User:Caswto: Difference between revisions

Latest revision as of 11:09, 8 December 2004

9-27-2004

Todd Caswell
509-374-2820

How a CD Player Works

First, a digital signal $x (k t)$ is read from the CD and then convolved with a pulse function $p (t)$ in the D/A converter. The result in the time domain looks like this:

$\hat{x} (t) = \sum_{k = - \infty}^{\infty} x (k T) p (t - k T) = p (t) * \sum_{k = - \infty}^{\infty} x (k T) δ (t - k T)$

Let's look at this result in frequency space. Note that convolution in time means multiplication in frequency.

$\hat{X} (f) = 1 / T \sum_{n = - \infty}^{\infty} X (f - n / T) \cdot P (f)$

where

$P (f) = \int_{- T / 2}^{T / 2} e^{j 2 π f t} d t = T s i n c (f T)$

The low pass filter then knocks the high frequencies out of the signal coming from the D/A converter, which smoothes out the edges of the reproduced sine wave $\hat{x} (t)$ in time. This output waveform then drives the speaker, thereby recreating the original sound stored on the CD.

Contributing Authors:

Todd Caswell

Aric Goe

@@ Line 1: / Line 1: @@
 <center>
-====Todd Caswell====
+[[Image:P1010004.JPG|thumb|9-27-2004]] <br>
+<br>
+Todd Caswell <br>
+-374-2820
 </center>
-====509-374-2820====
+----
+=== How a CD Player Works ===
+[[Image:CDplayerdiagram.jpg|Description]]
+First, a digital signal <math>\ x(kt) </math> is read from the CD and then convolved with a pulse function <math>\ p(t) </math> in the D/A converter. The result in the time domain looks like this:
+<center>
+[[Image:DAOutput.jpg|Description]]
+<math>
+\hat x(t) = \sum_{k=-\infty}^\infty x(kT)p(t - kT) = p(t) *\sum_{k=-\infty}^\infty x(kT) \delta (t - kT)
+</math>
+</center>
+Let's look at this result in frequency space. Note that convolution in time means multiplication in frequency.
+<center>
+[[Image:DAfreqout.jpg|Description]]
+<math>\hat X(f) = 1/T \sum_{n=-\infty}^\infty X(f - n/T) \cdot P(f)</math>
+</center>
+where
+<center>
+<math>P(f) = \int_{-T/2}^{T/2} e^{j2\pi ft} \, dt = T sinc(fT)
+</math>
+</center>
+The low pass filter then knocks the high frequencies out of the signal coming from the D/A converter, which smoothes out the edges of the reproduced sine wave <math>\hat x(t)</math> in time. This output waveform then drives the speaker, thereby recreating the original sound stored on the CD.
+Contributing Authors:
+[[User:caswto|Todd Caswell]]
+[[User:goeari|Aric Goe]]

User:Caswto: Difference between revisions

Latest revision as of 11:09, 8 December 2004

How a CD Player Works

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