Electronics

6.171.00.00 Electronics
Qualification awarded: Bachelor of Electronics
Entry year: 2020
Mode of study: full
Program duration: 4 years
Institute: Institute of Telecommunications, Radioelectronics and Electronic Engineering
Number of credits: 240 ECTS credits
Level of qualification according to the National Qualification Framework and the European Qualifications Framework: NQF Level 6 (First cycle of QF-EHEA / EQF Level 6)
Field(s) of study: Electronics and telecommunications
Specific admission requirements: None
Qualification requirements and regulations, including graduation requirements: Full implementation of the curriculum and defense of the Thesis
Characteristics of the educational program: The educational program is based on the well known position and results of modern scientific research on electronics and focused on modern specialization with further possibility of professional and scientific career: electronics, electronic devices and systems. Students obtains the necessary knowledge of fundamental and oriented on profession, natural sciences, based on the physical principles of electronic engineering, physical basis of sensors, information and materials technology, forecasting, development and production of materials, components and devices of electronic equipment; projection (designing), production technology, research, testing, montage and installation of electronic devices. Experts in electronics possess of the necessary knowledge in electronics and telecommunications. Laboratory classes are carried out by means of the most modern electronic equipment and software, basically of modern equipment and electronic components leading companies, in particular, STMicroelectronics, Cypress, Analog Devices. Modern equipment and electronic components leading companies, for example, STMicroelectronics, cypress, Analog Devices, NVR 3m - installation creation of organic structures VUP-5M - deposited metal contacts 4145 - a semiconductor parameter analyzer - a complex measure electro LEDs and transistor characteristics. In the period of educational practice students carried out of various research tasks and developed of component and devices of electronic equipment, acquainted with the structures of electronics companies, development of design documentation of elements and systems of electronic equipment, etc.
Gained competence: 1. Describe the principle of operation using scientific concepts, theories, and methods and verify the results in the design and application of electronic devices and systems 2. Apply knowledge and understanding of differential and integral calculus, algebra, functional analysis of real and complex variables, vectors and matrices, vector calculus, ordinary and partial differential equations, Fourier series, statistical analysis, information theory, and numerous methods for solving theoretical and applied electronic problems 3. Finding solutions to practical problems in electronics by applying appropriate models and theories from electrodynamics, analytical mechanics, electromagnetism, statistical physics, and solid-state physics 4. Evaluate the characteristics and parameters of electronic materials, and understand the fundamentals of solid-state electronics, electrical engineering, analog and digital circuits, converters, and microprocessor technology 5. Use of information and communication technologies, applied and specialized software products to solve problems of design and debugging of electronic systems, programming skills, analysis, and presentation of measurement and control results 6. Apply experimental skills (knowledge of experimental methods and sequence of experiments) to test hypotheses and investigate electronic phenomena, be able to use standard equipment, plan, diagram, analyze, simulate, and critically evaluate the results obtained 7. Analyse complex digital and analog information and measurement systems using advanced computer and telecommunications network architecture, taking into account the specification of selected technical means and relevant technical documentation 8. Define and identify mathematical models of technological objects in the development of complex electronic systems and select the optimal solution.
1. To communicate in Ukrainian and foreign languages at the professional level, to develop documentation on information technology systems, products, and services in Ukrainian and foreign languages, and to read, understand, and apply technical documentation in Ukrainian and foreign languages in professional activity 2. Assess the subject of the learning activity, define general goals and specific tasks, choose appropriate means of their solution to achieve the result, exercise necessary self-control, use reference literature and technical documentation, develop and apply professional activity their creative and organizational abilities, organize the workplace, plan working time 3. Apply national and international standards in the field of electronics in professional activities 4. Analyze problem situations, set specific goals for solving professional tasks and consciously achieve their realization, choose a path for future actions, determine the means to achieve the goal, and make informed decisions 5. Be able to use modern information and communication technologies to solve engineering problems in the field of electronics 6. Analyze processes in electronic devices and systems using mathematical methods; provide specified operating modes; use and operate electronic devices 7. Select electronic components and tools to perform functions; diagnose performance and troubleshoot electronic devices and systems 8. Solve problems of optimization, modification, and updating of technology and production of electronic devices and systems; calculation, modeling, and design of electronic device structure 9. Analyze scientific and technical literature (including foreign literature) on the state, trends, and development of electronic equipment, technical, technological, and design documentation, and apply new technical solutions 10. Conducting tests, and experimental studies of properties of materials, components, and devices of electronic equipment; making measurements of parameters and components of electronic equipment, developing test programs for electronic equipment 11. Evaluate problem situations and deficiencies in the production or operation of electronic equipment, formulate proposals for solving problems, and eliminate deficiencies 12. Evaluate the operation of electronic devices, equipment, and systems, determine deviations from normal parameters and modes of operation of electronic devices, adjust appropriate electronic devices, adjust appropriate electronic devices, and adjust appropriate electronic devices and equipment to achieve normal modes of operation 13. Perform professional engineering activities in the field of electronics, taking into account socio-cultural, personal, economic, and environmental factors.
1. Possession and use of lexico-syntactic models typical for professional communication, construction of oral and written communication in the native and foreign language, based on the goals and situations of communication 2. Use of communicative competence for effective interaction in various spheres of communication; selection and systematization of information materials for communication in the professional sphere 3. Use mass media, information, and communication technologies to obtain, process, and create relevant information through documents, abstracts, reports, articles, and interviews 4. Improve personal communicative competence based on interpersonal communication skills and abilities, taking into account social, cultural, religious, and personal factors 5. Develop project communication plans; prepare and conduct meetings; identify problems and resolve work conflicts 6. Ability to develop team communication, and find understanding in the process of accomplishing individual tasks and responsibilities assumed.
Academic mobility: No, but mobility is encouraged and recognized in accordance to ECTS procedures
Work placement(s): An important aspect of training of specialist in electronics is the training and qualification of educational and technological practices that take place in university laboratories and leading industries of Western Ukraine.
Programme director: PhD, prof. Yaremchuk Iryna Yaroslavivna
Access to further studies: Obtaining the second (master's) level