Summary of Study |
Summary of Branches |
All Subject Groups |
All Subjects |
List of Roles |
Explanatory Notes
Instructions
Web page:
https://moodle.fel.cvut.cz/courses/A1B37KEL
Anotation:
The purpose of the subject is acquiring fundamental knowledge of related themes of communication and electronics. First, the students are introduced to fundamentals of communication, the most important analog and digital modulations, and basic conception of radio systems. Second, students give information about basic elements, connections, and function blocks of electronics. The last part of the subject is devoted to explication of fundamental circuits of radio engineering.
Study targets:
The goal of the subject is to acquire basic information from communications and electronics and coherences between them.
Course outlines:
1. | | Fundamentals of communication, general scheme and capacity of communication system |
2. | | Analog modulation, amplitude, frequency, and phase modulations. Spectra, energetic properties |
3. | | Pulse modulation in baseband and on carriers. Spectra, constellation diagrams |
4. | | Mobile communication systems, basic principles of radio navigation |
5. | | Radio and TV systems |
6. | | Fundamental description of transmission lines, wireless and wired data transmission, data transmission on power lines |
7. | | Passive elements in electronics, filters, transformers |
8. | | Active elements in electronics, fundamental circuits and function blocks with active elements |
9. | | DC amplifiers, baseband amplifiers, radio-frequency amplifiers |
10. | | Low- and high-frequency oscillators |
11. | | Modulators and demodulators |
12. | | Surge generators, classical and switched sources |
13. | | Mixers, superhet with single and double mixing, ZIF and NZIF receivers |
14. | | Technology and parameters of transmitters and receivers |
Exercises outline:
MEASUREMENT:
1. | | Introduction to laboratory |
2. | | Amplification of amplitude modulated signal by resonant amplifier in A, AB, B, and C classes |
3. | | Measurement on transmitter of digital terrestrial TV |
4. | | Measurement on frequency mixer with intermediate frequency filter |
5. | | Experiment on sampling process |
6. | | Measurement of basic parameters of radio receiver |
7. | | RC oscillator design, construction and measurement |
8. | | Experiment on software defined radio |
SEMINARS:
9. | | Capacity of communication channel |
10. | | Amplitude modulation - spectrum, energetic efficiency |
11. | | Frequency modulation - spectrum, pre-emphasis & de-emphasis |
12. | | Pulse modulation PCM/PSK on carrier, bandwidth |
13. | | Transistor stage, power matching, method of resonance |
14. | | Superhet - mirror signal, double mixing |
Literature:
1. | | G.V. Vendelin, A.M.Pavio, U.L. Rohde, Microwave Circuit Design Using Linear and Nonlinear Techniques, John Wiley & Sons, New Jersey 2005. |
2. | | D.K. Misra, Radio-Frequency and Microwave Communication Circuits Analysis and Design, 2001. |
3. | | Y. Sun, Wireless Communication Circuits and Systems, IEE, London 2004. |
(+
http://radio.feld.cvut.cz/personal/dobes2/dobes.en.pdf (PDFs for Education))
Requirements:
Prerequisites: none
Materials at
http://radio.feld.cvut.cz/personal/dobes2/dobes.en.pdf
Note:
Extent of study in the combined form: 14+6 |
Keywords:
Communications, electronics, modulation, analog modulations, digital modulations, oscillators, amplifiers, modulators, mobile communication, OFDM, digital TV broadcasting
Subject is included into these academic programs:
Program |
Branch |
Role |
Recommended semester |
Page updated 11.5.2024 12:51:25, semester: Z/2024-5, Z,L/2023-4, Send comments about the content to the Administrators of the Academic Programs |
Proposal and Realization: I. Halaška (K336), J. Novák (K336) |