First cycle
degree courses
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degree courses
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degree courses
School of Engineering
ELECTRONIC ENGINEERING
Information concerning the students who enrolled in A.Y. 2017/18
If it is not your enrollment A.Y. go back to the home page

Degree course details
Degree course type Second cycle degree D.M. 270/2004
In0520
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Degree course code IN0520
Activated in 2008/09
Year of degree course structure 2008/09
Class (Ministerial field of study code) LM-29 - Electronic engineering
Degree issued
Branch Padova
Language Italian
Degree course tracks Common track
Related degree courses --
Other degree courses within the same class    --

Degree programme regulations Regulations Rector's decree and regulations, issued on 24/05/2017 with RD n. 1752/2017
Annex 1 General description of educational activities
Annex 2 Study progression and proposed educational activities (course units, contact hours, credits, relevant subject areas, teaching-learning methodology, etc.)
Annex 4 Additional annex

Brief description of the degree course
Characteristics and objectives
Features and purpose
The master degree in Electrical Engineering is aimed at training designers of electronic systems in various sectors, such as electronics for computing and telecommunications, industrial, electronics for biomedical applications, the electronics domestic use (home, office, transport), the electronics for airborne-space systems. The Master engineer professional figure will be able to adapt to the rapid and continuous technological innovation, to easily interact with other Engineering sectors and to operate in all areas of application electronics. In particular, the graduates will have the ability to solve engineering problems also of high complexity, operating in multidisciplinary environments and in full cooperation with other members of the technical staff. They will be able to evaluate, analyse and solve problems in new and emerging areas of their specialization by applying innovative methods in problem solving. They will have the ability to design and conduct analytic studies, to operate in the field of measurements, computer simulations and experiments in the laboratory. They will critically discuss the obtained data, draw conclusions and make decisions with the aim of optimizing the proposed solutions. They can actively participate in decision-planning phases of the design of new equipment and systems. They should have the ability to assess the possibility of application of emerging technologies, evaluating the purchase of equipment and consciously choose the suitable components to the development of complex systems. Finally, they will develop their awareness in the reliability problems often heavily dependent on the application sector of theproduct.

Occupational opportunities
The master electronics engineer, thanks to a solid basic education and to a significant expertise in the key application areas, enhanced by highly interdisciplinary nature of knowledge, aims to meet the advanced and innovative requirements of most of the high-tech companies. The Master of Science in Electrical Engineering opens employment opportunities both in small and medium-sized enterprises, operating in various sectors of information technology, electromechanical, biomedical, entertainment, and in large enterprises of microelectronics, telecommunications, automotive, avionic. The curriculum offers a multidisciplinary training, compatible with the flexibility required by market globalization and the constant evolution of technologies and products. Typical employment opportunities for graduates in Electronic Engineering are especially relevant to the company's operating segments, especially of:
companies that design and develop electronic components, equipment, and systems;
companies that develop systems and devices in different sectors for which electronics represents the essential element: the automotive, biomedical, telecommunications, avionics, space, solid state lighting, management and conversion;
companies that design and develop equipment, systems and infrastructures for the acquisition and transmission of information and its use in telematic applications;
manufacturing enterprises, agro-food companies, companies operating in residential areas, areas of public administration and service companies, in which systems and infrastructure for the acquisition, processing, processing and transmission of information (data, voice and images) are used;
industrial automation and robotics companies that use systems for the automation of their manufacturing process;
companies from different sectors, which require expertise in the development and use of electronic systems and telecommunications services in the internal organization support, production and marketing;
public and private enterprises of telecommunication services and terrestrial or satellite remote sensing.
Graduates in Electronic Engineering can also work professionally on the standard test and collaborate with certification laboratories

Admission
Admission type Open access with admission requirements
number of non-EU students resident abroad 3
        of which Chinese ("Marco Polo" Programme) 1
Minimum number of pre-enrollments on which the activation of the Course of Study depends   --
Enrollment as a part time student yes
Fees Fees for A.Y. 2017/18
Admission notice    Admission notice for A.Y. 2017/18

Admission tests and pre-selections
Updated on 22/07/2017, at 07:30
Test Submission of applications Number of
applicants
of which applied as 1st choice
"Laurea Magistrale in Ingegneria Elettronica" dal 30/05/2017 al 28/09/2017 11 11

Links
Ministerial websites Universitaly
Academic reference structures School of Engineering
Department of Information Engineering
Chair of the Degree Course Teachers' Council ANDREA GEROSA

