Tone2 BiFilter – User`s Manual
Contents
1. This distortion type adds additional harmonics by using round nonlinear amplification of the audio signal Delay The FilterBank also includes a simple but powerful delay module useful for adding motion depth and color to your sounds In combination with the processing from the filters and gate module creative use of the delay can result in some very interesting powerful and rhythmic sounds The delay effect can be placed before the filters or after them and thus each delay type has two entries in the list A delay type with the gt character before the delay s name example gt Simple will be routed to the input of the filters A delay type with the gt character after the delay s name example Simple gt will appear after the filter s output Select a filter type by clicking on the dark blue type box You will see many types of delays from simple echoes to spatial and panning effects Next select the sync options This allows you to synchronize the beats that the delay s echoes fall on relative to the tempo in BPM beats per minute and song position of your host sequencer Synchronizing delay times to the tempo of your project results in very rhythmic delay sounds that are in time with your song Select the division of the host tempo that you want to use for delay synchronization by clicking on the dark blue sync box and selecting an option from the menu that appears A2. are satisfied with the value release the mouse button If you would like to turn the knob with a finer level of precision you may hold down the lt Alt gt key while rotating the knob for more precise adjustments Additionally holding down the lt Ctrl gt key and clicking on the knob will reset it to its default center position Distortion Type Details Below you will find a description of the different distortion types found in the FilterBank Bypass When this mode is selected the distortion module will be bypassed Tube Amp A soft knee saturated distortion Hard Clip A hard knee clipping distortion Presence A soft knee saturated distortion with falloff at higher levels Wavewrap This distortion type adds additional harmonics by using edged nonlinear amplification of the audio signal Waveshape This distortion type adds additional harmonics by using round nonlinear amplification of the audio signal Bitcrush This distortion type reduces the bitrate of the audio to lo fi Volume Changes the volume of the signal without adding harmonics Square This distortion type adds additional harmonics by multiplying the signal with itself Cubic This distortion type adds additional harmonics by multiplying the signal with itself Compressor A compressor effect Drive controls the threshold Use this one to avoid feedback overloads if you route a delay to the input Warble
3. delay module this allows the user to blend in the exact amount of gate processing they desire from a subtle barely there effect to 100 fully wet Finally there is one last parameter that needs to be examined before we can properly set up any gate processing The dest option allows the user to select a parameter of the FilterBank s functions to be processed by the gate Most gate effects are found hard wired to volume so that they act as dedicated gates to the output of the plug in they reside on While the FilterBank does allow the gate to be routed to volume a wealth of other options are available such as filter cutoff filter frequency panning distortion drive etc Again experimentation is the key and the adventurous musician will find an enormous amount of flexibility and inspiring sounds from exploring the different possibilities afforded by the gate module j i z Pata Cn i hon Lar send Es paa r Stringa 3 Input L amp R As we have seen above the gate can be used to create interesting textures and rhythmic effects for various parameters of the FilterBank but it s not the only way We have also included two powerful OSCs which like the gate have flexible destinations and can be used to dramatically or subtly spice up your sound An OSC works by creating a rising and falling waveform This waveform can typically be linked to any of multiple different parameters giving the eff
4. is allowed through In this way a bandpass filter allows a set band of frequencies to pass while blocking all others A notch filter is the opposite of a bandpass filter it will block the frequencies within a set range and allow all other frequencies above and below it to be heard Like the bandpass filter it can be used to achieve a wide variety of effects Notch Filter Response The image above represents the frequency response of a notch filter think of the light blue color as the sound frequency content that is allowed to pass through the filter and note that this time the filter s shape blocks frequencies from passing instead of allowing them As the frequencies move away in both directions from the center frequency the sound begins to roll back in with more and more emphasis until all lower and higher frequency content is allowed through In this way a notch filter blocks a set band of frequencies while allowing all others to pass To select a filter type on the FilterBank click on the Type box for either Filter 1 or Filter 2 and select the desired filter type from the menu The 53 variations on the standard filter types will be described in further detail at the end of this manual Cutoff f Now that we understand how the different types of filters function we can look at the Cutoff function Cutoff is used to set the frequency at which the filter s behavior changes relative
