Averaging the multiple ADC samples together is an effective way to process the ADC samples. Using a digital matched filter improves the SNR further. The matched filter weighs each sample by the noiseless DC-removed waveform voltage before averaging the samples together. An example DC-removed waveform and corresponding filter weights are shown in Figure 4-7 and Figure 4-8. The filter weights can be obtained dynamically by averaging measured each DC-removed ADC sample across multiple pulses. While the matched filter is more complex than the averaging filter, it can be used to increase the SNR without affecting power consumption.

It is shown in Figure 4-13 that other digital filters can improve the SNR further. The unconstrained filter has weights optimized for SNR. An example of the unconstrained filter weights is shown in Figure 4-8. The unconstrained filter is included to demonstrate how SNR can be improved beyond matched filtering.