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Pulse Digital Circuits fundamentals

  • Sasikala image

    By - Sasikala

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Course Requirements


Course Description

This course introduces the fundamentals of Pulse Digital Circuits used in modern electronic and computer systems. Students will learn about pulse waveforms, logic gates, binary systems, timing circuits, flip-flops, counters, registers, and sequential logic concepts. The course focuses on understanding how digital pulses are generated, processed, and applied in electronic circuits through practical examples and basic circuit analysis. It is designed for beginners in electronics, electrical engineering, and digital systems

Course Outcomes

After completing this course, learners will be able to:

  1. Understand the basics of pulse signals and digital waveforms.
  2. Identify and explain the operation of logic gates and Boolean logic.
  3. Analyze timing diagrams and pulse characteristics in digital circuits.
  4. Understand the working principles of flip-flops, counters, and registers.
  5. Design and interpret simple combinational and sequential digital circuits.
  6. Apply pulse digital circuit concepts in electronic and automation systems.

Course Curriculum

  • 1 chapters
  • 131 lectures
  • 0 quizzes
  • N/A total length
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1 RC network with Sinusoidal Linear wave shaping PDC Lec 01
19.57 Min

2 Low Pass RC network Step input Pulse Digital Circuits Lec 02
15.24 Min

3 Low Pass RC network Rise time 3 dB frequency Pulse Digital Circuits Lec 03
14.47 Min

4 Low Pass RC network Pulse input Pulse Digital Circuits Lec 04
14 Min

5 Low pass RC network Square wave input Pulse Digital Circuits Lec 05
12.13 Min

6 Relaxation devices Pulse synchronization PDC Lec 118
16.35 Min

7 Low pass RC network Ramp input Pulse Digital Circuits Lec 06
13.07 Min

8 Sweep circuit Frequency division PDC Lec 119
12.31 Min

9 Low pass RC network Exponential input Pulse Digital Circuits Lec 07
9.17 Min

10 Astable blocking oscillator RC controlled Frequency division PDC Lec 120
10.27 Min

11 Low pass RC circuit Integrator Pulse Digital Circuits Lec 08
14.11 Min

12 Astable multivibrator Synchronization PDC Lec 121
15.28 Min

13 Low pass RC network Examples Pulse Digital Circuits Lec 09
16.17 Min

14 Phase delay phase jitters Divider PDC Lec 122
3.41 Min

15 High pass RC circuit Sine wave input Pulse Digital Circuits Lec 10
14.03 Min

16 Sweep circuit Synchronization Symmetrical signals PDC Lec 123
18.1 Min

17 High pass RC circuit Step input Pulse Digital Circuits Lec 11
14.09 Min

18 Sweep circuit Sine wave frequency division PDC Lec 124
13.3 Min

19 Unidirectional sampling gate Diode PDC Lec 125
18.2 Min

20 High pass RC circuit Pulse input Pulse Digital Circuits Lec 12
14.25 Min

21 Unidirectional diode gates more than one input PDC Lec 126
12.22 Min

22 High pass RC circuit Square wave input Pulse Digital Circuits Lec 13
15.47 Min

23 Bidirectional sampling gates transistors PDC Lec 127
11.14 Min

24 High pass RC circuit Expression for percentage tilt Pulse Digital Circuits Lec 14
15.33 Min

25 Gate circuit Reduction of pedestal PDC Lec 128
12.38 Min

26 High pass RC circuit Ramp input Pulse Digital Circuits Lec 15
14.12 Min

27 Bidirectional sampling gate Diode PDC Lec 129
11.55 Min

28 High pass RC circuit Exponential input Pulse Digital Circuits Lec 16
12.42 Min

29 Four diode sampling gate Circuit diagram PDC Lec 130
12.48 Min

30 Six diode sampling gate applications of sampling gate PDC Lec 131
16.17 Min

31 High pass RC circuit Differentiator Pulse Digital Circuits Lec 17
16.29 Min

32 Attenuators Pulse Digital Circuits Lec 18
27.57 Min

33 RL and RLC circuits Low pass High pass Pulse Digital Circuits Lec 19
12.19 Min