5. sine FM Sine Frequency modulation with a sine FM Tri Frequency modulation with a triangle FM Saw Frequency modulation with a sawtooth Delay Adds a delay to the signal Allpass An allpass filter allowing all frequencies through Reverb big 1 A diffuser filter with feedback Simulates large room reverb Reverb big 2 A diffuser filter with feedback A different simulation of large room reverb Reverb med 1 A diffuser filter with feedback Simulates medium sized room reverb Reverb med 2 A diffuser filter with feedback A different simulation of medium sized room reverb Reverb small 1 A diffuser filter with feedback Simulates small room reverb Reverb small 2 A diffuser filter with feedback A different simulates of small room reverb Allpass2 A 30 dB allpass filter allowing all frequencies through EQ block Brickwall filter Cutoff controls which low frequencies are cut reso controls the high cut Vocals2 A series of vocal formant filters each centering on the frequencies emitted by vowel use in human speech The Cutoff knob morphs through the IEAOU formants and the Resonance knob controls the amount of formant frequency shifting Comb 5 A comb filter with multiple equally spaced resonance peaks Routing Because the FilterBank provides the user with two individual multi mode filters the user has multiple options for how these filters are arranged Chan
6. the cutoff frequency of the filter and the Q knob is used to adjust the level of resonance within the filter Resonance is sometimes also referred to as Quality Steepness or Slope Let s start by seeing how to use the filter section A filter works by limiting the frequencies in an audio signal in effect only allowing you to hear the sounds that are let through the filter A filter shapes the sound that it is processing through controlling what gets let through and what gets blocked Whenever you are setting up a filter there are three main parameters that you will need to be aware of all of which are present on the FilterBank Filter Type Cutoff and Resonance Filter Type Let s consider the filter type first While there are many different types the 53 ones in the FilterBank will be discussed in greater detail below most are variations on the four main filter types lowpass highpass bandpass and notch A lowpass filter allows low frequencies to be heard but blocks the higher frequencies It is often used for isolating bass sounds Lowpass Filter Response The image above represents the frequency response of a lowpass filter think of the light blue color as the sound frequency content that is allowed to pass through the filter As the frequencies get higher moving to the right along the bottom edge of the image they begin to roll off with less and less emphasis until no high
7. to the filter type In a lowpass filter the cutoff will set the frequency at which the filter begins to close and allow less and less of the higher frequencies through When the frequencies are high enough past the cutoff point no more sound will be allowed through the filter When the cutoff point is set fully closed full counter clockwise no sound will be allowed through the filter In a highpass filter the opposite applies the cutoff sets the frequency point at which the filter begins to reject sounds that are lower than the cutoff point Sounds far enough below the cutoff point will not be let through the filter at all When the cutoff point is set fully open full clockwise all frequencies will be allowed through the filter In a bandpass or notch filter the cutoff value acts a little but differently it sets the center point of the band or notch which will taper off as the frequencies move away from the cutoff point both in higher or lower frequencies To adjust the cutoff on the FilterBank click on the f dial and while holding the mouse button down move the mouse in a circular motion to rotate the knob you will hear the changes to the audio as you adjust the setting When you are satisfied with the value release the mouse button While adjusting the control the cutoff value will be displayed in a label box below the knob If you would like to turn the knob with a finer level of precision you may ho
