Name | Download | Download Size |
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Lecture Note | Download as zip file | 16M |
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Week 1-Introduction to Signals and Systems, Signal Classification | noc22-ee04_week1 | ||
Week-3 Examples on Properties of Linear Systems | noc22-ee04_week3 | ||
Week-4 Laplace Transform, Properties of Laplace Transform, Inverse Laplace Transform | noc22-ee04_week4 |
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noc20_ee15_assigment_1 | noc20_ee15_assigment_1 |
noc20_ee15_assigment_10 | noc20_ee15_assigment_10 |
noc20_ee15_assigment_11 | noc20_ee15_assigment_11 |
noc20_ee15_assigment_12 | noc20_ee15_assigment_12 |
noc20_ee15_assigment_13 | noc20_ee15_assigment_13 |
noc20_ee15_assigment_2 | noc20_ee15_assigment_2 |
noc20_ee15_assigment_3 | noc20_ee15_assigment_3 |
noc20_ee15_assigment_4 | noc20_ee15_assigment_4 |
noc20_ee15_assigment_5 | noc20_ee15_assigment_5 |
noc20_ee15_assigment_6 | noc20_ee15_assigment_6 |
noc20_ee15_assigment_7 | noc20_ee15_assigment_7 |
noc20_ee15_assigment_8 | noc20_ee15_assigment_8 |
noc20_ee15_assigment_9 | noc20_ee15_assigment_9 |
Sl.No | Chapter Name | MP4 Download |
---|---|---|
1 | lecture 01-Principles of Signals and Systems- Introduction to Signals and Systems, Signal Classification – Continuous and Discrete Time Signals | Download |
2 | lecture 02-Analog and Digital Signals | Download |
3 | lecture 03-Energy and Power Signals | Download |
4 | lecture 04-Real Exponential Signals | Download |
5 | lecture 05-Memory/Memory-less and Causal/ Non-Causal Systems | Download |
6 | lecture 06-Properties of Linear Systems | Download |
7 | lecture 07-Example Problems-1 | Download |
8 | lecture 08-Example Problems-2 | Download |
9 | lecture 09-Example Problem-3 | Download |
10 | lecture 10 - Properties and Analysis of LTI Systems-I | Download |
11 | lecture 11 - Properties and Analysis of LTI Systems-II | Download |
12 | Lecture-12-Properties and Analysis of LTI Systems-III | Download |
13 | Lecture-13-Properties of Discrete Time LTI Systems | Download |
14 | Lecture-14-Example Problems LTI Systems-I | Download |
15 | Lecture-15-Example Problems LTI Systems-II | Download |
16 | Lecture-16- Example Problems DT-LTI Systems | Download |
17 | Lecture-17-Laplace Transform | Download |
18 | Lecture-18-Laplace Transform Properties-I | Download |
19 | Lecture-19- Laplace Transform Properties-II | Download |
20 | Lecture-20- Laplace Transform of LTI Systems | Download |
21 | Lecture-21- Laplace Transform Example Problems-I | Download |
22 | Lecture-22- Laplace Transform Example Problems-II | Download |
23 | Lecture-23-Laplace Transform of RL, RC Circuit | Download |
24 | Lecture-24- Z-Transform | Download |
25 | Lecture-25- Z-Transform Properties-I | Download |
26 | Lecture-26-Z-Transform Properties-II | Download |
27 | Lecture-27-Z-Transform of LTI Systems | Download |
28 | Lecture-28-Z-Transform Examples-I | Download |
29 | Lecture-29-Z-Transform Examples-II | Download |
30 | Lecture-30- Z-Transform Examples-III | Download |
31 | Lecture-31- Z-Transform Examples-IV | Download |
32 | Lecture-32-Inverse Z-Transform | Download |
33 | Lecture-33- Fourier Analysis Introduction | Download |
34 | Lecture-34-Complex Exponential and Trigonometric FS | Download |
35 | Lecture-35-Conditions for Existence of FS | Download |
36 | Lecture-36- Fourier Transform (FT) Introduction | Download |
37 | Lecture-37-Properties of Fourier Transform-I | Download |
38 | Lecture-38-Properties of Fourier Transform-I| | Download |
39 | Lecture-39-Fourier Transform – Parseval’s Relation | Download |
40 | Lecture-40-Fourier Transform of LTI Systems | Download |
41 | Lecture-41-FT- Ideal and Non-Ideal Filters | Download |
42 | Lecture-42- Fourier Analysis Examples-I | Download |
43 | Lecture-43-Fourier Analysis Examples-II | Download |
44 | Lecture-44-Fourier Analysis Examples-III | Download |
45 | Lecture-45-Fourier Analysis Examples-IV | Download |
46 | Lecture-46-Fourier Analysis Examples-V | Download |
47 | Lecture-47-Fourier Analysis Examples-VI | Download |
