Curricula 2016–

D = full-time studies
F = part-time studies

Degree Programme in Electrical Engineering (240 cr)

English translation, degree programme conducted in swedish.
Degree: Bachelor’s Degree in Engineering
Qualification title: Bachelor of Engineering
Duration of studies: 4 years
Study type: Full-timeFull-time
CodeNameCr/year/total
Realization plans
12345Total
Gru

Core Studies

45 cr
ELA14SK     15 cr
TKV14SV01

Swedish



The student
- can communicate coherently and in a professional manner both orally and in writing, in a work context
- demonstrates appropriate knowledge of the process of academic writing and a correct use of references
- can use different channels to retrieve information and compile reports according to the standard form and layout
1
3    3 cr
TKV14FI01

Finnish



The student
- demonstrates ability to communicate in a natural and professional manner, in speaking as well as writing, in a work context, including customer service.
- demonstrates proficiency in the terminology of the field and is able to benefit from research and literature in his/her professional development
- shows such skills in the Finnish language as are in accordance with the Act on the Knowledge of Languages Required of Personnel in Public Bodies (424/2003). This means that the student must show satisfactory (grade 1, 2 or 3) or good (grade 4 or 5) skills in speaking and writing Finnish. Written and oral skills are assessed separately.
2
 3   3 cr
TKV14FI02  3  3 cr
TKV14EN01

English



The student
- shows the ability to communicate in a professional manner in a work context in speaking as well as writing
- is familiar with essential terminology within his/her field and is able to benefit from professional literature
- has a positive attitude to developing his/her receptive and productive language skills and is familiar with the relevant tools
- is aware of cultural differences in international contexts
  3  3 cr
TKV14EN02   3 3 cr
TKV14MA     15 cr
TKV14MA013    3 cr
TKV14MA023    3 cr
TKV14MA033    3 cr
TKV14MA043    3 cr
TKV14MA05 3   3 cr
ELA14EN     15 cr
TKV14IN01

Introduction to Academic Studies



The student

- is familiar with his/her UAS, professional field and individual learning style
- reflects on his/her studies and future plans and is aware of the significance of personal development in relation to life-long learning and the profession
- can generate new knowledge and create personal learning environments
1
1    1 cr
TKV14FE01  3  3 cr
TKV14RE01  3  3 cr
TKV14LEA01  5  5 cr
TKV14TR01  3  3 cr
Yrk

Common Professional Studies

75 cr
ELA14FK     9 cr
ELA14FY013    3 cr
ELA14FY02  3  3 cr
ELA14KE01 3   3 cr
ELA14MA     6 cr
ELA14MA01 3   3 cr
ELA14MA02 3   3 cr
ELA14ET     39 cr
ELA14ET013    3 cr
ELA14ET023    3 cr
ELA14ET033    3 cr
ELA14ET04 3   3 cr
ELA14ET05 3   3 cr
ELA14ET06

Analog Electronics



Cf. attached pdf file
Kärnkompetenser
1
3    3 cr
ELA14ET076    6 cr
ELA14ET083    3 cr
ELA14ET09

Energy Technology



Cf. attached pdf file
Kärnkompetenser
1
 3   3 cr
ELA14ET10 3   3 cr
ELA14ET113    3 cr
ELA14ET12 3   3 cr
ELA14IT     21 cr
ELA14IT01

Computer Systems



Cf. attached pdf file
Kärnkompetenser
1
3    3 cr
ELA14IT026    6 cr
ELA14IT033    3 cr
ELA14IT04

Data Transmission



Cf. attached pdf file
Kärnkompetenser
1
 3   3 cr
ELA14IT05

Networks



Cf. attached pdf file
Kärnkompetenser
1
 3   3 cr
ELA14IT06 3   3 cr

Professional Studies: Electric Power Engineering

60 cr
ELA14EA     15 cr
ELA14EA01

Transient Analysis



Cf. attached pdf file
Kärnkompetenser
1
 3   3 cr
ELA14EA02

Tranformers



Cf. attached pdf file
Kärnkompetenser
1
 3   3 cr
ELA14EA03

Rotating Motors



Cf. attached pdf file
Kärnkompetenser
1
 6   6 cr
ELA14EA04

Switchgears



Cf. attached pdf file
Kärnkompetenser
1
 3   3 cr
ELA14EI     15 cr
ELA14EI01  3  3 cr
ELA14EI02  3  3 cr
ELA14EI03  6  6 cr
ELA14EI04  3  3 cr
ELA14EK     15 cr
ELA14EK01   6 6 cr
ELA14EK02

Power Quality



Cf. attached pdf file
Kärnkompetenser
   3 3 cr
ELA14EK03   3 3 cr
ELA14EK04   3 3 cr
ELA14SS     15 cr
ELA14SS01

Power Electronics



Cf. attached pdf file
Kärnkompetenser
1
  3  3 cr
ELA14SS02  3  3 cr
ELA14SS03  3  3 cr
ELA14SS04  3  3 cr
ELA14SS05  3  3 cr

Professional Studies: Automation Technology

60 cr
ELA14PT     15 cr
ELA14PT01

Process Systems Engineering



Cf. attached pdf file in Swedish
Kärnkompetenser
1
 6   6 cr
ELA14PT02 3   3 cr
ELA14PT03 6   6 cr
ELA14AD     15 cr
ELA14AD01

Analog Circuits



Cf. attached pdf file
Kärnkompetenser
1
  3  3 cr
ELA14AD02  3  3 cr
ELA14AD03  6  6 cr
ELA14AD04