8. DI CC from your control surface usually by simply turning the knob The selected control on the FilterBank will be mapped to the MIDI CC you have selected The Midi setting is stored in FilterBank cfg Additionally whenever you are performing any operation on the FilterBank the handy Info Box provides a summary description of the control you are working with very handy for interactive learners as well as users looking for a quick reminder on how a certain control may be used Default Midi CC mapping 0 Reso 1 Cutoff1 7 Volume 14 Filtertype1 15 Cutoff1 16 Reso 17 Filtertype2 18 Cutoff2 19 Reso2 20 Routing 21 Disttype 120 Drive Volume DryWet LFO1f LFO1sync LFO1shape LFO1send LFO1dest LFO2f LFO2sync Reso1 Cutoff1 LFO2shape LFO2send LFO2dest Envtime Envsend Envdest Delaysend Delaytype Delaysync StepSync StepShape StepSend StepDest StepStep0O StepStep1 StepStep2 StepStep3 StepStep4 StepStep5 StepStep6 StepStep7 StepStep8 StepStep9 StepStep10 StepStep11 StepStep12 StepStep13 StepStep14 StepStep15 RandomButton
9. Like the gate or OSC it can be used to automate the motion of one of the FilterBank s many parameters but unlike an OSC ora gate its operation is not governed by temporal time based considerations like host tempo Let s take a closer look An envelope follower tracks the volume of a specific audio signal and outputs a modulation curve that follows the signal being tracked If you were following a square wave it would output an identical square wave to use as a modulation source If you were following a recording of someone yelling it would output a modulation signal that rises and falls with the volume of the voice that is yelling You can think of it as similar to an LFO however the shape of the audio signal being followed determines the waveform shape that the unit will output In the FilterBank the envelope follower always tracks the audio input to the plug in In this manner the audio being sent to the plug in can be used as a modulation source to control various parameters This is the secret to creating auto wah type sounds that react to the volume of your playing To set up the envelope follower first choose a destination by clicking on the dark blue dest box A list of destinations will appear and you can select the one you want to control by clicking on the entry in the list Next send some audio to the plug in and adjust the time control This knob adjusts how quickly the envel
10. Tone2 FilterBank User s Manual V3 0 Revision 2 0 July 2007 Copyright 2007 Tone2 Manual written by Michael McGrath none Py yt Input L amp R Soe lt lt Tonez2 is proud to present FilterBank 3 a high quality stereo filter module for VST compatible host applications Picking up where our wildly popular freeware FilterBank left off we have added tons of powerful features and a stunning new user interface Featuring two multi mode filters multiple distortion types dual LFOs an envelope follower programmable gate and a powerful delay module the FilterBank 3 drastically extends the filter plug in concept to provide today s creative musicians with an extremely powerful multi effect tool We have worked hard to create the ultimate filter module for today s musicians and are certain that you will find it to be a useful and powerful tool in your musical arsenal We hope you have a lot of fun making music with the FilterBank Please visit our webpage at www tone2 com for the latest news and updates for all of our products Specifications VST 2 4 AU compatible effect plug in Sample Rates 22 44 48 or 96 kHz Frequency Response lt 10hz to gt 20 000hz Stereo Dual Multi mode filters with 58 filter types 6 Filter Routing Schemes 11 Distortion Types 8 Delay Types synch able to host tempo 2 synch able OSCs LFOs with multiple destinations 1 Envelope Follower with multiple destinations 1 Gat
11. ct as an example this means that a frequency an octave away from the cutoff point would be attenuated by 18 decibels relative to the full signal The higher the resonance or Q of the filter the higher the number in the dB Oct measurement will be High resonance values will actually add a boost to the frequencies at the cutoff point and are useful when you want to really focus on a very precise part of a sound or generate intense cutting tones Low resonance values are better suited to subtle and less precise smoothing and shaping of your sounds The images below show how a high Q level can emphasize the cutoff frequency by boosting the frequencies in that area When set to the highest Q values many filter types will begin to oscillate or self resonate as the boosted frequencies begin to create feedback inside the filter This is often a very desirable and instantly recognizable effect Lowpass Filter with low Q Boosting frequencies with high Q To adjust the resonance on the FilterBank click on the Q dial and while holding the mouse button down move the mouse in a circular motion to rotate the knob you will hear the changes to the audio as you adjust the setting When you are satisfied with the value release the mouse button While adjusting the control the value will be displayed in a label box below the knob If you would like to turn the knob with a finer level of precision you ma