48 | Lecture-48-Fourier Analysis Bode Plot-I | Download |
49 | Lecture-49-Fourier Analysis Bode Plot-II | Download |
50 | Lecture-50-Fourier Transform Examples: Filtering – Ideal Low Pass Filter | Download |
51 | Lecture-51-Fourier Transform Problems: Unit Step Response of RC Circuit, Sampling of Continuous Signal | Download |
52 | Lecture-52-Sampling: Spectrum of Sampled Signal, Nyquist Criterion | Download |
53 | Lecture-53-Sampling: Reconstruction from Sampled Signal | Download |
54 | Lecture-54-Fourier Analysis of Discrete Time Signals and Systems – Introduction | Download |
55 | Lecture-55-Fourier Analysis of Discrete Time Signals – Duality, Parseval’s Theorem | Download |
56 | Lecture-56-Discrete Time Fourier Transform: Definition, Inverse DTFT, Convergence, Relation between DTFT and z-Transform, DTFT of Common Signals | Download |
57 | Lecture-57-Discrete Time Fourier Transform: Properties of DTFT – Linearity, Time Shifting, Frequency Shifting, Conjugation, Time-Reversal, Duality | Download |
58 | Lecture-58-Discrete Time Fourier Transform: Properties of DTFT – Differentiation in Frequency, Difference in Time, Convolution, Multiplication, Parseval’s Relation | Download |
59 | Lecture-59-DTFT: Discrete Time LTI Systems – LTI Systems Characterized by Difference Equations | Download |
60 | Lecture-60-Discrete Fourier Transform – Definition, Inverse DFT, Relation between DFT and DFS, Relation between DFT and DTFT, Properties – Linearity, Time Shifting | Download |
61 | Lecture-61-Discrete Fourier Transform: Properties – Conjugation, Frequency Shift, Duality, Circular Convolution, Multiplication, Parseval’s Relation, Example Problems for Fourier Analysis of Discrete Time Signals | Download |
62 | Lecture-62-Example Problems: DFS Analysis of Discrete Time Signals, Problems on DTFT | Download |
63 | Lecture-63-Example Problems: DTFT of Cosine, Unit Step Signals | Download |
64 | Lecture-64-Principles of Signals and Systems | DTFT Example Problems-III | IIT KANPUR | Download |
65 | Lecture-65-Principles of Signals and Systems | DTFT Example Problems-IV | IIT KANPUR | Download |
66 | Lecture-66-Principles of Signals and Systems | DTFT Example Problems-V | IIT KANPUR | Download |
67 | Lecture-67-Principles of Signals and Systems | DFT Example Problems-I | IIT KANPUR | Download |
68 | Lecture-68-Principles of Signals and Systems | Example Problems: DFT, IDFT in Matrix form | IIT KANPUR | Download |
69 | Lecture-69- Principles of Signals and Systems | Group/ Phase Delay – Part I | IIT KANPUR | Download |
70 | Lecture-70- Principles of Signals and Systems | Group/ Phase Delay – Part II | IIT KANPUR | Download |
71 | Lecture-71- Principles of Signals and Systems | IIR Filter Structures: DF–I, DF–II | IIT KANPUR | Download |
72 | Lecture-72- Principles of Signals and Systems | IIR Filter Structures: Transpose Form | IIT KANPUR | Download |
73 | Lecture-73- Principles of Signals and Systems | IIR Filter Structures: Example | IIT KANPUR | Download |
74 | Lecture-74- Principles of Signals and Systems | IIR Filter Structures: Cascade Form | IIT KANPUR | Download |
75 | Lecture-75- Principles of Signals and Systems | IIR Filter: Parallel Form – I & II | IIT KANPUR | Download |
Sl.No | Chapter Name | English |
---|---|---|
1 | lecture 01-Principles of Signals and Systems- Introduction to Signals and Systems, Signal Classification – Continuous and Discrete Time Signals | Download Verified |
2 | lecture 02-Analog and Digital Signals | Download Verified |
3 | lecture 03-Energy and Power Signals | Download Verified |
4 | lecture 04-Real Exponential Signals | Download Verified |
5 | lecture 05-Memory/Memory-less and Causal/ Non-Causal Systems | Download Verified |
6 | lecture 06-Properties of Linear Systems | Download Verified |
7 | lecture 07-Example Problems-1 | Download Verified |
8 | lecture 08-Example Problems-2 | Download Verified |
9 | lecture 09-Example Problem-3 | Download Verified |
10 | lecture 10 - Properties and Analysis of LTI Systems-I | Download Verified |
