Basics of AutomationLaajuus (3 cr)
Code: KL25AB10000
Objective
Students will be able to differentiate between various automation systems and identify the components used in them. They will understand how automation systems work. Students will be knowledgeable of the structure, function and connections of relays and PLC drivers and the more common types of sensors and actuators. They will learn the idea behind the logic needed in automation technology.
Content
Development of automation and automation technology, - What is automation?, - Control and regulation, control systems for automation, sensors, actuators, programmable logics, components for a control system, - Common connections for sensors and actuators into programmable logics, - Practice making connections in the lab, - Familiarisation with various automation control system. The course considers the importance of automation for sustainable development and examines the impact of a solution model based on a step diagram on the life cycle of an automation program.
Qualifications
No previous studies are required.
Assessment criteria, satisfactory (1)
Level 1-2; Student knows the basics of the course. The student is able to define a simple automation system that includes sensors and actuators as well as programmable logic.
Assessment criteria, good (3)
Level 3-4; Student knows the contents of the course well. The student is able to define a simple automation system that includes sensors and actuators as well as programmable logic. In addition, he is able to evaluate the operation and compatibility of components in practice.
Assessment criteria, excellent (5)
Level 5; Student knows the contents of the course well and can apply their knowledge in practice. The student is able to apply Automation components and design an automation system that includes sensors and actuators as well as programmable logic. In addition, he is able to evaluate the operation and compatibility of components in practice.
Materials
- Lecturer's material
- Lecture demonstrations
- Exercises
- Product and programming manuals
Further information
Automaation perusteet, kansainvälisyyden näkökulma (EN):
The issues of automation technology are internationally similar.
Enrollment
11.11.2024 - 19.02.2025
Timing
03.03.2025 - 27.04.2025
Credits
3 op
Teaching languages
- Finnish
Degree programmes
- Bachelor of Engineering, Information Technology
Teachers
- Sami Rinta-Valkama
Student groups
-
TITE23Bachelor of Engineering, Information Technology
Objective
Students will be able to differentiate between various automation systems and identify the components used in them. They will understand how automation systems work. Students will be knowledgeable of the structure, function and connections of relays and PLC drivers and the more common types of sensors and actuators. They will learn the idea behind the logic needed in automation technology.
Content
Development of automation and automation technology, - What is automation?, - Control and regulation, control systems for automation, sensors, actuators, programmable logics, components for a control system, - Common connections for sensors and actuators into programmable logics, - Practice making connections in the lab, - Familiarisation with various automation control system. The course considers the importance of automation for sustainable development and examines the impact of a solution model based on a step diagram on the life cycle of an automation program.
Materials
Lecturer's material, lecture demonstrations and exercises.
Teaching methods
Lectures, demonstrations and exercises.
Student workload
Total work load of the course: 81 h
- of which scheduled studies: 28 h
- of which autonomous studies: 53 h
Evaluation scale
1-5
Assessment criteria, satisfactory (1)
Level 1-2; Student knows the basics of the course. The student is able to define a simple automation system that includes sensors and actuators as well as programmable logic.
Assessment criteria, good (3)
Level 3-4; Student knows the contents of the course well. The student is able to define a simple automation system that includes sensors and actuators as well as programmable logic. In addition, he is able to evaluate the operation and compatibility of components in practice.
Assessment criteria, excellent (5)
Level 5; Student knows the contents of the course well and can apply their knowledge in practice. The student is able to apply Automation components and design an automation system that includes sensors and actuators as well as programmable logic. In addition, he is able to evaluate the operation and compatibility of components in practice.
Assessment methods and criteria
Exam and exercises.
Qualifications
No previous studies are required.
Further information
Automaation perusteet, kansainvälisyyden näkökulma (EN):
The issues of automation technology are internationally similar.
Enrollment
22.04.2024 - 15.12.2024
Timing
06.01.2025 - 16.02.2025
Credits
3 op
Teaching languages
- Finnish
Degree programmes
- Bachelor of Engineering, Automation Engineering
Teachers
- Juho Pirttilahti
Scheduling groups
- Avoin AMK (Ei koske tutkinto-opiskelijaa) (Size: 5. Open UAS: 5.)
Student groups
-
MAUTE24Insinööri (AMK), Automaatiotekniikka, monimuotototeutus
Education groups
- Open UAS (Doesn't apply to degree student)
Objective
Students will be able to differentiate between various automation systems and identify the components used in them. They will understand how automation systems work. Students will be knowledgeable of the structure, function and connections of relays and PLC drivers and the more common types of sensors and actuators. They will learn the idea behind the logic needed in automation technology.
