The students are assumed to have completed the fundamental physics and calculus courses and, therefore, are expected to be competent at differentiation and integration. In the beginning, the basic vector analysis techniques are studied. The following subjects are covered: Coulomb’s law and electric field; Gauss’s law; electric potential and energy; Poisson’s and Laplace’s equations; dielectrics and conductor; capacitor; magnetostatics and Biot-Savart's law; magnetic vector potential; inductor | 3.00-3.00-0.00 |
Sophomore - 2nd semester
| Course No. | Course Title | Courcse Description | Credit-Lecture Hr.-Prac. Training |
|---|---|---|---|
| COE3052 | ENGINEERING MATHEMATICS 2 | In this subject, we learn ordinary differential equation (O.D.E.), linear differential equation(L.D.E.), series and 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. | 3.00-3.00-0.00 |
| CSE2011 | MICROPROCESSOR | Provides a comprehensive introduction to the modern study of computer algorithms and data structure: formal specifications and representation of lists, arrays, trees, graphs, and multi-linked structures. Analysis of associated algorithms. Sorting and searching file structures and relational data models. | 4.00-3.00-2.00 |
| ECC1006 | CIRCUIT THEORY 2 | 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. | 3.00-3.00-0.00 |
| ECE3008 | SIGNALS AND SYSTEMS | As a introduction of lecture about solid-state electronics, after learning the basis of the quantum theory about solid materials, explains device physics in detail.1. Crystal properties and growth of semiconductors: Semiconductor materials, crystal lattices, bulk crystal growth, epitaxial growth2. Atoms and electrons: The Bohr model, quantum mechanics, atomic structure and the periodic table3. Energy bands and charge carriers in semiconductors: Bonding forces and energy bands in solids, charge carriers in semiconductors, carrier concentrations, drift of carriers in electric and magnetic fields, invariance of the Fermi level at equilibrium4. Excess carriers in semiconductors: Optical absorption, luminescence, carrier lifetime and photoconductivity, diffusion of carriers5. Junctions Fabrication of p-n junctions, equilibrium conditions, forward- and reverse-biased junctions; steady state conditions, reverse-bias breakdown, transient and A-C conditions, metal-semiconductor junctions, heterojunctions | 3.00-3.00-0.00 |
| ECR2001 | PROBABILITY &STATISTICS IN ENGINEERING | In this course, we will study the matrix theory which is indispensible to the whole engineering and science areas such as electrical engineering, computer engineering, physics, chemistry, biology, econimics, psychology, etc. The subjects covered in this course include Systems of linear equations, Gaussian elimination, Vector spaces, Fundamentals up spaces of matrix, Matrix arithmetic, Determinants, Eigenvalues and eigenvectors, Orthogonality, Gram-Schmidt orthogonalization, Diagonalization, Similarity, Positive definite. | 3.00-3.00-0.00 |
| ENE4029 | SEMICONDUCTOR DEVICES | Study on the device physics and operation for p-n diode, field-effect transistor, bipolar transistor, and optoelectronic device as a semiconductor device1. Junction (1) Fabrication of p-n Junctions (2) Equilibrium Conditions (3) Forward- and Reverse-Biased Junctions (4) Reverse-Bias Breakdown (5) Transient and A-C Conditions (6) Metal-Semiconductor Junctions (7) Heterojunctions2. Field-effect transistor (1) Transistor Operation (2) The Junction FET (3) The Metal-Semiconductor FET (4) The Metal-Insulator-Semiconductor FET (5) The Metal-Oxide-Semiconductor FET3. Bipolar junction transistor (1) Fundamentals of BJT Operation (2) Amplication with BJTs (3) BJT Fabrication (4) Minority Carrier Distributions and Terminal Currents (5) Generalized Biasing (6) Switching (7) Frequency Limitations of Transistors4. Optoelectronic devices (1) Photodiodes (2) Light-emitting diodes (3) Lasers (4) Semiconductor lasers | 3.00-3.00-0.00 |
| PHY2014 | FIELD &WAVE ELECTROMAGNETICS | This course covers Faraday’s Law and displacement current; fundamental concepts of Maxwell’s Equations; basic transmission line theory; basic properties and phenomenon of wave propagation on transmission line; develop equations for wave propagation on a transmission 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 dispersive media | 3.00-3.00-0.00 |
| SYH0002 | GLOBAL LEADERSHIP (HELP2) | 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. | 3.00-3.00-0.00 |