Penta

The RYO Penta is a compact 4hp sequencer for eurorack that’s easy to build and low cost, without compromising on our usual quality standards such as buffered output, schmitt triggers on inputs and reverse polarity protection.

It is great for simpler sequencer tasks such as basslines and arpeggios, transposing sequences, gates for envelopes/slews/drums, filter cutoff or anything where a repeating stepped modulation is wanted for adding movement to the sounds you’re making.

Sending a clock to the CLK input will progress the sequence, the Penta has 5 minishaft potentiometers for adjusting each of the 5 steps voltages, ranging from 0 to +5V. A pattern length switch is available for selecting 3, 4 or 5 steps pattern length, this can of course also be set by using an external gate or trig into the RST (Reset) input.

We’ve also added a bonus for the more seasoned builders in the form of +5V GATE output solder pads for each of the sequencers 5 steps, as well as an input pad for HOLD which will lock the sequence to the active step as long as a gate is present. Info on how to perform a homebrew expansion can be found on the last page in the assembly manual.

Download assembly manual here. (2.1MB)

Download schematics here.

Basic specifications

Width: 4hp

Depth with power cable attached: 39 mm.

Power: +6 mA / -1 mA

The key component of Buchla style Low Pass Gates and many other exotic Buchla/Serge derived designs.

The C3 is the ‘standard’ Vactrol to use in a Buchla LPG, the C4 is a really nice contrast with a longer tail and often more saturated sound due to the longer sustain.

XVive Vactrol analogue optoisolators have an LED as the input element and a photoconductive cell as the output element, the coupled pair acts as an electrically variable potentiometer. These are the parts previously known under the brand name VACTEC, as manufactured by Perkin Elmer and Excelitas.

Datasheet – VTL5C3 + VTL5C4

A full kit to build the VACTROL MIX expander for the Turing Machine MK i and MK ii. This module will not function without a Turing Machine attached.

You cannot connect this to a Turing Machine MK I without a BACKPACK kit! You may need to up-rate your backpack positive rail fuse to support Vactrol Mix, Pulses AND Voltages expanders.

This kit includes everything you need to build a fully functioning expansion module apart from the tools and solder.

Thonk build documentation is here – http://www.thonk.co.uk/Documents/Turing/expanders/

Music Thing Modular documentation is here – https://github.com/TomWhitwell/TuringMixExpander

• Front panel (Aluminium 10hp)
  • VACTROL MIX
• PCB (Blue, gold plated traces)
  • VACTROL MIX
• All electronic components required.
• All mechanical components, pots (metal shaft), jacks, headers etc.
• Ribbon cable for connection to BACKPACK module.
• Black Davies 1900h clone knobs
• Rack screws

This module does nothing unless attached to a Turing Machine and BACKPACK module. They are compatible with all versions of the Turing Machine, past and future.

This product is sold under our standard Terms and Conditions.

BULK DISCOUNTS

Discounts are calculated on any combinations of type and value.
Add pots to the cart to see the actual cost for buying in bulk. Email for larger volumes.

Shaft Diameter – 6.35mm (0.25″)

Shaft Length – 15mm (0.59″)

These are the pots that are included with 95% of all Thonk produced kits and specced by many manufacturers. These pots work great with all the 6.35mm round shaft knobs we sell.

These pots are perfect for Music Thing Modular, Synthrotek, RYO, Manhattan Analog, Fonitronik, Frequency Central (FCUK) & HexInverter projects where 9mm pots are specced… but do double check as there are a few exceptions. They are not the first choice for panel-wiring… but we do have Pot Chicklets coming soon to redress that balance!

We love these pots, they feel smooth and precise and have got a strong following for a good reason. One thing that always annoyed us was that annoying little anti-rotation tag that you have to cut or break off, so unlike other distributors we got them manufactured without that tag. Also removing the nut and washer on each pot to build something like a 64 pot sequencer panel can get REALLY tedious, so again unlike other distributors we include the nut and washer bagged separately. It only save 20 seconds per pot maybe, but it adds up!

FULL DATASHEETS – http://www.thonk.co.uk/documents/alpha/9mm/

This is the upgraded version of the TTLFO available as DIY kit.It can go wild! All parameters are voltage controlled and modulating the waveform, clock divider or distort function gives you the most exciting waveforms you can imagine, but all in sync with your clocksignal.

