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Bachelor's Degree Programme in Mechanical Engineering and Production Technology (2016-2021)

Degree:
Bachelor of Engineering

Degree title:
Bachelor of Engineering

Credits:
240 ects

Bachelor of Engineering, Mechanical Engineering and Production Technology, full-time studies, Lappeenranta
Code
(MEC20SLPR)
  • Timing plan: TLPRMEC20S
    • Open in new tab
    Enrollment

    06.05.2024 - 30.08.2024

    Timing

    01.08.2024 - 31.05.2025

    Number of ECTS credits allocated

    15 op

    Mode of delivery

    Contact teaching

    Unit

    Faculty of Technology (LAB)

    Campus

    Lappeenranta Campus

    Teaching languages
    • English
    Degree programmes
    • Bachelor's Degree Programme in Mechanical Engineering and Production Technology (2016-2021)
    Teachers
    • Jouni Könönen
    Scheduling groups
    • Lecture (Size: 0. Open UAS: 0.)
    Groups
    • TLPRMEC21S
    Small groups
    • Lecture

    Learning outcomes

    The student is able to
    - connect the operator panel with programmable logic in the TIA Portal.
    - basics of graphical user interface design.
    - implements an optimal control panel application in terms of usability and ergonomics.
    - perform manual operation of the production line via the control panel.
    - make small-scale data collection based on sensor data in programmable logic and make trends based on data collection.

    Implementation and methods of teaching

    Lectures, exercises, exam, returnable assignments.

    Learning material and recommended literature

    Study material will be announced at the beginning of the course.
    Material to be distributed on the course website.

    Contents

    The student
    - is able to apply more deeply acquired theoretical knowledge in real working life projects.
    - understands the role of technical documentation and is also able to create documents according to standards.
    - is able to design a PLC-based automation system, simulate its operation and select suitable components for the system.

    Assessment criteria

    Basic level (1-2): the student can implement a simple piece goods automation application using programmable logic software.

    Good level (3-4):The student can implement a more advanced piece goods automation application using programmable logic software.

    Excellent level (5): The student is able to implement a complex piece goods automation application using programmable logic software.

    Assessment scale

    1-5

    Failed (0)

    Level 1 of the competences described below is not met.

    Assessment criteria: level 1 (assessment scale 1–5)

    The student will be able to implement a simple piece goods automation application using programmable logic software.

    Participates actively in class (80% of the classroom teaching) and successfully completes the exercises according to the given schedule.

    Assessment criteria: level 3 (assessment scale 1–5)

    The student is able to implement a more advanced piece goods automation application with programmable logic software.

    Actively participates in class (80% of the classroom teaching) and successfully completes the exercises according to the given timetable.

    Assessment criteria: level 5 (assessment scale 1–5)

    The student will be able to implement a complex piece goods automation application using programmable logic software.

    Actively participates in class (80% of the classroom time) and successfully completes the exercises according to the given schedule.

    Willing to guide others in solving problems.

    Open in new tab
    Enrollment

    06.05.2024 - 31.07.2025

    Timing

    01.08.2024 - 31.07.2025

    Number of ECTS credits allocated

    5 op

    RDI portion

    5 op

    Mode of delivery

    Contact teaching

    Unit

    Faculty of Technology (LAB)

    Campus
    • Lappeenranta Campus
    • E-campus, Lahti
    Teaching languages
    • English
    Seats

    0 - 100

    Degree programmes
    • Bachelor's Degree Programme in Mechanical Engineering and Production Technology (2016-2021)
    • Bachelor’s Degree Programme in Sustainable Solutions Engineering
    • Bachelor's Degree Programme in Industrial Information Technology
    Teachers
    • Matti Welin
    • Tommi Veijalainen
    • Mira Vorne
    • Seppo Toivanen
    • Anne-Marie Tuomala
    • Mikko Ruotsalainen
    • Hanna Laakso
    • Malahat Ghoreishi
    • Eero Scherman
    • Henri Koukka
    • Paul Carroll
    • Sakari Autio
    • Tapani Heikkilä
    • Marianne Matilainen
    • Jukka Nisonen
    • Jussi Kuusela
    • Tuomo Liimatainen
    • Karri Miettinen
    • Tarja Ahonen
    • Riikka Hautamäki
    • Heli Viik
    • Jyrki Antikainen
    • Kati Mustonen
    • Jouni Könönen
    • Pia Haapea
    • Simo Sinkko
    • Juha Hyytiäinen
    • Olli Koskimaa
    Groups
    • TLPRMEC23S
    • TLPRIIT21S
    • TLPRMEC22S
    • TLTISSE21SV
    • TLTISSE22SV
    • TLPRIIT23S
    • TLPRIIT22S
    • TLPRMEC21S

    Learning outcomes

    The student is able to:
    - describe the objectives and core contents of their thesis
    - plan and describe the stages of the thesis process
    - take into account the possible research permit and copyright issues.

    Assessment scale

    1-5

    Open in new tab
    Enrollment

    06.05.2024 - 31.07.2025

    Timing

    01.08.2024 - 31.07.2025

    Number of ECTS credits allocated

    5 op

    Virtual portion

    5 op

    RDI portion

    5 op

    Mode of delivery

    Distance learning

    Unit

    Faculty of Technology (LAB)

    Campus

    Lappeenranta Campus

    Teaching languages
    • English
    Seats

    0 - 100

    Degree programmes
    • Bachelor's Degree Programme in Mechanical Engineering and Production Technology (2016-2021)
    • Bachelor’s Degree Programme in Industrial Mechanical Engineering
    Teachers
    • Jukka Nisonen
    • Eero Scherman
    • Riikka Hautamäki
    • Tuomo Liimatainen
    • Seppo Toivanen
    • Jouni Könönen
    • Mikko Ruotsalainen
    • Simo Sinkko
    • Tapani Heikkilä
    • Hanna Laakso
    Groups
    • TLPRMEC23S
    • TLPRMEC22S
    • TLPRMEC20S
    • TLPRMEC21S

    Learning outcomes

    The student is able to:
    - present the results or output of their thesis
    - report on their thesis in writing in accordance with the thesis guidelines of LAB University of Applied Sciences
    - write a maturity test.

    Assessment scale

    1-5

    Open in new tab
    Enrollment

    06.05.2024 - 31.07.2025

    Timing

    01.08.2024 - 31.07.2025

    Number of ECTS credits allocated

    5 op

    Virtual portion

    5 op

    RDI portion

    5 op

    Mode of delivery

    Distance learning

    Unit

    Faculty of Technology (LAB)

    Campus

    Lappeenranta Campus

    Teaching languages
    • English
    Seats

    0 - 100

    Degree programmes
    • Bachelor's Degree Programme in Mechanical Engineering and Production Technology (2016-2021)
    • Bachelor’s Degree Programme in Industrial Mechanical Engineering
    Teachers
    • Jukka Nisonen
    • Eero Scherman
    • Tuomo Liimatainen
    • Riikka Hautamäki
    • Seppo Toivanen
    • Jouni Könönen
    • Mikko Ruotsalainen
    • Simo Sinkko
    • Tapani Heikkilä
    • Hanna Laakso
    Groups
    • TLPRMEC23S
    • TLPRMEC22S
    • TLPRMEC20S
    • TLPRMEC21S

    Learning outcomes

    The student is able to:
    - implement the thesis on the basis of an approved thesis plan.

    Assessment scale

    1-5