シラバス詳細

タイトル「2024年度」、カテゴリ「理工学研究科(博士前期課程)」

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科目情報

コースナンバリング

科目名

Advanced Pulsed Power Engineering
開講学期

後期
開講時期

3クォータ
曜日・校時

火1
単位数

2
授業担当教員

猪原 哲

講義情報

講義形式

Lecture

講義概要

The fundamental knowledge, applications and latest trend of high voltage pulsed power research will be provided in this lecture.

開講意図

Although few high-voltage pulsed power engineering have been put into practical use, they are expected to be applied in various fields. High-voltage pulsed power engineering is based on electromagnetism and electrical circuits, and I will review what we have learned in the faculty and learn about its applications.

到達目標

You will be interested in a wide range of fields, not just electrical and electronic engineering, and will be able to broaden your knowledge in fields other than your own specialty.

聴講指定

none

履修上の注意

This field is based on electrical circuits and electromagnetism. Please take this class while looking back on them as appropriate.

授業計画

内容

授業以外の学習
本科目は、単位数×45時間の学修が必要な内容で構成されています。授業として実施する学修の他に、授業の内容を深めるために以下の事前・事後学修が必要です。

1

Pulsed Power Overview:
We will explain the outline of this lecture, such as the basics and applications of pulse power engineering.

Prepare for the generation of initial electrons and avalanche in gas based on the materials.

2

Generation of initial electrons in gas, generation of electron avalanche:
Explains the generation principle of initial electrons and the generation principle of electron avalanche

Review the contents of this lecture and prepare for Paschen's law based on the materials.

3

Principle of dielectric breakdown phenomenon in gas:
Explains the derivation of Paschen's law, its physical meaning, etc.

Review the contents of this lecture and prepare for the gap switch based on the materials.

4

Engineering application of dielectric breakdown phenomenon in gas:
Explains the engineering concept when applying the dielectric breakdown phenomenon to a "gap switch"

Review the contents of this lecture and prepare for dielectric breakdown in liquids and solids based on the materials.

5

Basics of dielectric breakdown in liquids and solids:
Explain the basic principle of dielectric breakdown in liquids and solids

Review the contents of this lecture and prepare for capacitive energy storage based on the materials.

6

Capacitive energy storage:
Explains the principle of energy storage and the principle of capacitive energy storage in pulsed power generation

Review the contents of this lecture and prepare for inductive energy storage based on the materials.

7

Inductive energy storage:
Explain the principle of capacitive energy storage

Review the contents of this lecture and prepare for switch technology based on the materials.

8

Basics of switch technology:
Explains the role of switching in pulse power generation, classification of various switching elements, features, etc.

Review the contents of this lecture and prepare for various switching elements based on the materials.

9

Principle of various switching elements:
Explains the operating principle and usage of various switching elements

Review the contents of this lecture and prepare for the distributed constant line based on the materials.

10

Pulse formation line / transmission line:
Explains the role of distributed constant lines in pulse power generation and how to use them.

Review the contents of this lecture and prepare for the basics of pulsed power power supply based on the materials.

11

Pulsed power power supply basics:
Based on the contents of the lectures so far, we will explain the basic configuration and operating principle of the pulse power power supply.

Review the contents of this lecture and prepare for the basics of pulsed power power supply based on the materials.

12

Application of pulsed power power supply:
Explain specific examples of pulsed power power supplies and application methods

Review the contents of this lecture and prepare for the basics of voltage and current measurement based on the materials.

13

Pulse power measurement:
Explains how to measure high voltage and large current with pulse widths from microseconds to nanoseconds.

Review the contents of this lecture and prepare for the application of pulse power based on the materials.

14

Pulse power application:
Explains application examples of pulse power, mainly for industrial applications, including the principle.

Review the contents of this lecture and prepare for the application of pulse power based on the materials.

15

Pulse power application:
We will explain application examples of pulsed power, mainly bio-application, including the principle.

Review the contents of this lecture

成績評価の方法と基準

Evaluate by submitted report
At least 60 points is needed to pass the class

開示する成績評価の根拠資料等

Disclosure of exercise / report submission status, scoring results, and attendance status table

開示方法

Participation will be disclosed at any time if requested. The disclosure location is the laboratory (Room 305, 3rd floor, North Building, Faculty of Science and Technology Building 5)

教科書

資料名

著者名

発行所名・発行者名

出版年

備考(巻冊:上下等)

ISBN

none

none

オフィスアワー

月曜5限目

アクティブラーニング導入状況

アクティブラーニング導入状況

カテゴリー4

カテゴリー3

カテゴリー2

カテゴリー1

カテゴリー0

学生が自ら主体となって、学習の方向性を定め、問題解決に導くための時間です。PROBLEM BASED LEARNING

グループや個人で行った能動的学習の成果を、教室内外で発表し、その評価を受けたり、質問に対応したりすることにより、学修した内容を深化させるための時間です。OUTPUT

学生自らが自由に発言し、グループやペアでの協働活動により課題に取り組み、何らかの帰結に到達するための能動的学習の時間です。INTERACTION

学生からの自由な発言機会はないものの、授業時間中に得られた知識や技能を自ら運用して、問題を解いたり、課題に取り組んだり、授業の振り返りをしたりする能動的学習を行う時間です。ACTION

基本的に学生は着席のまま、講義を聞き、ノートをとり、知識や技能を習得に努める時間です。INPUT

0

0

0

30

70