Electronics Engineering
- Czech Republic
- France
- Germany
- Greece
- Poland
- Romania
- Spain
- Czech Republic
What is the objective of the course? What is it?
What does it train you for?
What does it train you for?
The Master’s Degree program in Electronics Engineering offers a training path entirely delivered in English and divided into 4 curricula: “Modern Electronics”, “Telecommunications”, “Electronics for Robotics and Mechatronics”, and “Bioelectronics”.
The program is characterized by a broad-based approach and aims to train a professional figure with a solid foundation in the following areas: electronics, electrical and electronic measurements, telecommunications, and automation.
Master's degree graduates in Electronics Engineering are able to work in sectors such as micro/nano-electronics, electronic design (including radiofrequency and microwaves), ICT systems, bioelectronics, and robotics.
They provide the answer to the need for transversal skills, nowadays more and more required in the fields of smart cities, Internet of Things, big data, secure and ultra-broadband telecommunications networks, last generation electrical networks, smart and electrical vehicles, home automation, mechatronics, but also of new production technologies and diagnostic medicine.
All master’s degree graduates in Electronic Engineering from Palermo find employment in the job market quickly, with excellent prospects for growth and earnings.
What do you learn?
The training path is characterized by several mandatory common courses: applied and industrial electronics, programmable electronic systems, electronic measurements for telecommunications and automation, and microwave electronics.
After these courses, the program is divided into four curricula, each of which allows students to explore aspects of Modern Electronics (optoelectronics, nanoelectronics, integrated optics, heterostructure devices, microwave instruments and measurements), Telecommunications (wireless networks, digital communications, antennas and wireless systems, cybersecurity), Electronics for Robotics and Mechatronics (automotive control systems, industrial robotics, mobile and distributed robotics), or Bioelectronics (biomedical sensors and instrumentation, IoT for biomedical applications, statistical representation and analysis of biomedical signals).
Students' preparation is completed and integrated through several activities carried out in the laboratories of Electronics, Electrical and Electronic Measurements, Microwaves, Microwave Electronics, Optoelectronics, Photovoltaics, Telecommunications, and in Computer Labs.
Students will also have access to a class 100 clean room for courses related to technological aspects.
What can you do with it?
Job opportunities are broad and varied, also depending on the chosen curriculum.
The “Modern Electronics” curriculum allows to work on the design, development and realization of electronic devices and systems, in different contexts including micro/nano-electronics, electronic design, electronics for industry, energy and automotive.
The “Telecommunication” curriculum allows to find a job on the design, development, production, operation and maintenance of telecommunications systems, network operators and ICT service providers offering wired and wireless communications, remote sensing and traffic control, network security, cryptography, cybersecurity, smart grids and network data services.
The “Electronics for Robotics and Mechatronics” curriculum allows to find a job in the automotive, nautical, avionic, railway and electromechanical sector, for companies dealing with industrial or mobile robotics, or in research and development centers specialized in the automation sector.
The “Bioelectronics” curriculum allows to work both in industries, healthcare facilities, specialized clinical laboratories, and also in research centers and universities, with tasks concerning the design, production, management, testing and employment of biomedical sensors, instrumentation and medical software for monitoring of healthy or impaired people, for therapy or diagnostic support, and also for e-health and telemedicine.