Czech

Not applicable.

The graduate is able (1) understand fundamental properties of electromagnetic field, (2) evaluate propagation of waves in free space and on transmission lines, (3) exploit basic methods for the analysis of antennas and transmission lines, (4) provide overview of properties of various types of transmission lines, (5) technically apply antennas and transmission lines.

Knowledge of bachelor mathematics (fundamentals of the differential calculus and integral calculus) and physics (fundamentals of electrostatics, stationary magnetic fields and dynamic electromagnetic fields) and lower intermediate English are required.

Not applicable.

Lectures, PC and laboratory exercises, individual project.

Tests written during semester (20 points), laboratory exercises (20 points), final exam (60 points).

1. Computation of Maxwell equations.
2. Propagation of electromagnetic plane wave in free space. Cylindrical and spherical wave.
3. Propagation of TEM wave along the transmission line. Parameters of the transmission line.
4. Transforming impedance by the transmission line. Smith chart.
5. Impedance matching
6. Electromagnetic wave propagation in waveguide.
7. Elementary antennas (elementary dipole, elementary surface). Parameters of antennas.
8. Antenna arrays. Computing parameters of antenna arrays in MATLAB.
9. Specification of individual projects, examples of solution.
10. Planar antennas and its modeling.
11. Electromagnetic wave propagation in real environment.
12. Fundamentals of computational electromagnetics.
13. Discussion of individual projects.

Not applicable.

Lectures are focused on presenting basics of electromagnetic field theory and wave propagation to students, and on practicing practical approaches to computing parameters of antennas and transmission lines.

Evaluation of activities is specified by a regulation, which is issued by the lecturer responsible for the course annually.

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