11 | lecture 11 - Properties and Analysis of LTI Systems-II | Download Verified |
12 | Lecture-12-Properties and Analysis of LTI Systems-III | Download Verified |
13 | Lecture-13-Properties of Discrete Time LTI Systems | Download Verified |
14 | Lecture-14-Example Problems LTI Systems-I | Download Verified |
15 | Lecture-15-Example Problems LTI Systems-II | Download Verified |
16 | Lecture-16- Example Problems DT-LTI Systems | Download Verified |
17 | Lecture-17-Laplace Transform | Download Verified |
18 | Lecture-18-Laplace Transform Properties-I | Download Verified |
19 | Lecture-19- Laplace Transform Properties-II | Download Verified |
20 | Lecture-20- Laplace Transform of LTI Systems | Download Verified |
21 | Lecture-21- Laplace Transform Example Problems-I | Download Verified |
22 | Lecture-22- Laplace Transform Example Problems-II | Download Verified |
23 | Lecture-23-Laplace Transform of RL, RC Circuit | Download Verified |
24 | Lecture-24- Z-Transform | Download Verified |
25 | Lecture-25- Z-Transform Properties-I | Download Verified |
26 | Lecture-26-Z-Transform Properties-II | Download Verified |
27 | Lecture-27-Z-Transform of LTI Systems | Download Verified |
28 | Lecture-28-Z-Transform Examples-I | Download Verified |
29 | Lecture-29-Z-Transform Examples-II | Download Verified |
30 | Lecture-30- Z-Transform Examples-III | Download Verified |
31 | Lecture-31- Z-Transform Examples-IV | Download Verified |
32 | Lecture-32-Inverse Z-Transform | Download Verified |
33 | Lecture-33- Fourier Analysis Introduction | Download Verified |
34 | Lecture-34-Complex Exponential and Trigonometric FS | Download Verified |
35 | Lecture-35-Conditions for Existence of FS | Download Verified |
36 | Lecture-36- Fourier Transform (FT) Introduction | Download Verified |
37 | Lecture-37-Properties of Fourier Transform-I | Download Verified |
38 | Lecture-38-Properties of Fourier Transform-I| | Download Verified |
39 | Lecture-39-Fourier Transform – Parseval’s Relation | Download Verified |
40 | Lecture-40-Fourier Transform of LTI Systems | Download Verified |
41 | Lecture-41-FT- Ideal and Non-Ideal Filters | Download Verified |
42 | Lecture-42- Fourier Analysis Examples-I | Download Verified |
43 | Lecture-43-Fourier Analysis Examples-II | Download Verified |
44 | Lecture-44-Fourier Analysis Examples-III | Download Verified |
45 | Lecture-45-Fourier Analysis Examples-IV | Download Verified |
46 | Lecture-46-Fourier Analysis Examples-V | Download Verified |
47 | Lecture-47-Fourier Analysis Examples-VI | Download Verified |
48 | Lecture-48-Fourier Analysis Bode Plot-I | Download Verified |
49 | Lecture-49-Fourier Analysis Bode Plot-II | Download Verified |
50 | Lecture-50-Fourier Transform Examples: Filtering – Ideal Low Pass Filter | Download Verified |
51 | Lecture-51-Fourier Transform Problems: Unit Step Response of RC Circuit, Sampling of Continuous Signal | Download Verified |
52 | Lecture-52-Sampling: Spectrum of Sampled Signal, Nyquist Criterion | Download Verified |
53 | Lecture-53-Sampling: Reconstruction from Sampled Signal | Download Verified |
54 | Lecture-54-Fourier Analysis of Discrete Time Signals and Systems – Introduction | Download Verified |
55 | Lecture-55-Fourier Analysis of Discrete Time Signals – Duality, Parseval’s Theorem | Download Verified |
56 | Lecture-56-Discrete Time Fourier Transform: Definition, Inverse DTFT, Convergence, Relation between DTFT and z-Transform, DTFT of Common Signals | Download Verified |
57 | Lecture-57-Discrete Time Fourier Transform: Properties of DTFT – Linearity, Time Shifting, Frequency Shifting, Conjugation, Time-Reversal, Duality | Download Verified |
58 | Lecture-58-Discrete Time Fourier Transform: Properties of DTFT – Differentiation in Frequency, Difference in Time, Convolution, Multiplication, Parseval’s Relation | Download Verified |
59 | Lecture-59-DTFT: Discrete Time LTI Systems – LTI Systems Characterized by Difference Equations | Download Verified |
60 | Lecture-60-Discrete Fourier Transform – Definition, Inverse DFT, Relation between DFT and DFS, Relation between DFT and DTFT, Properties – Linearity, Time Shifting | Download Verified |
