assignments | Total. | |
---|---|---|
1. | 40% | 40% |
2. | 40% | 40% |
3. | 20% | 20% |
Total. | 100% | - |
Class schedule | HW assignments (Including preparation and review of the class.) | Amount of Time Required | |
---|---|---|---|
1. | Outline of the course Basic of circuit theory (1) - Charge and current, voltage, resistance, power source - Ohm’s law |
assignments distributed in the class | 190minutes |
2. | Basic of circuit theory (2) - Direct current circuit - DC power and energy - Kirchhoff’s law |
assignments distributed in the class | 190minutes |
3. | Alternate current circuit (1) - Resistance - Capacitance - R-C circuit |
assignments distributed in the class | 190minutes |
4. | Alternate current circuit (2) - Self-inductance - R-L circuit - R-L-C circuit |
assignments distributed in the class | 190minutes |
5. | Alternate current circuit (3) - Instantaneous value, mean, effective value - AC power - Sine wave: amplitude, phase, angular frequency, frequency, phase |
assignments distributed in the class | 190minutes |
6. | Complex number method/vector symbol method (1) - Sine wave and complex number representing - Vector symbol method, reference vector |
assignments distributed in the class | 190minutes |
7. | Complex number method/vector symbol method (2) - Complex impedance, complex admittance Brief review and exercises |
assignments distributed in the class | 190minutes |
8. | Complex number method/vector symbol method (3) - Vector representing of AC power |
assignments distributed in the class | 190minutes |
9. | Complex number method/vector symbol method (4) - Analyses of AC circuits using complex number method - Theorems in AC circuits |
assignments distributed in the class | 190minutes |
10. | Complex number method/vector symbol method (5) - Vector locus - Resonance circuit - Mutual inductance circuit |
assignments distributed in the class | 190minutes |
11. | Analysis of network (1) - Analysis of circuit equation - Kirchhoff’s law |
assignments distributed in the class | 190minutes |
12. | Analysis of network (2) - Loop analysis, node analysis - Theorems in network: Tevenin theorem, Norton theorem, superposition theorem |
assignments distributed in the class | 190minutes |
13. | Two-terminal circuit (1) - Z , Y, F, H, G parameters - meaning of the parameters |
assignments distributed in the class | 190minutes |
14. | Two-terminal circuit (2) - Combination of two-terminal circuits - Equivalent ciruuit |
assignments distributed in the class | 190minutes |
Total. | - | - | 2660minutes |
ways of feedback | specific contents about "Other" |
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Feedback in the class |
Work experience | Work experience and relevance to the course content if applicable |
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N/A | N/A |