Official Master's degree in design of electronic equipment and electronic research

Official University Master's degree at the UPC

Electronic engineering

URV - Universitat Rovira i Virgili. Màsters Oficials
In Tarragona (Spanien)

Preis auf Anfrage

Wichtige informationen

  • Master
  • Tarragona (Spanien)
  • Dauer:
    1 Year
  • Wann:

Official Master's degree in electronic engineering studied over just one year in Catalonian, Spanish and English. It prepares students both for research in electronic engineering and for professional development in the area of designing electronic equipment and automatic production systems.

Wichtige informationen

Voraussetzungen: Official European university degree (or a degree in law, engineering, architecture, quantity surveying or a graduate degree). In the case of non-EU degrees: an equivalent degree from an authorised higher-level educational establishment and academic record for the accredited official training including average grade from the original university.

Nationally recognised qualification: Official University Master's degree - Ministry of Education


Wo und wann

Beginn Lage
Tarragona, Spanien
Plan ansehen

Was lernen Sie in diesem Kurs?

Innovation management
Industrial electronic systems
Systems of perception
Robot programming and control
Optimisation and optimal control
Initiation in research
Semiconductor devices
Optoelectronic devices
Photonic devices
RF operation in devices
Control of commuted convertors
Mobile robotics
Crystal characterisation


Material from the itinerary for creating professionals

Compulsory subjects
  • Industrial Electronic Systems
  • Master's Thesis

Optional subjects
  • Systems of Perception
  • Robot Programming and Control
  • Optimisation and Optimal Control
  • Work Experience within the Industry

The subjects on the research itinerary are:

Compulsory subjects.
  • Initiation in Research
  • Master's Thesis
Optional subjects
  • Written and Oral Communication
  • Innovation and Transfer Management
  • New Information and Communication Technologies
  • Semiconductor Devices
  • Optoelectronic and Photonic Devices
  • Rf Operation Mode in Devices and Integrated Circuits
  • Synthesis, Modelling and Commuted Convertor Control
  • Power Management for Renewable Energy Sources
  • Mobile Robot
  • Crystal Characterisation, Nanocrystals, Materials Nanostructured by X-Ray Defraction Methods
  • Research Laboratory II
  • Crystallographic Characterisation and Chemistry of Archaeological Materials