Course contents:

Course introduction (PDF)

1. Voltage and current sources (PDF)

2. Tellegen's theorem, voltage and current division principle (PDF)

3. Nodal analysis (PDF) 

4. Supernode analysis, Loop/Mesh analysis (PDF) 

5. Mesh and supermesh analysis (PDF) 

6. Introduction to network graphs and Tie-set matrix (PDF) 

7. Tie-set matrix and example problems (PDF) 

8. Source superposition and source transformation techniques (PDF) 

9. Thevenin and Norton equivalent circuits (PDF) 

10. Maximum power transfer theorem and 

      Star-Delta transformation (PDF) 

      Assignment-1 (Questions) (Solutions)

11. Capacitors (PDF)

12. RC transients(1) (PDF)

13. RC transients(2) (PDF)

14. Inductors (PDF)

15. RL transients(1) (PDF)

16. RL transients(2) (PDF) 

      Problems: RC and RL Circuits (Questions) (Solutions)

17. RLC transients (PDF)  

18. Parallel RLC transients: Natural response (PDF)   

19. Series RLC transients: Natural response (PDF)  

20. RLC transients: Driven response (PDF)

      Assessment Exam-1 (Questions) (Solutions)

21. AC signal characteristics (PDF)

22. Sinusoidal steady state analysis(1) (PDF)

23. Sinusoidal steady state analysis(2) (PDF)

24. Sinusoidal steady state analysis(3) (PDF)

25. Steady state power analysis (PDF)

26. Maximum power transfer theorem (AC) (PDF)

      Problems: Sinusoidal steady state analysis (Questions) 

27. Duality (PDF)

28. Frequency response (PDF) 

29. RC filter circuits and Bode Plot (PDF) 

30. RL filter circuits and Bode Plot (PDF) 

31. RC & RL filter circuits and Bode Plot (PDF) 

32. Parallel RLC resonance (PDF) 

33. Series RLC resonance (PDF) 

34. Tutorial problems (on Lectures 21 to 27) (PDF) 

  Assessment Exam-2 (Questions) (Solutions)

35. Two-port networks and Y parameters (PDF)  

36. Two-port Y and Z parameters (PDF)  

37. Two-port H and ABCD parameters (PDF)  

38. Two-port parameter conversion and Interconnection (PDF)  

39. Two-port parameters practice problems (PDF)  

  Assessment Exam-3 (Questions) (Solutions)

40. Laplace transforms (PDF)  

41. Routh-Hurwitz stability criteria (PDF)  

42. Hurwitz polynomial and Foster form (PDF)  

43. Synthesis of LC networks (PDF)  

44. Synthesis of RC and RL networks (PDF)  

45. Attenuator circuits (T, PI, and L types) (PDF)  

46. Attenuator circuits (Lattice and Bridged-T types) (PDF) 

      Final Exam (Questions) (Solutions)