| # |
Learning Outcomes |
| 1 |
Getting knowledge about Sinusoidals, phasors, terminal equations of circuit elements in phasor domain, impedance and atmittance, Basic laws in phasor domain, Equivalent impedance.
|
| 2 |
Getting knowledge about Instantaneous and average power, maximum average power transfer theorem, effective value, apparent power and power factor.
|
| 3 |
Getting knowledge about Balanced three-phase voltages, Analysis of the Wye-Why circuits, Analysis of the Wye-delta circuits.
|
| 4 |
Getting knowledge about Analysis of the delta-delta circuits, Analysis of the delta-Wye circuits, Power analysis in three-phase circuits.
|
| # |
Subjects |
Teaching Methods and Technics |
| 1 |
Sinusoidals, phasors, terminal equations of circuit elements in phasor domain, impedance and atmittance, Basic laws in phasor domain, Equivalent impedance.
|
lecture |
| 2 |
Nodal analysis, Mesh analysis, superposition, source tranformations, Thevenin´s asnd Norton theorems in phasor domain.
|
lecture |
| 3 |
Instantaneous and average power, maximum average power transfer theorem, effective value, apparent power and power factor.
|
lecture |
| 4 |
Complex power, conservation of ac power, power factor correction.
|
lecture |
| 5 |
Balanced three-phase voltages, Analysis of the Wye-Why circuits, Analysis of the Wye-delta circuits.
|
lecture |
| 6 |
Analysis of the delta-delta circuits, Analysis of the delta-Wye circuits, Power analysis in three-phase circuits.
|
lecture |
| 7 |
Midterm examination
|
|
| 8 |
Mutual inductance, energy in coupled coils, linear transformers, ideal transformers, ideal autotransformers.
|
lecture |
| 9 |
"Transfer functions, Series and parallel resonance circuits, Passive filters
"
|
lecture |
| 10 |
Bandwidth, quality factor, Determination of the characteristics of a general circuit.
|
lecture |
| 11 |
Active filters; first order low-pass filter, first order high-pass filter, band-pass filter, band-stop filter.
|
lecture |
| 12 |
Definition of the Laplace transform, properties of the Laplace transform, inverse Laplace transform.
|
lecture |
| 13 |
The application of the Laplace transform to the electrical circuits, network stability and network synthesis in s-domain.
|
lecture |
| 14 |
Impedance parameters, admittance parameters, hybrid parameters, transmission parameters.
|
lecture |
| 15 |
Relationships between the parameters, interconnections of the two-port networks, Analysis of the networks including two-port networks with knowing parameters.
|
lecture |
| 16 |
Final Exam |
|
| # |
Learning Outcomes |
Program Outcomes |
Method of Assessment |
| 1 |
Getting knowledge about Sinusoidals, phasors, terminal equations of circuit elements in phasor domain, impedance and atmittance, Basic laws in phasor domain, Equivalent impedance.
|
1 |
1͵2 |
| 2 |
Getting knowledge about Instantaneous and average power, maximum average power transfer theorem, effective value, apparent power and power factor.
|
3 |
1͵2 |
| 3 |
Getting knowledge about Balanced three-phase voltages, Analysis of the Wye-Why circuits, Analysis of the Wye-delta circuits.
|
3 |
1͵2 |
| 4 |
Getting knowledge about Analysis of the delta-delta circuits, Analysis of the delta-Wye circuits, Power analysis in three-phase circuits.
|
3 |
1͵2 |
