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sin1(x) > 1 ?
Re: sin1(x) > 1 ?
by KG_is_back » Wed Sep 24, 2014 8:48 pm
In this simulation, the first gain stage employs the equation sin(x) + (abs(sin(x)))^8 – z. This
equation produces the most linear transfer between the input and the output. The second and third
stages employ sin(x) + (abs(sin(x)))^4 – z, which is slightly less linear and in the fourth stage,
sin(x) + (abs(sin(x)))^2 – z, this produces the least linear of the three equations, clipping the
negative portion of the waveform much more dramatically at lower settings.
I even think that the simulation also might have contained the filtering stages.
- KG_is_back
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Re: sin1(x) > 1 ?
by jotb » Thu Sep 25, 2014 8:31 am
http://ses.library.usyd.edu.au//bitstre ... rt%202.pdf
and I just found out, that in the matlab are negative values used for z. So e.g. -0.2 in the given formula and the function sin(x)+(abs(sins(x)))+0.2 with the given Sine-Wave.wav file, which is half as loud as a sinewave, the plot can be achieved.
But the complete signal chain with filters (I use bidir IIR, not FIR), sounds not that good für higher amounts of distortion
I get a lot of high frequency "smearing" and the low end just sounds not right...
- jotb
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