Industrial Automation and Drives
BASIC DATA
course listing
A - main register
course code
EEV5040
course title in Estonian
Tööstusautomaatika ja elektriajamid
course title in English
Industrial Automation and Drives
course volume CP
-
ECTS credits
6.00
to be declared
yes
fully online course
not
assessment form
Examination
teaching semester
autumn
language of instruction
Estonian
English
Study programmes that contain the course
Structural units teaching the course
EE - Department of Electrical Power Engineering and Mechatronics
Timetable link
Version:
VERSION SPECIFIC DATA
course aims in Estonian
1. Tutvustada tänapäevaseid tööstus- ja hooneautomaatika tehnoloogiaid, seadmeid, programmeerimiskeeli ning andmesideliideseid ja –protokolle.
2. Tutvustada elektriajamite arengut, nüüdisprobleeme ja mootorite juhtimise põhimõtteid tänapäeva tööstuses.
3. Arendada tootmise automatiseerimise planeerimiseks vajalikku analüüsivõimet ning lahenduste väljatöötamis- ja rakendamisoskust.
4. Tutvustada vahelduvvoolumasinate dünaamika modelleerimist ja vektormodelleerimist ning antakse ülevaade vektorjuhtimise rakendamisest tootmises.
2. Tutvustada elektriajamite arengut, nüüdisprobleeme ja mootorite juhtimise põhimõtteid tänapäeva tööstuses.
3. Arendada tootmise automatiseerimise planeerimiseks vajalikku analüüsivõimet ning lahenduste väljatöötamis- ja rakendamisoskust.
4. Tutvustada vahelduvvoolumasinate dünaamika modelleerimist ja vektormodelleerimist ning antakse ülevaade vektorjuhtimise rakendamisest tootmises.
course aims in English
1. To introduce industrial and building automation technologies, automation, devices programming languages and data communication interfaces and protocols.
2. To introduce the development, contemporary problems and motor control principles of today’s industry.
3. To develop necessary analysis abilities to plan industrial automation, as well as development and implementation skills of industrial automation solutions.
4. To introduce ac machine dynamics modelling and vector models and practical realization of vector control application in industry.
2. To introduce the development, contemporary problems and motor control principles of today’s industry.
3. To develop necessary analysis abilities to plan industrial automation, as well as development and implementation skills of industrial automation solutions.
4. To introduce ac machine dynamics modelling and vector models and practical realization of vector control application in industry.
learning outcomes in the course in Est.
- tunneb eri tööstusharude tootmistehnoloogiate juhtsüsteeme ja tööstushoonete tehnosüsteemide juhtsüsteeme, s.h. tootmise automatiseerimise riist- ja tarkvara vahendeid (pneumaatikasüsteemid, ajamid, kontrollerid, SCADA, serverid), tööstuslikke andmesidesüsteeme ning standardeid;
- tunneb tööstuskontrollerite ja robotite standardiseeritud programmeerimiskeeli IEC 61311-3, IEC 61499, DIN 66312 ning eri tüüpi regulaatoreid;
- tunneb elektriajamite nüüdisprobleeme, vahelduvvooluajamite dünaamikat, vektorjuhtimise ja momendi otsejuhtimise põhimõtteid;
- oskab programmeerida tööstusautomaatikaseadmeid, s.h. andmeside ja talitlusjärelevalvesüsteeme ning valida ja rakendada regulaatoreid protsesside juhtimiseks;
- omab kogemusi ajamite dünaamika modelleerimises, s.h. vahelduvvoolumootorite vektorjuhtimises ning vektorite koordinaatide teisendamises vastavate seadmete abil.