12. dditionally you may navigate through the available sync options by pressing on the up or down arrow buttons The final control in the delay module is the send knob This allows the user to adjust the amount of signal that is fed into the delay unit Another way to describe this control is as a wet dry knob When set fully clockwise 100 of the signal is sent into the delay module When set at the mid point the resultant sound will be a half and half blend of the original signal and the output of the delay module In this manner it is possible to blend in the exact amount of desired delay into your final signal One of the most powerful and interesting types of effects to use with a filter processor is a gate A gate acts like a door letting sound through when it is open and blocking he sound when it is shut Creative use of gate processing allows the thoughtful musician to create rhythmical pulsing throbbing and strobe like sounds On the left side of the gate is a 16 step sequencer A block represents each step and they are grouped into four segments of four blocks each a perfect relation to the division of quarter notes in a bar of common time A block may be either on or off and simply clicking on each block toggles this state When a block is off it will be a dark color and the sound from the FilterBank will be muted when the sequencer is on this step Obviously when all blocks are turned on the gate wil
13. e with multiple destinations and waveforms MIDI Learn Gain Control amp Wet Dry Mix Preset Randomizer Handy Information Box High performance Low CPU Installation Notes To install the FilterBank simply run the setup EXE file You will be prompted to select the install folder please make sure that you choose the location that your VST host application uses as the default VSTPlugins folder Additionally it is strongly advised to create a subfolder within this location for the FilterBank When the installation is completed the FilterBank will be available on the effect plug in menu of your VST host application An uninstaller will be created and added to your start menu which you may use if you would like to remove the FilterBank from your computer at a later time Using the FilterBank This section of the user s manual will take an in depth look at how all the controls and functions on the FilterBank work We will begin by examining the options for Filter 1 and Filter 2 found on the Filter Panel at the upper left of the plug in and then proceed with an in depth look at the other modules Filter 1 and Filter 2 EERTE az H se Siri i a EENS i Cutotf o MEn This section of the FilterBank provides identical Type F and Q controls for each of the two filters as well as a single control to adjust how the filters are arranged within the audio path F is used to control
14. ect of having the parameter rise and fall according to the waveform and rate of the OSC It s a simple yet powerful way to automate control over various parameters and create a more interesting dynamic sound The FilterBank provides users with two identical OSCs each of which functions in isolation to the other Let s take a look at the options on the OSCs The first item we see is the f knob on the left This is used to set the frequency or rate of the OSC Since the OSC can also be synchronized to the tempo of the host sequencer this knob will only affect the OSC rate when the sync option is set to none When you are not tempo synching the OSC use this control to adjust the speed of the OSC The next item is the sync menu Like the sync function found on the delay and gate modules this lets you set a tempo for the OSC that is relative to the tempo of the host sequencer Using this tempo sync function allows the easy creation of OSC effects that are in time with the current song Select a sync option by clicking on the dark blue box or by toggling with the Up and Down arrow buttons Just to the right of the sync box is the shape box This allows the user to control the shape of the waveform that the OSC produces A triangle waveform will rise and fall at a constant rate while a rising saw will fall faster than it rises Like many parts of the FilterBank this is an area w
