Practice of Electrical and Electronic Engineering
| Numbering Code | U-ENG26 36201 EJ72 | Year/Term | 2022 ・ First semester | |
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| Number of Credits | 2 | Course Type | Experiment | |
| Target Year | Target Student | |||
| Language | Japanese | Day/Period | Fri.1・2・3・4 | |
| Instructor name |
FUNATO MITSURU (Graduate School of Engineering Associate Professor) ANDO YUUICHIROU (Graduate School of Engineering Associate Professor) NAKAMURA TAKETSUNE (Graduate School of Engineering Program-Specific Professor) UEDA YOSHIKATSU (Research Institute for Sustainable Humanosphere Assistant Professor) OKAMOTO RYOU (Graduate School of Engineering Associate Professor) KOBAYASHI KEI (Graduate School of Engineering Associate Professor) HOSOE YOUHEI (Graduate School of Engineering Senior Lecturer) SHIGEMATSU EI (Graduate School of Engineering Assistant Professor) ETO YUJIRO (Graduate School of Engineering Associate Professor) UEDA HIROYUKI (Graduate School of Engineering Assistant Professor) SATO TAKEHIRO (Graduate School of Informatics Associate Professor) Marc A. Kastner (Graduate School of Informatics Assistant Professor) |
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| Outline and Purpose of the Course |
In this course, students acquire fundamental knowledge and practical skills, via basic experiments and discussions, regarding electrical machines, semiconductor properties and devices, electromagnetic waves, computers, and communications. |
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| Course Goals | The goals of this class are for students to gain an understanding of fundamental items, including the principles and characteristics of various electrical equipment, semiconductor characteristics and device characteristics, electromagnetic wave propagation and interference, computer hardware and software, characteristics of communication methods, etc. | |||
| Schedule and Contents |
Overview of practical of electrical and electronic engineering (1 class) Explanation is made of fundamental items and points of special precaution for experiments in electrical and electronic engineering, and students are educated in safety issues related to experiments. Electrical equipment and devices (2 classes) Students perform measurement of the basic characteristics of transformers, induction machines, direct current (DC) machines, and synchronous machines. Students will gain an understanding of the characteristics of generators and electric motors, and they will also study three-phase alternating current. Semiconductor characteristics and devices (4 classes) Students will measure band gap, light absorption, and other characteristics of semiconductors; measurement is also made of the characteristics of diodes and field-effect transistors, basic devices that use semiconductors. In this way, students gain an understanding of their operations and of the physics that serve as the background for such devices. Fundamentals of electromagnetic waves (2 classes) Experiments are performed on the propagation of electromagnetic waves in dual conductor lines and in free space, enabling students to gain knowledge of the characteristics and measurement methods of electromagnetic waves. Microcomputers (2 classes) Using microcomputers, students will gain an understanding the structure (composition) and functions of computers, as well as an understanding of the relationships between hardware and software within a computing system. Communications fundamentals (2 classes) Measurement is made of time signals and frequency spectra, the basic modulation method used in communications. Students will understand the characteristics of various modulation methods, as well as the effects of sampling. Confirmation of extent of student learning (2 classes) Discussion is made regarding experiment methods and contents, enabling students to deepen their understanding of experiment details and giving them a greater ability to explain the like. Additionally, confirmation is made of the extent of student learning. |
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| Evaluation Methods and Policy | From the contents of experiment reports, evaluations can be made with respect to the extent of student learning of experimental techniques, as well as regarding the level of their understanding of electrical and electronic circuits. Evaluation will also be made of each student’s attitudes and engagement in the experimental laboratory. Therefore, attendance at experiments is mandatory! | |||
| Course Requirements |
Prerequisites for this course are student acquisition of fundamental knowledge of electrical circuits, electronic circuits, and electromagnetism. Students must also have completed a course in fundamental practice of electrical & electronic engineering. |
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| Study outside of Class (preparation and review) | Students must read and study the textbook before each experiment. | |||
| Textbooks | Textbooks/References |
京都大学工学部電気系教室編:電気電子工学実験2019年版 |
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| References, etc. |
京都大学工学部電気系教室編:電気電子工学基礎実験 |
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| Related URL | ||||
