Signals and Systems Lecture 3: Sinusoids
Welcome message from author
This document is posted to help you gain knowledge. Please leave a comment to let me know what you think about it! Share it to your friends and learn new things together.
Transcript
Signals and Systems
Lecture 3: Sinusoids
2
Today's lecture − Sinusoidal signals− Review of the Sine and Cosine Functions
Examples− Basic Trigonometric Identities− Relation of Frequency to Period− Phase Shift to Time Shift
ExampleSampling and Plotting Sinusoids
− Complex Exponentials and Phasors− Complex Number Representation− Addition of Complex Numbers
Mathematical Addition Graphical Addition
3
4
Fig. 2-6: x(t) = 20cos(2π(40)t - 0.4π)
5
Sinusoidal signal : x(t) = 10cos(2π(440)t - 0.4π)
6
MATLAB Demo of Tuning Fork
−% TuningFork−t = 0:.0001:.01; −y = 10*cos(2*pi*440*t-0.4*pi);−plot(t,y)−grid−pause;−t = 0:.0001:1; −y = 10*cos(2*pi*440*t-0.4*pi);−sound (y)
7
Basic Properties of sine and cosine functions
Equivalence sin = cos( - /2) or cos = sin( +/2)y
Periodicity cos( + 2 k) = cos , k = integer
Evenness of cosine
cos(-) = cos
Oddness of sine sin(-) = - sin
Zeros of sine sin (k) = 0, k = integer
Ones of cosine cos (2k) = 1, k = integer
Minus ones of cosine
cos [2(k + ½)) = -1, k = integer
8
Some basic trigonometric identitiesNumber Equation
1 sin2 + cos2 = 1
2 cos2 = cos2 - sin2
3 sin2 = 2 sin cos
4 sin (α + β) = sinα cosβ + cosα sinβ
5 cos (α + β) = cosα cosβ + sinα sinβ
9
Relation of Frequency to Period
X(t)=A cos(0t+ )x(t + T0) = x(t)A cos(0 (t + T0) + )= A cos(0t+ )cos(0 t + 0 T0 + )= cos(0t+ )
Since cosine function has a period of 2π 0 T0 = 2π 2πf0 T0 = 2π T0 = 1/ f0
10
Fig 2-7: x(t) = 5cos(2πfot) for different values of fo
11
Phase Shift and Time Shift
x0 (t - t1) = A cos(0 (t - t1) = A cos (0t + )
cos(0 t -0 t1 )= cos(0t + )
t1 = -/ 0 = -/ 2πf0
Phase Shift is negative when time-shift is positive
= - 2πf0 t1 = - 2πt1 /T0
12
Phase Shift and Time Shift
13
Phase Shift is Ambiguous
14
−X(t) =Acos(wt +Φ)
15
Sinusoid from a Plot
16
Represent following graph in form of X(t) =Acos(wt +Φ)
17
−A=6−T =6−f=1/6−tm=2;−Φ=-wtm−Φ=-2*pi*f*tm−-2pi/3;−X(t)=6cos(pi/3 -2pi/3)
18
Sampling and Plotting Sinusoids
19
Effect of Sampling Period
20
Sample Spacing
21
Complex Numbers
22
Plot Complex Numbers
23
Complex Addition = Vector Addition
24
Polar Form
25
Polar versus Rectangular
26
Practice
27
Solution
28
Complex Conjugation
Related Documents
