Study programme management and contacts

Programme director – lect. Mg.Sc.Ing. Jānis Šate (email: janis.sate@venta.lv);

Study programme parameters

Study field Information Technology, Computer Hardware, Electronics, Telecommunications, Computer Management, and Computer Science
Accreditation till 26.10.2029.
Code of the study programme in accordance with the Latvian Education Classification 47523
Study programme cycle and level Second cycle study programme, Professional Qualification Level 7, LQF and EQF Level 7
Type of final examination Master's thesis
Degree to be obtained Professional Master's degree in Electronics and Lead Electronics Engineer qualification
Study type and form Full time studies
Duration of implementation (years) 1 and 2 years
Language of implementation Latvian
Study programme (CP) 1 year - 60 CP / ECTS | 2 years - 120 CP / ECTS
Admission requirements
  • 1 year: Professional Bachelor of Engineering in electronics, telecommunications or related engineering specialty;
  • 2 years: Academic Bachelor of Engineering in electronics, telecommunications or related engineering specialty.


Aim of the study programme

To train highly qualified leading electronic engineers who are capable not only of developing complex electronic equipment and systems, but also of planning, organising and supervising the development process of such equipment and systems, and of formulating and researching complex scientific and professional problems  independently.

Objectives of the study programme:

  • to prepare competitive leading electronics engineers for practical work in technology design,  development and production;

  • to ensure the achievement of study outcomes (knowledge, skills and competences) in accordance with the knowledge, skills and competences at level 7 of the  European Qualifications Framework as defined in the Latvian  Classification of Education;
  • to ensure the successful  acquisition of professional knowledge, skills and competences in line with the professional standard for a leading electronics engineer;
  • to encourage students to learn independently and creatively, and to evaluate and apply new developments in electronics;
  • to develop students analytical skills, independent problem-solving skills, and encourage their involvement in practical and  scientific problem-solving;
  • to develop students general skills and competences, promoting the development of communicative and digital skills, analytical and critical thinking, creativity, civic responsibility, the ability to successfully manage oneself and work in a team, to take responsibility for performance, ensuring the growth of a successful personality;
  • to cooperate with other universities, institutions, organisations and employers, attracting highly qualified and professional teaching staff to ensure training that meets modern requirements;
  • to provide a study process with modern teaching laboratory equipment, as well as to give students the opportunity to practice solving real scientific and technical problems by involving them in the work of electronics companies during their internship;
  • to modify the content and presentation methods of the programme in a timely manner in response to changes in the labour market and predict changes in the near and distant future.

Study programme learning outcomes

  • Able to design electronic equipment and systems of high complexity;

  • Able to manage research and development projects;
  • Able to monitor, manage and optimize the production of electronic equipment and systems;
  • Able to carry out scientific research;
  • Able to carry out the general tasks of pursuing a professional activity;
  • Understanding and knowledge in electronics engineering in line with the theoretical orientations of this field and the latest findings.

Last modified: Monday, 1 July 2024, 12:00 PM