The goal of this course is for students to gain an understanding of fundamental approaches for learning electrical engineering, control engineering, and measurement engineering, namely how to handle linear circuits in a frequency domain. Specifically, students will gain an understanding of the complex notation e^(jω) of alternating current and the concept of impedance. On that basis, students will study the basic laws of circuit analysis, resonance circuits, circuit equations, Thevenin's theorem, circuit duality, maximum power transfer theorem, two-terminal pair parameters, and three-phase AC.
[Student learning outcomes] Students will gain an understanding of alternating current theory, in other words jω and the concept of impedance, and learn how to deal with frequency domains through electric circuits.
[Topics] The instructor in this course will explain AC circuits, complex notation, impedance, admittance, resonance circuits, Thevenin's theorem, circuit equations, the principle of duality, two-terminal pair circuits, and three-phase AC, and students will gain an understanding of analysis methods for linear networks.
alternating current circuit, complex plane, impedance, admittance, a resonance circuit,
|Intercultural skills||Communication skills||Specialist skills||Critical thinking skills||Practical and/or problem-solving skills|
The instructor will explain important items while writing main points on the blackboard, and students will do exercises on related content at the end of class.
|Course schedule||Required learning|
|Class 1||circuit elements, direct current circuit||Understanding circuit elements and direct current circuit|
|Class 2||alternating current circuit, complex plane||Understanding of alternating current circuit and complex plane|
|Class 3||Impedance||Understanding of impedance|
|Class 4||Resonance||Understanding of resonance|
|Class 5||Trans||Understanding of trans|
|Class 6||Circuit equation||Understanding of circuit equations|
|Class 7||principle of superposition||Understanding of the principle of superposition|
|Class 8||Ho-Thevenin's theorem||Understanding of Ho-Thevenin's theorem|
|Class 9||two‐port parameter||Understanding of two‐port parameter|
|Class 10||Bridge circuit||Understanding of bridge circuit|
|Class 11||Theorems to understand complex circuits||Understanding of theorems of complex circuits|
|Class 12||Theorem to transmit maximized power||Understanding of theorem to transmit maximized power|
|Class 13||three-phase alternating current||Understanding of three-phase alternating current|
|Class 14||symmetric coordinates||Understanding of symmetric coordinates|
|Class 15||practice||Total understanding of alternating current circuit|
Basic circuit theorem
90% by test, and 10% by practice
Sophomore or above