Course: Electronics

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Course title Electronics
Course code KTE/ELI
Organizational form of instruction Lecture + Exercise + On-line Activities
Level of course Bachelor
Year of study not specified
Semester Winter
Number of ECTS credits 4
Language of instruction Czech
Status of course Compulsory
Form of instruction Face-to-face
Work placements This is not an internship
Recommended optional programme components None
Lecturer(s)
  • Serafín Čestmír, doc. Ing. Dr.
  • Havelka Martin, Mgr. Ph.D.
Course content
The following topics are lectured, in particular: physical principles of semiconductors, rectifier diode and other types of diodes used in electronics, bipolar and unipolar transistors, switching semiconductor parts and optoelectronic parts, circuits with discreet elements - rectifiers, doublers, multipliers and stabilizers of voltage, integrated circuits, operating multipliers, numerical circuits, logical components, semiconductor memories. The seminars cover the following topics: proposal of rectifiers and stabilizers, proposal of transistor multipliers and oscilators, proposal of integrated and numerical circuits.

Learning activities and teaching methods
Lecture, Work with Text (with Book, Textbook), Projection (static, dynamic), Laboratory Work
  • Attendace - 26 hours per semester
  • Preparation for the Exam - 20 hours per semester
  • Semestral Work - 10 hours per semester
Learning outcomes
Lectures: Semiconductors, diodes, tyristor, transistor, detector, amplifier, integrated circuits, logical elements, etc. Seminars: Rectifiers, transistors, flip-flop circuits, stabiliser outline.
Student will deepen and disseminate knowledge in the field of electronics.
Prerequisites
not specified
KTE/ELEK2
----- or -----
KTE/ELE2Q

Assessment methods and criteria
Mark, Analysis of Activities ( Technical works), Seminar Work

Conditions for granting a credit: 1. participate in the exercises (you can individually change upon request). 2. successful completion of both tests. 3. Submission completed seminar work (rated satisfactory degree). ELECTRONICS-questions for the test: Part a. physical basics of semiconductors 1. basics of Jet theory, own and foreign semiconductors. 2. physical phenomena in semiconductors and the basic characteristics of the gradient transition characteristic current?voltage PN, PN and classification of transition of PN. 3. Semiconductor Diode, the stabilization diode, avalanche diode. 4. tunnel diode, varicap. 5. bipolar transistor and the base involving bipolárních transistors. 6. Dvoubázová diode, diak. 7. Thyristor, TRIAC. 8. Unipolar transistor. 9. radiation detectors and radiation sources. 10. Fotorezistory and a photodiode. 11. Fototranzistory and fototyristory. 12. electro luminescent display diodes. 13. lasers. 14. the light. 15. display unit. Part b. circuits with discrete components and integrated circuits. 1. a one-way rectifier and a two-way connection. 2. Zdvojovače and types of tension. 3. speed limiters. 4. circuits with transistors. 5. Transistor amplifiers and power amplifiers. 6. DC voltage Stabilizers. 7. the Oscillators. 8. Linear integrated circuits and special integrated circuits. 9. operational amplifiers, the essential involvement of operational amplifiers. 10. basic rules for the application of operational amplifiers. 11. Digital integrated circuits, logical members. 12. Multiplexory and demultiplexory. 13. Sequential logic circuits. 14. Tipping circuits, counters. 15. Semiconductor memory.
Recommended literature
  • Boltík, J. a kol. (1985). Elektronická zařízení pro SPŠ. Praha : SNTL.
  • Dvořáček, J. a Velický, J. (1983). Elektronika - pro gymnázia. Praha : SNTL.
  • Katalog. (2003). Součástky pro elektroniku. Katalog. Praha : GM Electronic.
  • Láníček, R. (1992). Elektronika. Praha : BEN.
  • Maťátko, J. a Foitová, E. (1979). Elektronika pro SPŠ. Praha : SNTL.
  • Moerder, C. a Henke, H. (1978). Praktické výpočty v tranzistorové technice.. Praha : SNTL.
  • Rauner, K. (2001). Elektronika (digitální část). Plzeň : PdF ZČU.
  • Rauner, K. (2001). Elektronika (fyzikální a analogová část). Plzeň : PdF ZČU.
  • Serafín, Č. (2008). Elektronika - analogová část (studijní opora). Olomouc : UP.
  • Serafín, Č. Elektronika - digitální část (studijní opora). Olomouc : UP.
  • Serafín, Č. Elektronika (studijní opora) - v tisku. Olomouc : UP.
  • Serafín, Č. Elektrotechnika. Olomouc : UP.
  • Smejkal, a kol. (1991). Elektrotechnika. Brno : VUT.


Study plans that include the course
Faculty Study plan (Version) Branch of study Category Recommended year of study Recommended semester
Faculty of Education Fundamentals of the technical sciences and information technologies in education (BB14) Pedagogy, teacher training and social care 3 Winter
Faculty of Education Fundamentals of the technical sciences and information technologies in education (BB13) Pedagogy, teacher training and social care 3 Winter
Faculty of Education Fundamentals of the technical sciences and information technologies in education (BB15) Pedagogy, teacher training and social care 3 Winter
Faculty of Physical Culture Fundamentals of the technical sciences and information technologies in education (2011) Pedagogy, teacher training and social care 3 Winter
Faculty of Education Fundamentals of the technical sciences and information technologies in education (BB15) Pedagogy, teacher training and social care 3 Winter
Faculty of Education Fundamentals of the technical sciences and information technologies in education (BB14) Pedagogy, teacher training and social care 3 Winter