Course: Electronics

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Course title Electronics
Course code KEF/EL
Organizational form of instruction Lecture + Exercise
Level of course Bachelor
Year of study not specified
Semester Winter
Number of ECTS credits 3
Language of instruction Czech
Status of course Compulsory, Compulsory-optional, Optional
Form of instruction Face-to-face
Work placements This is not an internship
Recommended optional programme components None
Lecturer(s)
  • Holubová Renata, RNDr. CSc.
  • Vůjtek Milan, Mgr. Ph.D.
  • Dudka Michal, Mgr.
  • Navařík Jakub, Mgr.
Course content
<li> Physical basics of theory of electrical circuits: basic terms and definitions, circuit components and their properties, linear, nonlinear and uncontrolled components, characteristics and parameters of two-pole components, linear two-pole components - ideal resistor, inductor and capacitor, voltage and current supplies, controlled linear one-port networks, nonlinear two-pole components, multi-port networks - three-pole components, four-pole components and two-terminal-pair networks (ideal transformer, ideal power converter, ideal gyrator, ideal impedance converter and inverter, ideal controlled supply of electrical energy, ideal amplifiers), connections of two-pole components, four-pole components and two-terminal-pair networks, equations describing the circuits, frequency characteristics, particular examples of two-pole components, four-pole components and two-terminal-pair networks <li> Principles and properties of semiconducting components: semiconductors and phenomena in semiconductors (structure of semiconducting materials, band model, electrons and holes, Ohm law, Hall effect, absorption, internal photoelectric effect and photoconductance, electroluminescence, galvanomagnetic effect, thermomagnetic effect, thermoelectric effect and Peltier effect), PN junction and its volt-ampere characteristics, metal-semiconductor junction, preparation of semiconductors, semiconducting components without active PN junction (thermistors, photoresistors and photomagnetic detectors, Hall components, magnetoresistors, Gunn diodes, varistors, tension-electrical semiconductors), semiconducting components with one active PN junction (rectifying diodes, stabilization diodes, tunneling diodes, variable-capacity capacitors (varicaps) and varactors, photodiodes, luminescent and laser diodes, thermoelectric and Peltier cells, UJT), semiconducting components with two active PN junctions - bipolar transistors (structure, principle, static characteristics, basic circuit connections and properties of circuit connections, schematic symbols, low-frequency parameters, operating point, power loss and thermal stabilization, high-frequency effects), semiconducting components with more than two PN junctions (four-layered and five-layered components - bidirectional diode thyristor (diac), bidirectional triode thyristor (triac) and thyristor), unipolar transistors (JFET, MOS-FET and V-MOS), use and simple connections of semiconducting components (amplifiers, flip-flop circuits, oscillators, etc.) <li> Operational amplifiers: basic properties of operational amplifiers, types of operational amplifiers, external circuits of operational amplifiers, basic electrical connections - addition, subtraction, integration, differentiation, functional converter, multipliers and dividers, analog memories, converters, amplifiers, rectifiers, limiters, comparators, switchers, generators, active filters, stabilizers <li> Logic integrated electrical circuits: Boolean algebra and logic functions, logic operators and logic sets of blocks, combinational functions and corresponding electrical circuits, displaying, digital codes, arithmetical operations and corresponding electrical circuits, memory functions, functions of shifting and counting, flip-flop circuits for shifting and counting operations, memory and shift register, memories, comparing electrical circuits, summation units, counters, sequentional circuits, sequence switch, microprocessor structure, systems controlled by microprocessors, PC, analog-to-digital (AD) and digital-to-analog (AD) converters <li> Electronic systems: transmitters, receivers, modulators, converters, demodulators, magnetron, converters of electrical physical quantities on non-electrical physical quantities and vice versa, processing of sound and image, image-pickup vacuum tubes, CCD, screens, detectors of electromagnetic radiation, optoelectronic image systems, etc. </ul>

Learning activities and teaching methods
Monologic Lecture(Interpretation, Training)
  • Preparation for the Exam - 5 hours per semester
Learning outcomes
To obtain basic knowledge about modern electronics, components and electrical signal processing
Knowledge Define the main ideas and conceptions of the subject, describe the main approaches of the studied topics, recall the theoretical knowledge for solution of model problems.
Prerequisites
unspecified

Assessment methods and criteria
Mark

90 % class attendance in the exercise lessons Passing the oral examination
Recommended literature
  • Beneš, Černý, Žalud. Transistory řízené elektrickým polem.
  • Bernard, Hugon, Corvec. Od logických obvodů k mikroprocesorům.
  • Braun, Čížek, Kvasil, Novák. Analýza lineárních obvodů a soustav.
  • Čermák. Kurs polovodičové techniky.
  • Čičmanec, P. (1980). Elektrina a magnetizmus. Alfa Bratislava.
  • Doleček, J. Moderní učebnice elektroniky 2 - Elektronické součástky. BEN-technická literatura, Praha 2006.
  • Dostál, J. (2005). Operační zesilovače. BEN.
  • Dvořáček. Kurs radiotechniky.
  • Frank, Šnejdar. Principy a vlastnosti polovodičových součástek.
  • Fuka; Havelka. Elektřina a magnetismus.
  • Hoffner, V. (1987). Úvod do teorie signálů. SNTL Praha.
  • Kolombet, Jurkovič, Zodl. Využití analogových integrovaných obvodů.
  • Kouřil, Vrba. Teorie nelineárních a parametrických obvodů.
  • Láníček, R. (1998). Elektronika. Obvody, součástky, děje. BEN.
  • Levin, B. R. (1965). Teorie náhodných procesů a její aplikace v radiotechnice. SNTL Praha.
  • Maťátko. Elektronika.
  • Mayer, D. Úvod do teorie elektrických obvodů.
  • Sedlák, B.; Štoll, I. (1993). Elektřina a magnetismus. Academia Praha.
  • Seifart. Polovodičové prvky a obvody na zpracování spojitých signálů.
  • Skalický, P. (1998). Mikroprocesory řady 8051. BEN.
  • Trnka, Z. (1972). Teoretická elektrotechnika. Praha : SNTL/ALFA.
  • Turkovič, Zodl. Příručka nízkofrekvenční obvodové techniky.
  • Vobecký, Záhlava. Elektronika, součástky a obvody, principy a příklady.


Study plans that include the course
Faculty Study plan (Version) Branch of study Category Recommended year of study Recommended semester
Faculty of Science Molecular Biophysics (2015) Physics courses 3 Winter
Faculty of Science Digital and Instrument Optics (1) Physics courses 1 Winter
Faculty of Science Applied Physics (1) Physics courses 2 Winter
Faculty of Science Biophysics (2015) Physics courses 3 Winter
Faculty of Science Instrument Physics (1) Physics courses 2 Winter