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Introduction to the programme

  • This programme is taught in English

Virtually all electronics today contain power electronics and embedded systems in one form or another and this trend is on the rise with future products and production becoming increasingly intelligent and energy-optimised. This means that more and more electronics are based on power electronics, embedded systems and control technology, therefore there is a demand for electronic engineers with expertise in these fields.

Three disciplines

At the programme you will be educated in three disciplines: power electronics, embedded systems and integrated application.

Power electronics
The world's collective energy consumption is soaring which has led to increased focus on the need to convert energy production from the use of fossil fuels to renewable energy, for example in the form of sun and wind energy. Power electronics is the key to new sustainable energy solutions.

In short, power electronics is the optimal conversion of energy from one electric energy form to another. This conversion is found everywhere there is the need to change electric energy's form, for example voltage, current, phase or frequency. The use of electric energy conversion is increasing as the evolution of power electronic components is undergoing rapid development.

Embedded systems
The programme's second discipline is embedded systems which are found in nearly all electronic equipment and smart solutions. To add to the future's products and services intelligence, electronic systems are also embedded. Embedded systems are found everywhere and are used in all market sectors such as energy, medicine, environment, agriculture, communication, entertainment, textiles, transport, logistics, chemistry, food and materials.

Integrated application
Examples of integrated applications where the combination of power electronics and embedded systems plays a major role: 

  • Power electronics and embedded system, used for controlling the rotation speed of wind turbines in order to produce maximum power
  • Energy from solar panels is converted into power by utilization of power electronics and embedded systems 
  • The transportation sector is a major energy consumer where hybrid and electric cars rely on power electronics, embedded systems and control in order to ensure reduced energy consumption 
  • Storage of energy in water reservoirs or pressure tanks is done by means of power electronics combined with embedded systems 
  • Power electronics and embedded systems are used in space crafts and satellites for converting energy from solar panels, fuel cells and batteries 
  • Every day and industrial products such as televisions, ovens, cars, watches, drones, power supply and robots etc.

Project and research based learning environment

You will be part of a study-based and collaborative learning environment where you work in project groups. You and your fellow students are responsible for planning and carrying out projects within the allotted time. Projects typically come from companies and we emphasise the importance of solving problems from 'real life'.

Career opportunities

The programme offers a range of career options both in Denmark and abroad. You can get a job as a development and research engineer or project leader in development projects, technical manager, consultant and contractor. It is typically within branches which work with the development of electronic products, green technology, sustainable energy, robot systems and automation, as well as transport systems.

You can also continue with a 3-year research programme which leads up to a PhD. For graduate civil engineers there is also the option to undertake an industrial research programme which is conducted in close collaboration with a company where you will be employed.


Entry requirements and admission

Read about entry requirements and how to apply for admission.

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