Portability | requires multi-parameter type classes |
---|---|

Stability | provisional |

Maintainer | synthesizer@henning-thielemann.de |

Safe Haskell | None |

First order lowpass and highpass with complex valued feedback. The complex feedback allows resonance.

- data Parameter a
- parameter :: C a => Pole a -> Parameter a
- parameterFromPeakWidth :: C a => a -> Pole a -> Parameter a
- parameterFromPeakToDCRatio :: C a => Pole a -> Parameter a
- step :: C a v => Parameter a -> v -> State (T v) (Result v)
- modifierInit :: (C a, C a v) => Initialized (T v) (T v) (Parameter a) v (Result v)
- modifier :: (C a, C a v) => Simple (T v) (Parameter a) v (Result v)
- causal :: (C a, C a v) => T (Parameter a, v) (Result v)
- runInit :: (C a, C a v) => T v -> T (Parameter a) -> T v -> T (Result v)
- run :: (C a, C a v) => T (Parameter a) -> T v -> T (Result v)

# Documentation

parameter :: C a => Pole a -> Parameter aSource

The internal parameters are computed such that:

- At the resonance frequency
the filter amplifies by the factor
`resonance`

with no phase shift. - At resonance frequency plus half sample rate
the filter amplifies by facter
`recip $ 2 - recip resonance`

with no phase shift, but you cannot observe this immediately, because it is outside the Nyquist band.

parameterFromPeakWidth :: C a => a -> Pole a -> Parameter aSource

The internal parameters are computed such that:

- At the resonance frequency
the filter amplifies by the factor
`resonance`

with no phase shift. - At resonance frequency plus and minus band width the filter amplifies by facter 1 with a non-zero phase shift.

parameterFromPeakToDCRatio :: C a => Pole a -> Parameter aSource

The internal parameters are computed such that:

- At the resonance frequency
the filter amplifies by the factor
`resonance`

with a non-zero phase shift. - The filter amplifies the direct current (frequency zero) by factor 1 with no phase shift.
- The real component is a lowpass, the imaginary component is a highpass. You can interpolate between them using other complex projections.

step :: C a v => Parameter a -> v -> State (T v) (Result v)Source

Universal filter: Computes high pass, band pass, low pass in one go

modifierInit :: (C a, C a v) => Initialized (T v) (T v) (Parameter a) v (Result v)Source