Handbook for Signals and Systems for Second year ECE, EEE, IT, CSE Students of BE/B.Tech Degree - Based on Anna University Tamil Nadu SyllabusFull description
Handbook for Signals and Systems for Second year ECE, EEE, IT, CSE Students of BE/B.Tech Degree - Based on Anna University Tamil Nadu SyllabusFull description
signalsFull description
Handbook for Signals and Systems for Second year ECE, EEE, IT, CSE Students of BE/B.Tech Degree - Based on Anna University Tamil Nadu SyllabusFull description
Full description
Full description
Signals and Systems Notes
Full description
signals and systemsFull description
Libro para el análisis y diseño de sistemas y señales,
TLE=Electrical/ElectronicsFull description
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VIDYAA VIKAS COLLEGE OF ENGINEERING AND TECHNOLOGY DEPRTMENT OF ECE LESSON PLAN : SIGNALS AND SYSTEMS : Mr.K.AKILAN : II ECE A & B / III : 2012-2013 : 2008
Subject name Faculty Incharge Year / Sem Academic year Regulation
AIM To study and analyze characteristics of continuous, discrete signals and systems OBJECTIVES To study the properties and representation of discrete and continuous signals To study the sampling process and analysis of discrete systems using Z-transforms To study the analysis and synthesis of discrete time systems TEXT BOOKS: TB1: Allan V. Oppenheim, S. Wilsky and S. H. Nawab, “Signals and systems”, Pearson education, 2007 TB2: Nagoor Kani, “Signals and Systems”, TMH REFERENCES: RB1: Dr.J.S.Chitode.”Signals and Systems”, Technical Publications, 2008 RB2: S.Poorchandra, B. Sasikala “Signals and Systems”, Second edition, TMH. RB3: H.P.HSU, Rakesh Ranjan, “Signals and Systems”, Schuam’s Outlines, Tata McGraw Hill, 2007
S. No
Day
Hour(s) required
1
Day 1
1
Introduction to signals and systems
2
Day 2
1
Standard Signals in CT and DT domains
3
Day 3
1
Plotting of CT & DT signals
4
Day 4
2
Transformation of Independent Independent variable
5
Day 5
2
Problems on transformations of time axis
6
Day 6
1
Classification of CT & DT signals
7
Day 7
2
8
Day 8
1
9
Day 9
1
10
Day 10
1
Odd & Even signals
11
Day 11
1
Problems on Odd & Even signals
12
Day 12
1
Classification of CT & DT systems
13
Day 13
1
Basic System Properties
14
Day 14
1
Linearity and time invariance
15
Day 15
1
Stability and Causality
Topics to be covered
I Problems on periodicity T I Power & Energy signals N U Problems on Power & Energy
signals
Text/ Ref Book Page no.
Remarks
16
Day 16
1
Memory and Inverse systems
17
Day 17
2
Problems on System properties
18
Day 18
2
LTI systems & Properties
19
Day 19
1
Spectrum of CT signals
20
Day 20
1
Laplace Transform - Theorem & Formulae
21
Day 21
1
Properties of Laplace transform
22
Day 22
1
Inverse Laplace transform
23
Day 23
2
24
Day 24
1
25
Day 25
1
26
Day 26
1
Problems on Laplace transform Analysis of LTI systems using Laplace Transform Problems on LTI systems using Laplace Transform Solution of differential equations
27
Day 27
1
28
Day 28
1
29
Day 29
1
30
Day 30
1
Properties of Fourier series
31
Day 31
2
Problems on Fourier series
32
Day 32
1
Fourier series of DT signals
33
Day 33
1
Fourier Transform – Frequency Spectrum
34
Day 34
1
Properties of Fourier transform
35
Day 35
1
Fourier transform of standard signals
36
Day 36
1
Fourier transform of periodic signals
37
Day 37
1
Fourier transform of discrete time signals
38
Day 38
1
Convolution Integral
39
Day 39
1
Impulse response of CT – LTI systems
40
Day 40
1
Natural, Forced and Complete Response
41
Day 41
2
Problems on Convolution & Impulse response
42
Day 42
1
Response of a system for a given excitation
43
Day 43
2
Problems for finding response of a system
44
Day 44
1
45
Day 45
1
46
Day 46
1
47
Day 47
1
48
Day 48
1
Transfer function of a system using Laplace techniques State equations – solutions & response
49
Day 49
1
Tutorial on State equation problems
50
Day 50
1
Matrix representations of CT systems
51
Day 51
1
Frequency response and transfer function
52
Day 52
2
Problems based on Fourier & Laplace transforms
I I Convolution theorem T I N Fourier series representation U
of periodic signals
Finding Fourier series from a given waveform
Block diagram representation of CT systems
I I I Implementation of Direct Form I & II T I N Frequency Response Using Fourier methods U
53
Day 53
1
Tutorial class for UNIT III
54
Day 54
1
55
Day 55
1
56
Day 56
1
Sampling Theorem Effect of oversampling : Aliasing and Nyquist criterion Reconstruction of signals
57
Day 57
1
Sampling of Band pass Signals
58
Day 58
1
DTFT: Representation of aperiodic signals
59
Day 59
2
Problems on Fourier transform
60
Day 60
1
Fourier transform of periodic signals
61
Day 61
1
62
Day 62
1
63
Day 63
1
64
Day 64
1
65
Day 65
1
Z-transform : Formulae & problems
66
Day 66
1
Poles & Zeros of rational function of z
67
Day 67
1
Problems in Z-transform
68
Day 68
1
69
Day 69
1
70
Day 70
1
Inverse Z-transform Solution to differential equations using Ztransforms Unilateral Z-transform
71
Day 71
1
Tutorial on UNIT IV
72
Day 72
1
Impulse response of DT systems
73
Day 73
1
Natural, Forced and Complete Response for DT systems
74
Day 74
1
Convolution sum & convolution properties
75
Day 75
1
Properties of DT LTI systems
76
Day 76
1
Response of DT systems for a given excitation
77
Day 77
2
Problems on convolution
78
Day 78
1
79
Day 79
2
80
Day 80
1
V Block diagram representation T I N Direct Form I & II structures U
81
Day 81
1
State Variable equations
82
Day 82
1
LTI system analysis using Z-transform
83
Day 83
2
Problems on difference equations
84
Day 84
1
Matrix representation of systems
85
Day 85
1
Solution of state equations
86
Day 86
1
Tutorial on UNIT V
Faculty In-Charge
Properties of DTFT
V I DFT & its Properties T I N Problems on convolution U