Content
Development of automation and automation technology, - What is automation?, - Control and regulation, control systems for automation, sensors, actuators, programmable logics, components for a control system, - Common connections for sensors and actuators into programmable logics, - Practice making connections in the lab, - Familiarisation with various automation control system. The course considers the importance of automation for sustainable development and examines the impact of a solution model based on a step diagram on the life cycle of an automation program.
Materials
- Lecturer's material
- Lecture demonstrations
- Exercises
- Product and programming manuals
Evaluation scale
1-5
Assessment criteria, satisfactory (1)
Level 1-2; Student knows the basics of the course. The student is able to define a simple automation system that includes sensors and actuators as well as programmable logic.
Assessment criteria, good (3)
Level 3-4; Student knows the contents of the course well. The student is able to define a simple automation system that includes sensors and actuators as well as programmable logic. In addition, he is able to evaluate the operation and compatibility of components in practice.
Assessment criteria, excellent (5)
Level 5; Student knows the contents of the course well and can apply their knowledge in practice. The student is able to apply Automation components and design an automation system that includes sensors and actuators as well as programmable logic. In addition, he is able to evaluate the operation and compatibility of components in practice.
Qualifications
No previous studies are required.
Further information
Automaation perusteet, kansainvälisyyden näkökulma (EN):
The issues of automation technology are internationally similar.
Enrollment
22.04.2024 - 04.09.2024
Timing
26.08.2024 - 13.10.2024
Credits
3 op
Teaching languages
- Finnish
Degree programmes
- Bachelor of Engineering, Automation Engineering
Teachers
- Ismo Tupamäki
Student groups
-
AUTE24ABachelor of Engineering, Automation Engineering
Objective
Students will be able to differentiate between various automation systems and identify the components used in them. They will understand how automation systems work. Students will be knowledgeable of the structure, function and connections of relays and PLC drivers and the more common types of sensors and actuators. They will learn the idea behind the logic needed in automation technology.
Content
Development of automation and automation technology, - What is automation?, - Control and regulation, control systems for automation, sensors, actuators, programmable logics, components for a control system, - Common connections for sensors and actuators into programmable logics, - Practice making connections in the lab, - Familiarisation with various automation control system. The course considers the importance of automation for sustainable development and examines the impact of a solution model based on a step diagram on the life cycle of an automation program.
Materials
Lecturer's material, lecture demonstrations and exercises.
Teaching methods
Lectures, demonstrations and exercises.
Student workload
Total work load of the course: 81 h
- of which scheduled studies: 28 h
- of which autonomous studies: 53 h
Evaluation scale
1-5
Assessment criteria, satisfactory (1)
Level 1-2; Student knows the basics of the course. The student is able to define a simple automation system that includes sensors and actuators as well as programmable logic.
Assessment criteria, good (3)
Level 3-4; Student knows the contents of the course well. The student is able to define a simple automation system that includes sensors and actuators as well as programmable logic. In addition, he is able to evaluate the operation and compatibility of components in practice.
Assessment criteria, excellent (5)
Level 5; Student knows the contents of the course well and can apply their knowledge in practice. The student is able to apply Automation components and design an automation system that includes sensors and actuators as well as programmable logic. In addition, he is able to evaluate the operation and compatibility of components in practice.
Assessment methods and criteria
Exam and exercises.
Assessment criteria, good (3)
Level 1-2; Student knows the basics of the course. The student is able to define a simple automation system that includes sensors and actuators as well as programmable logic.
Assessment criteria, excellent (5)
Level 3-4; Student knows the contents of the course well. The student is able to define a simple automation system that includes sensors and actuators as well as programmable logic. In addition, he is able to evaluate the operation and compatibility of components in practice.
Assessment criteria, approved/failed
Level 5; Student knows the contents of the course well and can apply their knowledge in practice. The student is able to apply Automation components and design an automation system that includes sensors and actuators as well as programmable logic. In addition, he is able to evaluate the operation and compatibility of components in practice.
Qualifications
No previous studies are required.
Further information
Automaation perusteet, kansainvälisyyden näkökulma (EN):
The issues of automation technology are internationally similar.
