Introduction to Electronics
| Numbering Code |
U-ENG25 25300 LJ71 U-ENG25 25300 LJ77 |
Year/Term | 2022 ・ First semester |
|---|---|---|---|
| Number of Credits | 2 | Course Type | Lecture |
| Target Year | Target Student | ||
| Language | Japanese | Day/Period | Tue.5 |
| Instructor name |
AWANO HIROMITSU (Graduate School of Informatics Associate Professor) HASHIMOTO MASANORI (Graduate School of Informatics Professor) |
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| Outline and Purpose of the Course | In this course, students will learn about the basic characteristics of electronic circuits, digital circuits that are indispensable in today's information society, and computer architecture as hardware for running programs. | ||
| Course Goals | In this course, students will learn the minimum level of electronic circuits required for research in the Department of Physics and the Department of Computer Science, and as researchers and engineers. | ||
| Schedule and Contents |
The order and number of lectures for each topic are not fixed, and are subject to change by the lecturer depending on the lecture policy of the instructor and the background and understanding of the students. * Fundamentals of Electronic Circuits (3 clases) Learn DC, AC, and transient analysis. * Amplification Circuits (1 class) Learn about amplification circuits using operational amplifiers. * Fundamentals of digital logic circuits (1 class) Learn fundamentals of logic circuits including Boolean algebra, Karnaugh diagrams, etc. * Sequential circuits (1 class) Learn how to construct circuits with internal states. * Circuit Delay (1 class) Learn about what determines the operating speed of a circuit. * Digital representation of numbers (1 class) Learn how to represent numbers including floating point format, which is often used in scientific and technological calculations. * Arithmetic logic circuits (1 class) Learn about the structure of arithmetic circuits for digitally represented numbers. * Overview of computer architecture (1 class) Learn about the configuration of computers, the hardware that executes programs. * Machine language (1 class) Learn about the relationship between high-level languages such as C and instructions that can be interpreted by hardware. * Composition of computer architecture (2 classes) Learn about the composition and operation of computers, using a processor that can execute simple instructions as an example. * Integrated circuit manufacturing process (1 class) * Feedback (1 class) Translated with www.DeepL.com/Translator (free version) |
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| Evaluation Methods and Policy | Multiple report assignments will be given during the course to evaluate the achievement of the objectives. | ||
| Course Requirements | Students who do not specialize in electrical and electronic engineering can take this course if they have some prior knowledge of high school physics. | ||
| Study outside of Class (preparation and review) | Students are required to review mathematical expressions using complex numbers in advance. | ||
| Related URL | |||
