|
1. DC CIRCUITS |
| Topic |
Number of circuits |
| 1.1. Series DC Circuits |
19 |
| 1.2. Parallel DC Circuits |
10 |
| 1.3. Series Parallel DC Circuits |
39 |
| 1.4. Power in a DC Circuit |
37 |
| 1.5. Solve DC Circuits by using Y to star conversion |
12 |
| 1.6. Calculation of the two port parameters |
30 |
| 1.7. Circuits Containing Two-ports |
5 |
| 1.8. DC Circuits containing controlled sources |
22 |
| 1.9. DC Circuits containing operational amplifiers |
21 |
| 1.10. Theorems for DC Circuits |
|
| 1.10.1. Branch Current Method |
11 |
| 1.10.2. Maximum Power transfer |
12 |
| 1.10.3. Mesh Current Method |
30 |
| 1.10.4. Node Voltage Method |
41 |
| 1.10.5. Norton's Theorem |
23 |
| 1.10.6. Superposition |
61 |
| 1.10.7. Thevenin's Theorem |
20 |
| 2. AC
CIRCUITS |
| Topic |
Number of circuits |
| 2.1. Sources with sin Waveform |
5 |
| 2.2. Networks Containing Capacitors |
7 |
| 2.3. Networks Containing Inductors |
12 |
| 2.4. Complex Numbers |
7 |
| 2.5. Impedance |
24 |
| 2.6. Series RC Circuits |
10 |
| 2.7. Series RL Circuits |
8 |
| 2.8. Parallel RC Circuits |
4 |
| 2.9. Parallel RL Circuits |
4 |
| 2.10. Series RLC Circuits |
10 |
| 2.11. Parallel RLC Circuits |
7 |
| 2.12. Series-Parallel RLC Circuits |
68 |
| 2.13. Resonance |
7 |
| 2.14. Quality Factor and Bandwith |
4 |
| 2.15. Powers in AC Circuits |
36 |
| 2.16. Transformers |
30 |
| 2.17. Three phase Generators |
16 |
| &nb
|
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