Lectures:
- Organizational instructions, introduction to electrical engineering - basic terms, Definition of electrical quantities – resistivity, conductivity, OZ, KZ
- Sorting of circuit elements, method of gradual simplification, method of proportional quantities
- Real power sources, voltage, current and power matching, equivalence, voltage and current dividers
- Transfiguration triangle – star and vice versa
- Basic principles of solving circuits
- Topology of circuits
- Loop current method (MSP)
- Method of nodal stresses (MUN)
- Magnetic circuits
- Dielectric circuits
- AC circuits in harmonic steady state
- Symbolic method of analysis of linear circuits in harmonic steady state
- Classification test, consultation
Exercises:
- Units and their dimensions, calculation of resistance from material parameters and geometric dimensions
- Verification of OZ, KZ,
- Sorting of circuit elements, method of gradual simplification, sorting of sources, voltage and current dividers
- 1. Laboratory task - loaded and unloaded voltage divider, Test 1
- Transfiguration triangle – star and vice versa, principle of superposition
- Thévenin and Norton theorem
- 2. Laboratory task - verification of the theorem about the substitute source Test 2
- Loop current method (MSP)
- Method of nodal stresses (MUN)
- Solution of Magnetic and dielectric circuits
- Amplitude, effective value, phasor, complexor
- 3. Laboratory taskt - frequency characteristics of circuit elements, Test 3
- Consultation
- Organizational instructions, introduction to electrical engineering - basic terms, Definition of electrical quantities – resistivity, conductivity, OZ, KZ
- Sorting of circuit elements, method of gradual simplification, method of proportional quantities
- Real power sources, voltage, current and power matching, equivalence, voltage and current dividers
- Transfiguration triangle – star and vice versa
- Basic principles of solving circuits
- Topology of circuits
- Loop current method (MSP)
- Method of nodal stresses (MUN)
- Magnetic circuits
- Dielectric circuits
- AC circuits in harmonic steady state
- Symbolic method of analysis of linear circuits in harmonic steady state
- Classification test, consultation
Exercises:
- Units and their dimensions, calculation of resistance from material parameters and geometric dimensions
- Verification of OZ, KZ,
- Sorting of circuit elements, method of gradual simplification, sorting of sources, voltage and current dividers
- 1. Laboratory task - loaded and unloaded voltage divider, Test 1
- Transfiguration triangle – star and vice versa, principle of superposition
- Thévenin and Norton theorem
- 2. Laboratory task - verification of the theorem about the substitute source Test 2
- Loop current method (MSP)
- Method of nodal stresses (MUN)
- Solution of Magnetic and dielectric circuits
- Amplitude, effective value, phasor, complexor
- 3. Laboratory taskt - frequency characteristics of circuit elements, Test 3
- Consultation