(Part 1)
(Part 2)
 
(6 intermediate revisions by the same user not shown)
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[[image: SIN.jpg]]
 
[[image: SIN.jpg]]
  
Periodic signal turned Non-Periodic
+
Periodic signal turned Non-Periodic, DT non-periodic signal
 
+
<pre>
[[image: SINNP]]
+
t  = 0:0.5:10;
 +
x = sin((1/(2*pi))*t);
 +
plot(t,x)
 +
grid on
 +
stem(t,x)
 +
</pre>
 +
[[image: SINdt.jpg]]
  
 
==Part 2==
 
==Part 2==
Non-Periodic Signal
+
Non-Periodic Signal and Non-Periodic Signal turned Periodic
[[image: NP]]
+
 
Non-Periodic Signal turned Periodic
+
Using x(t) = t
Y=X
+
 
[[image: NPTP]]
+
[[Image:Rampsjp_ECE301Fall2008mboutin.JPG]]  
 +
 
 +
Using image from Jacob Pfister.

Latest revision as of 16:10, 12 September 2008

Part 1

Periodic signal Sampling the signal at a frequency that is a rational multiple of the frequency of the signal will result in a periodic Discrete Time signal. Sampling the signal at a frequency that is not a rational multiple of the frequency of the signal will result in a non-periodic Discrete Time signal.

My all time favorite CT periodic signal- Sin(t)

t  = 0:0.02:10; 
x = sin(t);
plot(t,x)
grid on

File:SIN.jpg

Periodic signal turned Non-Periodic, DT non-periodic signal

t  = 0:0.5:10; 
x = sin((1/(2*pi))*t);
plot(t,x)
grid on
stem(t,x)

File:SINdt.jpg

Part 2

Non-Periodic Signal and Non-Periodic Signal turned Periodic

Using x(t) = t

Rampsjp ECE301Fall2008mboutin.JPG

Using image from Jacob Pfister.

Alumni Liaison

Followed her dream after having raised her family.

Ruth Enoch, PhD Mathematics