It is a relatively easy build but has quite a lot of parts. So it is suitable for beginners but building will take about 2 hours (you can probably do it faster but you need to enjoy it).

• Eurorack size
• Width: 8HP
• +/-12V (no 5V needed)
• compatible with Doepfer
• skiff-friendly (only 25mm in depth)

Features

• 8 waveforms
• multiplier / clock divider
• horizontal wave distort
• external clock input
• CV input for waveform select
• CV input for multiplier
• CV input for distort amount
• LFO output (selectable between 0/5V and -5V/+5V)
• clock output

This is a DIY kit

The kit includes:

• PCB
• Aluminium frontpanel
• all electronic parts
• Knobs and jacksockets
• Arduino
• powercable

How it works
The sound is a PWM output routed via an (optional) low-pass filter and a 100uF capacitor – so no external DAC is required. The low-pass filter on the PCB can be bypassed if you want. Bypassing the filter provides more clarity and a slightly louder output but more artifacts in the sound.

Not bored yet?
Here comes more information about the synthesis technique on the basic code and you will understand why I called this module “Grains”.
The “Grains” code provided on your module is based on FOF synthesis or formant synthesis. FOF synthesis is closely related to synchronous granular synthesis. It uses two simple triangle-shaped grains. The grains are separated by the same amount of time. With granular synthesis, the spacing within the grains radically change the texture that is created. The FOF grains have very little parameters: pitch and decay. In the basic “Grains” code the 2 decay values are fixed to most musical sounding and can not be altered via potentiometers. So only the pitch of the two grains can be altered via pots (or the cv inputs) and the overall grains repetition which provides the pitch of the output.

The code is highly customizable and I will upload user codes for the Grains as soon as I get them. (Please do share your own customized code with me via email:info@ginkosynthese.com)

PCB version 2 is shipped from 25-06-2015. There has been a change in the way cv input 3 is processed. All earlier codes can be changed to work with V2 and backwards, look for the analogRead (0) in the code and add an extra input for analogRead (3). You can play around with the way they influence each other.
For people who want to dive deeper in coding and want to write a lookup table for 1V/oct tracking, here is how: code doc.

MANUAL – http://www.ginkosynthese.com/uploads/building-manual-v2-5.pdf

SUPPORT – http://www.ginkosynthese.com/support//#grains

Interesting codes to upload in your Grains:

• Grains V1 PCB v1 (basic code for PCB v1)
• Grains V2 PCB v2 (basic code for PCB v2)
• Fresh PCB v1 (user code By Rob Bothof)
• KALLE STRAM PCB v1 (user code by Kalle Govertz H. Christensen)
• Patternrain V1 PCB v1 (user code by JGB; input 3 needs a clock input to work)
• Patternrain V2 PCB v2 (user code by JGB; input 3 needs a clock input to work)
• Grainsring V1 PCB v1 (user code by JGB; input 3 needs a clock input to work)
• Grainsring V2 PCB v2 (user code by JGB; input 3 needs a clock input to work)
• RZ-1 drums V1 PCB v1 (user code by JGB; input 2 is trigger input)
• RZ-1 drums V2 PCB v2 (user code by JGB; input 3 is trigger input)
• RZ-1 drums V2.2 PCB v2 (updated user code by JGB; input 3 is trigger input)
• Wave V1 PCB v1 (user code by JGB)
• Wave V2 PCB v2 (user code by JGB)
• Cereals V1 PCB v1 (user code by HRTL)
• Cereals V2 PCB v2 (user code by HRTL)
• Resonance-like feedback (coming soon)
• Short-wave radio-like warbles and whistles (coming soon)

The included Arduino can be updated in the standard Arduino environment. Make sure to install the driver to make sure your Arduino will be detected:
Mac OSX 32 + 64 bit
Windows 32 + 64 bit

How to upload a code in the arduino environment

How to install the driver on a MAC

The ultimate realtime sampler for your modular. No, it’s not another sampleplayer! It’s a realtime cv controlled sampleslice sequencer.

This kit is easy to build, but is not suitable as first soldering project. You need a soldering iron with a small pencil point and a side cutters. All SMD parts are already in its place and you don’t have to do any programming.