61 | Lecture-61-Discrete Fourier Transform: Properties – Conjugation, Frequency Shift, Duality, Circular Convolution, Multiplication, Parseval’s Relation, Example Problems for Fourier Analysis of Discrete Time Signals | Download Verified |
62 | Lecture-62-Example Problems: DFS Analysis of Discrete Time Signals, Problems on DTFT | Download Verified |
63 | Lecture-63-Example Problems: DTFT of Cosine, Unit Step Signals | Download Verified |
64 | Lecture-64-Principles of Signals and Systems | DTFT Example Problems-III | IIT KANPUR | Download Verified |
65 | Lecture-65-Principles of Signals and Systems | DTFT Example Problems-IV | IIT KANPUR | Download Verified |
66 | Lecture-66-Principles of Signals and Systems | DTFT Example Problems-V | IIT KANPUR | Download Verified |
67 | Lecture-67-Principles of Signals and Systems | DFT Example Problems-I | IIT KANPUR | Download Verified |
68 | Lecture-68-Principles of Signals and Systems | Example Problems: DFT, IDFT in Matrix form | IIT KANPUR | Download Verified |
69 | Lecture-69- Principles of Signals and Systems | Group/ Phase Delay – Part I | IIT KANPUR | Download Verified |
70 | Lecture-70- Principles of Signals and Systems | Group/ Phase Delay – Part II | IIT KANPUR | Download Verified |
71 | Lecture-71- Principles of Signals and Systems | IIR Filter Structures: DF–I, DF–II | IIT KANPUR | Download Verified |
72 | Lecture-72- Principles of Signals and Systems | IIR Filter Structures: Transpose Form | IIT KANPUR | Download Verified |
73 | Lecture-73- Principles of Signals and Systems | IIR Filter Structures: Example | IIT KANPUR | Download Verified |
74 | Lecture-74- Principles of Signals and Systems | IIR Filter Structures: Cascade Form | IIT KANPUR | Download Verified |
75 | Lecture-75- Principles of Signals and Systems | IIR Filter: Parallel Form – I & II | IIT KANPUR | Download Verified |
Sl.No | Chapter Name | Bengali |
---|---|---|
1 | lecture 01-Principles of Signals and Systems- Introduction to Signals and Systems, Signal Classification – Continuous and Discrete Time Signals | Download |
2 | lecture 02-Analog and Digital Signals | Download |
3 | lecture 03-Energy and Power Signals | Download |
4 | lecture 04-Real Exponential Signals | Download |
5 | lecture 05-Memory/Memory-less and Causal/ Non-Causal Systems | Download |
6 | lecture 06-Properties of Linear Systems | Download |
7 | lecture 07-Example Problems-1 | Download |
8 | lecture 08-Example Problems-2 | Download |
9 | lecture 09-Example Problem-3 | Download |
10 | lecture 10 - Properties and Analysis of LTI Systems-I | Download |
11 | lecture 11 - Properties and Analysis of LTI Systems-II | Download |
12 | Lecture-12-Properties and Analysis of LTI Systems-III | Download |
13 | Lecture-13-Properties of Discrete Time LTI Systems | Download |
14 | Lecture-14-Example Problems LTI Systems-I | Download |
15 | Lecture-15-Example Problems LTI Systems-II | Download |
16 | Lecture-16- Example Problems DT-LTI Systems | Download |
17 | Lecture-17-Laplace Transform | Download |
18 | Lecture-18-Laplace Transform Properties-I | Download |
19 | Lecture-19- Laplace Transform Properties-II | Download |
20 | Lecture-20- Laplace Transform of LTI Systems | Download |
21 | Lecture-21- Laplace Transform Example Problems-I | Download |
22 | Lecture-22- Laplace Transform Example Problems-II | Download |
23 | Lecture-23-Laplace Transform of RL, RC Circuit | Download |
24 | Lecture-24- Z-Transform | Download |
25 | Lecture-25- Z-Transform Properties-I | Download |
26 | Lecture-26-Z-Transform Properties-II | Download |
27 | Lecture-27-Z-Transform of LTI Systems | Download |
28 | Lecture-28-Z-Transform Examples-I | Download |
29 | Lecture-29-Z-Transform Examples-II | Download |
30 | Lecture-30- Z-Transform Examples-III | Download |
31 | Lecture-31- Z-Transform Examples-IV | Download |
32 | Lecture-32-Inverse Z-Transform | Download |
33 | Lecture-33- Fourier Analysis Introduction | Download |
34 | Lecture-34-Complex Exponential and Trigonometric FS | Download |