15. ent comb filter similar to Comb 1 Phaser A phasing filter that affects the phase offset of the incoming audio stream Vocals A series of vocal formant filters each centering on the frequencies emitted by vowel use in human speech The Cutoff knob morphs through the IEAOU formants and the Resonance knob controls the amount of formant frequency shifting Vocal A A vocal formant filter centering on the frequencies emitted by the use of the vowel sound A in human speech Vocal U A vocal formant filter centering on the frequencies emitted by the use of the vowel sound U in human speech Vocal E A vocal formant filter centering on the frequencies emitted by the use of the vowel sound E in human speech Vocal I A vocal formant filter centering on the frequencies emitted by the use of the vowel sound lI in human speech Vocal O A vocal formant filter centering on the frequencies emitted by the use of the vowel sound O in human speech Formant 2 Double Formant vocal filter with 2 resonant maxima M Shape Serial lowpass and highpass filters with 2 resonant maxima at the edges of the filter cuts both treble and bass The Cutoff knob contols the lowpass frequency and the Resonance knob controls the highpass frequency Resonator A short delay with feedback Resample Resamples the signal to a lower sample rate It creates spectral dirt AM The signal is amplitude modulated with a
16. er frequency content is allowed through In this way a lowpass filter allows low frequencies to pass while blocking high frequencies A highpass filter is basically the opposite of a lowpass filter and allows high frequencies to be heard while blocking the lower frequencies It is frequently used to create hi pitched whistle sounds and piercing synthesizer leads Highpass Filter Response The image above represents the frequency response of a highpass filter think of the light blue color as the sound frequency content that is allowed to pass through the filter As the frequencies get lower moving towards the left on the bottom edge of the image they begin to roll off with less and less emphasis until no low frequency content is allowed through In this way a highpass filter allows low frequencies to pass while blocking low frequencies A bandpass filter allows the frequencies within a specific range to be heard and blocks out all the other frequencies above and below it It can be used to create a variety of effects from the subtle to insane Bandpass Filter Response The image above represents the frequency response of a bandpass filter think of the light blue color as the sound frequency content that is allowed to pass through the filter As the frequencies move away in both directions from the center frequency they begin to roll off with less and less emphasis until no lower or higher frequency content
17. ging the routing of multiple filters can drastically affect the sound and the seven routing possibilities within the FilterBank take full advantage of this powerful concept Bypass When in bypass mode the filters are disabled and they will process no sound Filter 1 When Filter 1 is selected only this filter will be active Filter 2 When Filter 2 is selected only this filter will be active Filter 1 gt 2 When this option is selected the input signal is sent to Filter 1 and Filter 1 s output will be routed to the input of Filter 2 Finally the output of Filter 2 is sent to the other modules of the plug in This is referred to as serial routing or having two filters operating in series Filter 1 2 When this option is selected the input signal is sent to both Filter 1 and Filter 2 and their outputs are both sent to the other modules of the plug in This is referred to as parallel routing or having two filters operating in parallel Filter 1 2 When this option is selected the input signal is sent to both Filter 1 and Filter 2 and then the output of filter 2 is subtracted from the output of Filter 1 The resultant signal is then sent to the other modules of the plug in 1 L 2 R When this option is selected the input signal is sent to both Filter 1 and Filter 2 The output of Filter 1 is routed to the stereo left circuit and sent to the remaining modules in the plug in while the output of Fil
18. here experimentation will help you find the sound you are after To select a waveform for the OSC simply click in the dark blue shape box and select the desired waveform from the menu that appears Next we have a send control knob This is similar to mix or wet dry with the exception that it is a polarized control When turning this control into the negative range the OSC waveform will act like it is inverted it will have the opposite effect from when the control is turned into the positive range The further from center the control is turned the greater the depth of modulation of the target parameter Speaking of the target parameter this brings us to the final control on the OSC Like the gate module the OSCs have modular destination slots Click on the dest box to bring up a menu of the various parameters on the FilterBank that can be controlled by the OSC You can use the VSTi synth version as a synthesizer if you route the OSC to input As frequency setting use f 0 25 f 0 5 or f 1 with no sync The OSC s frequency is linked with the keys which you play on the keyboard Envelope Follower ii a kz a i a f Fitter 122 Having looked at the delay gate and OSC modules it s obvious that the FilterBank has a lot of tricks up its sleeve when it comes to animating your sound But we aren t finished yet The final modulation unit we want to introduce is the envelope follower
