Your personal preferences aside, doing so will lead to it sounding unnatural due to time domain inaccuracies - and is the primary reason IMO why people coming from NOS world say up-sampling makes a DAC sound thin. This is what I was pointing to in my earlier reply - it doesn't make sense to just keep increasing coefficients if vast majority of them are nearer to 0 instead of ideal sinc coefficients. As you increase the beta values, the sidelobe attenuation increases but the coefficients depart further and further away from ideal sinc values. When beta = 0 it will behave like a pure rectangular window function with all its nastiness. The reason it is flexible is because of the alpha/beta parameter. The most flexible of them all is Kaiser Window and this is what is being used internally in SoX's rate and sinc filiter. Particularly pay special attention to amplitude vs FT. Each have varying degree of compromise between side-lobe attenuation vs mainlobe width (ideal sinc coefficients). Now to circumvent abrupt discontinuities, we make use of various families of more conventional window functions like Hamming, Hann, Blackman, Nuttal etc. Anyways because of this abrupt discontinuities and less steep attenuation compared to other window functions, we generally don't use rectangular window in signal processing. Also notice the side lobe attenuation is very low for the same number of coefficients. However the downside is the transition from 0 to sinc values is abrupt leading to discontinuities. This ensures it will retrieve all transient values. In rectangular window function, all coefficients are sinc. The pure normalized sinc function is the FT of what we call as Rectangular Window. So I take it a primers on window functions is due. Uhm no, clearly you misunderstood my previous reply.