35 | Lecture-35-Conditions for Existence of FS | Download |
36 | Lecture-36- Fourier Transform (FT) Introduction | Download |
37 | Lecture-37-Properties of Fourier Transform-I | Download |
38 | Lecture-38-Properties of Fourier Transform-I| | Download |
39 | Lecture-39-Fourier Transform – Parseval’s Relation | Download |
40 | Lecture-40-Fourier Transform of LTI Systems | Download |
41 | Lecture-41-FT- Ideal and Non-Ideal Filters | Download |
42 | Lecture-42- Fourier Analysis Examples-I | Download |
43 | Lecture-43-Fourier Analysis Examples-II | Download |
44 | Lecture-44-Fourier Analysis Examples-III | Download |
45 | Lecture-45-Fourier Analysis Examples-IV | Download |
46 | Lecture-46-Fourier Analysis Examples-V | Download |
47 | Lecture-47-Fourier Analysis Examples-VI | Download |
48 | Lecture-48-Fourier Analysis Bode Plot-I | Download |
49 | Lecture-49-Fourier Analysis Bode Plot-II | Download |
50 | Lecture-50-Fourier Transform Examples: Filtering – Ideal Low Pass Filter | Download |
51 | Lecture-51-Fourier Transform Problems: Unit Step Response of RC Circuit, Sampling of Continuous Signal | Download |
52 | Lecture-52-Sampling: Spectrum of Sampled Signal, Nyquist Criterion | Download |
53 | Lecture-53-Sampling: Reconstruction from Sampled Signal | Download |
54 | Lecture-54-Fourier Analysis of Discrete Time Signals and Systems – Introduction | Download |
55 | Lecture-55-Fourier Analysis of Discrete Time Signals – Duality, Parseval’s Theorem | Download |
56 | Lecture-56-Discrete Time Fourier Transform: Definition, Inverse DTFT, Convergence, Relation between DTFT and z-Transform, DTFT of Common Signals | Download |
57 | Lecture-57-Discrete Time Fourier Transform: Properties of DTFT – Linearity, Time Shifting, Frequency Shifting, Conjugation, Time-Reversal, Duality | Download |
58 | Lecture-58-Discrete Time Fourier Transform: Properties of DTFT – Differentiation in Frequency, Difference in Time, Convolution, Multiplication, Parseval’s Relation | Download |
59 | Lecture-59-DTFT: Discrete Time LTI Systems – LTI Systems Characterized by Difference Equations | Download |
60 | Lecture-60-Discrete Fourier Transform – Definition, Inverse DFT, Relation between DFT and DFS, Relation between DFT and DTFT, Properties – Linearity, Time Shifting | Download |
61 | Lecture-61-Discrete Fourier Transform: Properties – Conjugation, Frequency Shift, Duality, Circular Convolution, Multiplication, Parseval’s Relation, Example Problems for Fourier Analysis of Discrete Time Signals | Download |
62 | Lecture-62-Example Problems: DFS Analysis of Discrete Time Signals, Problems on DTFT | Download |
63 | Lecture-63-Example Problems: DTFT of Cosine, Unit Step Signals | Download |
64 | Lecture-64-Principles of Signals and Systems | DTFT Example Problems-III | IIT KANPUR | Download |
65 | Lecture-65-Principles of Signals and Systems | DTFT Example Problems-IV | IIT KANPUR | Download |
66 | Lecture-66-Principles of Signals and Systems | DTFT Example Problems-V | IIT KANPUR | Download |
67 | Lecture-67-Principles of Signals and Systems | DFT Example Problems-I | IIT KANPUR | Download |
68 | Lecture-68-Principles of Signals and Systems | Example Problems: DFT, IDFT in Matrix form | IIT KANPUR | Download |
69 | Lecture-69- Principles of Signals and Systems | Group/ Phase Delay – Part I | IIT KANPUR | Download |
70 | Lecture-70- Principles of Signals and Systems | Group/ Phase Delay – Part II | IIT KANPUR | Download |
71 | Lecture-71- Principles of Signals and Systems | IIR Filter Structures: DF–I, DF–II | IIT KANPUR | Download |
72 | Lecture-72- Principles of Signals and Systems | IIR Filter Structures: Transpose Form | IIT KANPUR | Download |
73 | Lecture-73- Principles of Signals and Systems | IIR Filter Structures: Example | IIT KANPUR | Download |
74 | Lecture-74- Principles of Signals and Systems | IIR Filter Structures: Cascade Form | IIT KANPUR | Download |
75 | Lecture-75- Principles of Signals and Systems | IIR Filter: Parallel Form – I & II | IIT KANPUR | Download |
Sl.No | Chapter Name | Tamil |
---|---|---|