When developing the Erica Black Series and the Pico Series modules, Erica accumulated quite a know-how on compact and great sounding designs, and they decided to share some of those with DIY community. And therefore Erica Synths proudly presents – The DIY Synth Voice module!

It consists of all the essential blocks for a versatile monosynth, it is 100% patchable for even more control options. In order to make the module more compact and reliable in tuning, it has digital/analogue design. VCO and envelope generators/LFOs are digital, other parts are analogue. Digital parts are designed around pre-programmed MCU board, which comes with pre-soldered on a small controller board. If you chain up several Erica Synths DIY Synth Voice modules you have a versatile polysynth!

      Features:

• VCO with 16 waves and manual wave morphing
• -1 oct suboscillator
• White noise generator
• External audio input
• Audio Mixer
• LP/BP VCF inspired by Black Polivoks VCF
• Lin/log ASR envelope generator with looping function
• Lin ASR EG/LFO with looping function
• 9 LFO waves with wave morphing
• Tap tempo and LFO sync
• LFO frequency multiplication (x2, x4) and division (/2, /4) in sync mode
• VCA with bias control
• Auto callibration for better 1V/oct tuning

Technical specifications:

BULK DISCOUNT

| 10+ Cables  – 5% off | 30+ Cables – 10% off | 50+ Cables – EMAIL US 

(Bulk prices displayed once items are added to cart)

3.5mm minijack patch cable suitable for all Eurorack modular systems, even the most densely packed modules. Now available in Blue as well as the original Green.

BULK DISCOUNTS at foot of page

These are direct drop in replacements for the common Alpha 9mm vertical trimmers and metal shafted potentiometers. They are also directly compatible with many other 9mm pot footprints from Bourns, Panasonic and others, see the datasheet for footprint details.

These pots are more ergonomic due to the longer shaft and they are easier to read than the competitive offerings due to the white marker line. These pots also have a 15,000 cycle lifespan compared to the Alpha 9mm pot 10,000 cycle lifespan.

You may recognise these pots from recent Intellijel and WMD Euro modules and the Bugbrand WorkshopCrusher.

This B50K Linear pot is suitable for the ‘Scale’ pot on the Turing Machine.

BULK DISCOUNTS

Discounts are calculated per value.
Add pots to the cart to see the actual cost for buying in bulk

THIS IS A FULL DIY KIT

It contains all components required for a complete build, right down to rack screws and power cable. We selected and used the parts as specced by Random*Source. Random Source have created a step by step build doc for this project

SERGE MODULAR FOR EURORACK – Under licence from Serge Tcherepnin

“Serge Modular” is an analogue modular synthesizer system developed by French composer and electronic designer Serge Tcherepnin in the 1970s at The California Institute of the Arts. Serge’s vision to create a “people’s synthesizers” led to a unique modular music system with an iconic design.

In collaboration with and under licence from Serge Tcherepnin, Random*Source offers a range of Serge modules, combining the original Serge circuits with the advantages of today’s technology. The modules on this page are in Eurorack (3U) format – modules in the classic Serge dimension (“4U” panel height) and the typical banana jacks can be found here.

V2.1 PCB set, one minor fix – some users had found the switch a little tight to fit.

This is a full kit which includes every single component to build a Radio Music module right down to the Teensy microprocessor board, the knobs, rack screws and power cable.

NOTE – you need to purchase a MicroSD card and a Micro-B USB Cable elsewhere to set up this module. The Micro-B cables are the smallest type shipped with Kindles and many Android phones. You also need a card reader to write files to the SD card, many laptops and desktops already have them built in now. – Read the setup and build documentation here.

The very cheap $2 MicroSD cards are not worth the trouble they will cause you, buy genuine SanDisk or Kingston branded MicroSD cards from Amazon or elsewhere. 32Gb maximum… that’s 108 hours of lossless audio in 16bit 44.1khz. Total file limit per card is 1200 files.

