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Electronics and Electrical Engineering
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Summary of the Profile
General Description: Objective(s) of a study programme: To provide theoretical and practical research-based knowledge in the study field of electronics and electrical engineering, develop the ability to apply them creatively in the design, production and operation of electronic devices, systems, and software, solving the tasks of electrical equipment operation and design, control of electrical systems. Learning outcomes:
Knowledge and its Application: A1 Is able to explain the basic principles of electronics and electricity using the basic laws of science and mathematics; A2 Is able to explain the fundamental theoretical and applied fundamentals and concepts of electronics and electrical engineering and to relate them coherently and apply them in engineering practice; A3 Is able to identify the broader multidisciplinary context of engineering and apply methods and processes from other disciplines. Special (engineering analysis and design) Skills: B1 Applying knowledge, understanding and choosing the appropriate methods, is able to develop technical tasks, analyse circuits and schematics diagrams and improve them, prepare and perform measurements and testing of electronic and electrical equipment parameters; B2 Is able to apply electronics engineering knowledge and understanding through the development of analogue, digital and embedded electronic systems and the implementation of electronics projects with defined requirements; B3 Is able to apply their knowledge and understanding in stating and analyzing electronics and electrical engineering tasks, solving them by selecting appropriate methods, experimental and manufacturing equipment, selecting, critically evaluating, analyzing and interpreting information and making motivated decisions based on technical and economic benefit analysis; B4 Is able to explain and apply design methodologies for power transmission, distribution and conversion systems, selecting the appropriate tools and techniques; B5 Is able to select and apply appropriate analytical and modeling techniques and software. Research Skills and Practical Activities: C1 Is able to use professional databases and scientific journals in the fields of electricity and electronics, and to analyse and summarise the relevant information needed to solve problems;
C2 Is able to select and apply instruments, tools and techniques for testing and operating electronic products and electrical equipment; C3 Is able to formulate the aim and objectives of the research work, plan and perform the necessary experiments, perform parameter measurements using the electrical parameters measurement equipment, to process and evaluate their data and to present conclusions; C4 Is able to combine theory and practice in solving engineering problems in the field of electronics and electrical engineering, working in an innovative environment; C5 Is able to work with equipment used in electronics and electrical engineering, workshops and laboratories; C6 Is able to apply the principles of the organisation of engineering activities in the field of electronics and electrical engineering, and is familiar with work safety and basic requirements. Personal (decision-making, lifelong learning, cooperation and teamwork) Skills: D1 Is able to work independently and in a team, generate new ideas, communicate, engage in discussions, collaborate on common goals, grasp the arguments presented; D2 Is able to communicate knowledge and present the results of an experiment or study to a professional and general audience in correct English (both oral and written); D3 Is able to identify health, safety and legal issues and responsibilities associated with engineering activities, the impact of engineering decisions on society and the environment, observe professional ethics and standards of engineering practice, and take responsibility for engineering activities; D4 Is able to explain the execution and management aspects of electronics and electrical projects in design and manufacturing activities, and is able to describe the links between engineering decisions in the field and the economic implications. Activities of teaching and learning: The studies include classroom work (lectures, practical work, laboratory work, consultation seminars, outgoing visits to enterprises, etc.) and individual work for mastering theoretical material, preparation for classroom work, intermediate and final assessments and performing other activities. The studies of each study module are completed by the assessment of the student’s knowledge and skills – an examination or another final assessment; the study programme is completed by the final degree project and its defence. The study methods of active learning, such as design (programming), design thinking, challenge-based learning, creative workshops, group work, experiential learning, discussion, problem-based learning, reflective learning, idea (mind) mapping, etc. are applied to encourage the active participation and creativity of students in the study process. The achievements are assessed using the traditional assessment methods, such as laboratory examination, assignments, laboratory or project report, as well as other methods: work or competency file (portfolio), problem-solving task, engineering project, reflection on action, self-assessment, etc. Methods of assessment of learning achievements: The applied cumulative assessment system of the learning outcomes ensures constant and involving work of students during the entire semester of studies; the final evaluation of the study module consists of the sum of the grades of intermediate assessments and the final assessment multiplied by the weighting coefficients (percentages of components). The number of intermediate assessments and their expression in percentage are chosen by the study module’s coordinating lecturer. Besides the usual forms of assessment (for example,
examination, oral presentation, project report, laboratory examination), an additional form of assessment “Assessment of student activity (level)” may be applied (up to 10% of the final grade) for the assessment of the student’s preparation for case analysis, an active discussion, participation in debates, etc. Framework: Study subjects (modules), practical training: Analogue Devices, Bachelor’s Degree Final Project, Basics of Engineering, Basics of Measurements and Metrology, Circuit Theory, Classical Physics, Electric Power Economics and Market, Electronics, Electronics Manufacturing Technologies, Fundamentals of Digital and Microprocessor Systems, Introduction to Electronics, Introduction to Programming for Engineers, Materials Science and Engineering, Mathematics 1, Mathematics 2, Power Electronics and Energy Converters, Power Transmission, Product Development Project, Professional Internship, Programming of Electronic Systems, Signals and Systems 1, Smart Electric Power Systems, Theory of Probability and Statistics. Specialisations: - Optional courses: Electives of Philosophy and Sustainable Development 2024: Media Philosophy, Sustainable Development; Electives: Applied Electrodynamics, Smart Electrical Systems of Buildings, Sensors; Foreign Language Electives (Level C1) 2024: Academic and Technical Communication in English (Level C1), Academic and Technical Communication in German (Level C1), Academic and Technical Communication in French (Level C1). Distinctive features of a study programme: A graduate has fundamental knowledge of electronics, circuit theory, electromechanics, signals and systems, measurements, electrodynamics, electrical and electric power engineering, electricity economics. The graduate knows electronic components, devices and systems, principles, methods and tools of electronic devices and embedded systems hardware and software, design methods and tools for smart electrical systems, is able to develop software for electronic systems, design, control and operate electronic systems, power electronic devices, electrical machines, electricity networks. Access to professional activity or further study: Access to professional activity: The graduate can perform the engineering, analytical, consultative and managerial work in the following fields: production of electronic products and electrical equipment manufacturing, energy sector as well as private business in the fields of production and services. Access to further study: S/he has access to the second cycle studies.
