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Electronic Engineering
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Summary of the Profile
General Description:
Objective(s) of a study programme:
To train specialists who would acquire necessary knowledge and skills to design, install, adjust, maintain, and control electronic devices and systems;
To train specialists who would know the standards and guideline particularities of the electronic device and system manufacturing and maintenance;
To train specialists who would be capable to organize and manage the business in Electronics field.
Learning outcomes:
Knowledge and understanding:
• Be well-versed in the general patterns and laws of the natural sciences and mathematics required for the understanding of the fundamentals of electronic engineering;
• Know the key concepts of electronic engineering and understand their content;
• Possess the fundamental knowledge of electronic engineering of key importance in practical work;
• Be acquainted with the context of the issues and solutions of the contiguous fields of science.
Engineering analysis
• Be able to apply their subject matter knowledge and understanding for the solution of the problems of electronic engineering while creatively applying the mastered methods;
• Be able to apply their knowledge and understanding when dealing with engineering challenges and select the appropriate methods, testing tools and manufacturing equipment;
• Be able to apply analytical and modelling methods when dealing with the engineering problems in the field of electronics.
Engineering design:
• Be able to apply knowledge and understanding of electronic engineering when outlining and implementing, design tasks within the framework of the outlined requirements;
• Understand the methodology of the design of electronic equipment and apply it in practice.
Research:
• Be able to find the required professional information by using databases and other sources of academic and engineering information;
• Be able to conduct experiments required for solving engineering tasks of electronic engineering, process their results and present practical conclusions on the basis of the obtained results;
• Possess skills of operating the technological equipment used in electronic engineering.
Engineering activities:
• Be able to suggest optimal engineering solutions and select the appropriate strategies and technological equipment required for the implementation of these solutions;
• Be able to combine theoretical and applied knowledge when dealing with the issues of electronic engineering;
• Understand the ethical, environmental and commercial aspects of the engineering activity; • Understand the principles of organizing engineering activity and be familiar with the fundamental requirements of work and fire safety.
Personal and social skills:
• Be able to deal with engineering issues independently and in a multi-profile group (team);
• Be able to communicate with the engineering community and the entire society;
• Realize the impact of engineering solutions for the society and the environment, adhere to professional ethics and the regulations of engineering activity, understand their responsibility for the outcomes of their engineering activity;
• Be familiar with the key aspects of project implementation and management at the level of engineering activity;
• Understand the importance of lifelong individual professional development and be ready for constant improvement.
Activities of teaching and learning:
Methods of assessment of learning achievements:
Framework:
Study subjects (modules), practical training:
I. Semester:
Foreign language, Physical training 1
Mathematics 1, Physics, Information technologies, Mechanics, Electronic and electrical assembly practice, Electrical materials and electronic components.
II.Semester:
Foreign language, Physical training 2, Mathematics 2, Electrical engineering, Basics of measurements and metrology, Engineering graphics and computer-aided drawing, Logical circuits.
III.Semester:
Philosophy/ sociology, Physical training 3, Programming of computer equipment, Mechatronics, Design of electronics technique and production technologies.
IV.Semester:
Physical training 4
Professional practice, Semester work (ET), Microprocessors, Power sources.
V.Semester:
Law
Technological practice, Professional bachelor graduation theses 1.
VI.Semester:
Business economics and management, Project management, Environment and human safety, Business ethics/ Professional communication,
Final practice, Professional bachelor graduation theses 2, Communications of electronic systems.
Specialisations:
Design and Manufacturing of Electronic Equipment
IV. Semester:
Design of printed circuit boards
V. Semester:
Embedded systems, Programmable logic devices, Digital TV and mobile technologies
Maintenance of Building Automation Systems
IV. Semester:
Automation of audio and video systems
V. Semester:
Visualization and control, Automation of building engineering systems, Security and fire protection systems.
Automated Systems and Robotics
IV. Semester:
Robotics 1
V. Semester:
Electrical machines and drivers, Programmable controllers, Robotics 2
Telecommunications
IV. Semester:
Telecommunications Theory;
V. Semester:
Data Transmission Networks, Wireless Communication networks, Optical Communication Networks.
The volume of the chosen specialization subjects is 18 credits.
The study program includes 3 credit alternative subjects: Analog Circuits, Power Electronics Devices, Internet of Things (IoT), Telecommunication Network Security.
Optional courses:
A student selects optional subjects from the list, which is approved every academic year
Distinctive features of a study programme:
Electronics is one of the most rapidly developing branch of engineering industry. We encounter various electronic products and sophisticated electronic systems everywhere. It makes a person’s life easier and ensures more comfort and safety in our environment. Electronics itself includes the management of manufacturing as well as processes; without which we cannot imagine telecommunications, energy, various transport (land, air and water), medical equipment, military industry etc.
The main reasons for choosing this study program could be the following:
• Studies are focused on theoretical and especially practical activities because its contents are based on the real needs necessary for the engineer qualification;
• Studies are organized in concentrated and intensive way, the skills are formed at modern laboratories;
• Lecturers are experts in their fields; every subject is taught by the ones who have specific practical knowledge in the given area;
• Native and foreign lecturers from this industry share their “know how” with program students and staff to improve their skills;
• There is a possibility to gain international experience participating in Erasmus+ program; • There is a possibility to acquire double degree by learning one year in the University of Applied Sciences Schmalkalden (Germany).
Access to professional activity or further study:
Access to professional activity:
Design and manufacturing of electronic equipment – graduates can work as designers of electronic devices and systems and specialists at business enterprises. Necessary skills for understanding projects as well as “know how” to design simple and embedded schemes are provided. The graduate will be able to work at manufacturing company, organize its activities, apply technological processes and solve problems. Automated process control and robotics – engineering specialists will be able to work as equipment technicians, install and operate manufacturing lines and other automation processes controlled by computer-aided systems. They will be able to work as machine, line operators and complex products assemblers. Maintenance of building automation systems – graduates will be able to design, install and operate smart building control systems and computer-assisted systems. They will be able to design, install and operate fire protection, video watch and alarm systems. Skills are provided to work in the area of building engineering systems automation. Graduates can work as electronic systems installers, testers, designers, electronic systems project managers, electronics department heads, engineers in various electronics companies, or start their own business. Telecommunications - provides the latest knowledge in the field of telecommunications: fiber-optic and radio technologies on which modern data transmission networks operate, with a special focus on the latest standards, as well as the principles of operation of such networks. Graduates will be able to work in ICT companies as telecommunications network designers, network equipment installers and operators, computer network administrators.
Access to further study:
Graduates may continue studies at the university and acquire Master’s degree.