- tunneb tööstuskontrollerite ja robotite standardiseeritud programmeerimiskeeli IEC 61311-3, IEC 61499, DIN 66312 ning eri tüüpi regulaatoreid;
- tunneb elektriajamite nüüdisprobleeme, vahelduvvooluajamite dünaamikat, vektorjuhtimise ja momendi otsejuhtimise põhimõtteid;
- oskab programmeerida tööstusautomaatikaseadmeid, s.h. andmeside ja talitlusjärelevalvesüsteeme ning valida ja rakendada regulaatoreid protsesside juhtimiseks;
- omab kogemusi ajamite dünaamika modelleerimises, s.h. vahelduvvoolumootorite vektorjuhtimises ning vektorite koordinaatide teisendamises vastavate seadmete abil.
learning outcomes in the course in Eng.
The student:
- is acquainted with production technologies and industrial technical systems of different industries, including hardware and software resources of industrial automation (pneumatic systems, drives, controllers, SCADA, servers), industrial data communication and standards;
- is acquainted with standardized programming languages (IEC 61311-3, IEC 61499, DIN 66312) for industrial controllers and robots;
- is acquainted with contemporary problems of electrical drives and dynamics of ac electrical drives, principles of vector control and direct torque control;
- knows how to program industrial automation devices, data communication and condition monitoring systems, including implementation of controllers for the control of production processes;
- has experience in motor dynamics modelling, including vector control of ac electrical machines and transformation of vector coordinates.
- is acquainted with production technologies and industrial technical systems of different industries, including hardware and software resources of industrial automation (pneumatic systems, drives, controllers, SCADA, servers), industrial data communication and standards;
- is acquainted with standardized programming languages (IEC 61311-3, IEC 61499, DIN 66312) for industrial controllers and robots;
- is acquainted with contemporary problems of electrical drives and dynamics of ac electrical drives, principles of vector control and direct torque control;
- knows how to program industrial automation devices, data communication and condition monitoring systems, including implementation of controllers for the control of production processes;
- has experience in motor dynamics modelling, including vector control of ac electrical machines and transformation of vector coordinates.
brief description of the course in Estonian
Ülevaade tootmistehnoloogiatest. Tööstuskontrollerid, SCADA-süsteemid, andmesidesüsteemid. Programmeerimiskeeled IEC 61311-3, IEC 61499, DIN 66312. P, PI, PID-regulaatorid. Vahelduvvoolumootorite vektorjuhtimise põhimõtted. Vahelduvvoolumasinate dünaamika modelleerimine ja vektormudelid. Vektorjuhtimise realiseerimine. Vektorite koordinaatide teisendamine ning selleks kasutatavad seadmed.
brief description of the course in English
Overview of production technologies. Industrial controllers, SCADA systems, data communication systems. Programming languages IEC 61311-3, IEC 61499, DIN 66312. P, PI, PID controllers, Principles of ac electrical machines vector control. Modelling of ac electrical machine dynamics, vector models. Realization of vector control. Transformation of vector coordinates and devices used for that.
type of assessment in Estonian
Eksam, projekt.
type of assessment in English
-
independent study in Estonian
-
independent study in English
-
study literature
1. Loengukonspekt/ Lecture conspectus
2. Õppekirjandus:/Study literature(for distance learning):
F. Lamb, Industrial automation: hands-on, New York: bMcGraw-Hill Education, 2013.
V. Vodovozov, Electrical Drive: Performance, Design and Control, LAP Lambert Academic Publishing, 2014.
2. Õppekirjandus:/Study literature(for distance learning):
F. Lamb, Industrial automation: hands-on, New York: bMcGraw-Hill Education, 2013.
V. Vodovozov, Electrical Drive: Performance, Design and Control, LAP Lambert Academic Publishing, 2014.
study forms and load
daytime study: weekly hours
4.0
session-based study work load (in a semester):
lectures
2.0
lectures
24.0
practices
2.0
practices
8.0
exercises
0.0
exercises
0.0
lecturer in charge
-
LECTURER SYLLABUS INFO
semester of studies
teaching lecturer / unit
language of instruction
Extended syllabus or link to Moodle or to home page
2025/2026 autumn
Anton Rassõlkin, EE - Department of Electrical Power Engineering and Mechatronics
English, Estonian