Lecturer(s)
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Černý Pavel, Mgr. Ph.D.
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Adámek Petr, doc. PaedDr. Ph.D.
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Course content
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1. Repetition of the course Electronics in Agriculture I (basic concepts, basic circuit components) 2. Repeat the material from Electronics in Agriculture I (semiconductors and semiconductor components) 3. IMAGING TECHNOLOGY - BASIC TYPES OF IMAGING DEVICES (Historical Digitron, seven-segment, electromechanical imaging devices) 4. DISPLAY TECHNOLOGY - CRT DISPLAY (Schematic of a CRT screen, deflection of the electron beam, image formation on the screen, principle of a colour CRT screen) 5. DISPLAY TECHNOLOGY - DISPLAY PANELS WITHOUT MECHANICAL PARTS (LCD displays, TN panels, IPS panels, OLED panels - principle of function, properties) 6. BATTERIES AND BATTERIES (Basic types of batteries and accumulators (galvanic cell, NiMh, Li-Pol, Li-ion, lead acid battery) 7. OPERATING AMPLIFIERS (Principle and purpose, basic wiring with operational amplifiers) 8. DA AND AD converters (Principle and purpose, wiring diagram of a simple AD and DA converter, examples of practical use) 9. ADVANCED ELECTRONICS - CENTRAL PROCESSOR UNIT (Block diagram of central processor unit, functions of individual parts) 10. Advanced Electronics - Computer Architecture (Von Neumann computer architecture) 11. ADVANCED ELECTRONICS - COMPUTER ARCHITECTURE (Harvard computer architecture) 12. ADVANCED ELECTRONICS - BUSES AND INTERFACES (Purpose and principle of function, overview and comparison of the most common buses and interfaces in computers and control, regulation and automation technology) 13. Summary of the most important findings in the field of advanced electronics
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Learning activities and teaching methods
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Monologic (reading, lecture, briefing)
- Class attendance
- 42 hours per semester
- Preparation for classes
- 20 hours per semester
- Preparation for credit
- 30 hours per semester
- Preparation for exam
- 40 hours per semester
- Semestral paper
- 20 hours per semester
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Learning outcomes
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The course builds on the knowledge gained in courses of physics, electrical engineering, electronics, and automation. It focuses on the application of electronic circuits, on principles of converters and on electronic measuring instruments.
The student is able to apply the knowledge, received during the study, specified in the part: Content of the syllabus.
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Prerequisites
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Knowledge of Physics- electricity and magnetism and necessary mathematical system.
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Assessment methods and criteria
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Oral examination
Acceptance of taught topics, ability to solve task related to these topics
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Recommended literature
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Adámek, P. Obvody a části měřicích přístrojů. PF JU v Českých Budějovicích, 2010.
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Faktor, Z. Transformátory a cívky. Praha: BEN-technická literatura, 2002.
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Krejčiřík, A. Lineární napájecí zdroje - příklady výpočtů, návrh transformátoru, usměrňovače a stabilizátoru. Praha: BEN-technická literatura, 2002.
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Lysenko, V. VN zdroje - zdroje vysokého napětí. Praha:BEN-technická literatura, 2008.
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Punčochář, J. Operační zesilovače, 4. vydání. Praha, BEN, 1999. ISBN 80-86056-37-6.
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Vobecký, J Záhlava, V. Elektronika-Součástky a obvody. Praha Grada, 2006.
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