Signal Processing



Cf. attached pdf file
Kärnkompetenser
  3  3 cr
ELA14RE     15 cr
ELA14RE01  3  3 cr
ELA14RE02

Basics of Control Engineering



Cf. attached pdf file in Swedish
Kärnkompetenser
  6  6 cr
ELA14RE03

Advanced Controllers



Cf. attached pdf file in Swedish
Kärnkompetenser
  3  3 cr
ELA14RE04  3  3 cr
ELA14ST     15 cr
ELA14ST01   3 3 cr
ELA14ST02

Control Systems



Cf. attached pdf file
Kärnkompetenser
1
   3 3 cr
ELA14ST03   3 3 cr
ELA14ST04   6 6 cr

Professional Studies: Information Technology

60 cr
ELA14SU     15 cr
ELA14SU01

Data Security



Cf. attached pdf file
Kärnkompetenser
1
 3   3 cr
ELA14SU02 3   3 cr
ELA14SU03 3   3 cr
ELA14SU04 3   3 cr
ELA14SU05 3   3 cr
ELA14AM     15 cr
ELA14AM01  5  5 cr
ELA14AM02  5  5 cr
ELA14AM03  5  5 cr
ELA14PR     15 cr
ELA14PR01  3  3 cr
ELA14PR02  3  3 cr
ELA14PR03

User Interfaces



Cf. attached pdf file
Kärnkompetenser
1
  3  3 cr
ELA14PR04  6  6 cr
ELA14IS     15 cr
ELA14IS01

Embedded Systems



Cf. attached pdf file

Kärnkompetenser
   3 3 cr
ELA14IS02

Operating Systems



Cf. attached pdf file
Kärnkompetenser
   3 3 cr
ELA14IS03

Mobile Systems



Cf. attached pdf file
Kärnkompetenser
   3 3 cr
ELA14IS04

Network Systems



Cf. attached pdf file
Kärnkompetenser
   3 3 cr
ELA14IS05

Web Systems



Cf. attached pdf file
Kärnkompetenser
   3 3 cr

PROFESSIONAL STUDIES: ENERGY TECHNOLOGY

60 cr
ELA16EE  15  15 cr
ELA16EE01  6  6 cr
ELA16EE02

Sustainability in Engineering Solutions (LCA)



Sustainability in the energy context. What is sustainability, how is it measured, and can it be reached. Close co-operation with experts in the renewable energy field
Tools and processes for assessing environmental impact and sustainability
Environmental legislation and administration and risk management
Resources, Resource efficiency and recycling

The student
• Is familiar with different approaches to sustainability and sustainable development
• Is familiar with the basics of industrial ecology and can identify improvement potential in systems
• Can identify and diversify system borders, stakeholders, material and energy flows.
• Can assess the sustainability an development of industrial ecosystems.
• Knows the basics of life cycle assessment and can carry out an LCA for a product or service
The student achieves a holistic view of management of sustainable development processes and areas of challenge in the field of energy. The student is able to compare different solutions, for example different energy alternatives.
1
  9  9 cr
ELA16PT  15  15 cr
ELA17PT01

Energy; Resources, Transfer and Storage



Process design basics; Energy sources, resources, thermodynamics, combustion engineering.
Review of energy systems, resources, transfer and storage from a global perspective from physical principles to practical solutions. Technologies currently utilized and implemented and future prospects and development.
1
  6  6 cr
ELA17PT02

Combustion Engineering



The students acquire general engineering skills on thermochemical energy conversions and process measurements. The students acquire specific skills on combustion engineering and prediction of vital phenomena related to overall performance.
1
  9  9 cr
ELA16CO   15 15 cr
ELA17CO01

Modelling, Simulations and Optimization of Energy Systems



The students acquire general modeling and simulation skills in order to understand which modeling and simulation tools and software that should be used for specific engineering challenges. The course gives the students a simulation toolbox so that the students have possibilities to study practical engineering applications by computational simulations.
1
   6 6 cr
ELA16CO02

Control and Systems Engineering



Control engineering basics, the principles of feedback control systems, implementing basic feedback control systems, and be able to select components and equipment for control systems.
   9 9 cr
ELA16ES 15   15 cr
ELA17ES01

Technology; Solutions, Design and Engineering



The students get familiar with components and principles of electrical engineering relevant to energy systems, they get familiar with renewable energy sources for distributed systems, and they get familiar with the system simulation software Trnsys, they acquire skills on how to design and dimension energy systems.
1
 6   6 cr
ELA17ES02

Bio-economy Innovation



Assessing the bio-economy potential of a selected area and identifying the technological solutions enabling harvesting and converting it into power or heat. Biomass chemistry.
1
 3   3 cr
ELA16ES03

Distributed Energy Systems



This module invites the students to a multidisciplinary learning journey discovering the potential of bio-economy innovation and distributed energy systems solutions in solving real life challenges

Definition of a distributed energy system and global and local examples. Principles of design and engineering of distributed energy concepts and technologies
Analyzing, designing and/or developing solutions for distributed energy within the energy village concept

In this course the stundents work in teams using the knowledge gained in the previous courses in designing a distributed energy system. Lectures and project work

Innovation, entrepreneurship, leadership and self-management
 6   6 cr
Val

Elective Studies

15 cr
Pra

Working Experience

30 cr
ELA14AP101010  30 cr
EXA

Thesis

15 cr
ELA16EX   15 15 cr


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