34 RLC parallel circuits Pulse Digital Circuits Lec 20
14.09 Min

35 Clippers Non linear wave shaping Introduction Pulse Digital Circuits Lec 21
17.15 Min

36 Shunt type clippers Characteristics Part 1 2 Pulse Digital Circuits Lec 22
19.02 Min

37 Shunt type clippers Characteristics Part 2 2 Pulse Digital Circuits Lec 23
12.19 Min

38 Series clippers Above Reference Voltage Part 1 2 Pulse Digital Circuits Lec 24
11.05 Min

39 Series clippers Below Reference Voltage Part 2 2 Pulse Digital Circuits Lec 25
9.28 Min

40 Single ended clipping circuits Part 1 2 Pulse Digital Circuits Lec 26
19.3 Min

41 Single ended clipping circuits Part 2 2 Pulse Digital Circuits Lec 27
16.21 Min

42 Clipping at two independent levels Characteristics Pulse Digital Circuits Lec 28
19.04 Min

43 Clipping circuits Double ended Pulse Digital Circuits Lec 29
16.44 Min

44 Noise clippers Series Shunt types Pulse Digital Circuits Lec 30
13.34 Min

45 Transistor clippers Wave forms Pulse Digital Circuits Lec 31
11.35 Min

46 Coupled clippers Emitter Pulse Digital Circuits Lec 32
12.2 Min

47 Comparator Pulse Digital Circuits Lec 33
12.29 Min

48 Negative clamper Pulse Digital Circuits Lec 34
19.3 Min

49 Clamping circuit theorem Pulse Digital Circuits Lec 35
17.58 Min

50 Switching characteristics of diode Pulse Digital Circuits PDC Lec 36
14.37 Min

51 Transition times of diode Storage Pulse Digital Circuits PDC Lec 37
15.28 Min

52 Piece wise linear diode Characteristics Breakdown Pulse Digital Circuits PDC Lec 38
17.46 Min

53 Transistor as a switch Pulse Digital Circuits PDC Lec 39
12.21 Min

54 Transistor switching times Pulse Digital Circuits PDC Lec 40
17.42 Min

55 Transistor switch Design Pulse Digital Circuits PDC Lec 41
18.48 Min

56 Multi vibrators Introduction Pulse Digital Circuits PDC Lec 42
16.24 Min

57 Bi stable Multi vibrators Fixed Bias Part 1 3 Pulse Digital Circuits PDC Lec 43
17.09 Min

58 Bi stable Multi vibrators Fixed Bias Part 2 3 Pulse Digital Circuits PDC Lec 44
16.26 Min

59 Bi stable Multi vibrators Self Bias Part 3 3 Pulse Digital Circuits PDC Lec 45
11.03 Min

60 Bistable multi vibrators Commutating capacitors Pulse Digital Circuits PDC Lec 46
11.39 Min

61 Bistable multivibrators Triggering at Collectors Bases Pulse Digital Circuits PDC Lec 47
12.33 Min

62 Bistable multivibrators Unsymmetrically Triggering Pulse Digital Circuits PDC Lec 48
11.24 Min

63 Bistable multivibrators Symmetrically Triggering Pulse Digital Circuits PDC Lec 49
11.58 Min

64 Bistable multivibrators A direct connected binary Pulse Digital Circuits PDC Lec 50
11.42 Min

65 Schmitt Trigger Bistable Multivibrator Emitter coupled Pulse Digital Circuits PDC Lec 51
18.55 Min

66 Schmitt Trigger Derivation for UTP Pulse Digital Circuits PDC Lec 52
14.21 Min

67 Schmitt Trigger Derivation for LTP Pulse Digital Circuits PDC Lec 53
20.39 Min

68 Monostable multivibrator Collector Coupled Pulse Digital Circuits PDC Lec 54
16.59 Min

69 Mono stable Multivibrator Pulse Digital Circuits PDC Lec 55
12.37 Min

70 Mono stable Multivibrator Reverse saturation current Pulse Digital Circuits PDC Lec 56
4.09 Min

71 Monostable multivibrator Voltage to time converter Pulse Digital Circuits PDC Lec 57
9.21 Min

72 Astable multivibrator Diagram Working Pulse Digital Circuits PDC Lec 58
11.31 Min

73 Monostable Multivibrator Designing Example 1 Pulse Digital Circuits PDC Lec 61
16 Min

74 Monostable Multivibrator Designing Example 2 Pulse Digital Circuits PDC Lec 62
19.43 Min

75 Monostable Multivibrator Emitter coupled Pulse Digital Circuits PDC Lec 64
12.5 Min

76 Astable multivibrator Designing 1 Pulse Digital Circuits PDC Lec 66
16.14 Min

77 Astable multivibrator Frequency of oscillation Pulse Digital Circuits PDC Lec 59
17.14 Min

78 Astable multivibrator Voltage to frequency converter Pulse Digital Circuits PDC Lec 60
14.06 Min

