Course Overview

A lecture is given on basic knowledge and analysis methods of electrical and electronic circuits, including linear passive elements, sinusoidal alternating current and complex number, impedance and admittance, resonant circuits, mutual induction circuits, bridge circuits, filters, general circuit theorems, and AC power.

Learning Achievement

A lecture is given on basic knowledge and analysis methods of electrical and electronic circuits, including below elements.
- linear passive elements
- sinusoidal alternating current and complex number
- impedance and admittance
- resonant circuits
- mutual induction circuits
- bridge circuits
- filters
- general circuit theorems
- AC power

Competence

Related to 4. Skills in the field of Micro Engineering and Nanoscience, and 5. Skills in the field of Macro Engineering and Systems Engineering.

Course prerequisites

Have completed electromagnetics I. In addition, students should prepare for the lessons in advance using textbooks and review the lessons after taking the lessons.

Grading Philosophy

The exam score is 70% and the practice score in each class is 30%. Those whose total score is 60% or more and whose attendance is 70% or more shall pass the examination.

Course schedule

Basics of electrical circuits: Kirchhoff's law and circuit element properties (Kirchhoff current law, voltage law, resistance, power supply, capacitor, inductance, series connection, parallel connection)
Sine wave AC circuit 1 (Sine wave AC, complex voltage and
current method, Impedance and admittance, AC power)
Sine wave AC circuit 2(Resonant circuit, mutual induction circuit)
Sine wave AC circuit 3(Bridge circuit, Filter)
Circuit network theory
Non-sine wave AC
Transient phenomenon
Four-terminal circuit
Distributed constant circuit
Summary and general exercise

Course type

Lectures

Online Course Requirement

Instructor

Nguyen Triet Van

Other information

Active learning before and after is required.

Site for Inquiry

Link to the syllabus provided by the university