Enrollment
22.04.2024 - 04.09.2024
Timing
26.08.2024 - 13.10.2024
Credits
3 op
Teaching languages
- Finnish
Degree programmes
- Bachelor of Engineering, Automation Engineering
Teachers
- Ismo Tupamäki
Student groups
-
AUTE24BBachelor of Engineering, Automation Engineering
Objective
Students will be able to differentiate between various automation systems and identify the components used in them. They will understand how automation systems work. Students will be knowledgeable of the structure, function and connections of relays and PLC drivers and the more common types of sensors and actuators. They will learn the idea behind the logic needed in automation technology.
Content
Development of automation and automation technology, - What is automation?, - Control and regulation, control systems for automation, sensors, actuators, programmable logics, components for a control system, - Common connections for sensors and actuators into programmable logics, - Practice making connections in the lab, - Familiarisation with various automation control system. The course considers the importance of automation for sustainable development and examines the impact of a solution model based on a step diagram on the life cycle of an automation program.
Materials
Lecturer's material, lecture demonstrations and exercises.
Teaching methods
Lectures, demonstrations and exercises.
Student workload
Total work load of the course: 81 h
- of which scheduled studies: 28 h
- of which autonomous studies: 53 h
Evaluation scale
1-5
Assessment criteria, satisfactory (1)
Level 1-2; Student knows the basics of the course. The student is able to define a simple automation system that includes sensors and actuators as well as programmable logic.
Assessment criteria, good (3)
Level 3-4; Student knows the contents of the course well. The student is able to define a simple automation system that includes sensors and actuators as well as programmable logic. In addition, he is able to evaluate the operation and compatibility of components in practice.
Assessment criteria, excellent (5)
Level 5; Student knows the contents of the course well and can apply their knowledge in practice. The student is able to apply Automation components and design an automation system that includes sensors and actuators as well as programmable logic. In addition, he is able to evaluate the operation and compatibility of components in practice.
Assessment methods and criteria
Exam and exercises.
Assessment criteria, good (3)
Level 1-2; Student knows the basics of the course. The student is able to define a simple automation system that includes sensors and actuators as well as programmable logic.
Assessment criteria, excellent (5)
Level 3-4; Student knows the contents of the course well. The student is able to define a simple automation system that includes sensors and actuators as well as programmable logic. In addition, he is able to evaluate the operation and compatibility of components in practice.
Assessment criteria, approved/failed
Level 5; Student knows the contents of the course well and can apply their knowledge in practice. The student is able to apply Automation components and design an automation system that includes sensors and actuators as well as programmable logic. In addition, he is able to evaluate the operation and compatibility of components in practice.
Qualifications
No previous studies are required.
Further information
Automaation perusteet, kansainvälisyyden näkökulma (EN):
The issues of automation technology are internationally similar.
Enrollment
13.11.2023 - 21.02.2024
Timing
04.03.2024 - 28.04.2024
Credits
3 op
Teaching languages
- Finnish
Degree programmes
- Bachelor of Engineering, Information Technology
Teachers
- Sami Rinta-Valkama
Student groups
-
TITE22
Objective
Students will be able to differentiate between various automation systems and identify the components used in them. They will understand how automation systems work. Students will be knowledgeable of the structure, function and connections of relays and PLC drivers and the more common types of sensors and actuators. They will learn the idea behind the logic needed in automation technology.
Content
Development of automation and automation technology, - What is automation?, - Control and regulation, control systems for automation, sensors, actuators, programmable logics, components for a control system, - Common connections for sensors and actuators into programmable logics, - Practice making connections in the lab, - Familiarisation with various automation control system. The course considers the importance of automation for sustainable development and examines the impact of a solution model based on a step diagram on the life cycle of an automation program.
Materials
Lecturer's material, lecture demonstrations and exercises.
Teaching methods
Lectures, demonstrations and exercises.
Student workload
Total work load of the course: 81 h
- of which scheduled studies: 28 h
- of which autonomous studies: 53 h
Evaluation scale
1-5
Assessment criteria, satisfactory (1)
Level 1-2; Student knows the basics of the course. The student is able to define a simple automation system that includes sensors and actuators as well as programmable logic.
Assessment criteria, good (3)
Level 3-4; Student knows the contents of the course well. The student is able to define a simple automation system that includes sensors and actuators as well as programmable logic. In addition, he is able to evaluate the operation and compatibility of components in practice.
Assessment criteria, excellent (5)
Level 5; Student knows the contents of the course well and can apply their knowledge in practice. The student is able to apply Automation components and design an automation system that includes sensors and actuators as well as programmable logic. In addition, he is able to evaluate the operation and compatibility of components in practice.
