30 May 2020

Optoelectronics

Marian Vlădescu

Coordinator

Catalogue of disciplines

Overview

The Optoelectronics Master Program is coordinated by the Department Electronics Technology and Reliability (ETR), in collaboration with the Institute National Research and Development Institute for Microtechnology (ITM). participating teachers are from the Department of Electronic Technology and Reliability, Department of Physics, Department of Mathematics, as well as specialists from research institutes and industry (Microchip, Infineon, etc). The subjects studied provide fundamental training in optoelectronics as well as specialized training in the various sub-domains of optoelectronics.

Who is it for?

Graduates of undergraduate studies in the following fields: engineering electronics and telecommunications, computer and information technology, electrical engineering, systems engineering, computer science, mechatronics and computer robotics, aerospace engineering, weapons, missiles and munitions engineering, energy engineering.

Objectives of the Master's programme

  • Specialization in the conception, design and manufacture of devices and optoelectronic circuits;
  • Learning modern computer-aided design methods applied in the field of photonic devices;
  • Specialization in technological fields specific to the realization of devices and optoelectronic circuits;
  • Specialization in the design and configuration of systems and networks for optical communications.

Specialist skills offered to graduates

  • Application of fundamental and specialized knowledge to solve complex technical problems specific to optoelectronics;
  • Numerical modelling, analysis and simulation in optoelectronics;
  • Development of engineering solutions for: materials for optoelectronics, optoelectronic and photonic devices, sensors and optoelectronic sensors and transducers, optoelectronic control, control and processing circuits control and signal processing circuits for optoelectronic devices, optical systems and networks communication.

Examples of research directions addressed

  • unguided optical communications (FSO)
  • visible spectrum optical communications (VLC)
  • optoelectronic sensor applications
  • LED lighting systems
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