Type:
University of Technology
Region:
Dolnośląskie
Programme:
Computer science
Area:
Technological sciences
Level:
Master's Programme
Mode of studies:
full-time programme
Duration:
3 semesters
Tuition fee:
non EU/EFTA students 2000 EUR tuition fee per semester, EU/EFTA students no tuition fee
Degree awarded:
Master
Scholarships available:
Based on merit
Application deadline:
Tuesday, 30 November, 2021
Language:
EN
Day of semester start:
Tuesday, 1 February, 2022
Credits (ECTS):
90
Admission requirements:
Requirements: Bachelor's Degree in Electronics and Telecommunication. Each application is assessed individually on its merits. If in doubt, please contact the Admission Officer, e-mail: admission@pwr.edu.pl
» Deadline for application: Non EU/EFTA students see: www.admission.pwr.edu.pl; EU/EFTA students see: www.rekrutacja.pwr.edu.pl
» English: Equivalent of minimum TOEFL IBT – 87 points or 6.5 points IELTS. List of accepted language certificates can be checked online
» Application fee: Non EU/EFTA students see: www.admission.pwr.edu.pl; EU/EFTA students see: www.rekrutacja.pwr.edu.pl
Description:
Field of study: Electronics and Telecommunications
Specialization: Electronics, Photonics, Microsystems
The curriculum of Electronics, Photonics, Microsystems (EPM) specialisation encompasses up-to-date knowledge in the field of electronics and electronic technologies, computer science, optoelectronics, microsystems, optical
fibre networks, telecommunication and wireless communication. Stress is laid on the achievements of technology which play an important role in today’s telecommunication, photovoltaics (an alternative energy source – solar
cells), design of optoelectronics devices and systems as well as optoelectronics and nanometrology. A significant place in the curriculum is occupied by subjects related to electronic and optoelectronic systems and microsystems
that integrate unique high-tech device solutions and constructions. Emphasis is also put on the microsystems which create new progress opportunities in nearly all areas of human activity from motor industry and banking to
medicine and natural environment protection. A complementary subject is microprocessor control systems which perform important functions in all types of electronic and optoelectronic equipment. The graduate will have
gained experience in technology and retrieving information from the literature and other sources. Wide spectrum of novel technologies - from nanotechnology and photonics, through micro engineering to microelectronic and
information techniques - are discussed in details during lectures given by experienced teachers. Well-equipped laboratories dedicated to the teaching process and technological laboratories will help students understand new
knowledge and possess unique skills in the high-tech field. Educational facilities of the Faculty of Microsystem Electronics and Photonics include unique laboratories at technological campus in Długa Street.
fibre networks, telecommunication and wireless communication. Stress is laid on the achievements of technology which play an important role in today’s telecommunication, photovoltaics (an alternative energy source – solar
cells), design of optoelectronics devices and systems as well as optoelectronics and nanometrology. A significant place in the curriculum is occupied by subjects related to electronic and optoelectronic systems and microsystems
that integrate unique high-tech device solutions and constructions. Emphasis is also put on the microsystems which create new progress opportunities in nearly all areas of human activity from motor industry and banking to
medicine and natural environment protection. A complementary subject is microprocessor control systems which perform important functions in all types of electronic and optoelectronic equipment. The graduate will have
gained experience in technology and retrieving information from the literature and other sources. Wide spectrum of novel technologies - from nanotechnology and photonics, through micro engineering to microelectronic and
information techniques - are discussed in details during lectures given by experienced teachers. Well-equipped laboratories dedicated to the teaching process and technological laboratories will help students understand new
knowledge and possess unique skills in the high-tech field. Educational facilities of the Faculty of Microsystem Electronics and Photonics include unique laboratories at technological campus in Długa Street.
SEMESTER 1
»Autonomous Power Supplying Systems
»Vacuum and Plasma Techniques
»Optical Fibres
» M OEMS: Micro-Opto-Electro-Mechanical Systems
»Nanotechnology
»Solid State Electronics
»Optimisation Methods
»Numerical Methods
»Statistics for Electronics Photonics Microsystems
»Mathematics
»Foreign Language
»Vacuum and Plasma Techniques
»Optical Fibres
» M OEMS: Micro-Opto-Electro-Mechanical Systems
»Nanotechnology
»Solid State Electronics
»Optimisation Methods
»Numerical Methods
»Statistics for Electronics Photonics Microsystems
»Mathematics
»Foreign Language
SEMESTER 2
»Management Course
»Foreign Language
»Ceramic Microsystems
»Analytical Microsystems
»Microsystem Modelling
»Photovoltaics
» Design and Construction of Optoelectronic Circuits
»Operating Systems
»Optical-Fibre Networks
»Advanced Optoelectronics
»Foreign Language
»Ceramic Microsystems
»Analytical Microsystems
»Microsystem Modelling
»Photovoltaics
» Design and Construction of Optoelectronic Circuits
»Operating Systems
»Optical-Fibre Networks
»Advanced Optoelectronics
SEMESTER 3
»Philosophy of Science and Technology
»MSc Thesis
»Diploma Seminar
»Diagnostics and Reliability
»Packaging of Electronics Photonics Microsystems
»Sensors and Actuators
»MSc Thesis
»Diploma Seminar
»Diagnostics and Reliability
»Packaging of Electronics Photonics Microsystems
»Sensors and Actuators
JOB PROSPECTS
The graduate will have multidisciplinary knowledge in the field of widely understood electronics and its versatile applications in everyday life and science, which is an appreciated tool by future
employers and is necessary to overcome technical and technological challenges in these professional fields. They will be able to play the role of international team leader as well as organise and
run research debates in the fields of electronics, photonics and microsystems. They will have acquired the experience necessary for a professional career in research units, industry, and at universities
and start their own business as well.
employers and is necessary to overcome technical and technological challenges in these professional fields. They will be able to play the role of international team leader as well as organise and
run research debates in the fields of electronics, photonics and microsystems. They will have acquired the experience necessary for a professional career in research units, industry, and at universities
and start their own business as well.
The knowledge and skills obtained give graduates the possibility of getting a job as:
»Design/Application Engineer
»Innovation Officer
»Senior Research Specialist
» Senior Manager
»Business Development and Project Manager
»Competence Engineer
»Process Development Engineer
» R&D Technical Leader & Planning Leader
»Design/Application Engineer
»Innovation Officer
»Senior Research Specialist
» Senior Manager
»Business Development and Project Manager
»Competence Engineer
»Process Development Engineer
» R&D Technical Leader & Planning Leader