Assessment methods and criteria
Exam and exercises.
Qualifications
No previous studies are required.
Further information
Automaation perusteet, kansainvälisyyden näkökulma (EN):
The issues of automation technology are internationally similar.
Enrollment
17.04.2023 - 07.09.2023
Timing
28.08.2023 - 15.10.2023
Credits
3 op
Teaching languages
- Finnish
Degree programmes
- Bachelor of Engineering, Automation Engineering
Teachers
- Ismo Tupamäki
Student groups
-
AUTE23ABachelor of Engineering, Automation Engineering
Objective
Students will be able to differentiate between various automation systems and identify the components used in them. They will understand how automation systems work. Students will be knowledgeable of the structure, function and connections of relays and PLC drivers and the more common types of sensors and actuators. They will learn the idea behind the logic needed in automation technology.
Content
Development of automation and automation technology, - What is automation?, - Control and regulation, control systems for automation, sensors, actuators, programmable logics, components for a control system, - Common connections for sensors and actuators into programmable logics, - Practice making connections in the lab, - Familiarisation with various automation control system. The course considers the importance of automation for sustainable development and examines the impact of a solution model based on a step diagram on the life cycle of an automation program.
Materials
Lecturer's material, lecture demonstrations and exercises.
Teaching methods
Lectures, demonstrations and exercises.
Student workload
Total work load of the course: 81 h
- of which scheduled studies: 28 h
- of which autonomous studies: 53 h
Evaluation scale
1-5
Assessment criteria, satisfactory (1)
Level 1-2; Student knows the basics of the course. The student is able to define a simple automation system that includes sensors and actuators as well as programmable logic.
Assessment criteria, good (3)
Level 3-4; Student knows the contents of the course well. The student is able to define a simple automation system that includes sensors and actuators as well as programmable logic. In addition, he is able to evaluate the operation and compatibility of components in practice.
Assessment criteria, excellent (5)
Level 5; Student knows the contents of the course well and can apply their knowledge in practice. The student is able to apply Automation components and design an automation system that includes sensors and actuators as well as programmable logic. In addition, he is able to evaluate the operation and compatibility of components in practice.
Assessment methods and criteria
Exam and exercises.
Assessment criteria, good (3)
Level 1-2; Student knows the basics of the course. The student is able to define a simple automation system that includes sensors and actuators as well as programmable logic.
Assessment criteria, excellent (5)
Level 3-4; Student knows the contents of the course well. The student is able to define a simple automation system that includes sensors and actuators as well as programmable logic. In addition, he is able to evaluate the operation and compatibility of components in practice.
Assessment criteria, approved/failed
Level 5; Student knows the contents of the course well and can apply their knowledge in practice. The student is able to apply Automation components and design an automation system that includes sensors and actuators as well as programmable logic. In addition, he is able to evaluate the operation and compatibility of components in practice.
Qualifications
No previous studies are required.
Further information
Automaation perusteet, kansainvälisyyden näkökulma (EN):
The issues of automation technology are internationally similar.
Enrollment
17.04.2023 - 06.09.2023
Timing
28.08.2023 - 15.10.2023
Credits
3 op
Teaching languages
- Finnish
Degree programmes
- Bachelor of Engineering, Automation Engineering
Teachers
- Ismo Tupamäki
Student groups
-
AUTE23BBachelor of Engineering, Automation Engineering
Objective
Students will be able to differentiate between various automation systems and identify the components used in them. They will understand how automation systems work. Students will be knowledgeable of the structure, function and connections of relays and PLC drivers and the more common types of sensors and actuators. They will learn the idea behind the logic needed in automation technology.
Content
Development of automation and automation technology, - What is automation?, - Control and regulation, control systems for automation, sensors, actuators, programmable logics, components for a control system, - Common connections for sensors and actuators into programmable logics, - Practice making connections in the lab, - Familiarisation with various automation control system. The course considers the importance of automation for sustainable development and examines the impact of a solution model based on a step diagram on the life cycle of an automation program.
Materials
Lecturer's material, lecture demonstrations and exercises.
Teaching methods
Lectures, demonstrations and exercises.
Student workload
A total of 80 hours. Of the Rules of Procedure of the left teaching 28 hours. Self-study and exercises for 52 hours.
Evaluation scale
1-5
Assessment criteria, satisfactory (1)
Level 1-2; Student knows the basics of the course. The student is able to define a simple automation system that includes sensors and actuators as well as programmable logic.
