8 - 1x oversampling

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Revision as of 17:30, 8 November 2009 by Kevin.Starkey (talk | contribs) (New page: Write a section on the Wiki about how a CD player works with no oversampling, but digital filtering (1x oversampling)<br><br> First we sample the data at <math> f_s = \frac{1}{T} </math> ...)
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Write a section on the Wiki about how a CD player works with no oversampling, but digital filtering (1x oversampling)

First we sample the data at to get the data in digital form and when you use the impulse function in time the frequency repeats forever as shown

X continuous3.jpg X discrete a.jpg

                                 Sample 

X frequency1b.jpg X frequency2a.jpg

Where the impulse function with respect to time =
and in the frequency domain.

Now that we have the data in the computer we want to convolve it with another impulse function in the time domain. This is where more that 1x oversampling would occur replace n for nx oversampling, but in our case we use n = 1. Doing this convolution we can also shape our frequency when you convolve in time it multiplies in frequency. So we pick a frequency function to multiply by so our frequency won't overlap later and help compensate for losses in the D/A converter.


X discrete a.jpg

X frequency3a.jpg

X discrete a.jpg
> X frequency4a.jpg

P t.jpg

X step.jpg

P f.jpg

X frequency5.jpg

Lowpass g t.jpg

Lowpass G f.jpg