1 | lecture 01-Principles of Signals and Systems- Introduction to Signals and Systems, Signal Classification – Continuous and Discrete Time Signals | Download |
2 | lecture 02-Analog and Digital Signals | Download |
3 | lecture 03-Energy and Power Signals | Download |
4 | lecture 04-Real Exponential Signals | Download |
5 | lecture 05-Memory/Memory-less and Causal/ Non-Causal Systems | Download |
6 | lecture 06-Properties of Linear Systems | Download |
7 | lecture 07-Example Problems-1 | Download |
8 | lecture 08-Example Problems-2 | Download |
9 | lecture 09-Example Problem-3 | Download |
10 | lecture 10 - Properties and Analysis of LTI Systems-I | Download |
11 | lecture 11 - Properties and Analysis of LTI Systems-II | Download |
12 | Lecture-12-Properties and Analysis of LTI Systems-III | Download |
13 | Lecture-13-Properties of Discrete Time LTI Systems | Download |
14 | Lecture-14-Example Problems LTI Systems-I | Download |
15 | Lecture-15-Example Problems LTI Systems-II | Download |
16 | Lecture-16- Example Problems DT-LTI Systems | Download |
17 | Lecture-17-Laplace Transform | Download |
18 | Lecture-18-Laplace Transform Properties-I | Download |
19 | Lecture-19- Laplace Transform Properties-II | Download |
20 | Lecture-20- Laplace Transform of LTI Systems | Download |
21 | Lecture-21- Laplace Transform Example Problems-I | Download |
22 | Lecture-22- Laplace Transform Example Problems-II | Download |
23 | Lecture-23-Laplace Transform of RL, RC Circuit | Download |
24 | Lecture-24- Z-Transform | Download |
25 | Lecture-25- Z-Transform Properties-I | Download |
26 | Lecture-26-Z-Transform Properties-II | Download |
27 | Lecture-27-Z-Transform of LTI Systems | Download |
28 | Lecture-28-Z-Transform Examples-I | Download |
29 | Lecture-29-Z-Transform Examples-II | Download |
30 | Lecture-30- Z-Transform Examples-III | Download |
31 | Lecture-31- Z-Transform Examples-IV | Download |
32 | Lecture-32-Inverse Z-Transform | Download |
33 | Lecture-33- Fourier Analysis Introduction | Download |
34 | Lecture-34-Complex Exponential and Trigonometric FS | Download |
35 | Lecture-35-Conditions for Existence of FS | Download |
36 | Lecture-36- Fourier Transform (FT) Introduction | Download |
37 | Lecture-37-Properties of Fourier Transform-I | Download |
38 | Lecture-38-Properties of Fourier Transform-I| | Download |
39 | Lecture-39-Fourier Transform – Parseval’s Relation | Download |
40 | Lecture-40-Fourier Transform of LTI Systems | Download |
41 | Lecture-41-FT- Ideal and Non-Ideal Filters | Download |
42 | Lecture-42- Fourier Analysis Examples-I | Download |
43 | Lecture-43-Fourier Analysis Examples-II | Download |
44 | Lecture-44-Fourier Analysis Examples-III | Download |
45 | Lecture-45-Fourier Analysis Examples-IV | Download |
46 | Lecture-46-Fourier Analysis Examples-V | Download |
47 | Lecture-47-Fourier Analysis Examples-VI | Download |
48 | Lecture-48-Fourier Analysis Bode Plot-I | Download |
49 | Lecture-49-Fourier Analysis Bode Plot-II | Download |
50 | Lecture-50-Fourier Transform Examples: Filtering – Ideal Low Pass Filter | Download |
51 | Lecture-51-Fourier Transform Problems: Unit Step Response of RC Circuit, Sampling of Continuous Signal | Download |
52 | Lecture-52-Sampling: Spectrum of Sampled Signal, Nyquist Criterion | Download |
53 | Lecture-53-Sampling: Reconstruction from Sampled Signal | Download |
54 | Lecture-54-Fourier Analysis of Discrete Time Signals and Systems – Introduction | Download |
55 | Lecture-55-Fourier Analysis of Discrete Time Signals – Duality, Parseval’s Theorem | Download |
56 | Lecture-56-Discrete Time Fourier Transform: Definition, Inverse DTFT, Convergence, Relation between DTFT and z-Transform, DTFT of Common Signals | Download |
57 | Lecture-57-Discrete Time Fourier Transform: Properties of DTFT – Linearity, Time Shifting, Frequency Shifting, Conjugation, Time-Reversal, Duality | Download |
58 | Lecture-58-Discrete Time Fourier Transform: Properties of DTFT – Differentiation in Frequency, Difference in Time, Convolution, Multiplication, Parseval’s Relation | Download |
