Input signal to filter.
Cutoff frequency in Hertz.
Resonance of the filter. Resonance is minimal at 0.0
and high at 1.0
, above which the filter starts
overdrive and sound saturated (e.g. 1.2
).
Linear gain applied to the input signal.
The filter can be used in low-pass ( 0
) or high-pass
( 1
) mode.
Amount (amplitude) of noise added to the model.
Cutoff frequency in Hertz.
Linear gain applied to the input signal.
Input signal to filter.
The filter can be used in low-pass ( 0
) or high-pass
( 1
) mode.
Amount (amplitude) of noise added to the model.
Resonance of the filter.
Resonance of the filter. Resonance is minimal at 0.0
and high at 1.0
, above which the filter starts
overdrive and sound saturated (e.g. 1.2
).
A digital filter UGen which aims at accurately modeling an analog filter. It provides low-pass and high-pass modes, and the filter can be overdriven and will self-oscillate at high resonances.
This is a third-party UGen (TJUGens).
Input signal to filter.
Cutoff frequency in Hertz.
Resonance of the filter. Resonance is minimal at
0.0
and high at1.0
, above which the filter starts overdrive and sound saturated (e.g.1.2
).Linear gain applied to the input signal.
The filter can be used in low-pass (
0
) or high-pass (1
) mode.Amount (amplitude) of noise added to the model.