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Digital Electronics

Programme's language

lithuanian

Qualification degree and (or) qualification to be awarded

Professional Bachelor of Engineering Sciences

Institution that has performed accreditation, accreditation term

Studijų kokybės vertinimo centras, 8/31/2020

Data provided or updated (date)

5/2/2022

Order on accreditation

SV6-15
More about programme

Institution title

Kauno kolegija / Higher Education Institution

Institution title in Lithuanian

Kauno kolegija

Institution code of legal entity

111965284

Institution legal form

Public Institution

Institution documents of founding

Kauno_kolegija.doc

Institution group

Higher education institution

Institution subordination

State

Main type and other types

College, Vocational education and training institution

Institution address

Kaunas, Pramonės pr. 20, LT-50468

Institution phone

+370 37 352324

Institution fax

+370 37 751135

Institution email

rastine@go.kauko.lt

Institution web address

www.kaunokolegija.lt

Phone of admission office

+370 37 352218

Email of admission office

priemimas@go.kauko.lt

Institution funding sources

National budget, Other legaly acquired finances, Studying fee

Institution main type description

Awarded Lithuanian National Qualifications Framework levels:
Level 5, Level 6
Issued certificate levels:
Short Cycle Studies Diploma, Higher education diploma (non-university studies), Professional bachelor diploma
More about institution

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Programmes with similar name

Programmes provided and certificates issued by institution

Qualifications provided by institution

Programmes granting same qualifications

Summary of the Profile of study programme

General Description:
Objective(s) of a study programme:
The aim of the study program is to prepare a professional bachelor of engineering sciences who is able to design, implement and operate electronic systems (ES) based on digital and wireless communication technologies or their separate parts; develop and design control electronics software and its algorithms; to install and adjust electronic equipment according to the set parameters; study the possibilities of operation; organize and perform the necessary technical maintenance work; able to lead a group of persons in the implementation of design, installation and operation works; assess the legal, social, ethnic and economic aspects of electronic systems; able to apply subject theoretical and practical knowledge in solving various types of engineering tasks; able to work individually and in a team.
Learning outcomes:
Knowledge and skills
1. Explain the most important concepts in the field of electronic engineering corresponding to the Digital Electronics (DE) study program.
2. Describe the general regularities of natural sciences and mathematics and the laws required to understand the fundamental foundations of the field of electronics engineering corresponding to the DE study program.
Ability to perform engineering analysis
3. Apply your knowledge and understanding to solve digital electronics problems by creatively choosing known methods.
4. Analyze the structure, operating principles, processes and technical requirements of the digital electronic system based on production and technological standards.
Knowledge and skills for design work
5. Prepare a digital electronics project, selecting the components of electronic systems, calculating the electrical parameters of the circuits, operating modes, construction materials.
6. Prepare hardware and software for information and communication systems and mobile devices for the implementation of the engineering process, based on the presented programming functional algorithms.
Ability to conduct applied research
7. Perform experiments to solve digital electronics problems based on various sources of scientific and engineering information.
Practical knowledge and skills for solving
engineering tasks.
8. Apply electronic circuits for troubleshooting and / or technical maintenance by connecting the hardware and / or its modules according to the system installation, upgrade, optimization design and / or technical documents.
9. Organize the processes of engineering activities, taking into account the basic requirements of work and fire safety, quality standards and assessing the ethical, environmental and commercial circumstances of engineering activities.
Personal and social skills
10. Independently plan professional development
activities in the context of lifelong learning.
11. Communicate and work in a diverse team in
accordance with the requirements of professional ethics, making performance decisions and taking responsibility for performance results.
Activities of teaching and learning:
Interactive theory lectures: explanation during lectures along with analysis of practical examples,
demonstration of method application, discussion,
seminar, group-work, brainstorming, and case analysis. Practice in computer classrooms, laboratory and practical works, solving of practical tasks, interactive solving of tasks, analysis of drawings, laboratory works in a virtual laboratory, report of laboratory and practical work, practical test tasks, and application of knowledge about the limits of laboratory equipment application. Project preparation under the teacher’s consultation, selfstudy, work report, presentation and defence. Selfstudy: report, presentation, demonstration, self-check tests, self-study of scientific literature.
Assessment of learning outcomes:
The results of students’ courses are evaluated by a criterion-based evaluation system applying the
principles of cumulative score. One or more evaluation criteria for the achievement of study results are formulated accordingly. Possible assessment methods: written or oral exam, colloquium, tests with closed and / or open tasks, problem solving, laboratory report and defense, oral and poster presentations.
Framework:
Study courses (modules), practice:
The volume of general college studies in credits is 15 credits:
English, Professional English, Professional Communication, Basics of Law, Ergonomics & Occupational Safety.
The volume of the study field is 118 credits, of which the study field courses provide 76 credits:
Mathematics, Engineering Physics, Information
Technology, Engineering Graphics, Process Visualization and 3D Design, Wireless Engineering, Electrical Engineering, Embedded Systems, Input and Output Devices, Programming in C Language, Programming .net Technology, Analog Devices, Operating Systems for Electronic Devices, Microprocessors, Design and Manufacture of Printed Circuit Boards.
Practices: 31 credits:
Programming practice, Training practice, Control
Electronics Design practice, Final practice.
Professional Bachelor Thesis: 11 credits.
Specialisations:
-
Further studies within the Electronics Engineering study field – 38 credits:
Computer Software and Hardware, Operating Systems, Wireless Systems and Cybersecurity, Development of Mobile Applications, Robotics, Embedded Systems and Communications, Digital Electronics Circuits, Business Economics and Management.
Free elective courses – 9 credits:
Basics of WebSite Development, Electrical Protection, Sustainable Technologies in Industry and Power Engineering, Basics of JavaScript, Computer Network 1 (CCNA 1,2), Computer Network 2 (CCNA 3,4), Social Psychology.
Students can select the studies of free elective subjects from different study programmes. The list of Kaunas University of Applied Sciences optional subjects is published in the online learning platform Moodle.
Distinctive features of a study programme:
The content of the study program will ensure such
competencies as programming of microcontrollers for various purposes, production and application of control electronics printed circuit boards in automatic and intelligent systems, development of embedded devices. Digital Electronics study program is purposefully aimed at training digital systems specialists using the latest scientific and technological achievements.
Opportunities for professional activities and further studies:
Opportunities for professional activities:
The Bachelor of Engineering can work with: mobile and wireless electronic programmable systems or embedded devices, real-time subsystems, wireless technologies and services based on them, printed circuit board design and testing, special purpose digital electronic systems;
as a specialist in renewable energy mobile control
systems, electronic systems for intelligent transport and logistics terminals, mobile and industrial mechatronic and other programmable electronic equipment.
Access to further study:
Graduates of Digital Electronics study programme can continue studies based on higher education Electronics and Electric Engineering study fields programmes. According to the LR Law for Science and Studies, graduates are eligible to enroll into the second level study programmes in accordance with the procedure established by higher education institutions.