TRANSIT is an utility module for morphing other module's parameters between one "snapshot" to another utilizing Rack's parameter-mapping functionality. The module provides 12 snapshot-slots and can be extended with up to seven extender-modules called +T.
There is a nice video overview from Artem Leonov of VCV Rack Ideas showcasing a preview-build of TRANSIT.
At least one parameter (knob, fader, switch...) must be bound to TRANSIT before the module can be used. It provides multiple ways for binding one or more parameters which need to be enabled on the contextual menu:
- Bind module (left)
Place any module in Rack to the left of TRANSIT. By selecting Bind module (left) all parameters of the module get bound by TRANSIT.
- Bind module (select)
Selecting Bind module (select) turns the mouse pointer into a crosshair. After you click on the panel of a module all parameters of this module get bound by TRANSIT.
- Bind single parameter
Selecting Bind single parameter turns the mouse pointer into a crosshair. After you click on a parameter of any module this parameter gets bound by TRANSIT. - Bind multiple parameters
This mode works the same way as Bind single parameter except the binding mode is not disabled automatically and multiple parameters can be bound in a row.
TRANSIT is designed to bind parameters from different modules the same time and technically there is no limitation on the number of parameters which can be bound. Please note that the CPU usage for morphing between snapshots increases linearly by the number of bound parameters.
Parameters can be unbound at any point by unmapping the mapping indicator. Please note that values stored in snapshots won't be deleted for unbound parameters.
Write-mode is used to save snapshots in TRANSIT after some parameters have been bound: A snapshot consists of the values all bound parameters are currently set to. You enter write-mode by flipping the switch on the bottom to the W-position. To store a snapshot simply short press one of the 12 snapshot-buttons and the LED on a snapshot-button is lit in red when a slot is in use. To clear a snapshot long-press the button.
There are also some options on the context menu of the snapshot-buttons:
- Load (also Shift+click)
Applies the snapshot to the parameters if the slot is used. - Clear
Clears the snapshot. - Randomize and save
Randomizes all bound parameters and saves a snapshot. - Copy
Copies the snapshot to the clipboard. - Paste
Pastes the snapshot which has been copied before.
A blinking white LED signals the snapshot applied at last on the parameters. Please keep in mind that you can change bound parameters manually which will not be recognized by TRANSIT.
In write-mode any input on the SEL-port is ignored and sequencing is disabled.
Read-mode is the default operational mode of TRANSIT and is used to "load" or "apply" previously saved snapshots on the bound parameters. The interesting part of TRANSIT is its ability to "morph" the parameter values into the target snapshot: FADE sets the amount of time it takes to reach the parameters' positions stored in the snapshot, this duration can also be controlled by CV (0-10V). There is also a trimpot for setting the shape of the transition, in the middle position the parameters are morphed linearly.
TRANSIT provides three precision-settings on the contextual menu which influence the CPU usage when morphing snapshots: Audio rate, lower CPU (1/8 audio rate, default) and lowest CPU (1/64 audio rate).
The fun begins when you use the port labelled SEL for selecting snapshots by CV. Although there are 12 snapshot slots available it is possible to use less slots for sequencing: You can adjust the number of active slots (i.e. sequence length) by long-pressing a snapshot-button while in read-mode. The LEDs turn off completely for slots that are currently disabled.
Modes for SEL on the contextual menu:
- Trigger forward
A trigger advances TRANSIT to the next snapshot. Empty slots are part of the sequence but won't have any effect on the bound parameters. A trigger on RESET restarts the sequence on snapshot 1. - Trigger reverse
Same as "Trigger forward" but reverse direction. - Trigger pingpong
Same as "Trigger forward" but loops first forward then reverse. - Trigger alternating (added in v1.8.0)
Same as "Trigger forward" but progresses in the following manner (for 6 active snapshots): 1, 2, 1, 3, 1, 4, 1, 5, 1, 6, 1, 5, 1, 4, 1, 3, 1, 2, ... - Trigger random
Same as "Trigger forward" but chooses the next snapshot randomly. - Trigger pseudo-random (added in v1.8.0)
Same as "Trigger random" but never chooses a snapshot multiple times in a row (which happens on "random"). - Trigger random walk (added in v1.8.0)
Same as "Trigger forward" but chooses the next snapshot randomly right next to the currently active snapshot. - Trigger shuffle (added in v1.8.0)
Same as "Trigger forward" but works on a random permutation of the active snapshots: Every snapshot will be enabled once before the next permutation is randomly generated. - 0..10V
You can select a specific snapshot by voltage. A voltage 0-0.833V selects slot 1, 0.833-0.166V selects slot 2, and so on, if all 12 snapshot-slots are active. Keep in mind that adjusting the length of the sequence also adjusts the voltage range for selecting individual slots: A sequence with length 2 will select slot 1 on voltage 0-5V etc. - C4
This mode follows the V/Oct-standard. C4 selects snapshot 1, C#4 selects snapshot 2 and so on. - Arm
This mode is a kind of "buffered trigger": First apply a clock signal on SEL. Then you "arm" any snapshot manually or by MIDI-mapping by its button (resulting in a yellow LED) which will be activated on the next clock trigger (white LED). This mode allows you manual snapshot activation synchronized to a clock.
- Phase (added in v1.9.0)
This mode behaves differently than the other modes: An input voltage of 0-10V scans continously through the stored snapshots. A voltage of 0V sets the parameters to the first snapshot, a voltage of 10V sets the parameters to the last active snapshot, in between the parameters are interpolated according to the used snapshots. Slew-limiting can be applied additionally using the Fade-slider.
TRANSIT brings an OUT-port for different purposes:
- Envelope
Outputs an envelope-like shape of the fading-curve starting at 0V and ending at 10V. - Gate
Outputs a 10V gate while a fade is in progress. - Trigger snapshot change
Outputs a 10V trigger signal everytime a new snapshot-slot is selected. - Trigger fade start
Outputs a 10V trigger on the start of every fade. - Trigger fade stop
Outputs a 10V trigger on the end of every fade. - Poly
Outputs a polyphonic signal combining all of the previous singals on the channels of the cable.
Note: These modes are unavailable if SEL-port operates in Phase-mode.
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TRANSIT is designed to morph parameter-snapshots, while stoermelder 8FACE and 8FACE mk2 are designed to apply different presets onto modues. Morphing between presets of modules is not possible because of technical reasons.
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If you set the OUT-port to Trigger fade stop and patch OUT into SEL TRANSIT will endlessly fade snapshots.
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Each snapshot can be named with a custom text label. This label is shown while hovering above the snapshot button if parameter tooltips are enabled (added in v1.9.0).
TRANSIT was added in v1.7.0 of PackOne.
TRANSIT provides 12 snapshot-slots and supports extending this number with +T expanders: The expander must be placed on the right side of TRANSIT. Up to seven instances of +T can be added to one instance of TRANSIT, providing 12 * 8 = 96 snapshot-slots in total.
Once placed next to TRANSIT the expander works and behaves the same way TRANSIT does and the setup is done analogously. +T itself provides no further options.
+T was added in v1.7 of PackOne.