Skip to main content

Electricity basics (3 cr)

Code: TK00BW78-3010

General information


Enrollment

30.12.2024 - 26.01.2025

Timing

10.03.2025 - 11.05.2025

Number of ECTS credits allocated

3 op

Mode of delivery

Contact teaching

Unit

Teknologia

Teaching languages

  • Finnish

Degree programmes

  • Bachelor’s Degree in Mechanical Engineering

Teachers

  • Petteri Laitinen

Groups

  • KKT24S
    KKT24S
  • 18.03.2025 14:30 - 16:00, Sähkötekniikan perusteet TK00BW78-3010
  • 20.03.2025 14:30 - 16:00, Sähkötekniikan perusteet TK00BW78-3010
  • 25.03.2025 14:30 - 16:00, Sähkötekniikan perusteet TK00BW78-3010
  • 27.03.2025 14:30 - 16:00, Sähkötekniikan perusteet TK00BW78-3010
  • 01.04.2025 14:30 - 16:00, Sähkötekniikan perusteet TK00BW78-3010
  • 03.04.2025 14:30 - 16:00, Sähkötekniikan perusteet TK00BW78-3010
  • 08.04.2025 12:45 - 14:15, Sähkötekniikan perusteet TK00BW78-3010
  • 10.04.2025 14:30 - 16:00, Sähkötekniikan perusteet TK00BW78-3010
  • 15.04.2025 12:45 - 14:15, Sähkötekniikan perusteet TK00BW78-3010
  • 17.04.2025 14:30 - 16:00, Sähkötekniikan perusteet TK00BW78-3010
  • 22.04.2025 14:30 - 16:00, Sähkötekniikan perusteet TK00BW78-3010
  • 24.04.2025 10:15 - 11:45, Sähkötekniikan perusteet TK00BW78-3010
  • 28.04.2025 12:45 - 14:15, Sähkötekniikan perusteet TK00BW78-3010
  • 29.04.2025 12:45 - 14:15, Sähkötekniikan perusteet TK00BW78-3010
  • 05.05.2025 12:45 - 14:15, Sähkötekniikan perusteet TK00BW78-3010
  • 06.05.2025 12:45 - 14:15, Sähkötekniikan perusteet TK00BW78-3010

Objective

The student masters the basic laws of electrical engineering, the basic components of analog electronics and their basic connections, as well as basic measurements with a multimeter and an oscilloscope

Content

Basic laws of electrical engineering
Basic components and basic connections of analog electronics
Using a multimeter
Basic use of an oscilloscope
Basics of laboratory work
Basics of thermal design

Materials

Learning material on a learning platform (e.g. DevMoodle)

Evaluation scale

0 - 5

Assessment criteria, excellent (5)

Controls the basic laws and regulations of electrical engineering, uses professional concepts expertly, and knows how to apply professional knowledge appropriately in different situations.
The student is able to develop the functions of electronics in different operating environments.

Assessment criteria, good (3)

Controls the basic laws of electrical engineering and uses professional concepts fluently and knows how to work in different tasks in different operating environments.
The student understands the importance of electronics and electrical engineering in industrial operations.

Assessment criteria, satisfactory (1)

The student knows the basic laws of electrical engineering and can work in individual tasks according to the assignment.
The student becomes aware of the importance of electronics and electrical engineering in industrial operations.