Modules / Lectures

Module Name | Download |
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noc20_ee46_assigment_1 | noc20_ee46_assigment_1 |

noc20_ee46_assigment_10 | noc20_ee46_assigment_10 |

noc20_ee46_assigment_11 | noc20_ee46_assigment_11 |

noc20_ee46_assigment_12 | noc20_ee46_assigment_12 |

noc20_ee46_assigment_13 | noc20_ee46_assigment_13 |

noc20_ee46_assigment_2 | noc20_ee46_assigment_2 |

noc20_ee46_assigment_3 | noc20_ee46_assigment_3 |

noc20_ee46_assigment_4 | noc20_ee46_assigment_4 |

noc20_ee46_assigment_5 | noc20_ee46_assigment_5 |

noc20_ee46_assigment_6 | noc20_ee46_assigment_6 |

noc20_ee46_assigment_7 | noc20_ee46_assigment_7 |

noc20_ee46_assigment_8 | noc20_ee46_assigment_8 |

noc20_ee46_assigment_9 | noc20_ee46_assigment_9 |

Sl.No | Chapter Name | MP4 Download |
---|---|---|

1 | Lecture 01: Introduction: KVL, KCL and Power Balance | Download |

2 | Lecture 02: Voltage and Current Sources | Download |

3 | Lecture 03: Simple Networks with Voltage and Current Sources | Download |

4 | Lecture 04: Mesh Analysis - I | Download |

5 | Lecture 05: Mesh Analysis - II | Download |

6 | Lecture 06: Nodal Analysis - I | Download |

7 | Lecture 07: Nodal Analysis - II | Download |

8 | Lecture 08: Nodal Analysis - III | Download |

9 | Lecture 09: Inductor - I | Download |

10 | Lecture 10: Initial Condition for Inductor | Download |

11 | Lecture 11: Energy Stored in Inductor with Example | Download |

12 | Lecture 12: R-L Series Circuit Analysis | Download |

13 | Lecture 13: Retrieving Energy or Discharging of Inductor Energy | Download |

14 | Lecture 14: Capacitor: Relationship of Voltage and Current and Initial Condition | Download |

15 | Lecture 15: Charging of a Capacitor - Voltage, Current and Energy During Charging | Download |

16 | Lecture 16: Discharge of a Charged Capacitor | Download |

17 | Lecture 17: Linearity of R, L, C - Inductor with Initial Current and Capacitor with Initial Voltage | Download |

18 | Lecture 18: General Method for Solving Linear Differential Equation - I | Download |

19 | Lecture 19: General Method for Solving Linear Differential Equation - II | Download |

20 | Lecture 20: General Method for Solving Linear Differential Equation - III | Download |

21 | Lecture 21: Problem Solving: Application | Download |

22 | Lecture 22: R - L Circuit with Sinusoidal Excitation | Download |

23 | Lecture 23 : R - C Circuit with Sinusoidal Exponential | Download |

24 | Lecture 24 : Solution Due to Exponential Forcing Function | Download |

25 | Lecture 25 : Mesh and Nodal Analysis with Time Varying Source | Download |

26 | Lecture 26 : Circuit Analysis with Phasor - I | Download |

27 | Lecture 27 : Circuit Analysis with Phasor - II | Download |

28 | Lecture 28 : Circuit Analysis with Phasor - III | Download |

29 | Lecture 29 : Concept of Active and Reactive Power in A.C Circuit - I | Download |

30 | Lecture 30 : Concept of Active and Reactive Power in A.C Circuit - II | Download |

31 | Lecture 31 : Expression for Complex Power in A.C Circuit | Download |

32 | Lecture 32 : Numerical Example | Download |

33 | Lecture 33 : Mesh and Nodal Analysis in A.C Circuit, Introduction to Impulse Function | Download |

34 | Lecture 34 : Odd and Even Functions, Relation between Unit Step and Impulse Function | Download |

35 | Lecture 35 : Solution of Differential Equation with Impulse Excitation | Download |

36 | Lecture 36 : Numerical Example when Excitation is Impulse | Download |

37 | Lecture 37 : Self and Mutual Inductances - I | Download |

38 | Lecture 38 : Dot Convention in Mutually Coupled Coils | Download |

39 | Lecture 39 : Mutually Coupled Coils in Series and Parallel | Download |

40 | Lecture 40 : Energy Stored in Mutually Coupled Coils | Download |

41 | Lecture 41 : Steady State Response with Sinusoidal Excitation when the Coils are Mutually Coupled | Download |

42 | Lecture 42: Basics of Signals in Brief | Download |

43 | Lecture 43: Laplace Transform - I | Download |

44 | Lecture 44: Laplace Transform - II | Download |

45 | Lecture 45: Laplace Transform Applied to Circuit Analysis - I | Download |

46 | Lecture 46: Laplace Transform Applied to Circuit Analysis - II | Download |

47 | Lecture 47: Numerical Examples - I | Download |

48 | Lecture 48: Numerical Examples - II | Download |

49 | Lecture 49: General Second Order Circuit Analysis with L.T - I | Download |

50 | Lecture 50: General Second Order Circuit Analysis with L.T - II | Download |

