Browse IS/STAG - Portál OSU

Course info KIP / XPOLP : Course description

• Course description , selected item
• Study programmes, wherein the course is included
• List of students course
• Timetable course
• Examination datesexaminations course
• Timetable events course
• Permissions for Course

Department/Unit / Abbreviation	KIP / XPOLP			Academic Year	2022/2023
Academic Year	2022/2023
Title	Elements of Electronic Computers			Form of course completion	Exam
Form of course completion	Exam
Accredited / Credits	Yes, 4 Cred.			Type of completion	Oral
Type of completion	Oral
Time requirements	Lecture 3 [Hours/Semester] Seminar 3 [Hours/Semester]			Course credit prior to examination	No
Course credit prior to examination	No
Automatic acceptance of credit before examination	No
Included in study average	YES
Language of instruction	Czech
Occ/max				Automatic acceptance of credit before examination	No
Summer semester	0 / -	0 / -	0 / -	Included in study average	YES
Winter semester	0 / 0	16 / -	0 / 16	Repeated registration	NO
Repeated registration	NO
Timetable	Yes			Semester taught	Winter semester
Semester taught	Winter semester
Minimum (B + C) students	not determined			Optional course	Yes
Optional course	Yes
Language of instruction	Czech			Internship duration	0
No. of hours of on-premise lessons				Evaluation scale	A|B|C|D|E|F
Periodicity	every year
Specification periodicity				Fundamental theoretical course	No
Fundamental course	No
Fundamental theoretical course	No
Evaluation scale	A|B|C|D|E|F
Substituted course	None
Preclusive courses	N/A
Prerequisite courses	N/A
Informally recommended courses	N/A
Courses depending on this Course	N/A
Histogram of students' grades over the years: Graphic PNG ,  XLS

Course objectives:
The student will understand the following topics: Basic elements of computers, digital circuits, semiconductor memories, external memory, keyboard circuits and imaging systems, electrical parameters of connections in digital devices, power supplies, A/D and D/A converters, time and frequency measurement. Students will understand the principle of parallel and serial interfaces, the construction of single-chip controllers and microcomputers.
Requirements on student
The student has one task (maximum 10 points) and pass 8 test (each up to 5 points). At the end the student will pass an oral exam. For each task and test, you must achieve at least 65% success. The student enters the exam if he or she completes all prescribed activities. Points of these activities are passed to the student for the test. The student passes the exam in accordance with the valid Rules of Study of the Study and Examination Rules of the OU.
Content
1. Components of a computer 2. Boolean algebra. 3. Logic circuits. 4. Basic electronic circuits. 5. Basic semiconductor elements. 6. Operational Amplifiers. 7. Combination circuits and sequential circuits. 8. Microprogrammers. 9. Memory. 10. Keyboard and imaging systems. 11. Parallel and serial interfaces. 12. Power supplies. 13. Process control elements. 14. Single-chip controllers and microcomputers. 15. Processors.
Activities
Fields of study
Guarantors and lecturers
Guarantors: Ing. Pavel Smolka, Ph.D. ,  Lecturer: Ing. Pavel Smolka, Ph.D. (100%),  Tutorial lecturer: Ing. Pavel Smolka, Ph.D. (100%),  Seminar lecturer: Ing. Pavel Smolka, Ph.D. (100%),
Literature
Basic: KRATOCHVÍL, O., CÍCHA, P., MATUŠÍK, P. Elektronika.. Kunovice, Evropský polytechnický institut, 2017. ISBN 978-80-7314-389-3. Basic: Klimeš, C. Prvky elektronických počítačů - Logické obvody. Ostravská univerzita v Ostravě. 2010. Basic: Klimeš, C. Prvky elektronických počítačů - Obvodová elektronika. Ostravská univerzita v Ostravě. 2010. Basic: Klimeš, C. Prvky elektronických počítačů - Počítačové systémy. Ostravská univerzita v Ostravě. 2010. Extending: Garris, D., Harris S.L. Digital Design and Computer Architecture. London, 2012. ISBN 978012394424. Extending: Jansen, H., Rotter, H. Informační a telekomunikační technika. Europa - Sobotálek cz. Praha. 2004. ISBN 80-86706-08-7. Extending: Haberle, H. a kol. Průmyslová elektronika a informační technologie. Praha, 2003. ISBN 80-86706-04-4. Extending: Fojt, J., Hudec, L. Základy elektroniky. Praha, České vysoké učení technické v Praze, 2009. ISBN 978-80-01-04236-6. Recommended: Kubátová, H. Struktura a architektura počítačů s řešenými příklady.. Praha, ČVUT, 2013. ISBN 978-80-01-05191-7. On-line library catalogues
Time requirements
All forms of study Activities Time requirements for activity [h] Consultation of work with the teacher/tutor (incl. electronic) 15 Being present in classes 6 Preparation for an exam 25 Continuous tasks completion (incl. correspondence tasks) 30 Unaided e-learning tasks completion 25 Total 101
Prerequisites
Competences - students are expected to possess the following competences before the course commences to finish it successfully: Basic orientation in mathematics and physics.
Learning outcomes
Knowledge - knowledge resulting from the course: Know the ways of interpreting logical values by using electrical signals. Understand the basics of TTL logic and know the involvement of these combination logic circuits. To characterize the basic types of flip-flops, know how to design sequential logic circuits. Know the laws of electrical circuits, know electronic elements and semiconductor elements. Know the function and types of individual functional parts of the computer. Skills - skills resulting from the course: Working with a truth-tables. Know the strategy for minimization of logic functions. Design simple logic circuit. Be able to design a functional configuration of the computer, in dependence on its use.
Assessment methods
Knowledge - knowledge achieved by taking this course are verified by the following means: Continuous analysis of student´s achievements Oral examination
Teaching methods
Knowledge - the following training methods are used to achieve the required knowledge: E-learning (tutorial, electronic study materials) Monologic (explanation, lecture, briefing)