Exercise in Electric Circuits

Course title

E0090000

	takami hiroshi
	irikura takashi

Course description

Students will verse themselves in basic solutions of DC and AC circuits by the follows:
(1) basic laws and theorems of dc circuit
(2) alternating circuit analysis by instantaneous and complex vector expressions
(3) evaluations of electric power, analyses of resonance circuit and bridge circuit

Purpose of class

Students understand important laws and theorems concerned with simple electric circuits, and they will be able to calculate problems of simple electric circuits.

Goals and objectives

Theorems and laws of the DC circuit are to be studied. The simple DC circuit can be calculated.
Complex vector expression is to be studied. The simple DC circuit in series, parallel and combined them
can be calculated.
Theorems and laws in the AC circuits are to be studied. The simple network of the AC circuit
can be calculated by complex vector expression.
Electric power and power factor in the AC circuits are to be studied, and basic characteristics of
the resonance circuit and AC bridge circuit are understood and can be solved.

Language

Japanese

Class schedule

	Class schedule	HW assignments (Including preparation and review of the class.)	Amount of Time Required
1.	Introduction (What’s electricity, Ohm’s law, series and parallel circuits, voltage drop, divisions of voltage and current)	Review the Electric Circuits 1	120minutes
2.	Analysis of the DC circuit 1 (basic problems) (series circuit, parallel circuit, combined circuit, resistance coefficient, thermal coefficient, Joule’s law, electric power consumption, loss, efficiency)	Review the Electric Circuits 1	120minutes
3.	Analysis of the DC circuit 2 (practical problems) (Cramer's rule, electromotive force, electric potential, Kirchhoff’s law, solution of DC circuit)	Review the Electric Circuits 1	120minutes
4.	Analysis of the DC circuit 3 (applied problems) (principle of superposition, Thevenin's theorem, Wheatstone bridge)	Review the Electric Circuits 1	120minutes
5.	Analysis of the AC circuit 1 (basic problems) (definition of sinusoidal AC, AC devices and their characteristics, complex number and complex vector, complex vector expression of sinusoidal AC)	Review the Electric Circuits 1	120minutes
6.	Analysis of the AC circuit 2 (practical problems) (applying complex vector to AC circuit solution, impedance and admittance)	Review the Electric Circuits 1	120minutes
7.	Analysis of the AC circuit 3 (applied problems) (series circuit, parallel circuit, combined circuit)	Review the Electric Circuits 1	120minutes
8.	Explanation of Midterm exam and applied problems	Review the Electric Circuits 1	120minutes
9.	Analysis of network of the AC circuit (reactance, Kirchhoff’s law, principle of superposition, Thevenin's theorem)	Review the Electric Circuits 1	120minutes
10.	Electric power and power factor in the AC circuit	Review the Electric Circuits 1	120minutes
11.	Resonance circuit (Physical expression and equations of resonant phenomena in the AC circuit, quality factor of resonance Q)	Review the Electric Circuits 1	120minutes
12.	AC bridge circuit and equivalent transformation (Y−Δ transformation, equilibrium condition, equivalent circuit)	Review the Electric Circuits 1	120minutes
13.	Network analysis (Norton's theorem, Millman's theorem)	Review the Electric Circuits 1	120minutes
14.	Summary	Review the Electric Circuits 1	120minutes
Total.	-	-	1680minutes

Relationship between 'Goals and Objectives' and 'Course Outcomes'

	Exercise 1 to 4	Exercise 5 to 7	Exercise 19, 12, 13	Exercise 10 to 12	Total.
1.	25%				25%
2.		25%			25%
3.			25%		25%
4.				25%	25%
Total.	25%	25%	25%	25%	-

Evaluation method and criteria

Total 60% is a border of the credit.

Textbooks and reference materials

Japanese text book
(1)平山博、大附辰夫著「電気回路論」、電気学会
(2)［参考書］秋月監修、橋本著「電気回路教本」オーム社

Prerequisites

trigonometric function, differential and integral calculus, complex number and vector

Office hours and How to contact professors for questions

After the class
via e-mail
E-mail: takami@sic.shibaura-it.ac.jp

Relation to the environment

Non-environment-related course

Regionally-oriented

Non-regionally-oriented course

Development of social and professional independence

Non-social and professional independence development course

Active-learning course

Most classes are interactive

Last modified : Wed Oct 17 06:33:34 JST 2018