59 | Lecture-59-DTFT: Discrete Time LTI Systems – LTI Systems Characterized by Difference Equations | Download |
60 | Lecture-60-Discrete Fourier Transform – Definition, Inverse DFT, Relation between DFT and DFS, Relation between DFT and DTFT, Properties – Linearity, Time Shifting | Download |
61 | Lecture-61-Discrete Fourier Transform: Properties – Conjugation, Frequency Shift, Duality, Circular Convolution, Multiplication, Parseval’s Relation, Example Problems for Fourier Analysis of Discrete Time Signals | Download |
62 | Lecture-62-Example Problems: DFS Analysis of Discrete Time Signals, Problems on DTFT | Download |
63 | Lecture-63-Example Problems: DTFT of Cosine, Unit Step Signals | Download |
64 | Lecture-64-Principles of Signals and Systems | DTFT Example Problems-III | IIT KANPUR | Download |
65 | Lecture-65-Principles of Signals and Systems | DTFT Example Problems-IV | IIT KANPUR | Download |
66 | Lecture-66-Principles of Signals and Systems | DTFT Example Problems-V | IIT KANPUR | Download |
67 | Lecture-67-Principles of Signals and Systems | DFT Example Problems-I | IIT KANPUR | Download |
68 | Lecture-68-Principles of Signals and Systems | Example Problems: DFT, IDFT in Matrix form | IIT KANPUR | Download |
69 | Lecture-69- Principles of Signals and Systems | Group/ Phase Delay – Part I | IIT KANPUR | Download |
70 | Lecture-70- Principles of Signals and Systems | Group/ Phase Delay – Part II | IIT KANPUR | Download |
71 | Lecture-71- Principles of Signals and Systems | IIR Filter Structures: DF–I, DF–II | IIT KANPUR | Download |
72 | Lecture-72- Principles of Signals and Systems | IIR Filter Structures: Transpose Form | IIT KANPUR | Download |
73 | Lecture-73- Principles of Signals and Systems | IIR Filter Structures: Example | IIT KANPUR | Download |
74 | Lecture-74- Principles of Signals and Systems | IIR Filter Structures: Cascade Form | IIT KANPUR | Download |
75 | Lecture-75- Principles of Signals and Systems | IIR Filter: Parallel Form – I & II | IIT KANPUR | Download |
Sl.No | Chapter Name | Telugu |
---|---|---|
1 | lecture 01-Principles of Signals and Systems- Introduction to Signals and Systems, Signal Classification – Continuous and Discrete Time Signals | Download |
2 | lecture 02-Analog and Digital Signals | Download |
3 | lecture 03-Energy and Power Signals | Download |
4 | lecture 04-Real Exponential Signals | Download |
5 | lecture 05-Memory/Memory-less and Causal/ Non-Causal Systems | Download |
6 | lecture 06-Properties of Linear Systems | Download |
7 | lecture 07-Example Problems-1 | Download |
8 | lecture 08-Example Problems-2 | Download |
9 | lecture 09-Example Problem-3 | Download |
10 | lecture 10 - Properties and Analysis of LTI Systems-I | Download |
11 | lecture 11 - Properties and Analysis of LTI Systems-II | Download |
12 | Lecture-12-Properties and Analysis of LTI Systems-III | Download |
13 | Lecture-13-Properties of Discrete Time LTI Systems | Download |
14 | Lecture-14-Example Problems LTI Systems-I | Download |
15 | Lecture-15-Example Problems LTI Systems-II | Download |
16 | Lecture-16- Example Problems DT-LTI Systems | Download |
17 | Lecture-17-Laplace Transform | Download |
18 | Lecture-18-Laplace Transform Properties-I | Download |
19 | Lecture-19- Laplace Transform Properties-II | Download |
20 | Lecture-20- Laplace Transform of LTI Systems | Download |
21 | Lecture-21- Laplace Transform Example Problems-I | Download |
22 | Lecture-22- Laplace Transform Example Problems-II | Download |
23 | Lecture-23-Laplace Transform of RL, RC Circuit | Download |
24 | Lecture-24- Z-Transform | Download |
25 | Lecture-25- Z-Transform Properties-I | Download |
26 | Lecture-26-Z-Transform Properties-II | Download |
27 | Lecture-27-Z-Transform of LTI Systems | Download |
28 | Lecture-28-Z-Transform Examples-I | Download |
29 | Lecture-29-Z-Transform Examples-II | Download |
30 | Lecture-30- Z-Transform Examples-III | Download |
31 | Lecture-31- Z-Transform Examples-IV | Download |
32 | Lecture-32-Inverse Z-Transform | Download |
33 | Lecture-33- Fourier Analysis Introduction | Download |
