Basics of Control Systems (5 cr)

Code: TS00CC39-3004

General information

Enrollment: 04.08.2025 - 21.08.2025
Registration for introductions has not started yet.

Timing: 25.08.2025 - 19.12.2025
The implementation has not yet started.

Number of ECTS credits allocated: 5 cr

Local portion: 5 cr

Mode of delivery: Face-to-face

Unit: School of Technology

Campus: Lutakko Campus

Teaching languages: Finnish

Seats: 20 - 30

Degree programmes: Bachelor's Degree Programme in Electrical and Automation Engineering

Teachers: Ari Kuisma

Groups: TSA24SS
Insinööri (AMK), sähkö- ja automaatiotekniikka

Course: TS00CC39

No reservations found for realization TS00CC39-3004!

Evaluation scale

0-5

Objective

You will get to know the key topic in the field, ie control technology. With the help of the control technology, the equipment is made to react as correctly as possible, e.g. various process disturbances or changes in driving situations. This course allows for a more in-depth study of the subject in other courses.

EUR-ACE KNOWLEDGE AND UNDERSTANDING
You will recognize the different structures of control systems and understand the challenges associated with tuning control circuits and know the methods for tuning them.

EUR-ACE ENGINEERING PRACTICE
You can define the parameters needed to tune the control circuits and you can tune a simple control circuit.

Content

In this course, you will explore the fundamental principles of control engineering and learn how to make equipment respond correctly to various process disturbances and changes in operating conditions. You will learn to identify different control system structures and understand the challenges of tuning control loops, as well as methods for tuning them. This course provides a solid foundation for more in-depth studies in control engineering in future courses.

structures and properties of simple control circuits
MATLAB / SIMULINK modeling and simulation software for dynamic system modeling
control methods
measuring and optimizing control performance

Assessment criteria, satisfactory (1)

Sufficient (1): You recognize the basics and terminology, but interpreting them is challenging.

Satisfactory (2): You know the basics and terminology, but applying the key things is challenging.

Assessment criteria, good (3)

Good 3: You understand the basics of modeling dynamic systems and know how to design a PID controller for a dynamic system. You can also test and tune it.

Very good (4): You master the key issues and their application so deeply that you also know how to locate the more complex causes of inaction.

Assessment criteria, excellent (5)

Excellent (5): You master key issues and are able to show creativity and innovation in their application.