Multiband Gate Mono x8

Detailed: LSP Multiband Gate Mono x8 (MBG8M)

Formats: CLAP, JACK, LADSPA, LV2, VST2, VST3

Categories: Gate

Developer: Vladimir Sadovnikov

Description:

This plugin performs multiband gating of of mono input signal. Flexible sidechain-control configuration isprovided. Additional dry/wet control allows to mix processed and unprocessed signal together.

As opposite to most available multiband gates, this gate provides numerous special functions listed below:

Modern operating mode - special operating mode that allows to look different at classic crossover-based devices. Crossover-based devices use crossover filters for splitting the original signal into independent frequency bands, then process each band independently by it's individual gate. Finally, all bands become phase-compensated using all-pass filers and then summarized, so the output signal is formed. In Modern mode, each band is processed by pair of dynamic shelving filters. This allows the better control the gain of each band.
Linear Phase mode allows to split audio signal into multiple frequency bands with linear phase shift. This introduces additional latency but gives several benefits:

Unlike classic crossovers which use IIR (Infinite Impulse Response) filters to split signal into multiple bands and shift the phase of the audio signal at band split points, the Linear Phase allows to use FIR (Finite Impulse Response) filters which are deprived of this.
Unlike most IIR filters which are designed using bilinear transform, linear phase filters allow to simulate their tranfer function to look like the transfer function of analog filters, without deforming it's magnitude envelope near the nyquist frequency.
Unlike design of classic Linkwitz-Riley filters, the design of IIR filters provides shorter transition zone of the filter.

Sidechain boost - special mode for assigning the same weight for higher frequencies opposite to lower frequencies. In usual case, the frequency band is processed by gate 'as is'. By the other side, the usual audio signal has 3 db/octave falloff in the frequency domain and could be compared with the pink noise. So the lower frequencies take more effect on gate rather than higher frequencies. Sidechain boost feature allows to compensate the -3 dB/octave falloff of the signal spectrum and, even more, make the signal spectrum growing +3 dB/octave in the almost fully audible frequency range. This is done by specially designed +3 db/oct and +6 db/oct shelving filters.
Lookahead option - each band of gate can work with some prediction, the lookahead time can be set for each channel independently. To avoid phase distortions, all other bands automatically become delayed for a individually calculated period of time. The overall delay time of the input signal is reported to the host by the plugin as a latency.
Up to 8 bands are available for use, each band is not attached to it's strict frequency range and can control any frequency range. Also, each band can be controlled by completely different frequency range that can be obtained by applying low-pass and hi-pass filters to the sidechain signal.

Controls:

Bypass - bypass switch, when turned on (led indicator is shining), the plugin bypasses signal.
Mode - combo box that allows to switch between the following modes:

Classic - classic operating mode using IIR filters and allpass filters to compensate phase shifts.
Modern - modern operating mode using IIR shelving filters to adjust the gain of each frequency band.
Linear Phase - linear phase operating mode using FFT transform (FIR filters) to split signal into multiple bands, introduces additional latency.

SC Boost - enables addidional boost of the sidechain signal:

None - no sidechain boost is applied.
Pink BT - a +3db/octave sidechain boost using bilinear-transformed shelving filter.
Pink MT - a +3db/octave sidechain boost using matched-transformed shelving filter.
Brown BT - a +6db/octave sidechain boost using bilinear-transformed shelving filter.
Brown MT - a +6db/octave sidechain boost using matched-transformed shelving filter.

Link - the name of shared memory link used to receive sidechain signal
FFT In - enables FFT curve graph of input signal on the spectrum graph.
FFT Out - enables FFT curve graph of output signal on the spectrum graph.
Filters - enables drawing tranfer function of each sidechain filter on the spectrum graph.
Zoom - zoom fader, allows to adjust zoom on the frequency chart.

'Signal' section:

Input - the amount of gain applied to the input signal before processing.
Output - the amount of gain applied to the output signal before processing.
Dry - the amount of dry (unprocessed) signal passed to the output.
Wet - the amount of wet (processed) signal passed to the output.
Dry/Wet - the knob that controls the balance between the mixed dry and wet signal (see Dry and Wet) and the dry (unprocessed) signal.
In - the input signal meter.
Out - the output signal meter.

'Analysis' section:

Reactivity - the reactivity (smoothness) of the spectral analysis.
Shift - allows to adjust the overall gain of the analysis.

'Split' section - allows to quickly control all bands and provides most frequently used controls:

Band - allows to enable the corresponding band, band #0 is always enabled.
Hue - allows to control the hue of the color assigned to the band.
Range - allows to adjust the start frequency of the frequency range controlled by the band.
Controls - set of buttons that control the behaviour of the gate:

On - enables gate assigned to the corresponding frequency band.
S - turns on soloing mode to the selected band by applying -36 dB gain to non-soloing bands
M - turns on muting mode to the selected band by applying -36 dB gain to it
Sidechain combo - allows to select external sidechain inputs or shared memory audio stream

SC Preamp - applies additional gain to the sidechain band.
Makeup - applies additional gain to the output of the corresponding gate.
Attack - allows to set the attack time for the gate.
Release - allows to set the release time for the gate.
Thresh - allows to set main threshold of the gate.
Zone - allows to set the size of transition zone between fully reduced and non-reduced signals.

'Band N' section - allows to control all parameters for the selected frequency band:

Sidechain Source - allows to set the sidechain source

Internal - the audio inputs of plugin are used as sidechain signal.
Link - the shared memory link is used to receive sidechain signal.

Sidechain Mode - combo box that allows to control sidechain working mode:

Peak - peak mode.
RMS - Root Mean Square (SMA) of the input signal.
LPF - input signal processed by recursive 1-pole Low-Pass Filter (LPF).
SMA - input signal processed by Simple Moving Average (SMA) filter.

Sidechain Lookahead - look-ahead time of the sidechain relative to the input signal.
Sidechain Preamp - pre-amplification of the sidechain signal.
Sidechain Reactivity - reactivity of the sidechain signal.
Sidechain LCF - button turns on the low-cut filter for the sidechain signal and knob allows to control the frequency of the filter.
Sidechain HCF - button turns on the high-cut filter for the sidechain signal and knob allows to control the frequency of the filter.
Gate On - enables Gate assigned to the corresponding frequency band.
Gate Solo - turns on soloing mode to the selected band by applying -36 dB gain to non-soloing bands
Gate Mute - turns on muting mode to the selected band by applying -36 dB gain to it
Gate Reduction - the maximum available gain reduction for the gate.
Gate Makeup - additional amplification gain after processing stage.
Gate Attack - attack time of the gate.
Gate Release - release time of the gate.
Gate Hold - the time period the envelope holds it's maximum value before starting the release.
Gate Curve Thresh - the main threshold of gate, signals below threshold become gain-reduced.
Gate Curve Zone - the size of main transition zone for soft gain reduction
Gate Hysteresis - enables additional hysteresis curve
Gate Hysteresis Thresh - the threshold of additional hysteresis curve
Gate Hysteresis Zone - the size of the transition zone below the hysteresis threshold