Lecturer(s)
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Novák Ondřej, prof. Ing. CSc.
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Rozkovec Martin, Ing. Ph.D.
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Jeníček Jiří, Ing. Ph.D.
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Course content
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Lectures: 1. Signals and logical elements 2. Boolean algebra 3. Logical term minimization 4. Combinational circuits 5. Flip flops 6. Sequential system desig 7. Counters and memories 8. Special automata 9. ASIC circuits 10. D-A convertors 11. A-D convertors 12. Digital circuit charactreistics 13. Integrated circuits technologies 14. Consultations Practice: 1. Basic IC parameters measuring 2. Different digital systems and arithmetical operations 3. Combinational circuits 4. Xilinx Project Navigator introduction 5. Multiplexer and decoder based combinational circuits implementation 6. D, RS, JK and T flip flops 7. Synchronous finite automata design 8. Xilinx Project Navigator based automata design 9. Arithmetical circuits,: adding, subtraction and multiplication 10. Individual project 11. Individual project¨ 12. Automata construction using processors 13. A-D and D-A convertors 14. Credits
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Learning activities and teaching methods
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Monological explanation (lecture, presentation,briefing)
- Class attendance
- 56 hours per semester
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Learning outcomes
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The subject is mentioned as an introduction to digital electronics. Students will learn basic properties of integrated circuits, design methodology of combination and sequential circuits, properties of D/A and A/D convertors and they will get a knowledge about modern programmable circuits used in computer systems.
Theoretic piece of knowledge and practical skills from requered areas
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Prerequisites
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Digital Computers subject knowledge is supposed.
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Assessment methods and criteria
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Written exam
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Recommended literature
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Horowitz - Hill. The art of electronics.. Cambridge University Press, 1991.
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KUBÁTOVÁ, BLAŽEK. Logické systémy - cvičení. skriptum FEL ČVUT, 1996.
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Novák, Doležal, Nouza, Kolář. Elektronika. Skriptum TU Liberec, 2001.
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STOREY. Electronics and system approach.. Addison-Eesley publishing comp., 1992.
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