Assessment criteria, good (3)
Level 3-4; Student knows the contents of the course well. The student is able to define a simple automation system that includes sensors and actuators as well as programmable logic. In addition, he is able to evaluate the operation and compatibility of components in practice.
Assessment criteria, excellent (5)
Level 5; Student knows the contents of the course well and can apply their knowledge in practice. The student is able to apply Automation components and design an automation system that includes sensors and actuators as well as programmable logic. In addition, he is able to evaluate the operation and compatibility of components in practice.
Assessment methods and criteria
Exam and exercises.
Qualifications
No previous studies are required.
Further information
Automaation perusteet, kansainvälisyyden näkökulma (EN):
The issues of automation technology are internationally similar.
Enrollment
16.04.2022 - 12.10.2022
Timing
24.10.2022 - 18.12.2022
Credits
3 op
Teaching languages
- Finnish
Degree programmes
- Bachelor of Engineering, Information Technology
Teachers
- Matti Panula
Student groups
-
TITE21
Objective
Students will be able to differentiate between various automation systems and identify the components used in them. They will understand how automation systems work. Students will be knowledgeable of the structure, function and connections of relays and PLC drivers and the more common types of sensors and actuators. They will learn the idea behind the logic needed in automation technology.
Content
Development of automation and automation technology, - What is automation?, - Control and regulation, control systems for automation, sensors, actuators, programmable logics, components for a control system, - Common connections for sensors and actuators into programmable logics, - Practice making connections in the lab, - Familiarisation with various automation control system. The course considers the importance of automation for sustainable development and examines the impact of a solution model based on a step diagram on the life cycle of an automation program.
Materials
Lecturer's material, lecture demonstrations and exercises.
Teaching methods
Lectures, demonstrations and exercises.
Student workload
Total work load of the course: 81 h
- of which scheduled studies: 28 h
- of which autonomous studies: 53 h
Evaluation scale
1-5
Assessment criteria, satisfactory (1)
Level 1-2; Student knows the basics of the course. The student is able to define a simple automation system that includes sensors and actuators as well as programmable logic.
Assessment criteria, good (3)
Level 3-4; Student knows the contents of the course well. The student is able to define a simple automation system that includes sensors and actuators as well as programmable logic. In addition, he is able to evaluate the operation and compatibility of components in practice.
Assessment criteria, excellent (5)
Level 5; Student knows the contents of the course well and can apply their knowledge in practice. The student is able to apply Automation components and design an automation system that includes sensors and actuators as well as programmable logic. In addition, he is able to evaluate the operation and compatibility of components in practice.
Assessment methods and criteria
Exam and exercises.
Assessment criteria, good (3)
Level 1-2; Student knows the basics of the course. The student is able to define a simple automation system that includes sensors and actuators as well as programmable logic.
Assessment criteria, excellent (5)
Level 3-4; Student knows the contents of the course well. The student is able to define a simple automation system that includes sensors and actuators as well as programmable logic. In addition, he is able to evaluate the operation and compatibility of components in practice.
Assessment criteria, approved/failed
Level 5; Student knows the contents of the course well and can apply their knowledge in practice. The student is able to apply Automation components and design an automation system that includes sensors and actuators as well as programmable logic. In addition, he is able to evaluate the operation and compatibility of components in practice.
Qualifications
No previous studies are required.
Further information
Automaation perusteet, kansainvälisyyden näkökulma (EN):
The issues of automation technology are internationally similar.
Enrollment
16.04.2022 - 07.09.2022
Timing
29.08.2022 - 16.10.2022
Credits
3 op
Teaching languages
- Finnish
Degree programmes
- Bachelor of Engineering, Automation Engineering
Teachers
- Niko Ristimäki
Student groups
-
AUTE22A
Objective
Students will be able to differentiate between various automation systems and identify the components used in them. They will understand how automation systems work. Students will be knowledgeable of the structure, function and connections of relays and PLC drivers and the more common types of sensors and actuators. They will learn the idea behind the logic needed in automation technology.
Content
Development of automation and automation technology, - What is automation?, - Control and regulation, control systems for automation, sensors, actuators, programmable logics, components for a control system, - Common connections for sensors and actuators into programmable logics, - Practice making connections in the lab, - Familiarisation with various automation control system. The course considers the importance of automation for sustainable development and examines the impact of a solution model based on a step diagram on the life cycle of an automation program.
Materials
Lecturer's material, lecture demonstrations and exercises.
