Nov 19, 2019   5:55 a.m. Alžbeta
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Course syllabus ETEN01_6B - Electrotechnics and Electronics (MTF - SS 2019/2020)


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University: Slovak University of Technology in Bratislava
Faculty: Faculty of Materials Science and Technology in Trnava
Course unit code: ETEN01_6B
Course unit title: Electrotechnics and Electronics
Mode of delivery, planned learning activities and teaching methods:
lecture2 hours weekly / 26 hours per semester of study (on-site method)
26 hours per semester of study (combined method)
laboratory/construction practice2 hours weekly / 26 hours per semester of study (on-site method)
26 hours per semester of study (combined method)

 
Credits allocated: 5
 
Recommended semester/trimester: Applied Informatics and Automation in Industry - bachelor (compulsory), 4. semester
Applied Informatics and Automation in Industry - bachelor (compulsory), 4. semester
Mechatronics in Technological Equipment - bachelor (compulsory), 4. semester
Mechatronics in Technological Equipment - bachelor (compulsory), 4. semester
Materials Engineering - bachelor (semi-compulsory), 4. semester
Materials Engineering - bachelor (semi-compulsory), 4. semester
Production Devices and Systems - bachelor (semi-compulsory), 4. semester
Production Devices and Systems - bachelor (semi-compulsory), 4. semester
Level of study: 1.
Prerequisites for registration: none
 
Assesment methods:
Student participation in laboratory exercises is mandatory, with a maximum of three excuse absence. Confirmation excused absence is replaced by the solution of assigned tasks and preparing a written report from the topic of the laboratory exercises . The student must prepare and submit reports of all laboratory exercises completed . Failing these conditions the interim evaluation of the student's 0 % no matter how many percent gained from interim control work for the uploaded logs and activity. Head teacher has the right not to admit the unprepared student to measure and has the right to return unsatisfactory protocol for reprocessing. In the 6th and 12 week semester, students take control written works , and from each can earn a maximum of 10 % . A student may receive a total of more than 10% uploaded and protocols for the preparation of laboratory exercises and more than 10% activity during the semester . During the semester, the student can thus obtain maximum continuous rating of 40 % .
A student may receive a final evaluation maximum of 60 % on that date of the written examination , the examiner takes into account the number of absences at lectures ( - 2 % per absence ) .
 
Learning outcomes of the course unit:
Students will gain knowledge of the use knowledge about electricity and magnetism in the technical practice. Lectures give the student knowledge of fundamentals of electrical engineering, semiconductor electronics, electrical measurements and student gains knowledge about the used materials and components. Laboratory sessions give the student skills in involving electrical circuits, in the electrical measurements and in the interpretation of measurement results. Also student obtaine work habits consistent with safety and health at work. After completion of the course the student is able to
- Analyze DC and AC single-phase and three-phase circuits,
- Describe the structure, principle of operation and operating conditions of transformers,
- Apply the principles of electrical measuring instruments and electrical measurements,
- Describe the structure of components and working principle of modern semiconductor devices.
 
Course contents:
1 Fundamentals of electromagnetism
2 Magnetic circuits and DC circuits
3 AC single-phase circuits
4 AC three-phase circuits
5 Periodic circuits and transient effects
6 Electrical measurements
7 Transformers
8 Passive Components
9 Semiconductors and semiconductor diodes
10 Transistors, thyristors, diacs and triacs
11 Elements of digital circuits and computers
12 Transducers and Sensors
13 Reserves
 
Recommended or required reading:
Basic:
KOSORIN, D. Elektrotechnika. Bratislava : STU v Bratislave, 1999. 354 p. ISBN 80-227-1217-5.
KOSORIN, D. -- RIEDLMAJER, R. -- JANČUŠKA, I. Elektrotechnika: Návody na laboratórne cvičenia. Bratislava : STU v Bratislave, 2002. 203 p. ISBN 80-227-1717-7.
RIEDLMAJER, R. -- JANČUŠKA, I. -- FILANOVÁ, J. Elektrotechnika. Príklady na cvičenia. Elektronické skriptá.  [online]. 2006. URL: http://1.

 
Language of instruction: slovak or english
 
Notes:
 
Courses evaluation:
Assessed students in total: 947

ABCDEFX
3,9 %9,8 %14,4 %25,3 %42,2 %4,4 %
Name of lecturer(s): doc. Ing. Roman Čička, PhD. (examiner, instructor, lecturer, person responsible for course) - slovak, english
RNDr. Igor Jančuška, PhD. (examiner, instructor, lecturer) - slovak
Ing. Stanislav Vragaš, PhD. (examiner, instructor) - slovak
 
Last modification: 20. 12. 2018
Supervisor: doc. Ing. Roman Čička, PhD. and programme supervisor


Last modification made by Ing. Erika Kuracinová on 12/20/2018.

Type of output: