Difference between revisions of "Eurorack Synth Modules"

Latest revision as of 06:12, 18 July 2023

1 Overview
2 ER-ADSR-555-01 - Eurorack ADSR Envelope Generator Module
3 ER-CV-POTS-5 - Eurorack Control Voltage Pots
4 ER-MIDI-CV4-02 - Eurorack 4X CV Module
5 ER-MIDI-THRU - Eurorack MIDI Thru
6 ER-MIXER5-01 - Eurorack 5 Channel Mixer
7 ER-MIXER5-02 - Eurorack 5 Channel Mixer
8 ER-MULTS-01
9 ER-MULTS-02
10 ER-PWR-01
11 ER-PROTO-01 - Eurorack Prototype card (6 pots, 4 jacks)
- 11.1 ER-PROTO-01 - Examples
12 ER-PROTO-02 - Eurorack Prototype card (6 pots, 6 jacks)
- 12.1 ER-PROTO-02 - Examples
13 ER-VCA2-01 - 2 Channel Voltage Controlled Amplifier
14 ER-VCF-02 - Voltage Controlled Filter
15 ER-VCO-03 - Eurorack VCO using RP2040 CPU
16 Eurorack DIY Panel
17 Eurorack +/- 12V Power Supply
18 HAGIWO Builds
19 Eurorack Reference Docs
- 19.1 Projects
- 19.2 KiCad Libraries
- 19.3 Daughterboard Heights
- 19.4 Part Orientations
- 19.5 Front Panel Jacks
- 19.6 Eurorack Vertical Pots
- 19.7 Op Amps
- 19.8 Module Kits
- 19.9 Software
- 19.10 Hardware/Parts
- 19.11 Samples
20 Box Build
- 20.1 Box Version 2
- 20.2 Box Version 1
21 Videos

Overview

Land Boards Eurorack Modules
- ER-ADSR-555-01 - Eurorack ADSR Module
- ER-MIDI-CV4-02 - Eurorack 4X CV Module
- ER-MIDI-THRU - Eurorack MIDI Thru
- ER-MULTS-01 - Nicklas Rönnberg Passive Multiple
- ER-MIXER5-01 - Eurorack 5 Channel Mixer
- ER-PROTO-01 - 6HP Prototyping (6 pots, 4 jacks)
  - MOZZI on Arduino NANO on ER-PROTO-01
  - ER-CVPOTS4 - 4 CV pot controlled outputs on ER-PROTO-01
  - Noise Generator on ER-PROTO-01
  - Slew Rate Controller on ER-PROTO-01
- ER-PROTO-02 - 6HP Prototyping (6 pots, 6 jacks)
  - ER-BEZIER-CV - HAGIWO Bezier Random CV Generator
  - ER-CV-AMP3 - Control Voltages Amplifier
  - ER-GATE-SEQ-01 - GATE Sequencer
  - ER-LEDS - Control a NeoPixel strip
  - ER-MOZZI-DB - Arduino NANO MOZZI: VCOs, Bezier CV Generator
  - ER-SCOPE-01 - Scope
  - CV SHIFT on ER-PROTO-02
  - ER-STIX - Mutable Instruments Branches
  - ER-USB-MIDI - USB MIDI to Serial MIDI on TRS
- ER-VCA2-01 - 2 Channel Voltage Controlled Amplifier
- ER-VCF-02 - Voltage Controlled Filter
- ER-VCO-03 - Eurorack RP2040 VCO
- Eurorack DIY Panel

ER-ADSR-555-01 - Eurorack ADSR Envelope Generator Module

ER-ADSR-555-01

Attack-Delay-Sustain-Release Eurorack ADSR Module
555 Based design
Benjie Jiao MiniADSR
- Original was based on Barry Klein design
- As built by schmitzbits design - "The Fastest Envelope in the West"
- A, D, and R Pots should be log pots
Pot silkscreen should show DECAY not DELAY

ER-CV-POTS-5 - Eurorack Control Voltage Pots

Provides 5 Control Voltage Pots for manual control and testing of CV inputs
Use SYNTH-MIXER6-01 card with rework
- Do not install Opamp
- Do not install any passives
- Clip J2-J7 tip switch pins (edge of card) - verify grounds removed
- Hacksaw off top of card - J1-J2, RV1-RV2
- Cut etches from J3-J6 (tip) to RV3-RV6 (bottom pin)
- Add wires J3-J7 (tips) to RV3-RV7 (center pins)
- Add wire U1-7 to U1-2
- Fill holes J8 pins 1,2
- Install 2x4 header in J8 (pins 3-10)
- P-Touch labels
  - Label over top 2 holes "CV-POTS-5"
  - Relabel next 5 holes as CV1-CV5
    - Blank label over bottom 2 holes
  - Label end of J8 "CV+"
Re-build as 4 channels on ER-PROTO-01
- Buffer outputs with Op Amps
Could power from either 5V or +/-12V

ER-MIDI-CV4-02 - Eurorack 4X CV Module

ER-MIDI-CV4-02

Eurorack 6HP, 3U module
Adapted from HAGIWO's MIDI to CV module
- Translate from Japanese to English using browser
- Removes Digital Outputs
- Has 4 Analog Outputs instead of 2
Based also on SYNTH-MIDI-CV4-01
Arduino Pro Mini
- 16 MHz
- 5V
- Could cable using external FTDI USB to Serial to get USB MIDI
MIDI In on TRS Type A jack
(4) 0-5V Analog CV outs
- MCP4822 12-bit D/A - SPI Interface
  - MCP4822 Datasheet
- Use with ER-VCO-03
  - CV_1 = V/OCT
  - CV_2 = MOD
GATE output
CLK output
TRIG output
Standard EuroRack 16 pin header

ER-MIDI-THRU - Eurorack MIDI Thru

ER-MIDI-THRU

MIDI In on DIN-5 or 3.5mm TRS Type A
4 Channel MIDI outputs on 3.5mm TRS Type A
Activity LED
6 HP wide (30mm)
3U tall
Eurorack power jack
- Uses 5V

ER-MIXER5-01 - Eurorack 5 Channel Mixer

ER-MIXER5-01

Eurorack 6HP
Adapted from HAGIWO's 5 Channel Mixer Module
Separate individual input pots and output pot
Use A taper pots to mix audio signals
Use B taper pots to mix control voltage signals
Views: Front Panel, Front (controls), Parts side

ER-MIXER5-02 - Eurorack 5 Channel Mixer

ER-MIXER5-02

Eurorack 6HP
Same as ER-MIXER5-01 but has 6 pots at top, jacks on bottom
Adapted from HAGIWO's 5 Channel Mixer Module
Separate individual input pots and output pot
Use A taper pots to mix audio signals
Use B taper pots to mix control voltage signals
Views: Front Panel, Front (controls), Parts side

ER-MULTS-01

ER-MULTS-02

ER-PWR-01

ER-PROTO-01 - Eurorack Prototype card (6 pots, 4 jacks)

ER-PROTO-01

Eurorack Prototyping card set
6 HP wide (30mm) front panel
3U tall
0-6 POTS
- Series resistors on pot wiper
- All 3 pot pins brought to top header
0-4 Jacks
Tip/sleeve brought to header near middle/bottom
Pots on top, jacks on bottom
- Easier to adjust pots without bumping into pots
- Pots more often accessed than jacks
Large prototyping area
+12V, -12V down board edges
5V/GND down center of card
Bussed connections horizontally
Front Panel with generic labels
- Cover with White on Black P-Touch labels

ER-PROTO-01 - Examples

ER-PROTO-02 - Eurorack Prototype card (6 pots, 6 jacks)

ER-PROTO-02

Eurorack Prototyping card set
6 HP wide (30mm) front panel
3U tall
0-6 POTS
- Series resistors on pot wiper
- All 3 pot pins brought to top header
0-6 Jacks
Tip/ring brought to header near bottom
Pots on top, jacks on bottom
- Easier to adjust pots without bumping into pots
- Pots more often accessed than jacks
Large prototyping area
+12V, -12V down board edges
5V/GND down center of card
Bussed connections horizontally
Front Panel with generic labels
- Cover with White on Black P-Touch labels

ER-PROTO-02 - Examples

Cards built on the PROTO-02 card set

ER-BEZIER-CV

ER-BEZIER-CV - Random Control Voltages (CVs)

ER-CV-AMP3

ER-CV-AMP3 - Amplify CVs or GATES by 2

ER-DELAY-01

ER-DELAY-01 - Echo

ER-DELAY-02

ER-DELAY-02 - Echo

ER-GATE-SEQ-01

ER-GATE-SEQ-01 - GATE Sequencer

ER-LEDS

ER-LEDS - Control a NeoPixel strip

ER-MOZZI-DB - Arduino NANO running MOZZI

ER-MOZZI-DB

Daughtercard to ER-PROTO-02 card
- Uses Front Panel and Controls card
  - Controls card populated as required
    - 0-6 Jacks, 0-6 Pots
Arduino NANO
High Def Sound output
Up to 6 Pots connected to A/D inputs
Up to 4 input jacks connected to A/D inputs
Options
- 0-4 Pots, 0-4 Input Jacks
- 5 Pots, 0-3 Input Jacks
- 6 Pots, 0-2 Input Jacks

ER-MOZZI-DB-03 - Arduino NANO running MOZZI

ER-MOZZI-DB-03

ER-MOZZI-DRUMS

ER-MOZZI-DRUMS - Drums module

ER-SCOPE-01

ER-SCOPE-01 - Scope

ER-SH-02 - Dual Sample and Hold

ER-SH-02

CV SHIFT on ER-PROTO-02

ER-STIX

ER-STIX - Mutable Instruments Branches "like"

ER-USB-MIDI

ER-USB-MIDI - USB MIDI to TRS A

ER-VCA2-01 - 2 Channel Voltage Controlled Amplifier

ER-VCA2-01

Dual VCA
Adjust between VCA and Mod
3U tall
6HP wide
3 card set
LM13700 based
Eurorack
+/- 12V Power, 10-pin power connector

ER-VCF-02 - Voltage Controlled Filter

ER-VCF-02

3U tall
6 HP (30mm) wide
Uses ER-PROTO-02 controls cards
Tommy Killander Design
- Low pass only version of Moritz design
Video

ER-VCO-03 - Eurorack VCO using RP2040 CPU

ER-VCO-03

Eurorack 6HP
(3) Card set
Views: Control Panel rear side, Control Panel controls side, Logic card component side, Logic card rear side, Front Panel

Eurorack DIY Panel

Front/Back View
Left = top

Based on HAGIWO design

6HP wide
3U tall
Power and Ground bus on either side of the card
Reduces wiring
Slotted mounting holes
5mm Grid on rear side makes it easier to locate connectors for drilling

Eurorack +/- 12V Power Supply

115VAC in, 24V CT, 24 VA Transformer
- 12*1.414 = ~17V
  - Leaves 5V for regulator headroom and ripple
L7812CV, +12V, 1.5A Regulator
L7912CV, -12V, 1.5A Regulator

HAGIWO Builds

HAGIWO on Reddit
Repository of HAGIWO's DIY Modular Synth Summary
Mapping of Land Boards Synth cards to HAGIWO designs
- Purpose is re-use of Land Boards card elements for HAGIWO designs

FUNCTION	3.5MM	POTS	TOGG	PBS	ROT	DIN5	PROCESSING	LINK
No. 59 CV Adder	12	0	0	0	0	0	NONE	https://note.com/solder_state/n/nd040f097cbc2
No. 58 Bezier CV	2	4	0	0	0	0	NANO	https://note.com/solder_state/n/n39aacefd73a3
No. 57 Strain CV								https://note.com/solder_state/n/n79cdb2c458a9
No.56 Sample Drum	3	1	1	0	0	0	ESP32C3	https://note.com/solder_state/n/n950ed088c3cb
No.55 V2164 Dual VCA	6	6	0	0	0	0	NONE	https://note.com/solder_state/n/nd82c027d0597
No.54 PT2399 clock sync delay	4	3	1	0	0	0	NANO	https://note.com/solder_state/n/nf6dc0a61e26d
No.52 Reverse step sequencer	4	8	2	0	0	0	CDT7350	https://note.com/solder_state/n/n13c49f08ca1f
No.50 LFO/VCO rebuild	2	3	1	0	0	0	NANO/AD9833	https://note.com/solder_state/n/nd2c22a73e8fe
No.49 Clock Divider	11	0	0	0	0	0	TC4040BP	https://note.com/solder_state/n/n7979cda44dcb
No. 47 Sample & hold	3	2	1	0	0	0	LF398	https://note.com/solder_state/n/n29b52f4f01f1
No.46 Dual Envelope generator	4	8	0	0	0	0	NANO	https://note.com/solder_state/n/n6fb73eb1d8b8
No.45 Diode clip Distortion	2	3	0	0	0	0	NONE	https://note.com/solder_state/n/n5f35e2e84a3e
No.44 Wave shaper & VCA	2	1	0	0	0	0	NONE	https://note.com/solder_state/n/nfdc2e198255a
No.43 Envelope Follower	4	3	0	0	0	0	NONE	https://note.com/solder_state/n/n110e9ba066b3
No.42 PCM drum	6	4	2	1	0	0	NSX-1/SAMD	https://note.com/solder_state/n/neabe7e014c11
No.40 Voltage controlled switch	8	1	0	1	0	0	NJU211	https://note.com/solder_state/n/n98883e71f814
No.39 Diode ladder VCF	3	3	0	0	0	0	NONE	https://note.com/solder_state/n/n598f23105ec4
No.38 Touch controller	5	1	1	4*	0	0	NANO/MPR121	https://note.com/solder_state/n/ncd42925f726b
No.37 Overflow folding VCO	4	3	0	1	0	0	XIAO	https://note.com/solder_state/n/nf01e7c92b010
No.36 LM13700 Dual VCA	6	2	0	0	0	0	LM13700	https://note.com/solder_state/n/n3357199504d8
No.35 CV to MIDI	6	1	0	0	0	1	NANO/SSD1306	https://note.com/solder_state/n/nb618127f37c9
No.33 Dual Quantizer	7	1	0	0	1	0	SAMD/SSD1306	https://note.com/solder_state/n/nb8b9a2f212a2
No.32 Spin FV-1 multi FX	5	5	0	0	0	0	NANO/FV-1	https://note.com/solder_state/n/n1c402a78a0fe
No.31 Ring modulator & wavefold	4	3	0	0	0	0	AD633	https://note.com/solder_state/n/n9d138d74b39d
No.30 Euclidean rhythm sequencer	7	0	0	1	1	0	NANO/SSD1306	https://note.com/solder_state/n/n433b32ea6dbc
No.29 SH-101 type sequencer	7	1 TRIM	0	1	1	0	SAMD/SSD1306	https://note.com/solder_state/n/n80f4baf81226
No.28 DSP multi effector	2	0	0	0	0	0	DSP	https://note.com/solder_state/n/nd9c984a9ab7a
No.27 5ch mixer	6	6	0	0	0	0	NONE	https://note.com/solder_state/n/nffc1a33053be
No.26 V2044 VCF	3	3	0	0	0	0	V2044 VCF	https://note.com/solder_state/n/n0fabdc23fe1e
No.25 Oscillo scope & Spectrum analyzer	3	1	1	0	1	0	NANO/SSD1306	https://note.com/solder_state/n/n6b4cc8d1c6b9
No.24 V2164 Dual VCA	6	2	0	0	0	0	V2164	https://note.com/solder_state/n/n14a8be5f7118
No.23 CHORD VCO	4	3	0	0	0	0	NANO	https://note.com/solder_state/n/n681d2e07e324
No.22 Additive VCO	4	3	0	0	0	0	NANO	https://note.com/solder_state/n/n30b3a8737b1e
No.20 CV/GATE 8step sequencer	3	8	1	0	0	0	CD4022BE /NE555	https://note.com/solder_state/n/n4da93d157f26
No.19 FM VCO	4	3	0	0	0	0	NANO	https://note.com/solder_state/n/n88317851a4c7
No.18 2OSC VCO	3	3	1	0	0	0	NANO	https://note.com/solder_state/n/n71c67b5aaeca
No.17 Multi mode Envelope generator	2	4	1	0	0	0	NANO	https://note.com/solder_state/n/n69643b792274
No.16 CV/Gate sequencer & Arpeggiator	5	0	0	1	1	0	NANO/SSD1306	https://note.com/solder_state/n/n7c2809976698
No.15 TR-808/909 sample player drum	5	0	0	1	0	0	SAMD/SSD1306	https://note.com/solder_state/n/n0209d16d0d08
No.14 KICK	3	4	0	0	0	0	NANO	https://note.com/solder_state/n/ne33e32660d50
No.13 Noise & Hi-hat	4	3	0	0	0	0	NANO	https://note.com/solder_state/n/nf65437f12790
No.12 Clock SYNC LFO	2	4	0	0	0	0	NANO	https://note.com/solder_state/n/n4c600f2431c3
No.11 MIDI to CV	4	1	0	0	0	1	NANO	https://note.com/solder_state/n/n17e028497eba
No.10 Gate Burst/Delay	4	2	1	1	0	0	NANO	https://note.com/solder_state/n/n28b5c43229af
No.9 6ch trigger sequencer	7	0	0	1	1	0	NANO/SSD1306	https://note.com/solder_state/n/n17c69afd484d
No.8 SX150 VCF	3	2	1	0	0	0	NANO/MCP4726	https://note.com/solder_state/n/n5136d98930a8
No.7 Quantizer	4	2	1	0	1	0	NANO/MCP4726	https://note.com/solder_state/n/nde97a0516f03
No.6 Clock multi divide	4	2	1	0	0	0	NANO	https://note.com/solder_state/n/n8907f2f6e8f5
No.5 Generative sequencer	3	2	1	0	0	0	NANO/MCP4911	https://note.com/solder_state/n/n8a489f0b857a
No.4 samplar	3	1	1	0	1	0	NANO/TF PLAYER	https://note.com/solder_state/n/n6057a5256042

Eurorack Reference Docs

Projects

elkayem midi2cv GitHub page - Nano based project
- Arduino MIDI library has not yet been ported to Pico so will need to use Python
- Drives 4 CV outputs: Pitch Blend, Control, Note, Velocity
- This card only drives Note (Voltes/Oct, Mod)
PicoPicoSynth
Deftaudio GitHub - KiCad footprints
Turing Machine
Simple DIY Electronic Music Projects - diyelectromusic
DIY Hackable Arduino Drum Machine
- vIDEO
Build the Auduino Granular Synth
Benjie's Synth DIY notes - Nice docs
- Benjie Jiao - DIY Modular Synth Project - YouTube channel
REDDIT Synth DIY
tkilla64 Nice collection of Eurorack module designs - mostly Gerbers
Scott Billingsley Philosophy of Noise - GitHub Repo
Andrew Kilpatrick DINTREE GitHub
Mutable Instruments Schematic PDFs
Music From Outer Space
Kristian Blåsol's Modular in a week]
- Kristian Blåsol's Modular in a week - YouTube channel
- Sourcery Studios Tindie Store
- Sourcery Studios Discord channel

KiCad Libraries

Ben Jiao Modular KiCad Libraries
graybloomfield - Very nice Arduino based designs
Winterbloom KiCad Library
Using Python to vectorize artwork for PCBs

Daughterboard Heights

From notes on How to Make Great Looking Modular Front Panels - Part 3 Module Circuit Board Layout
- The absolute maximum of other boards I've seen is 111,5 mm and the TipTop Happy Ending Kit offers a space of 112,5 mm
114.8mm measured between 3U Synthrotek rails
- 128.5mm - 114.8mm = 13.7mm both sides, 6.875mm per side
- 111.5mm daughtercard, leaves 8.5mm clearances top/bottom

Part Orientations

For pots with built-in pointers, pot pins go down for pointer to go up at center (up) point

Front Panel Jacks

Eurorack Panel Jacks

Eurorack Vertical Pots

Eurorack Pots

Op Amps

From this site
- The TL084 Op-Amp is very similar to TL074 but has high noise immunity and better offset characteristics.
- The TL074 has lower noise figure, so is better for AC signals.
- The TL084 has lower offset, so is better for DC signals.
- The TL084 has better DC performance (low offset) and the TL074 has better noise/distortion performance.
- You can use TL074s on the audio paths, TL084s on the control paths.
- TL074 Datasheet
- TL084 Datasheet
The TL074 is $0.75 in qty 10 (on Mouser)
The TL084 is $0.55 in qty 10 (on Mouser)
The TL072 and TL082 are both about the same price as each other, but are more expensive than the quad parts

Module Kits

Erica Synths
- Erica Synths DIY GitHub
SyntherJack - DIY Synths
BEFACO - Kits
Kassutronics DIY Store
- Kassutronics DIY GitHub
synthCube MFOS PCBs
Thonk Shop - in UK
synthrotek
TuringMachine Mark 2

Erica Synths EDU DIY Sequencer Build Notes

EDU DIY Sequencer
Assembly drawing unreadable line weights when printed out
- Needed to zoom way in on PC to PDF
Ref des of parts not in any particular order
- A break-out drawing pointing to Find Numbers would help a lot
No real PL
- What is called a PL does not list ref des
BC548 in design. BC547 was shipped
- BC547 is a better spec part (same function, higher voltage version)
Transistors pad sizes way too small
Resistor holes are very big compared to 1/4W lead diameters
Getting to the legs of the LEDs was challenging
- Soldering was not trivial but was the least of the challenges
- Trimming the legs near the transistor was scary
- Could not cut one low due to nearby parts
Toggle switch has very large holes that make alignment of the switches very difficult
Clock In voltage needs to meet CD4000 expected level ~70% of Vcc or about 8V
- My 5V clock didn't work
  - Replacing the clock unity gain with a comparator might be a good choice, but would create a 12V clock out from a 5V in clock
Trimmer 2K was 2K5
Unable to get trim all the way to 5V or 2.5V
- Video has same issue but just w/ 5V
- Probably not a big issue and might just be "safer"
- Got closer to the 2.5V position
Switches don't turn off the CV, they just shut off the gate
- Need an Envelope Generator to test
Holes to mount in rack are round - slotted would be better possibly
All in all, good value for the money

Braids Throughhole version of the Mutable Instruments Braids

Through-hole Braids

Sorcery Studios Beaks, a throughhole PWM version of MI Peaks

Beaks Through Hole Peaks

Sorcery Studios POW - Power Module

POW - Modular Power Panel - Tindie page

Sorcery Studios GRIS - Drum Controller

GRIS - Through-hole GRIDS

Software

Hardware/Parts

Synthrotek Store
THONKICONN – 3.5MM JACK SOCKETS
Potentiometers are usually marked with an "A" for logarithmic taper or a "B" for linear taper;
RV09AF vertical mount is Alpha pot part number
9mm Pots
Tayda 3.5mm Jacks and stuff

