sequencer¶
Interface¶
- ×4 manual step trigger pads
- reset input
- clock input/output
- internal clock speed CV modulation
- internal clock speed control
- run/stop switch
- per-step gate outputs
- reset input (connect to gate to change step count)
- gate output
- CV output
- ×4 step enable
- counter/sequencer chain connector
- ×4 step CV
A 4-step sequencer with chaining capability — connect multiple modules together to extend the sequence length indefinitely.
Basic operation¶
By default the sequencer cycles through 4 steps. Each step has: - Gate switch — enables gate output (5V) for this step - CV knob — sets the control voltage (0–5V) for this step
If a step is disabled, it can still be triggered manually using the touch pad.
Clock¶
The sequencer has a built-in clock with adjustable tempo. The clock speed can also be modulated via CV input.
The clock input/output pin serves dual purpose: - Connect an external clock source to sync the sequencer - Tap the internal clock to drive other modules
Known issue: external clock requires a low-impedance output. 1kΩ high-impedance outputs or open emitter outputs will not work reliably.
Run/Stop¶
The run/stop switch starts and stops the sequencer. When using chained sequencers, use the switch on the last module in the chain.
Per-step outputs¶
Individual step outputs function as a counter — they fire sequentially regardless of whether steps are enabled or disabled. Useful for triggering external events on specific steps.
Changing sequence length¶
Connect the output of step N+1 to the reset input to create a shorter sequence of N steps. For chained sequencers, this only works when connected to the last module in the chain.
Chaining¶
Multiple sequencers can be connected via the chain connector to extend the sequence length. The gate and CV outputs are open emitter, allowing them to be directly connected together when chaining modules.
Power consumption¶
420 mW