Basics of automation and electricity (5 cr)

Code: TT00ER26-3002

General information

Enrollment: 04.11.2024 - 17.11.2024
Registration for the implementation has ended.

Timing: 06.01.2025 - 30.04.2025
Implementation is running.

Number of ECTS credits allocated: 5 cr

Local portion: 5 cr

Mode of delivery: Contact learning

Unit: Department of Electrical Engineering, Building Services and Material Technology

Campus: Mikkeli Campus

Teaching languages: Finnish

Seats: 20 - 45

Degree programmes: Degree Programme in Building Services Engineering

Teachers: Tarmo Makkonen

Teacher in charge: Tarmo Makkonen

Scheduling groups: Ryhmä A (Size: 0 . Open UAS : 0.); Ryhmä B (Size: 0 . Open UAS : 0.); Ryhmä C (Size: 0 . Open UAS : 0.)

Groups: TTMI23KM
Building Services Engineering, part-time studies

Small groups: Ryhmä B; Ryhmä B; Ryhmä C

Course: TT00ER26

Realization has 8 reservations. Total duration of reservations is 32 h 45 min.

Time	Topic	Location
Sat 18.01.2025 time 08:15 - 12:15 (4 h 0 min)	Automaatio- ja sähkötekniikan perusteet TT00ER26-3002	Etäopetus lukujärjestyksen mukaan
Fri 24.01.2025 time 12:45 - 17:00 (4 h 15 min)	Automaatio- ja sähkötekniikan perusteet TT00ER26-3002	Etäopetus lukujärjestyksen mukaan
Sat 08.02.2025 time 08:15 - 12:15 (4 h 0 min)	Automaatio- ja sähkötekniikan perusteet TT00ER26-3002	E313 Tietokoneluokka (sähkö ja talotekn. syksy -25-)
Fri 28.03.2025 time 12:45 - 17:00 (4 h 15 min)	Automaatio- ja sähkötekniikan perusteet TT00ER26-3002	E001 Sähkölabra E003 Sähkökonelab./mikrolab.
Sat 29.03.2025 time 08:15 - 12:15 (4 h 0 min)	Automaatio- ja sähkötekniikan perusteet TT00ER26-3002	E001 Sähkölabra E003 Sähkökonelab./mikrolab.
Sat 29.03.2025 time 12:45 - 17:00 (4 h 15 min)	Automaatio- ja sähkötekniikan perusteet TT00ER26-3002	E001 Sähkölabra E003 Sähkökonelab./mikrolab.
Sat 26.04.2025 time 08:15 - 12:15 (4 h 0 min)	Automaatio- ja sähkötekniikan perusteet TT00ER26-3002	E313 Tietokoneluokka (sähkö ja talotekn. syksy -25-)
Thu 08.05.2025 time 16:30 - 20:30 (4 h 0 min)	Automaatio- ja sähkötekniikan perusteet TT00ER26-3002	Etäopetus lukujärjestyksen mukaan

Changes to reservations may be possible.

Objective

You learn the basics of electrical engineering, and automation engineering.

Content

How do you tune the PID controller?
What is meant by regulation and control block diagrams, time constants and stability?
What are the basic quantities, units and basic components of electrical engineering?
What are motor drives?
How do EC motors and their control work?
What is meant by the actuator and sensor technology?
How do variable-frequency drives and their control work?

Course material

Ahoranta: Sähkötekniikka. Sanoma Pro. 9789526321523
Lauri Aura, Antti J. Tonteri: Sähkömiehen käsikirja 1, Teoreettinen sähkötekniikka. WSOY. ISBN: 951-0-13672-7
Tukes materials
Educational material to be distributed on the Learn platform

Study forms and methods

Lessons and calculation exercises as contact teaching.
Self-administered online intermediate tests.
Laboratory exercises in the electrical laboratory in Mikkeli.
It is also possible to complete the course with an exam and an approved laboratory exercise or by applying for recognition of competence by presenting a substitute course credit.

RDI and work-related cooperation

Timing of exams and assignments

The course has a scored intermediate test that can be completed electronically after studying different parts.
Laboratory exercise at a time to be agreed separately.

International cooperation

Student workload

1 ECTS corresponds to 27,5 hours of student working time.
However, the amount of work depends on the study methods and from previous competence.

Course part description

- familiar with electrical components
- series and parallel circuits
- circuit solution method
- alternating current and 3-phase circuits
- transfer function
- P, PD and PDI controls

Evaluation scale

1-5

Assessment methods and criteria

The evaluation is based on the total score from the electronic intermediate tests and the approved laboratory exercise. In addition to an approved laboratory exercise, it is required to achieve a minimum score for the approved completion of the course from the electronic intermediate tests.

Qualifications

Attending the course requires completing the courses of Engineering mathematics 1 and 2 and Basic engineering physics and chemistry.