Control Systems and Drive ApplicationsLaajuus (6 cr)
Code: 5031391
Credits
6 op
Objective
After a completed study unit the student
- is familiar with the principles of software and logic design for automation and logic systems
- can design the structure of an automation/logic system for controlling a simple machine, and the necessary auxiliary systems
- understands the operational principle and the requirements for the control techniques of different kinds of electromotor and servo drives and position and speed detectors
- can design and dimension a control circuit associated with positioning and select the relevant components
- can analyse and tune the operation of a measurement and control circuit as well as simulate it by means of a software tool.
Content
- software and circuit design for automation and logic systems
- logic system design
- control of electric and servo drives
- operation of position adjustment
- analysis and tuning of control circuits
- laboratory exercises.
Enrollment
01.06.2024 - 02.09.2024
Timing
02.09.2024 - 18.12.2024
Number of ECTS credits allocated
6 op
Mode of delivery
Contact teaching
Campus
Kupittaa Campus
Teaching languages
- Finnish
Teachers
- Teemu Toivola
- Teppo Mattsson
Teacher in charge
Teppo Mattsson
Groups
-
KMMMODAutomaationOhjausjärjestelmät
Objective
After a completed study unit the student
- is familiar with the principles of software and logic design for automation and logic systems
- can design the structure of an automation/logic system for controlling a simple machine, and the necessary auxiliary systems
- understands the operational principle and the requirements for the control techniques of different kinds of electromotor and servo drives and position and speed detectors
- can design and dimension a control circuit associated with positioning and select the relevant components
- can analyse and tune the operation of a measurement and control circuit as well as simulate it by means of a software tool.
Content
- software and circuit design for automation and logic systems
- logic system design
- control of electric and servo drives
- operation of position adjustment
- analysis and tuning of control circuits
- laboratory exercises.
Evaluation scale
H-5
Enrollment
01.06.2023 - 04.09.2023
Timing
04.09.2023 - 15.12.2023
Number of ECTS credits allocated
6 op
Mode of delivery
Contact teaching
Campus
Kupittaa Campus
Teaching languages
- Finnish
Teachers
- Teemu Toivola
- Teppo Mattsson
Teacher in charge
Teppo Mattsson
Groups
-
KMMMODAutomaationOhjausjärjestelmät
Objective
After a completed study unit the student
- is familiar with the principles of software and logic design for automation and logic systems
- can design the structure of an automation/logic system for controlling a simple machine, and the necessary auxiliary systems
- understands the operational principle and the requirements for the control techniques of different kinds of electromotor and servo drives and position and speed detectors
- can design and dimension a control circuit associated with positioning and select the relevant components
- can analyse and tune the operation of a measurement and control circuit as well as simulate it by means of a software tool.
Content
- software and circuit design for automation and logic systems
- logic system design
- control of electric and servo drives
- operation of position adjustment
- analysis and tuning of control circuits
- laboratory exercises.
Evaluation scale
H-5
Enrollment
01.06.2022 - 07.10.2022
Timing
29.08.2022 - 16.12.2022
Number of ECTS credits allocated
6 op
Mode of delivery
Contact teaching
Campus
Kupittaa Campus
Teaching languages
- Finnish
Teachers
- Antti Nousiainen
- Teppo Mattsson
Teacher in charge
Teppo Mattsson
Groups
-
KMMMODAutomaationOhjausjärjestelmät
Objective
After a completed study unit the student
- is familiar with the principles of software and logic design for automation and logic systems
- can design the structure of an automation/logic system for controlling a simple machine, and the necessary auxiliary systems
- understands the operational principle and the requirements for the control techniques of different kinds of electromotor and servo drives and position and speed detectors
- can design and dimension a control circuit associated with positioning and select the relevant components
- can analyse and tune the operation of a measurement and control circuit as well as simulate it by means of a software tool.
Content
- software and circuit design for automation and logic systems
- logic system design
- control of electric and servo drives
- operation of position adjustment
- analysis and tuning of control circuits
- laboratory exercises.
Evaluation scale
H-5