EVAL-AD7891-2CB Datasheet, PDF(9/12 Page) Analog Devices – Evaluation Board for Single Supply, 12-Bit 500 kSPS ADC

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EVAL-AD7891-2CB Datasheet, PDF (9/12 Pages) Analog Devices – Evaluation Board for Single Supply, 12-Bit 500 kSPS ADC

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EVAL-AD7891-2CB

Figure 5. Histogram Screen

Digital Spectrum Analyzer

The Digital Spectrum Analyzer performs a fast fourier transform

of the sampled data and displays the magnitude of the results on

its screen in decibels (dB). It also calculates the signal to noise

ratio of the sampled data, assuming the samples are those of a

sine wave. If the "blackman-harris" button near the top of the

main screen is on then the data is windowed by a blackman-

harris window before the fast fourier transform is performed.

Normally, the "blackman-harris" button needs to be to on in

order to obtain meaningful results from the spectrum analyzer.

If the evaluation board is used in a coherent sampling system,

ie. one where the conversion start signal applied to the AD7891-

2 is synchronized to an input sine wave, in such a way that an

integral number of periods of the sine wave are contained in the

sampled data, then the blackman-harris window can be turned

off.

The buttons to the right of the spectrum analyzer display

control the operation of the analyzer. These buttons are:

Avg When this button is on, the fourier transforms on each

new set of sampled data are averaged so that the noise

floor decreases relative to the signal contained in the

data.

Scale

When this button is on, the complete fourier transform

from 0 Hz up to fs/2 is displayed in the spectrum

analyzer window. When this button is off, the first 510

bins (less for transforms of less than 512 points) of the

fourier transform are displayed.

harms

When this button is on, the harmonics of the input

signal are included in the SNR calculation. When this

button is off, the harmonics are replaced by average

noise in the SNR calculation.

norm

When the "norm" button is on, the fourier transformed

data is normalized so that the zero dB level is set to the

level of the frequency bin with the largest magnitude.

The data is displayed on-screen with the largest

magnitude bin at the zero dB level. When the "norm"

button is off, the data is not normalized. Instead the

zero dB level is assigned to the level that the largest

magnitude input signal would have and the data is

displayed accordingly.

After an FFT has been performed and the frequency spectrum

is displayed in the Digital Spectrum Analyser window, the

mouse may be used to determine the frequency and dB level of

any point in the frequency spectrum. Note that this will only

work when one set of samples were taken, it will not work when

in the continuous sampling mode. Once the mouse is positioned

in the Digital Spectrum Analyser window the cordinates of the

mouse in terms of frequency and dBs will be displayed on the

right hand side of the window.

When a fourier transform of a windowed sine wave is per-

formed, the power contained in the fundamental frequency is

spread out over several frequency bins. To calculate the signal

to noise ratio of the signal, the power contained in those

frequency bins is summed to give the power of the fundamental.

Also, the dc component of the signal is spread over the first few

frequency bins. In the SNR calculation, the dc signal must be

replaced by the average noise.

The number of frequency bins that are summed to give the

power in the fundamental is controlled by the SigBins counter.

The range of valid values is 0 to 9. The number contained in

the SigBins counter is the number of frequency bins each side of

the central peak that are used to calculate the power in the

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