79 Monostable multivibrator Design of a triggering pulse Pulse Digital Circuits PDC Lec 63
14.35 Min

80 Monostable multivibrator Gate width in Emitter coupled Pulse Digital Circuits PDC Lec 65
17.45 Min

81 Astable multivibrator Designing 2 Square Wave Pulse Digital Circuits PDC Lec 67
14.31 Min

82 Astable multivibrator Designing 3 free running oscillator PDC Lec 68
13.21 Min

83 Astable Multivibrator Emitter coupled PDC Lec 69
17.34 Min

84 Astable multivibrator Emitter coupled Period calculation PDC Lec 70
14.42 Min

85 Time base generators General features PDC Lec 71
17.09 Min

86 Exponential sweep circuit Part 1 2 PDC Lec 72
17.33 Min

87 Exponential sweep circuit Transmission Displacement Error Part 2 2 PDC Lec 73
13.43 Min

88 Unijunction transistor Introduction PDC Lec 74
15.39 Min

89 Sweep circuit using UJT PDC Lec 75
15.25 Min

90 UJT Sweep circuit Examples 1 PDC Lec 76
12.13 Min

91 UJT Sweep circuit Relaxation Oscillator Examples 2 PDC Lec 77
11.33 Min

92 UJT Sweep circuit Design Examples 3 PDC Lec 78
18.31 Min

93 Sweep circuit Using Transistor switch PDC Lec 79
12.37 Min

94 Common Base transistor Constant current sweep Slope Error PDC Lec 80
16.48 Min

95 Time base generators Miller bootstrap PDC Lec 81
10.44 Min

96 Miller sweep Circuit PDC Lec 82
16.58 Min

97 Bootstrap sweep Circuit PDC Lec 83
13.45 Min

98 Miller time base generators Transistor PDC Lec 84
14.1 Min

99 Bootstrap Sweep Circuit Example problem PDC Lec 85
17.12 Min

100 Bootstrap time base generator Transistor Part 1 2 PDC Lec 86
20.14 Min

101 Bootstrap time base generator Transistor Part 2 2 PDC Lec 87
14 Min

102 Bootstrap time base generator Transistor Example problem PDC Lec 88
13.11 Min

103 Current time base generators Wave Forms PDC Lec 89
15.04 Min

104 Linearity correction through adjustment of driving waveform PDC Lec 90
12.23 Min

105 Current time base generator Example problem PDC Lec 91
14.32 Min

106 OR gate Basic gates Symbol Truth Table PDC Lec 92
11.27 Min

107 OR gate Realization using Diode and transistor PDC Lec 93
12.35 Min

108 AND gate Basic gates Symbol Truth Table PDC Lec 94
11.04 Min

109 AND gate Realization using Diode and transistor PDC Lec 95
11.2 Min

110 NOT gate inverter RTL PDC Lec 96
11 Min

111 NAND gate 3 Input Symbol Truth Table PDC Lec 97
11.27 Min

112 NAND Gate DTL RTL Realization PDC Lec 98
14.48 Min

113 NAND Gate Transistor Transistor Logic PDC Lec 99
13.25 Min

114 NOR Gate 3 Input DTL RTL Realization PDC Lec 100
18.15 Min

115 EXOR EXNOR Derived Gates PDC Lec 101
8.54 Min

116 Digital IC Characteristics PDC Lec 102
22.11 Min

117 Logic Families Introduction Comparison PDC Lec 103
14.58 Min

118 TTL Open Collector NAND gate Standard TTL PDC Lec 104
10.49 Min

119 Tri State TTL Truth Table TTL Inverter PDC Lec 105
15.39 Min

120 Schottky TTL Circuit Diagram PDC Lec 106
12.57 Min

121 Integrated Injection logic IIL Inverter NAND NOR Gate PDC Lec 107
12.33 Min

122 ECL NOR OR Gate Circuit Diagram Introduction PDC Lec 108
20.44 Min

123 MOS Logic Symbol Characteristics PDC Lec 109
11.47 Min

124 NAND gate 2 i p NMOS PDC Lec 111
12.37 Min

125 NMOS logic circuits Inverter PDC Lec 110
14.42 Min

126 NOR gate NMOS 2 I P PDC Lec 112
10.46 Min

127 CMOS inverter PMOS NMOS Logic family PDC Lec 113
13.51 Min

128 NAND gate CMOS Logic family PDC Lec 114
12.45 Min

129 NOR gate CMOS Logic family PDC Lec 115
12.05 Min

130 Pass Transistor Transmission Gate Switch logic PDC Lec 116
14.22 Min

131 Dynamic CMOS logic Four phase clock PDC Lec 117
12.44 Min

Instructor

Sasikala

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  • Duration N/A

  • Lectures 131 lessons

  • Enrolled 0 students

  • Category: Engineering

  • 0 Quizzes

  • Language: English

  • Skill Level Beginner

  • Certificate of Completion

  • Full lifetime access

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