19. l have no effect as sound will never be blocked from leaving the FilterBank by the gate When the sequencer is running a chase light will move across the top of the sequencer showing the user the step that is currently being processed This makes it very easy to select a specific step to either mute or enable to achieve the desired sound Like the delay module the gate effect is most interesting when synchronized to the host sequencer s tempo in fact this is the only way it will work so there is a sync option available Click on the dark blue sync box to select the multiple or division of the host sequencer s tempo and this will be used for the tempo of the gate s sequencer Like with the delay module you may also toggle from one setting to another by use of the up and down arrow buttons The next control on the gate processor is shape This allows the user to control the envelope response curve that the gate will use when shutting to block sound output or opening to allow sound output Sharpest will cause the gate to open and shut as quickly as possible instantly muting any sound that was playing This may be too dramatic for some applications so other response curves such as Softer are also available Experimentation is the key to finding the type of envelope that best suits the sound you are after Following the shape control is a send knob Similar to the send knob on the
20. ld down the lt Alt gt key while rotating the knob for more precise adjustments Additionally holding down the lt Ctrl gt key and clicking on the knob will reset it to its default center position Please note that while these descriptions are generic across most filter types the FilterBank includes some special filter types that use the Cutoff and Resonance functions in different ways Please refer to the section below on Filter Type Details for more information on how these controls may differ for certain filter types Resonance Q Understanding how the cutoff function works is essential to understanding resonance In essence resonance controls the steepness of the slope around the cutoff point A very steep slope would filter more frequencies sooner relative to the sound moving away from the cutoff point In comparison a very soft slope would have the filtering applied more subtly and require a farther frequency from the cutoff point to achieve complete signal attenuation Bandpass Filter with low Q Bandpass Filter with high Q Steep filter response slopes are referred to as having a higher resonance value or sometimes a higher Q which refers to quality a steeper curve is a higher quality filter because it is more precise The slope of a filters response curve is often measured in dB Oct or Decibels per Octave Values may look like 18dB Oct 30dB Oct etc Using 18dB O
21. ope follower reacts to changes in the audio signal being monitored You may want to have a slow and lazy response even if your audio signal is changing very quickly and dynamically or you may require a very fast real time response In any case adjust the time control so that the envelope follower reacts in the way you desire Finally we have the send control Like the send control on the LFO this one is polarized and may be set to negative or positive ranges When in the negative range the actual modulation will be the inverse of the signal that is being followed The further from center this knob is set the more the modulation will affect the target parameter Output Mixer The final module on the FilterBank is the mix panel The upper volume knob is used to adjust the overall volume of the plug in itself and the lower dry wet knob acts as a blend control allowing the user to creatively mix the output of the plug in with the original signal When set fully left counter clockwise you will hear a signal that is 100 dry no processing from the FilterBank When set fully right clockwise you will hear a signal that is 100 wet nothing but the FilterBank s output and no original signal Most applications will call for a setting that is somewhere in between the two as always experiment and set this control to a level that suits the desired result The About Panel Click on the sil
