Electrical Circuit Theory 3

Course Information

College	Anan College	Year	2024
Course Title	Electrical Circuit Theory 3
Course Code	1314A01	Course Category	Specialized / Compulsory
Class Format	Lecture	Credits	Academic Credit: 2
Department	Course of Electrical Engineering	Student Grade	4th
Term	First Semester	Classes per Week	前期:2
Textbook and/or Teaching Materials	Advanced Electric Circuit Development (Ohmsha) / Specialized Basic Library Electric Circuit (Jikkyo Shuppan)
Instructor	Kozai Takanori

Course Objectives

1. The circuit equation of the lumped constant circuit can be derived, and the transient phenomenon there can be analyzed.
2. Explain the meaning of the Fourier series and calculate the distorted wave circuit.
3. The terminal circuit can be analyzed and various parameters can be calculated.

Rubric

	Ideal Level	Standard Level	Minimum Level
Achievement Goal 1	Able to calculate the circuit equation described by the differential equation using the Laplace transform. Able to illustrate the excessive response of the circuit on the time axis to explain its characteristics.	Able to calculate circuit equations described by differential equations. You can formulate a circuit equation and calculate the transient response of the circuit.	Able to make a circuit equation with a differential equation. You can formulate circuit equations.
Achievement Goal 2	The excessive response of the circuit can be illustrated on a time axis to explain its characteristics.	Able to formulate circuit equations and calculate the transient response of a circuit.	Able to formulate circuit equations.
Achievement Goal 3	Able to expand a given waveform into a Fourier series by using the characteristics of odd and even functions. In addition, the effective value of strain, each harmonic power, and strain rate can be calculated.	Able to expand a given waveform into a Fourier series by using the characteristics of odd and even functions.	Able to calculate the Fourier series of a given waveform .
Achievement Goal 4	Able to to analyze a circuit to which a power supply including harmonics is connected.	Able to use the result of the Fourier series expansion to calculate the impedance of the circuit corresponding to the harmonics.	Able to determine the relationship between harmonics and circuit parameters .
Achievement Goal 5	Using the F parameter, able to calculate parameters in a series connection of a two-terminal pair circuit.	Able to calculate Z, Y, and F parameters in a two-port network.	Able to calculate each parameter in a two terminal pair circuit.

Assigned Department Objectives

学習・教育到達度目標 D-1 See

Teaching Method

Outline:

Learn about network theory and transient phenomenon theory, which are basic knowledge in electrical and electronic engineering.

Style:

It deals with the transient phenomenon of DC circuits, the calculation method of distorted waves by Fourier series expansion, and the matrix notation of circuit constants by two-terminal pair circuit network. In addition to solving exercises to fully master the theory and solution, self-study tasks are given. Classes will be conducted in a classroom format using a blackboard. Since this subject is a study credit subject, reports will be provided as pre- and post-study.

Notice:

In order to fully understand this lecture, knowledge of "electrical circuit theory", "electromagnetics", "trigonometric functions", "calculus", "differential equations", and "matrix" is indispensable. In addition, voluntarily work on exercises in reference books to deepen your understanding.
Ask questions to clarify the parts you do not understand.

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	Transient phenomenon theory	Able to explain the characteristics of transient phenomena.
		2nd	Transient phenomenon theory	Able to explain the characteristics of transient phenomena. Calculate the transient phenomenon of a single energy circuit.
		3rd	Transient phenomenon theory	Able to explain the characteristics of transient phenomena. Calculate the transient phenomenon of a single energy circuit.
		4th	Transient phenomenon theory	Able to explain the characteristics of transient phenomena. Calculate the transient phenomenon of a single energy circuit. Able to explain how to solve differential equations using Laplace transform.
		5th	Transient phenomenon theory	Able to explain the characteristics of transient phenomena. Calculate the transient phenomenon of a single energy circuit. Able to explain how to solve differential equations using Laplace transform.
		6th	Transient phenomenon theory	Able to explain the characteristics of transient phenomena. Able to explain how to solve differential equations using Laplace transform. It is possible to calculate the transient phenomenon of a multi-energy circuit.
		7th	First half test
		8th	Distorted wave	Able to explain the meaning of Fourier series expansion.
	2nd Quarter
		9th	Distorted wave	Distorted waves can be calculated by Fourier series expansion.
		10th	Distorted wave	Able to explain the orthogonality of trigonometric functions and the characteristics of even and odd functions.
		11th	Distorted wave	Distorted wave circuits can be analyzed.
		12th	2-terminal pair circuit	Various matrices can be displayed in a 2- terminal pair circuit.
		13th	2-terminal pair circuit	Circuit calculation can be performed using 2- terminal pair parameters (Z, Y parameters).
		14th	2-terminal pair circuit	Various matrices can be displayed in a 2- terminal pair circuit. Circuit calculation can be performed using a 2- terminal pair parameter (F parameter).
		15th	2-terminal pair circuit	Various matrices can be displayed in a 2- terminal pair circuit. Circuit calculations can be performed using parameters.
		16th	Previous term exam

Evaluation Method and Weight (%)

	Midterm / Final exam	Quiz	Portfolio	Presentation / Attitude	other	Total
Subtotal	60	30	0	0	10	100
Basic Proficiency	60	30	0	0	10	100
Specialized Proficiency	0	0	0	0	0	0
Cross Area Proficiency	0	0	0	0	0	0