Same as SCM (Shuffling Clock Multiplier) but in kit form, complete with printed visual parts list reference guide and very well written instruction booklet. Requires basic through-hole soldering skills, tools and related supplies.

Clocking Module/Frequency Multiplier

The SCM measures the time between the previous two pulses, and uses that value to calculate the frequency of the clock signals on the output jacks. Applying a steady clock will produce an output clock of equal frequency on the x1 jack, and a clock of double the frequency on the x2 jack... and a clock of eight times the frequency on the x8 jack. The other five jacks produce a clocks that are also multiples of the input clock, but these jacks will "rag" the beat (Slip and Shuffle), as well as drop some beats out (Skip): S3, S4, S5, S6, S8.

Features
• Multiply-by-1 to Multiply-by-32, on 8 output jacks
• Five Slipped/Shuffled/Skipped clock outputs (S3, S4, S5, S6, S8). Each is based on a multiple of the input clock frequency (x3, x4, x5, x6, and x8, respectively)
• Three steady clock outputs (x1, x2, and x8), which are not effected by • Slip/Shuffle/Skip effects
• CV Rotate jack to shift multiply-by amount on all jacks
• CV Slip causes particular beats to land ahead in time
• UART header-Connects to optional MIDI breakout panel-Arduino-compatible
• ISP header: Connects to in-circuit programmer such as AVR ISP MKII for reprogramming code
• Maximum input frequency 3kHz

Inputs
• Clock In
• Rotate
• Slip

Outputs
• 8 Multiplications of the incoming clock signal

In the Box
• Everything needed to build an SCM
• Eurorack Power Cable, 16-16-pin