Teaching methods
Lectures, demonstrations and exercises.
Student workload
Total work load of the course: 81 h
- of which scheduled studies: 28 h
- of which autonomous studies: 53 h
Evaluation scale
1-5
Assessment criteria, satisfactory (1)
Level 1-2; Student knows the basics of the course. The student is able to define a simple automation system that includes sensors and actuators as well as programmable logic.
Assessment criteria, good (3)
Level 3-4; Student knows the contents of the course well. The student is able to define a simple automation system that includes sensors and actuators as well as programmable logic. In addition, he is able to evaluate the operation and compatibility of components in practice.
Assessment criteria, excellent (5)
Level 5; Student knows the contents of the course well and can apply their knowledge in practice. The student is able to apply Automation components and design an automation system that includes sensors and actuators as well as programmable logic. In addition, he is able to evaluate the operation and compatibility of components in practice.
Assessment methods and criteria
Exam and exercises.
Assessment criteria, good (3)
Level 1-2; Student knows the basics of the course. The student is able to define a simple automation system that includes sensors and actuators as well as programmable logic.
Assessment criteria, excellent (5)
Level 3-4; Student knows the contents of the course well. The student is able to define a simple automation system that includes sensors and actuators as well as programmable logic. In addition, he is able to evaluate the operation and compatibility of components in practice.
Assessment criteria, approved/failed
Level 5; Student knows the contents of the course well and can apply their knowledge in practice. The student is able to apply Automation components and design an automation system that includes sensors and actuators as well as programmable logic. In addition, he is able to evaluate the operation and compatibility of components in practice.
Qualifications
No previous studies are required.
Further information
Automaation perusteet, kansainvälisyyden näkökulma (EN):
The issues of automation technology are internationally similar.
Enrollment
16.04.2022 - 07.09.2022
Timing
29.08.2022 - 16.10.2022
Credits
3 op
Teaching languages
- Finnish
Degree programmes
- Bachelor of Engineering, Automation Engineering
Teachers
- Niko Ristimäki
Student groups
-
AUTE22B
Objective
Students will be able to differentiate between various automation systems and identify the components used in them. They will understand how automation systems work. Students will be knowledgeable of the structure, function and connections of relays and PLC drivers and the more common types of sensors and actuators. They will learn the idea behind the logic needed in automation technology.
Content
Development of automation and automation technology, - What is automation?, - Control and regulation, control systems for automation, sensors, actuators, programmable logics, components for a control system, - Common connections for sensors and actuators into programmable logics, - Practice making connections in the lab, - Familiarisation with various automation control system. The course considers the importance of automation for sustainable development and examines the impact of a solution model based on a step diagram on the life cycle of an automation program.
Materials
Lecturer's material, lecture demonstrations and exercises.
Teaching methods
Lectures, demonstrations and exercises.
Student workload
Total work load of the course: 81 h
- of which scheduled studies: 28 h
- of which autonomous studies: 53 h
Evaluation scale
1-5
Assessment criteria, satisfactory (1)
Level 1-2; Student knows the basics of the course. The student is able to define a simple automation system that includes sensors and actuators as well as programmable logic.
Assessment criteria, good (3)
Level 3-4; Student knows the contents of the course well. The student is able to define a simple automation system that includes sensors and actuators as well as programmable logic. In addition, he is able to evaluate the operation and compatibility of components in practice.
Assessment criteria, excellent (5)
Level 5; Student knows the contents of the course well and can apply their knowledge in practice. The student is able to apply Automation components and design an automation system that includes sensors and actuators as well as programmable logic. In addition, he is able to evaluate the operation and compatibility of components in practice.
Assessment methods and criteria
Exam and exercises.
Assessment criteria, good (3)
Level 1-2; Student knows the basics of the course. The student is able to define a simple automation system that includes sensors and actuators as well as programmable logic.
Assessment criteria, excellent (5)
Level 3-4; Student knows the contents of the course well. The student is able to define a simple automation system that includes sensors and actuators as well as programmable logic. In addition, he is able to evaluate the operation and compatibility of components in practice.
Assessment criteria, approved/failed
Level 5; Student knows the contents of the course well and can apply their knowledge in practice. The student is able to apply Automation components and design an automation system that includes sensors and actuators as well as programmable logic. In addition, he is able to evaluate the operation and compatibility of components in practice.
Qualifications
No previous studies are required.
Further information
Automaation perusteet, kansainvälisyyden näkökulma (EN):
The issues of automation technology are internationally similar.