JAJSGW2A January 2019 – May 2019 ADS1260-Q1 , ADS1261-Q1
PRODUCTION DATA.
The characteristic of the sinc filter is low pass. The filter reduces noise present in the signal and noise present within the ADC. Changing the data rate and filter order changes the filter bandwidth.
As shown in Figure 22 and Figure 23, the first-stage sinc5 filter has frequency response nulls occurring at N · fDATA, where N = 1, 2, 3 and so on. At the null frequencies, the filter has zero gain. Data rates of 25600 SPS and 19200 SPS have similar frequency response.
The second stage superimposes frequency response nulls to the nulls of the first stage 14400 SPS output. The first of the superimposed response nulls occurs at the data rate, followed by nulls occurring at multiples of the data rate. Figure 24 illustrates the frequency response for various orders of sinc at data rate of 2400 SPS. This data rate has five nulls between the larger nulls at multiples of 14400 Hz. This frequency response is similar to that of data rates 2.5 SPS to 7200 SPS. Figure 25 shows the frequency response nulls for 10 SPS.
Figure 26 and Figure 27 show the frequency response of data rates 50 SPS and 60 SPS, respectively. Increase the attenuation at 50 Hz or 60 Hz and harmonics by increasing the order of the sinc filter, as shown in the figures.
Figure 28 and Figure 29 show the detailed frequency response at 50 SPS and 60 SPS, respectively.