34 | Lecture-34-Complex Exponential and Trigonometric FS | Download |
35 | Lecture-35-Conditions for Existence of FS | Download |
36 | Lecture-36- Fourier Transform (FT) Introduction | Download |
37 | Lecture-37-Properties of Fourier Transform-I | Download |
38 | Lecture-38-Properties of Fourier Transform-I| | Download |
39 | Lecture-39-Fourier Transform – Parseval’s Relation | Download |
40 | Lecture-40-Fourier Transform of LTI Systems | Download |
41 | Lecture-41-FT- Ideal and Non-Ideal Filters | Download |
42 | Lecture-42- Fourier Analysis Examples-I | Download |
43 | Lecture-43-Fourier Analysis Examples-II | Download |
44 | Lecture-44-Fourier Analysis Examples-III | Download |
45 | Lecture-45-Fourier Analysis Examples-IV | Download |
46 | Lecture-46-Fourier Analysis Examples-V | Download |
47 | Lecture-47-Fourier Analysis Examples-VI | Download |
48 | Lecture-48-Fourier Analysis Bode Plot-I | Download |
49 | Lecture-49-Fourier Analysis Bode Plot-II | Download |
50 | Lecture-50-Fourier Transform Examples: Filtering – Ideal Low Pass Filter | Download |
51 | Lecture-51-Fourier Transform Problems: Unit Step Response of RC Circuit, Sampling of Continuous Signal | Download |
52 | Lecture-52-Sampling: Spectrum of Sampled Signal, Nyquist Criterion | Download |
53 | Lecture-53-Sampling: Reconstruction from Sampled Signal | Download |
54 | Lecture-54-Fourier Analysis of Discrete Time Signals and Systems – Introduction | Download |
55 | Lecture-55-Fourier Analysis of Discrete Time Signals – Duality, Parseval’s Theorem | Download |
56 | Lecture-56-Discrete Time Fourier Transform: Definition, Inverse DTFT, Convergence, Relation between DTFT and z-Transform, DTFT of Common Signals | Download |
57 | Lecture-57-Discrete Time Fourier Transform: Properties of DTFT – Linearity, Time Shifting, Frequency Shifting, Conjugation, Time-Reversal, Duality | Download |
58 | Lecture-58-Discrete Time Fourier Transform: Properties of DTFT – Differentiation in Frequency, Difference in Time, Convolution, Multiplication, Parseval’s Relation | Download |
59 | Lecture-59-DTFT: Discrete Time LTI Systems – LTI Systems Characterized by Difference Equations | Download |
60 | Lecture-60-Discrete Fourier Transform – Definition, Inverse DFT, Relation between DFT and DFS, Relation between DFT and DTFT, Properties – Linearity, Time Shifting | Download |
61 | Lecture-61-Discrete Fourier Transform: Properties – Conjugation, Frequency Shift, Duality, Circular Convolution, Multiplication, Parseval’s Relation, Example Problems for Fourier Analysis of Discrete Time Signals | Download |
62 | Lecture-62-Example Problems: DFS Analysis of Discrete Time Signals, Problems on DTFT | Download |
63 | Lecture-63-Example Problems: DTFT of Cosine, Unit Step Signals | Download |
64 | Lecture-64-Principles of Signals and Systems | DTFT Example Problems-III | IIT KANPUR | Download |
65 | Lecture-65-Principles of Signals and Systems | DTFT Example Problems-IV | IIT KANPUR | Download |
66 | Lecture-66-Principles of Signals and Systems | DTFT Example Problems-V | IIT KANPUR | Download |
67 | Lecture-67-Principles of Signals and Systems | DFT Example Problems-I | IIT KANPUR | Download |
68 | Lecture-68-Principles of Signals and Systems | Example Problems: DFT, IDFT in Matrix form | IIT KANPUR | Download |
69 | Lecture-69- Principles of Signals and Systems | Group/ Phase Delay – Part I | IIT KANPUR | Download |
70 | Lecture-70- Principles of Signals and Systems | Group/ Phase Delay – Part II | IIT KANPUR | Download |
71 | Lecture-71- Principles of Signals and Systems | IIR Filter Structures: DF–I, DF–II | IIT KANPUR | Download |
72 | Lecture-72- Principles of Signals and Systems | IIR Filter Structures: Transpose Form | IIT KANPUR | Download |
73 | Lecture-73- Principles of Signals and Systems | IIR Filter Structures: Example | IIT KANPUR | Download |
74 | Lecture-74- Principles of Signals and Systems | IIR Filter Structures: Cascade Form | IIT KANPUR | Download |
75 | Lecture-75- Principles of Signals and Systems | IIR Filter: Parallel Form – I & II | IIT KANPUR | Download |