Basics of Electronics
Code | Completion | Credits | Range |
---|---|---|---|
17ZEL | KZ | 3 | 2+2 |
- Garant předmětu:
- Lecturer:
- Tutor:
- Supervisor:
- Department of Nuclear Reactors
- Synopsis:
-
Lectures provide basic information of electronics. In the beginning, lectures are devoted to passive components - resistors, capacitors, inductors and solution of electrical circuits with them. Next, lectures deal with semiconductor components (standard, Zener, capacitive, LED), bipolar, unipolar transistors and semiconductor components with more layers (thyristors and triacs). Lectures continue with general amplifiers and operational amplifiers. Finally, lectures deal with digital circuits, digital/analog and analog/digital converters. Lectures are completed with electronic laboratory exercises.
- Requirements:
-
02ELMA
- Syllabus of lectures:
-
1. Basic phenomena and lows in electricity and magnetism, solution of electric circuits by Ohm and Kirchhoff laws
2. Resistors; their features and use, marking of resistors, varying resistors - potentiometers, trimming resistors, photoresistors, thermistors, etc, printed circuit boards and their use in electronics
3. Capacitors, inductors; features and use, charging and discharging of capacitor and inductors, capacitive and inductive reactance, inductors with iron and ferrite core
4. Solution of circuits with AC (alternating current) - analytical, complex-symbolic methods, Laplace transformation, effective value, Fourier trigonometric series and their use in electronics
5. Semiconductors, PN transistion, diods - standard, Zener, capacitive, PIN diodes, LEDs
6. Bipolar, unipolar transistors, thyristors, triacs, voltage and current power supplies, stabilizers - parallel, serial, switching
7. Amplifiers and operational amplifiers; basic features of amplifiers - amplification, frequency range, noise, distortion, phase characteristics, etc.; operational amplifiers, their features and basic use
8. Digital circuits 1, logical functions, data representation, review of technologies, combinational and sequential circuits
9. Digital circuits 2; digital circuits 74XXX series, examples of combinational and sequential circuits, programmable logical devices
10. Digital/analog and analog/digital converters, principles of function, resolution, accuracy, sample theorem, aplications
11. Training course with basic electronic equipment - multimeters, generators, osciloscopes, power supplies, counter, impedance meters, etc. Basic information about instruments, parameters setting and their checks, measurement of passive electronic components with different equipment
12. Training course focused on semiconductor components - V-A characteristics silicon and germanium diodes, Zener diodes, measurement of bipolar transistors characteristics, measurement of delay time of bipolar and unipolar transistors in linear and saturated regime
13. Measurement of operational amplifiers - amplification, signal range, frequency characteristics for different amplifications, slew rate, etc.
- Syllabus of tutorials:
-
calculations of circuits complete lectures, electronic training courses (paragraphs 11., 12., 13.)
- Study Objective:
-
Knowledge: basic knowledge of passive and active electronic circuits, equipment for measurement and diagnostics in electronics
Abilities: apply gained knowledge in practice, be able to design and realize simple analog and digital electronic circuits
- Study materials:
-
Key references:
Prof. Dipl.-Ing. Herbert Frisch, Basic of electronics and elektronic circuits, SNTL, Praha 1987, (in Czech)
Recommended references:
Doc. Ing. Petr Hiršl, CSc., Basic of electronics, textbook ČVUT in Prague, 1989, (in Czech)
Media and tools:
electronic laboratory of Department of nucelar reactors for training course in electronics
- Note:
- Further information:
- No time-table has been prepared for this course
- The course is a part of the following study plans:
-
- BS Matematické inženýrství - Matematické modelování (elective course)
- BS Matematické inženýrství - Matematická fyzika (elective course)
- BS Matematické inženýrství - Aplikované matematicko-stochastické metody (elective course)
- BS Matematická informatika (elective course)
- BS Informatická fyzika (elective course)
- BS Aplikace softwarového inženýrství (elective course)
- BS Aplikovaná informatika (elective course)
- BS jaderné inženýrství B (compulsory course of the specialization, elective course)
- BS Jaderné inženýrství C (compulsory course of the specialization, elective course)
- BS Dozimetrie a aplikace ionizujícího záření (elective course)
- BS Experimentální jaderná a částicová fyzika (elective course)
- BS Radiologická technika (elective course)
- BS Inženýrství pevných látek (elective course)
- BS Diagnostika materiálů (elective course)
- BS Fyzika a technika termojaderné fúze (elective course)
- BS Fyzikální elektronika (elective course)
- Bc Laser Technology and Instrumentation (elective course)
- BS Fyzikální technika (compulsory course of the specialization, elective course)
- BS Jaderná chemie (elective course)