Study location	Italy, Pavia
Type	Graduate, full-time
Nominal duration	2 anni (120 ECTS)
Study language	English
Course code	06419/00/2021

Tuition fee	€4,500 per year Tuition fee for non-EU students who enter Italy with a study visa is based on flat rate and depends on the citizenship. If non-EU students come from a family with limited financial resource, they can choose to have their tuition fee calculated according to their family income (from €156,00 to €3.985,00 per year). For more info please consult this link
Application fee	€35 per programme This fee is not refundable.

Entry qualification

Undergraduate diploma (or higher) Bachelor’s degree, postgraduate Master’s degree or a three-year diploma or other officially recognised study titles awarded abroad in Engineering. Check here the requirements. The entry qualification documents are accepted in the following languages: English / French / Italian / Spanish. In order to finalize your enrollment, you must submit the scanned version of your original documents.

Territory requirements	Applications are accepted from the following territories (based on citizenship): European Union, Iceland, Liechtenstein, Norway, San Marino, Switzerland. We have reachead our capacity for student who need a visa to enter Italy. It is possible to apply to this course only if you are an EU applicant or you are non-eu national living in Italy with a valid permit of stay.

Language requirements	English English Students also need to have a basic knowledge of English – Level 2 (Common European Framework). You can prove this knowledge with an English certification listed here

More information	electrical.unipv.eu

Overview

The Master’s Degree Course in Electrical Engineering aims to train professionals with a strong background in the theorical and practical aspects of the main subjects that characterize electrical engineering.
Graduate have to be able to identify, understand, frame and solve complex issues, typical of this industrial field, with an innovative and interdisciplinary approach.
Our study plan gives students the chance to personally experience the use of tools for experimental researches, of professional computing environments for numerical simulation of the studied phenomena, of design methods in the field of electrical systems and industrial automation.

Programme structure

YEAR 1
• Applied Electromagnetism
• Electrical Systems
• Industrial Measurements and Communication Systems
• Power Electronics
• Design and Technology of Electrical Machines
• Energy Management
• One subject to be chosen from the list: Energy Markets and Supply Structure / Process Control / Robot Control / Robotics / Industrial Control / Electronics for Industrial Measurements / Management of Photovoltaic Systems / Diagnostics for Electrical Machines

YEAR 2
• Industrial Drives
• Numerical Methods in Engineering Sciences
• One subject to be chosen from the list: Economics for The Digital Society / Organization Theory and Design / Planning and Operation of Power Systems / Electric Vehicles / Energy Markets and Supply Structure
• One subject to be chosen from the list: Planning and Operation of Power Systems / Electric Vehicles / Systems and Technologies for the Smart Grid / Energy Markets And Supply Structure / Economics for the Digital Society / Organization Theory and Design / Process Control / Robot Control / Robotics / Industrial Control / Electronics For Industrial Measurements
• One subject to be chosen from the entire course offer

Career opportunities

• planning and management of production, transmission and distribution of electricity
• structural analysis of the electricity market and support services
• design of electrical installations
• design and implementation of systems for the automation of power grids
• design of electrical and magnetic devices using advanced methods for the analysis and synthesis of the fields
• project, development and regulation of converters, electrical machines and drives for applications in industrial, civil and services and, in particular, in the field of automation and robotics study,
• development and characterization of conductive materials, electrical and magnetic for industrial applications
• industrial electrical measurements, acquisition and processing of measured data
• energy management and design of energy systems in industrial, civil and service sectors
• evaluation of the electromagnetic compatibility problems in industrial field