What does an increase in the high-frequency filter (HFF) setting usually result in?

An increase in the high-frequency filter (HFF) setting primarily results in a loss of low-frequency detail. The purpose of a high-frequency filter is to allow high-frequency signals to pass through while attenuating, or reducing, the amplitude of lower-frequency signals. As the HFF setting is increased, it selectively removes lower-frequency components from the signal, which can lead to a clearer representation of the higher-frequency elements. However, the trade-off is that important details in the lower-frequency range may also be lost, which can be critical when analyzing certain types of signals.

In contrast, an increase in HFF would not typically result in increased visibility of high-frequency spikes, as you would expect those to be more pronounced with the filter allowing high frequencies through rather than additional visibility. Additionally, while the HFF can help with background noise, this reduction is more pertinent to certain higher-frequency noises rather than a direct focus on background noise overall. Clipping of high-amplitude signals is also unrelated, as it typically refers to distortions occurring at amplification stages, not directly at the filtering level.