Samples

Drum Samples

Box Build

Box Version 2

Eurorack Box Build V2

104 HP
Two 3U rows
1/2" Cherry
Spar varnish finish

Box Version 1

Eurorack Box Build

3/4" Red Oak plywood
Spar varnish finish (no finished in photo)
84HP
Single 3U

Videos

Hooking together modules

@@ Line 1: / Line 1: @@
+[[file:Box_6U_104HP_P1143-720px.jpg]]
 == Overview ==
 * Land Boards Eurorack Modules
+** [[ER-ADSR-555-01]] - Eurorack ADSR Module
+** [[ER-MIDI-CV4-02]] - Eurorack 4X CV Module
+** [[ER-MIDI-THRU]] - Eurorack MIDI Thru
+** [[ER-MULTS-01]] - Nicklas Rönnberg Passive Multiple
+** [[ER-MIXER5-01]] - Eurorack 5 Channel Mixer
+** [[ER-PROTO-01]] - 6HP Prototyping (6 pots, 4 jacks)
+*** [[Arduino_NANO_MOZZI_on_ER-PROTO-01|MOZZI on Arduino NANO on ER-PROTO-01]]
+*** [[ER-CVPOTS4]] - 4 CV pot controlled outputs on [[ER-PROTO-01]]
+*** [[Noise_Generator_on_ER-PROTO-01|Noise Generator on ER-PROTO-01]]
+*** [[Slew_Rate_Controller_on_ER-PROTO-01|Slew Rate Controller on ER-PROTO-01]]
+** [[ER-PROTO-02]] - 6HP Prototyping (6 pots, 6 jacks)
+*** [[ER-BEZIER-CV]] - HAGIWO Bezier Random CV Generator
+*** [[ER-CV-AMP3]] - Control Voltages Amplifier
+*** [[ER-GATE-SEQ-01]] - GATE Sequencer
+*** [[ER-LEDS]] - Control a NeoPixel strip
+*** [[ER-MOZZI-DB]] - Arduino NANO MOZZI: VCOs, Bezier CV Generator
+*** [[ER-SCOPE-01]] - Scope
+*** [[CV SHIFT on ER-PROTO-02]]
+*** [[ER-STIX]] - Mutable Instruments Branches
+*** [[ER-USB-MIDI]] - USB MIDI to Serial MIDI on TRS
+** [[ER-VCA2-01]] - 2 Channel Voltage Controlled Amplifier
+** [[ER-VCF-02]] - Voltage Controlled Filter
+** [[ER-VCO-03]] - Eurorack RP2040 VCO
+** Eurorack DIY Panel
-== ER-ADSR-555-01 - Eurorack ADSR Module ==
+== ER-ADSR-555-01 - Eurorack ADSR Envelope Generator Module ==
+[[File:tindie-mediums.png|link=https://www.tindie.com/products/28472/]]
 [[ER-ADSR-555-01]]
-[[file:ER-ADSR-555-01_Set.png]]
+[[file:ER-ADSR-555-01_P1090094-720px.jpg]]
 * Attack-Delay-Sustain-Release Eurorack ADSR Module
@@ Line 17: / Line 45: @@
 * Pot silkscreen should show DECAY not DELAY
-== ER-CV-POTS-5 ==
+== ER-CV-POTS-5 - Eurorack Control Voltage Pots ==
 [[file:SYNTH-CV-POTS-5_REWORK_ANNOTATED_rear.png]]
@@ Line 41: / Line 69: @@
 * Could power from either 5V or +/-12V
-== ER-MIDI-CV4-01 - Eurorack 4X CV Module ==
+== ER-MIDI-CV4-02 - Eurorack 4X CV Module ==
-[[ER-MIDI-CV4-01]]
+[[File:tindie-mediums.png|link=https://www.tindie.com/products/28969/]]
-[[FILE:ER-MIDI-CV4-01_SET_3D-720px.png]]
+[[ER-MIDI-CV4-02]]
+[[FILE:ER-MIDI-CV4-02_P1080867-Front_Rear_720px.jpg]]
 * Eurorack 6HP, 3U module
@@ Line 53: / Line 83: @@
 ** Has 4 Analog Outputs instead of 2
 * Based also on [[SYNTH-MIDI-CV4-01]]
-* [http://land-boards.com/blwiki/index.php?title=QT_Py_(RP2040_based) XAIO RP2040 CPU]
+* Arduino Pro Mini
-** Arduino MIDI library has '''not''' yet been ported to Pico so will need to use CircuitPython
+** 16 MHz
+** 5V
+** Could cable using external FTDI USB to Serial to get USB MIDI
 * MIDI In on TRS Type A jack
 * (4) 0-5V Analog CV outs
 ** [https://www.mouser.com/ProductDetail/Microchip-Technology-Atmel/MCP4822-E-P?qs=sGAEpiMZZMtgJDuTUz7Xu5a0A%252BlHhkxt3QSpqvc4zyk%3D MCP4822 12-bit D/A] - SPI Interface
 *** [https://www.mouser.com/datasheet/2/268/21953a-8929.pdf MCP4822 Datasheet]
-** Use with [[SYNTH-VCO-01]]