Course units available for each Academic Year of the degree course
Please note:
Here you can find the list of the course units provided for in your study plan, in order of year.
Click on "A.Y. 2017/18 details" to see the details concerning the course unit taught in A.Y. 2017/18.
Warning: there could be changes in the next Academic Years.
Is this link not available? It means that the course unit doesn't exist in A.Y. 2017/18: it will be taught for the first time in the next Academic Years.
Degree course track Course unit code Course unit name Credits Year Period Lang. Teacher in charge
COMMON IN09111793 ANALOG ELECTRONICS
A.Y. 2017/18 details
9 1st Year First
semester
ITA LEOPOLDO ROSSETTO
COMMON IN03120460 ANALOGUE INTEGRATED CIRCUIT DESIGN
A.Y. 2017/18 details
9 1st Year Second
semester
ITA ANDREA BEVILACQUA
COMMON INP5071882 CHEMISTRY FOR ELECTRONICS
A.Y. 2017/18 details
9 1st Year Second
semester
ITA VITO DI NOTO
COMMON INP7079338 DIGITAL SIGNAL PROCESSING
A.Y. 2017/18 details
9 1st Year First
semester
ENG GIANCARLO CALVAGNO
COMMON IN09106156 ELECTRONIC MEASUREMENTS
A.Y. 2017/18 details
9 1st Year First
semester
ITA CLAUDIO NARDUZZI
COMMON INN1028641 MICROELECTRONICS
A.Y. 2017/18 details
9 1st Year Second
semester
ITA ANDREA NEVIANI
COMMON INP5073437 MICROWAVE DEVICES
A.Y. 2017/18 details
9 1st Year First
semester
ITA ANDREA GALTAROSSA
COMMON INP5073477 POWER ELECTRONICS
A.Y. 2017/18 details
9 1st Year Second
semester
ENG LUCA CORRADINI
COMMON INN1033356 STRUCTURE OF MATTER
A.Y. 2017/18 details
9 1st Year Second
semester
ITA PIERGIORGIO NICOLOSI
COMMON IN07109225 SYSTEMS THEORY
A.Y. 2017/18 details
9 1st Year First
semester
ITA MARIA ELENA VALCHER
COMMON INL1000772 ANALOG ELECTRONICS DESIGN
A.Y. 2017/18 details
9 2nd Year Second
semester
ITA
COMMON INP7080597 ANTENNAS AND WIRELESS PROPAGATION 9 2nd Year Second
semester
ENG
COMMON INM0016545 APPLIED OPTICS
A.Y. 2017/18 details
6 2nd Year First
semester
ITA
COMMON INL1001834 AUTONOMOUS ROBOTICS
A.Y. 2017/18 details
9 2nd Year Second
semester
ITA
COMMON INP5071297 BIOSENSORS
A.Y. 2017/18 details
9 2nd Year First
semester
ITA
COMMON INP5070516 CONTROL LABORATORY
A.Y. 2017/18 details
9 2nd Year Second
semester
ENG
COMMON INN1030318 DESIGN AND SYNTHESIS OF DIGITAL CIRCUITS
A.Y. 2017/18 details
6 2nd Year Second
semester
ITA
COMMON INP7080563 ELECTROMAGNETIC COMPATIBILITY 9 2nd Year First
semester
ENG
COMMON INL1001838 INDUSTRIAL APPLICATIONS OF IONIZING RADIATION SOURCES
A.Y. 2017/18 details
6 2nd Year Second
semester
ITA
COMMON INP5071737 INNOVATION AND ENTREPRENEURSHIP
A.Y. 2017/18 details
6 2nd Year Second
semester
ENG
COMMON INP7080562 INTEGRATED CIRCUITS FOR SIGNAL PROCESSING 9 2nd Year First
semester
ENG
COMMON INP3050188 MOLECULAR AND ORGANIC ELECTRONICS
A.Y. 2017/18 details
9 2nd Year First
semester
ITA
COMMON INP7080564 OPTOELECTRONIC AND PHOTOVOLTAIC DEVICES 9 2nd Year First
semester
ENG
COMMON INP5074437 POWER ELECTRONICS DESIGN
A.Y. 2017/18 details
9 2nd Year First
semester
ENG
COMMON IN02120249 QUALITY AND RELIABILITY IN ELECTRONICS
A.Y. 2017/18 details
9 2nd Year First
semester
ITA
COMMON IN02120253 QUALITY ENGINEERING
A.Y. 2017/18 details
6 2nd Year First
semester
ITA
COMMON INP6075822 QUANTUM OPTICS AND LASER
A.Y. 2017/18 details
9 2nd Year Second
semester
ENG
COMMON INN1029353 SMART GRIDS
A.Y. 2017/18 details
6 2nd Year Second
semester
ITA
COMMON INO2043955 WIRELESS SYSTEMS AND NETWORKS
A.Y. 2017/18 details
9 2nd Year First
semester
ENG

Other activities
Degree course track Course unit code Course unit name Credits Year Period Lang. Teacher in charge
COMMON INL1005808 OTHER KNOWLEDGE USEFUL FOR THE INTEGRATION INTO THE LABOUR MARKET
A.Y. 2017/18 details
3 1st Year Annual ITA ANDREA GEROSA

Final examination
Degree course track Course unit code Course unit name Credits Year Period Lang. Teacher in charge
COMMON INL1003827 FINAL EXAM
A.Y. 2017/18 details
18   Annual ITA