Full project details and documentation here – http://github.com/TomWhitwell/RadioMusic/

This product includes:

• Aluminium Eurorack Panel (14 hp)
• PCB set (control PCB, back PCB)

The Waveslicer can be described as some kind of special waveshaper. It can cut a wave into slices and move those slices up and down.
It simply does that by adding an offset at a defined point of the wave. This point is the threshold, set by the Pulsewidth pot. The amplitude of the offset is set by the Amount pot.
So for example if you have a sine wave of 10Vpp (-5V to +5V) and set a threshold of 2.5V and an amount of 1V, it will add an offset of 1V as long as the wave is above 2.5V.
To make it all symmetric, all that is also happening on the negative half of the wave, which means that in this example you will also have an offset of -1V as long as the wave is below -2.5V.
All this is achieved by using two comparators in parallel, one with a negative threshold and one with a positive threshold. The output of the comparators goes through a VCA and is subtracted from the original input signal in the end.

To make it all a bit more interesting, this is all done twice at the same time, so there are actually two waveslicers working in parallel.
Also, every described parameter is fully voltage controllable.

The maximum threshold of both sections can be altered by the Range pot. I added this option to be able to set an adequate range for the Pulsewidth pots. For example if you put in a sine wave of +/- 2.5V but the maximum threshold would be 5V, the pots wouldn’t do anything above 12 o’clock. So you can set a maximum threshold of 2.5V and be able to use the full range of the Pulsewidth pots.

I primarily designed this module as an audio waveshaper but it’s DC coupled, so you can also use it for CVs. This can be a lot of fun, for example when mangling LFOs.

From version 2.0, which is the version I’m selling, both sections of the waveslicers also have an Offset pot. This can add an offset to the incoming signal before it goes into the comparators. The offset is removed before the comparator outputs are subtracted from the original signal so the output will still move around 0V instead of being offset too. This is important, especially when using the module for audio signal.

The build doc and and BOM can be found here: Waveslicer Documentation

A very simple PCB that let’s you build a device to thoroughly test your home-made Eurorack power cables and patch cables.

Supports both the ’10 pin – 16 pin’ AND ’16 pin – 16 pin’ power cable types.

BOM information and support HERE.

BUILD DOC HERE

THIS IS A FULL DIY KIT

It contains all components required for a complete build, right down to rack screws and power cable. We selected and used the high quality parts as specced by Random*Source. This kit contains high precision 0.1% resistors as specced in the Random Source documentation.

SERGE MODULAR FOR EURORACK – Under licence from Serge Tcherepnin

The Serge Divide by N Comparator (NCOM) is a rare, much sought-after and very essential Serge module covering a number of functions: comparator, voltage-controlled pulse divider, and voltage-controlled staircase generator.

The ÷N COMPARATOR consists of two sections – a comparator (right side) and a voltage-controlled pulse divider (left side). The ÷N output of the pulse divider sends out a pulse on every N-th comparator pulse where N is a number from 1 to 31. N can be (pre-)set with the divider’s control knob (1 ÷N) and can by changed with a control voltage. The VC knob (attenuator)on the bottom of the left side determines how much effect the control voltage has on “N”. In addition, the divider generates a staircase waveform with N steps. This can be used to produce whole-tone steps when run into the 1V/Oct input of a VCO or as a stepped control voltage to change for instance the cutoff of a filter.

The comparator provides a number of useful “housekeeping functions”: Logical decisions (if the +input is greater than the -input, the output will be high, otherwise low), Level detection (whenever a variable waveform crosses the theshold, a pulse is generated ), Pulse width modulation or Rectifying a waveform (e.g. a sine or triangle wave). (More applications and info in the Build Doc).

Now – for the first time and licenced by Serge – the NCOM is available as DIY kit for Euro.

• Gildan Premium Cotton Ring Spun T-Shirt
• ‘Sports Grey’ Colour
• Screenprinted on front.
• Printed in Wales, UK
• Custom Thonk nape print
• Custom Thonk sleeve tag
• Fabric 100% ring-spun Cotton pre-shrunk jersey knit
• Weight 185g/m² (180g/m² White)
• 2,2cm collar
• Taped neck and shoulders
• Twin needle sleeve and bottom hems
• Quarter-turned to eliminate centre crease

Refunds and returns on clothing products are only available within the UK – Clothing must be returned within 2 weeks of purchase – Clothing must be returned unopened unless there is a discrepancy in the label size and actual size. See Terms & Conditions for returns process.