Lectures:
1. Patterns of electricity and electrical circuits - basic concepts, definitions and laws of magnetic and electromagnetic fields (repetition of physics).
2. DC circuits - connection, performance, non-linear circuits.
3. Alternating current (AC) circuits - RMS, output - serial and parallel connections R, L, C, power factor compensation, inharmonious courses.
4. Three-phase voltage circuits - definition display system, the concentration of Y/star/ and D/delta/ connection.
5. Measuring instruments/devices/ - classification, basic characteristics, labeling, measurement of electrical parameters (U, I, P, W, R, L, C).
6. Electrical measurement of nonelectrical physical quantities, principle, classification.
7. Purpose, function and distribution of electrical devices - fuses and circuit breakers - description, features, performance, power characteristics, arc.
8. Current protectors - description, features, performance.
9. Contactors, relays - description, features, performance, basic circuits contactors in electrical circuit - power and control diagrams/scheme.
10. Semiconductors - VA characteristics of P-N transition, diodes, types, distribution.
11. Transistor, thyristor, triac - a description of the structure, types, characteristics and use.
12. Semiconductor converters - description, distribution, rectifiers - the types of involvement by control, description, characteristic waveforms and output values of circuit parameters for selected types.
13. Inverter, pulse converters, phase-controlled converters, frequency converter, a description of the structure and use.
14. Electrical machines - definitions, fundamental laws, distribution, rotating machines - types.
15. Transformers - the design of the principle of operation, conversion, voltage drop, operating conditions, auto-transformers, instrument transformers - a description of the functions connects.
16. Asynchronous machines - classification, structure, principle of operation, starting methods, speed control and braking.
17. Synchronous machines - classification, structure, working principle, application, start and speed control.
18. DC machines - types, working principle, structural arrangement, usage.
19. Electric heat - heat of formation energy, types and descriptions of electrothermal devices.
20. Electric lines of networks - types, requirements, design aspects, principles, protection, selectivity.
21. Types of grids - distribution, labeling system, network diagrams TN-C, TN-S, TT and IT.
22. External factors - sorting, labeling, examples, coverage of electrical equipment - labeling, descriptions of individual steps, the IC classification code.
23. Effects of electric current on the human body - the parameters, the limits of current basic concepts.
24. Ensure protection under normal operating conditions and the conditions of a failure - the means of protection principles.
25. Examples of protection of automatic disconnection of the grids TN-C, TN-S and IT.
1. Patterns of electricity and electrical circuits - basic concepts, definitions and laws of magnetic and electromagnetic fields (repetition of physics).
2. DC circuits - connection, performance, non-linear circuits.
3. Alternating current (AC) circuits - RMS, output - serial and parallel connections R, L, C, power factor compensation, inharmonious courses.
4. Three-phase voltage circuits - definition display system, the concentration of Y/star/ and D/delta/ connection.
5. Measuring instruments/devices/ - classification, basic characteristics, labeling, measurement of electrical parameters (U, I, P, W, R, L, C).
6. Electrical measurement of nonelectrical physical quantities, principle, classification.
7. Purpose, function and distribution of electrical devices - fuses and circuit breakers - description, features, performance, power characteristics, arc.
8. Current protectors - description, features, performance.
9. Contactors, relays - description, features, performance, basic circuits contactors in electrical circuit - power and control diagrams/scheme.
10. Semiconductors - VA characteristics of P-N transition, diodes, types, distribution.
11. Transistor, thyristor, triac - a description of the structure, types, characteristics and use.
12. Semiconductor converters - description, distribution, rectifiers - the types of involvement by control, description, characteristic waveforms and output values of circuit parameters for selected types.
13. Inverter, pulse converters, phase-controlled converters, frequency converter, a description of the structure and use.
14. Electrical machines - definitions, fundamental laws, distribution, rotating machines - types.
15. Transformers - the design of the principle of operation, conversion, voltage drop, operating conditions, auto-transformers, instrument transformers - a description of the functions connects.
16. Asynchronous machines - classification, structure, principle of operation, starting methods, speed control and braking.
17. Synchronous machines - classification, structure, working principle, application, start and speed control.
18. DC machines - types, working principle, structural arrangement, usage.
19. Electric heat - heat of formation energy, types and descriptions of electrothermal devices.
20. Electric lines of networks - types, requirements, design aspects, principles, protection, selectivity.
21. Types of grids - distribution, labeling system, network diagrams TN-C, TN-S, TT and IT.
22. External factors - sorting, labeling, examples, coverage of electrical equipment - labeling, descriptions of individual steps, the IC classification code.
23. Effects of electric current on the human body - the parameters, the limits of current basic concepts.
24. Ensure protection under normal operating conditions and the conditions of a failure - the means of protection principles.
25. Examples of protection of automatic disconnection of the grids TN-C, TN-S and IT.