51 | Lecture 51: Network Theorem - I | Download |

52 | Lecture 52: Network Theorem - II | Download |

53 | Lecture 53: Norton's Theorem | Download |

54 | Lecture 54: Thevenin Theorem | Download |

55 | Lecture 55: Star-Delta and Delta-Star Transformation | Download |

56 | Lecture 56: Telligen's Theorem | Download |

57 | Lecture 57: Reciprocity Theorem | Download |

58 | Lecture 58: Maximum Power Transfer Theorem | Download |

59 | Lecture 59: Graph Theory Applied to Network Analysis - I | Download |

60 | Lecture 60: Graph Theory Applied to Network Analysis - II | Download |

61 | Lecture 61:Graph Theory Applied to Network Analysis - III | Download |

62 | Lecture 62: Graph Theory Applied to Network Analysis - IV | Download |

63 | Lecture 63: Graph Theory Applied to Network Analysis - V | Download |

64 | Lecture 64: Mesh Analysis with Graph Theory | Download |

65 | Lecture 65: Nodal Analysis with Graph Theory | Download |

66 | Lecture 66: Cut-Set Analysis with Graph Theory | Download |

67 | Lecture 67: Numerical Examples of Network Analysis with Graph Theory | Download |

68 | Lecture 68: Circuit Analysis with Dependent Sources - I | Download |

69 | Lecture 69: Circuit Analysis with Dependent Sources - II | Download |

70 | Lecture 70: Circuit Analysis with Dependent Sources - III | Download |

71 | Lecture 71 : Two Port Network - I | Download |

72 | Lecture 72 : Two Port Network - II | Download |

73 | Lecture 73 : Two Port Network - III | Download |

74 | Lecture 74 : Two Port Network - IV | Download |

75 | Lecture 75 : Two Port Network - V | Download |

76 | Lecture 76 : Two Port Network - VI | Download |

77 | Lecture 77 : Two Port Network - VII | Download |

78 | Lecture 78 : Gyrator | Download |

79 | Lecture 79 : Ideal Op - Amp | Download |

80 | Lecture 80 : Examples of Ideal Op-Amp Circuits - I | Download |

81 | Lecture 81: Examples of Ideal Op-Amp Circuits - II | Download |

82 | Lecture 82 : General Impedance Transfer Circuit and Concluding Remarks | Download |

Sl.No | Chapter Name | English |
---|---|---|

1 | Lecture 01: Introduction: KVL, KCL and Power Balance | Download To be verified |

2 | Lecture 02: Voltage and Current Sources | Download To be verified |

3 | Lecture 03: Simple Networks with Voltage and Current Sources | Download To be verified |

4 | Lecture 04: Mesh Analysis - I | Download To be verified |

5 | Lecture 05: Mesh Analysis - II | Download To be verified |

6 | Lecture 06: Nodal Analysis - I | Download To be verified |

7 | Lecture 07: Nodal Analysis - II | Download To be verified |

8 | Lecture 08: Nodal Analysis - III | Download To be verified |

9 | Lecture 09: Inductor - I | Download To be verified |

10 | Lecture 10: Initial Condition for Inductor | Download To be verified |

11 | Lecture 11: Energy Stored in Inductor with Example | Download To be verified |

12 | Lecture 12: R-L Series Circuit Analysis | Download To be verified |

13 | Lecture 13: Retrieving Energy or Discharging of Inductor Energy | Download To be verified |

14 | Lecture 14: Capacitor: Relationship of Voltage and Current and Initial Condition | Download To be verified |

15 | Lecture 15: Charging of a Capacitor - Voltage, Current and Energy During Charging | Download To be verified |

16 | Lecture 16: Discharge of a Charged Capacitor | Download To be verified |

17 | Lecture 17: Linearity of R, L, C - Inductor with Initial Current and Capacitor with Initial Voltage | Download To be verified |

18 | Lecture 18: General Method for Solving Linear Differential Equation - I | Download To be verified |

19 | Lecture 19: General Method for Solving Linear Differential Equation - II | Download To be verified |

20 | Lecture 20: General Method for Solving Linear Differential Equation - III | Download To be verified |

21 | Lecture 21: Problem Solving: Application | Download To be verified |

22 | Lecture 22: R - L Circuit with Sinusoidal Excitation | Download To be verified |

23 | Lecture 23 : R - C Circuit with Sinusoidal Exponential | Download To be verified |

24 | Lecture 24 : Solution Due to Exponential Forcing Function | Download To be verified |

25 | Lecture 25 : Mesh and Nodal Analysis with Time Varying Source | Download To be verified |

26 | Lecture 26 : Circuit Analysis with Phasor - I | Download To be verified |

27 | Lecture 27 : Circuit Analysis with Phasor - II | Download To be verified |

28 | Lecture 28 : Circuit Analysis with Phasor - III | Download To be verified |

29 | Lecture 29 : Concept of Active and Reactive Power in A.C Circuit - I | Download To be verified |