22. pass filter with very broad resonance HP Ellipt A brickwall like highpass filter with very steep slope HP Like A highpass filter with a very soft slope BP 15dB A bandpass filter with a 15dB Octave slope BP Moog A bandpass filter with a classic Moog Diode Ladder Filter type response BP SVF A state variable bandpass filter slope adjusted by resonance control BP Para Double parallel switched bandpass filters The Cutoff knob controls the center frequency of bandpass filter 1 and the Resonance knob controls the center frequency of bandpass filter 2 Notch A notch filter with an adjustable center frequency and slope Notc Moog A notch filter with an adjustable center frequency and slope utilizing a a Classic Moog Diode Ladder Filter type response NoLP Moog A notch filter lowpass combination Equalizer A filter for program equalization The Cutoff knob boosts bass and the Resonance knob boosts treble Lo Shelf A lowpass shelving filter Hi Shelf A highpass shelving filter PEQ Wide An equalizing filter with a broad slope The Cutoff knob controls the center frequency and the Resonance knob controls the amount of boost PEQ Tight An equalizing filter with a tight slope The Cutoff knob controls the center frequency and the Resonance knob controls the amount of boost Comb 1 Acomb filter with multiple equally spaced resonance peaks Comb 2 A differ
23. ter 2 is routed to the stereo right circuit and sent to the remaining modules in the plug in To adjust the routing of the filters simply click on the Routing box in between Filter 1 and Filter 2 on the plug in A list of routing options will appear and you may click on the appropriate selection to select it Distortion Tube amp f O ire T The FilterBank includes a high quality distortion module placed after the filter s output in the signal chain Distortion effects are very commonly used alongside filters to add beefiness or edge to the sound The FilterBank features 11 different distortion types described in more detail below as well as the ability to bypass the distortion unit for pure filtering effects To use the distortion module first select a distortion type by clicking on the dark blue display in the Distortion section This will bring up a menu of all available distortion types and you may select the desired distortion type from the list The Drive knob is used to adjust the amount of signal that is being fed into the distortion module The higher the value the greater the effect of the distortion effect will be from subtle to very overdriven and extreme sounds To adjust the drive click on the Drive dial and while holding the mouse button down move the mouse in a circular motion to rotate the knob you will hear the changes to the audio as you adjust the setting When you
24. ver FilterBank badge on the right lower edge of the plug in to view the FilterBank version number production credits and copyright information Automation and MIDI CC s The controls on the FilterBank may be automated to allow for full control over the plug in within your project The FilterBank will respond to standard VST automation as well as to MIDI CC control Information on mapping MIDI CC s to FilterBank controls is presented at the start of this manual For details on using VST automation within your host application please refer to the documentation that accompanies your host software A Note on Control Options and Midi Learn All Knobs on the FilterBank have been programmed for control by linear mouse movements with the left mouse button held down Additionally these controls may all be reset to their default position by holding down the lt CTRL gt button on your computer s keyboard and then left clicking on the knob with your mouse pointer Finally if you would like to have a finer resolution when turning the knob you may achieve this by holding down the lt ALT gt key on your computer s keyboard while rotating the knob with your mouse pointer All knob controls on the FilterBank are MIDI Learn enabled To bind a control from the FilterBank to an incoming MIDI CC simply left click with Shift and Strg on the control you wish to bind so that you see the MIDI Learn label appear and then send the appropriate MI
25. y hold down the lt Alt gt key while rotating the knob for more precise adjustments Additionally holding down the lt Ctrl gt key and clicking on the knob will reset it to its default center position Filter Type Details Below you will find a description of the different filter types found in the FilterBank Bypass The filter is disabled LP 30dB A lowpass filter with a 30dB Octave slope LP Moog 24 A lowpass filter with a 24dB Octave slope with a classic Moog Diode Ladder Filter type response LP Moog 6 A lowpass filter with a 6dB Octave slope with a classic Moog Diode Ladder Filter type response LP SVF A state variable lowpass filter slope adjusted by resonance control LP Silk Resonant lowpass filter with shiny silky resonant treble frequencies LP Fat A lowpass filter with very broad resonance LP Fat 7 A lowpass filter with double resonance tuned a 7 interval from the cutoff point LP Oct A lowpass filter with resonance tuned in octave distance from the cutoff point LP Ellipt A brickwall like lowpass filter with very steep slope LP Like A lowpass filter with a very soft slope HP 30dB A highpass filter with a 30dB Octave slope HP Moog 24 A highpass filter with a 24dB Octave slope with a classic Moog Diode Ladder Filter type response HP SVF A state variable highpass filter slope adjusted by resonance control HP Fat A high
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