A Bachelor degree in Electronics, Bioengineering, Electrical Engineering, Automation, Telecommunication, Physics, Nanotechnology, and in related fields. Knowledge in advanced mathematics, physics, computer science, signal and communication theory, electric circuits and feedback control, basic electronic devices and analog/digital circuit analysis.
The Master of Science programme aims to form graduates with a comprehensive and solid scientific and technological background in Electronics Engineering, able to design and to use electronic devices, electronic circuits and electronic systems of any complexity as well as to promote the diffusion of electronic technologies in the fields of human activity where benefits can be envisaged. To meet these training needs, the Master of Science in Electronics Engineering bases its roots on a full spectrum of basic courses (mathematics, classical and modern physics, computer science, signal theory, control and communications, basic electronic circuits) that are prerequisites required from the Bachelor, and focuses on the most advanced disciplines in electronic design (analog and digital integrated circuits, solid state physics and devices, microelectronics, optoelectronics and photonic devices, sensors and electronic instrumentation, communications and control systems) to provide a complete and up-to-date preparation. Upon graduating, students will have developed a "design oriented" mindset and acquired a skill to use engineering tools to design solutions to advanced electronic challenges in scientific and technological fields.
Analog & Digital Integrated Circuit Design, Electronic Systems Design, Radiofrequency Circuit Design, Power Electronics Design, Microcontroller and FPGA System Design, Signal Recovery, Processing, and Feedback Control, Electronic Devices and Microelectronic Technologies, Microsensors, MEMS, and Sensor Systems, Biochip and Electronics Design for Biomedical Instrumentation, Semiconductor Radiation Detectors and Applications, Optoelectronics, Photonic Devices and Systems.
Thanks to the deep and solid scientific and technological knowledge provided, Laurea Magistrale graduates in Electronics Engineering will be able to hold positions of great responsibility, both at technical and management level, in a wide variety of productive contexts: scientific and technological research centers, national and international, public or private; industries of semiconductors, integrated circuits and in general of electronic components; industries of electronic systems and instrumentation, such as consumer electronics (audio, video, telephone, computers, etc.), optoelectronics, biomedical, etc.; electromechanical industries with high technological content such as aeronautics, transportation, aerospace, energy, robotics and plant automation, etc.; work as a freelance in the design and fabrication of custom electronic systems.
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