Syllabus for Solar Energy Technologies for Electricity Production

Solenergitekniker för elgenerering


  • 5 credits
  • Course code: 1TE678
  • Education cycle: Second cycle
  • Main field(s) of study and in-depth level: Renewable Energy Production A1N, Energy Technology A1N, Technology A1N
  • Grading system: Fail (U), Pass (3), Pass with credit (4), Pass with distinction (5)
  • Established: 2011-03-07
  • Established by:
  • Revised: 2018-08-30
  • Revised by: The Faculty Board of Science and Technology
  • Applies from: week 30, 2019
  • Entry requirements: 120 credits within Science/Technology including Electromagnetism, Power Engineering, Energy System Physics/Modern Physics.
  • Responsible department: Department of Materials Science and Engineering

Learning outcomes

On completion of the course, the student should be able to:

  • explain the technical and physical principles of solar cells,
  • measure and evaluate different solar cell technologies and relate these to underlying theory,
  • calculate the required size of solar cell systems from a given power demand  by using appropriate calculations and simulation software,
  • communicate technical and socioeconomic issues of solar energy in a concise and comprehensible way by using poster presentations, Power Point or similar, in English.


Solar radiation: Properties of sunlight. Absorption by the atmosphere. Calculation of solar irradiance at surfaces.
Solar cells and modules: The function of solar cells from semiconductor physics. Different solar cell technologies and fabrication methods. Concepts for increasing efficiency based on loss analysis. Wavelength sensitivity. Series connection of solar cells to modules. Module function and characteristics. Shading of cells and modules.
Solar cell systems: System components and their functions. Calculating output and dimensioning of solar cell systems. Analysis and computer simulation of a solar cell system.
Concentrated sunlight and solar power (CSP): Properties of optical concentration systems. Solar cells in concentrated sunlight. Overview of the different components in a CSP system and their functions. Examples of CSP-systems globally.
Active solar energy in systems: How large scale deployment of active solar cell energy is possible in Sweden and globally. Buying and selling electric energy. Grid aspects of large scale deployment of solar cells.


Lectures and seminars. The seminars can be in the form of lessons or discussion sessions. Study visit. Laboratory exercises and computer simulations.


Oral presentation of group task and written examination at the end of the course (4 credits). Lab exercises and computer simulation sessions (1 credt).  
If there are special reasons for doing so, an examiner may make an exception from the method of assessment indicated and allow a student to be assessed by another method. An example of special reasons might be a certificate regarding special pedagogical support from the disability coordinator of the university.

Other directives

The course  may not be included in the same degree as 1TE028 Solar Energy - Technology and Systems, or 1TE206 Solar Energy - Technology and Systems.

Reading list

Reading list

Applies from: week 30, 2019

Reading materials handed out during the course.

  • Mertens, Konrad Photovoltaics : fundamentals, technology and practice

    Chichester, West Sussex, United Kingdom: John Wiley & Sons Inc., 2014.

    Find in the library