To be eligible for admission, you must hold a qualifying upper secondary school degree, and you must have passed the following courses:

-English level B
--Mathematics level A
Physics B or Geoscience A 
-Quota 1: Study places are allocated based on GPA
Study places in quota 1 are allocated based on the applicant's grades. To be considered for a study place in quota 1, the grade point average of your qualifying degree must meet a minimum requirement.

To be considered for a study place in quota 1, your GPA must be equivalent to 5.0 or higher on the Danish grading scale.

Please note that fulfilling the minimum requirement is no guarantee of admission. If there are more qualified applicants than study places, the study places are given to the applicants with the highest grade point averages.

-Quota 2: Study places are allocated based on an entrance examination
After you submit your application, you will be invited to participate in an entrance examination. Participating puts you in a position for the study places in quota 2. The study places are offered to the applicants with the highest test scores.

You may choose to skip the entrance examination if you meet the minimum requirements for quota 1. However: By participating in the entrance examination, you will be optimizing your chance of admission.

Applicants can also demonstrate English proficiency with a TOEFL score of 88 or higher, or a C1 Advanced (CAE) or C2 Proficiency (CPE) certificate 
Applicants from the European Union or the EEA can demonstrate English proficiency at the B-level 
Applicants must document their English skills using the Language Requirement Form, which is signed by both the applicant and their home university. 

Electronics and computer engineers are, for example, qualified to develop mobile phones, robots, and surveillance systems. 

Graduates will have competencies in fields characterized by rapid technological change – and have a great impact on the development of society. You are qualified for work in the private as well as in the public sector.

From this program, You could :
-learn about analog, digital, and power electronics as well as signal processing
-learn how to develop advanced software as well as the use of computer-based modeling and simulation tools for electronic components and circuits
-be taught in the design of electronic circuits, which requires strong skills in advanced mathematics and a good understanding of the underlying physics
-learn to consider not only the technical aspects – a broader approach is needed when developing new electronic products
-learn to include all relevant aspects such as the economy and the environment when developing new products
-get used to working in project groups where you and your fellow students will solve problems for companies through case-based work
-learn both how to apply the theoretical knowledge in practice as well as how to work on a project incl. project planning, risk assessment, teamwork, etc.

Generally speaking, electronics engineers work with development, project engineering, consultancy, sales and management. 

You could work in, for example:
Medical equipment
Computers and data network
Telecommunication: mobile phones, TV, radio, etc.
Energy technology (wind turbines, solar cells, batteries)
Electrical devices and appliances: From measurement equipment to power plants
Robots and drone
Software development
Control and automation of production processes
Industrial electronics.