Electric Circuit Ⅲ

Course Information

College	Toyama College	Year	2022
Course Title	Electric Circuit Ⅲ
Course Code	0078	Course Category	Specialized / Elective
Class Format	Lecture	Credits	School Credit: 1
Department	Department of Electronics and Computer Engineering	Student Grade	4th
Term	First Semester	Classes per Week	2
Textbook and/or Teaching Materials	電気回路を理解する[第2版]　小澤孝夫著　森北出版
Instructor	Tsukada Akira

Course Objectives

After learning this course the students should be able to:
1. Ｍake node-voltage equations and mesh-current equations.
2. Calculate the variables of mutual inductance circuits.
3. Calculate ABCD-parameters of AC circuits.
4. Calculate the time behavior of simple circuits.

Rubric

	Ideal Level of Achievement (Very Good)	Standard Level of Achievement (Good)	Unacceptable Level of Achievement (Fail)
Evaluation 1	Be able to calculate the time behavior of various circuits.	Be able to calculate the time behavior of simple circuits.	Be not able to calculate the time behavior of simple circuits.
Evaluation 2	Be able to make node-voltage equations and mesh-current equations from complex circuits.	Be able to make node-voltage equations and mesh-current equations.	Be not able to make node-voltage equations and mesh-current equations.
Evaluation 3	Be able to calculate the variables of mutual inductance circuits and ideal transformer.	Be able to calculate the variables of mutual inductance circuits.	Be not able to calculate the variables of mutual inductance circuits.
Evaluation 4	Be able to calculate ABCD-parameters of cascaded network.	Be able to calculate ABCD-parameters of AC circuits.	Be not able to calculate ABCD-parameters of AC circuits.

Assigned Department Objectives

MCCコア科目 See

JABEE B2 See

ディプロマポリシー 1 See

Teaching Method

Outline:

In modern society, various electrical and electronic circuits enrich our lives. The purpose of this course is to acquire a basic analysis method to understand the mechanism of the electric circuit and the electronic circuit which is used in these. This subject focuses on nodal and mesh analysis, mutual inductance, two-port network and transient analysis.

Style:

Lectures led by teacher

Notice:

The recognition of credit requires 60 points or more rating.

Characteristics of Class / Division in Learning

Active Learning	Aided by ICT	Applicable to Remote Class	Instructor Professionally Experienced

Course Plan

			Theme	Goals
1st Semester
	1st Quarter
		1st	Guidance Differential equations	Be able to solve first and second order differential equations.
		2nd	Transient responses for RC circuits	Be able to calculate the time behavior of first order circuits containing resistors and capacitor.
		3rd	Transient responses for RLC circuits	Be able to calculate the time behavior of second order circuits.
		4th	Transient responses practice (1)	Be able to calculate the time behavior of first order circuit excited by sinusoidal voltage.
		5th	Transient responses practice (2)	Be able to calculate the time behavior of various circuits.
		6th	Nodal analysis	Be able to describe the nodal analysis.
		7th	Node-voltage equations	Be able to make node-voltage equations.
		8th	Mesh analysis	Be able to make mesh-current equations.
	2nd Quarter
		9th	Midterm exam	Midterm exam
		10th	Mutual inductance	Be able to calculate the variables of mutual inductance circuits.
		11th	Mutual inductance	Be able to calculate the mutual inductance of various circuits.
		12th	Ideal transformer	Be able to describe the ideal transformer.
		13th	ABCD-parameters	Be able to calculate ABCD-parameters of AC circuits.
		14th	ABCD-parameters	Be able to calculate ABCD-parameters of cascaded network.
		15th	Final exam	Final exam
		16th	Summary	Summarize the study content and confirm grades

Evaluation Method and Weight (%)

	試験	課題・小テスト	相互評価	態度	ポートフォリオ	その他	Total
Subtotal	80	20	0	0	0	0	100
Basic Ability	0	0	0	0	0	0	0
Technical Ability	80	20	0	0	0	0	100
Interdisciplinary Ability	0	0	0	0	0	0	0