How to Optimize Your Eurorack System's Power with the Shuttle Control: An In-depth Review

The Eurorack system is becoming increasingly popular among electronic music enthusiasts due to its flexibility and modularity. However, one of the challenges faced by users is power management. With modules requiring different power ratings, it can be challenging to maintain an efficient power supply. This is where the Shuttle Control module comes in; this article will provide an in-depth guide on how to optimize your Eurorack system's power using the module.

The Shuttle Control module is a 12-bit USB-to-MIDI-to-CV converter module that allows for up to 16 arbitrary assignable channels. It has an internal PSU that can be powered from various sources, including a cigarette lighter receptacle, rechargeable battery, or 12-20V AC-DC power adapter, outputting +12V @ 1A, -12V @ 700 mA, 5V @ 1A. The module is capable of working as a simultaneous USB on-the-go device and host using 120 MHz 32-bit ARM Cortex-M3 CPU, making it a versatile power management solution.

The Shuttle Control module is also polyphonic and MPE enabled. It allows for up to 8 voices of polyphony and polyphonic key aftertouch, MIDI clock, Tap Clock, Tap LFO, bi-directional USB-MIDI transfer, and many more MIDI events to be translated into CV. Additionally, the module has no steps in CC voltages, ensuring a smooth performance.

The Shuttle Control module comes with a web-based editor for editing presets. The editor is accessible through or This allows users to create their own presets and optimize the module's performance even further.

In summary, the Shuttle Control module offers a versatile and efficient solution to power management in the Eurorack system. Its internal PSU and multiple power source options make it a convenient and reliable option for Eurorack users. The module's polyphony and MPE capabilities, combined with the web-based editor for editing presets, provides users with a limitless range of creative possibilities. Optimize your Eurorack system's power consumption with the Shuttle Control module today.

Example Usage

If you are a novice in using the Shuttle Control, a simple usage example is to connect it to your computer via USB and control a single oscillator in your Eurorack system. You can assign MIDI notes to the oscillator's pitch and modulations using the web-based editor provided by Once you've set it up, you can play your Eurorack system using your MIDI keyboard or DAW software, which sends MIDI signals to the Shuttle Control to generate CV signals that will control your oscillator. With this, even a beginner can easily optimize the power management of their Eurorack system with the help of the Shuttle Control.

An intermediate-level usage example for the Shuttle Control is assigning arbitrary channels to control different aspects of a synthesizer patch. For instance, assigning channels 1-4 to control the filter cutoff and resonance, channels 5-8 to control the envelope generator parameters, and channels 9-12 to control the LFO frequency and shape. With the Shuttle Control, you can easily create customized mappings that suit your playing style, allowing you to modulate your sound in unique and creative ways. Plus, the Shuttle Control's built-in polyphonic capabilities make it an excellent choice for creating intricate and nuanced patches with multiple voices.

Further Thoughts

To optimize your Eurorack system's power with the Shuttle Control module, try routing your power source through the internally powered version of the module. By doing this, the Shuttle Control will not draw power from your rack, resulting in more accurate power consumption readings. Additionally, the Shuttle Control's internal PSU is capable of working with a variety of power sources, including a cigarette lighter receptacle or rechargeable battery, making it a versatile and portable power management solution. Use the web-based editor for presets to fine-tune your system's power management settings and ensure that your rack is running at maximum efficiency.