Czech

Not applicable.

Student must have the previous knowledge from the applied mathematics:
- To use and to apply the mathematical operations above complex numbers in the component and polar representation (summation, subtraction, multiplication, division, and rectification of the complex fraction).
- To apply the basic principles of the integral and differential calculus of one variable: description of the inductor work, i.e. induction law in the differential and integral form, similarly the dif. and integr. relation between instant values of the current and voltage at the capacitor. Calculus of the mean and RMS values of the periodical function.

Student must have the previous general knowledge and ability:
- To describe basic properties of the discrete electronic devices (diode, bipolar and unipolar transistor).
- To attend the course BREB (Control Electronics).
- To be able practically to use and to apply the following tools for the analysis and synthesis of the electric circuits: 1st and 2nd Kirchhoff laws, Ohm law, induction law in the differential and integral form.

The attendance at the all numerical and laboratory exercises is required.

Construction and electric design of the power convrters.
It is proved by written test, and oral exam that student is able:
- To analyse and to calculate the dynamic thermal phenomena. To calculate and to construct the air, and liquid heat-sink. To describe the principle of the thermal tube.
- To define the active power. To calculate and to measure it in the typical cases occurring in the power electronics.
- To define the EMC criteria in LF. and HF. region. To define the quality of the electrical loads according to EMC regulations.
- To list and to demonstrate the transistor pulse DC converters (DC/DC): Converters working in 1Q, 2Q, 1+2Q, 1+4Q, 1 up to 4Q, converter with the common choke, converters of the type Cuk, SEPIC, Zeta.
- To analyse the converter working in the 1Q in the regime of continual and interrupt current. To design and to calculate output LC-filter for this converter.
- To analyse converters of DC/AC type, 1-phase, 3-phase. To define all voltages in the system consists of 3-phase converter - motor.
- To describe and to analyse PWM system for control of DC/DC, and DC/AC converters.
- To list and to define boundary, static, and dynamic parameters of power switching devices (D, Tyr., Tr., BJT, MOS-FET, IGBT, GTO).
- To analyse turn-on, and turn-off process in the transistor. To define RBSOA. To calculate switching losses in the transistor.
- To describe the circuit solution and all functions of the driver of the switching transistors.

In the laboratory practices the student measures and analyses signals in different power converters with help of oscilloscope. Student trains following skills:
- To handle and to use basic measure instruments in the power electronics laboratory: oscilloscope, voltmeter, ampermeter, DC and AC laboratory supplies.

- To measure and to analyse the net DC suppliers.
- To set and to connect the work place for the measuring of the power transistor switches.
- To catch the oscillograph and to analyse the turn-on, and turn-off process in the IGBT transistor.
- To measure the oscillographs of the impulse currents with the help of the non-inductive coaxial shunt.
- To measure the loss energies at the turn-on, and turn-off process in the IGBT transistor.
- To analyse the function of the snubber circuits, and to compare its influence on turn-off process in the transistor.
- To catch the oscillographs in the DC converter working in 1Q., and to analyse these oscillographs.
- To catch the oscillographs in the 1-phase DC/AC converter working in the sinusoidal PWM regime, and to analyse these oscillographs.

In the numerical lectures the student learns following skills:
- To design the power switching transistors from the current and voltage point of view.
- To calculate the power losses caused by the current conducting.
- To calculate and to construct the air, and the liquid heat sink with the demanded thermal resistance.
- To calculate the active power in the different nodes of the DC/DC pulse converters.

Not applicable.

Not applicable.

Chee-Mun Ong: Dynamic Simulation of Electric Machinery. Prentice-Hall, 1998. (EN)
Patočka M.: Vybrané statě z výkonové elektroniky, sv.I. (CS)
Patočka M.: Vybrané statě z výkonové elektroniky, sv.II. (CS)

Not applicable.