30 | Lecture 30 : Concept of Active and Reactive Power in A.C Circuit - II | Download To be verified |

31 | Lecture 31 : Expression for Complex Power in A.C Circuit | Download To be verified |

32 | Lecture 32 : Numerical Example | Download To be verified |

33 | Lecture 33 : Mesh and Nodal Analysis in A.C Circuit, Introduction to Impulse Function | Download To be verified |

34 | Lecture 34 : Odd and Even Functions, Relation between Unit Step and Impulse Function | Download To be verified |

35 | Lecture 35 : Solution of Differential Equation with Impulse Excitation | Download To be verified |

36 | Lecture 36 : Numerical Example when Excitation is Impulse | Download To be verified |

37 | Lecture 37 : Self and Mutual Inductances - I | Download To be verified |

38 | Lecture 38 : Dot Convention in Mutually Coupled Coils | Download To be verified |

39 | Lecture 39 : Mutually Coupled Coils in Series and Parallel | Download To be verified |

40 | Lecture 40 : Energy Stored in Mutually Coupled Coils | Download To be verified |

41 | Lecture 41 : Steady State Response with Sinusoidal Excitation when the Coils are Mutually Coupled | Download To be verified |

42 | Lecture 42: Basics of Signals in Brief | Download To be verified |

43 | Lecture 43: Laplace Transform - I | Download To be verified |

44 | Lecture 44: Laplace Transform - II | Download To be verified |

45 | Lecture 45: Laplace Transform Applied to Circuit Analysis - I | Download To be verified |

46 | Lecture 46: Laplace Transform Applied to Circuit Analysis - II | Download To be verified |

47 | Lecture 47: Numerical Examples - I | Download To be verified |

48 | Lecture 48: Numerical Examples - II | Download To be verified |

49 | Lecture 49: General Second Order Circuit Analysis with L.T - I | Download To be verified |

50 | Lecture 50: General Second Order Circuit Analysis with L.T - II | Download To be verified |

51 | Lecture 51: Network Theorem - I | Download To be verified |

52 | Lecture 52: Network Theorem - II | Download To be verified |

53 | Lecture 53: Norton's Theorem | Download To be verified |

54 | Lecture 54: Thevenin Theorem | Download To be verified |

55 | Lecture 55: Star-Delta and Delta-Star Transformation | Download To be verified |

56 | Lecture 56: Telligen's Theorem | Download To be verified |

57 | Lecture 57: Reciprocity Theorem | Download To be verified |

58 | Lecture 58: Maximum Power Transfer Theorem | Download To be verified |

59 | Lecture 59: Graph Theory Applied to Network Analysis - I | Download To be verified |

60 | Lecture 60: Graph Theory Applied to Network Analysis - II | Download To be verified |

61 | Lecture 61:Graph Theory Applied to Network Analysis - III | Download To be verified |

62 | Lecture 62: Graph Theory Applied to Network Analysis - IV | Download To be verified |

63 | Lecture 63: Graph Theory Applied to Network Analysis - V | Download To be verified |

64 | Lecture 64: Mesh Analysis with Graph Theory | Download To be verified |

65 | Lecture 65: Nodal Analysis with Graph Theory | Download To be verified |

66 | Lecture 66: Cut-Set Analysis with Graph Theory | Download To be verified |

67 | Lecture 67: Numerical Examples of Network Analysis with Graph Theory | Download To be verified |

68 | Lecture 68: Circuit Analysis with Dependent Sources - I | Download To be verified |

69 | Lecture 69: Circuit Analysis with Dependent Sources - II | Download To be verified |

70 | Lecture 70: Circuit Analysis with Dependent Sources - III | Download To be verified |

71 | Lecture 71 : Two Port Network - I | Download To be verified |

72 | Lecture 72 : Two Port Network - II | Download To be verified |

73 | Lecture 73 : Two Port Network - III | Download To be verified |

74 | Lecture 74 : Two Port Network - IV | Download To be verified |

75 | Lecture 75 : Two Port Network - V | Download To be verified |

76 | Lecture 76 : Two Port Network - VI | Download To be verified |

77 | Lecture 77 : Two Port Network - VII | Download To be verified |

78 | Lecture 78 : Gyrator | Download To be verified |

79 | Lecture 79 : Ideal Op - Amp | Download To be verified |

80 | Lecture 80 : Examples of Ideal Op-Amp Circuits - I | Download To be verified |

81 | Lecture 81: Examples of Ideal Op-Amp Circuits - II | Download To be verified |

82 | Lecture 82 : General Impedance Transfer Circuit and Concluding Remarks | Download To be verified |

Sl.No | Language | Book link |
---|---|---|

1 | English | Not Available |

2 | Bengali | Not Available |

3 | Gujarati | Not Available |

4 | Hindi | Not Available |

5 | Kannada | Not Available |

6 | Malayalam | Not Available |

7 | Marathi | Not Available |

8 | Tamil | Not Available |

9 | Telugu | Not Available |