+** Use with [[ER-VCO-03]]
 *** CV_1 = V/OCT
 *** CV_2 = MOD
+* GATE output
+* CLK output
+* TRIG output
 * Standard EuroRack 16 pin header
@@ Line 68: / Line 103: @@
 [[ER-MIDI-THRU]]
-[[FILE:ER-MIDI-THRU_SET-3D-720pxV.png]]
+[[FILE:ER-MIDI-THRU_SET_CCA_Front_Back-002-720px.jpg]]
 * MIDI In on DIN-5 or 3.5mm TRS Type A
@@ Line 80: / Line 115: @@
 == ER-MIXER5-01 - Eurorack 5 Channel Mixer ==
-* [[ER-MIXER5-01]]
+[[File:tindie-mediums.png|link=https://www.tindie.com/products/28611/]]
+[[ER-MIXER5-01]]
+[[FILE:ER-MIXER5-01_SET_Front_Rear-720px.jpg]]
 * Eurorack 6HP
 * Adapted from [https://note.com/solder_state/n/nffc1a33053be HAGIWO's 5 Channel Mixer Module]
@@ Line 88: / Line 128: @@
 * Views: Front Panel, Front (controls), Parts side
-[[FILE:SYNTH-MIXER5-01_SET_FRONT_3D-720pxV.png]]
+== ER-MIXER5-02 - Eurorack 5 Channel Mixer ==
-== SYNTH-MIXER6-01 - Eurorack 6 Channel Mixer ==
+[[File:tindie-mediums.png|link=https://www.tindie.com/products/28611/]]
+[[ER-MIXER5-02]]
+[[file:ER-MIXER5-02_Front_Rear-720px.jpg]]
-* [[SYNTH-MIXER6-01]]
 * Eurorack 6HP
+* Same as [[ER-MIXER5-01]] but has 6 pots at top, jacks on bottom
 * Adapted from [https://note.com/solder_state/n/nffc1a33053be HAGIWO's 5 Channel Mixer Module]
-* '''Rear card is too tall to fit in rack between rail'''
+* Separate individual input pots and output pot
-* Hacksaw off top of card - remove J1, J2, RV1, RV2 to make 4 in mixer
+* Use A taper pots to mix audio signals
-** Too tight at the bottom, need to hack off J2, RV2
+* Use B taper pots to mix control voltage signals
-* Move up holes when mounting card to panel
+* Views: Front Panel, Front (controls), Parts side
-* Views: Front (controls), Parts side, Front Panel
+== ER-MULTS-01 ==
+[[ER-MULTS-01]]
+[[file:ER-MULTS-01_Front-Rear_720PX.jpg]]
+== ER-MULTS-02 ==
+[[ER-MULTS-02]]
+[[file:ER-MULTS-02_Front_Rear-720PX.jpg]]
+== ER-PWR-01 ==
+[[File:tindie-mediums.png|link=https://www.tindie.com/products/29631/]]
+[[ER-PWR-01]]
-[[FILE:SYNTH-MIXER6-01_SET_FRONT_3D.png]]
+[[FILE:ER-PWR-01_P1090214-720PX.jpg]]
-== ER-PROTO-01 ==
+== ER-PROTO-01 - Eurorack Prototype card (6 pots, 4 jacks) ==
+[[File:tindie-mediums.png|link=https://www.tindie.com/products/28599/]]
 [[ER-PROTO-01]]
-[[FILE:ER-PROTO-PANEL-01-SET_FRONT_REAR-3D-720px.png]]
+[[FILE:ER-PROTO-01_SET_P1080665-720px.jpg]]
 * Eurorack Prototyping card set
@@ Line 126: / Line 189: @@
 * Front Panel with generic labels
 ** Cover with White on Black P-Touch labels
+=== ER-PROTO-01 - Examples ===
+==== Arduino NANO MOZZI ====
+[[Arduino NANO MOZZI on ER-PROTO-01]]
+[[file:ER-PROTO-01-NANO-MOZZI_P1080687-720PX.jpg]]
+[[file:ER-PROTO-01-NANO-MOZZI_P1080693-720PX.jpg]]
+==== CV4 - 4 Control Voltages ====
+[[ER-CVPOTS4]]
+[[file:ER-PROTO-01-CV4_P1090031-F_B_720px.jpg]]
+==== Noise Generator ====
+[[Noise_Generator_on_ER-PROTO-01|Noise Generator on ER-PROTO-01]]
+[[file:ER-PROTO-01_NOISE_P1080751-720px.jpg]]
+[[file:ER-PROTO-01_NOISE_P1080755-720px.jpg]]
+==== Slew Rate Controller ====
+[[Slew Rate Controller on ER-PROTO-01]]
+== ER-PROTO-02 - Eurorack Prototype card (6 pots, 6 jacks) ==
+[[File:tindie-mediums.png|link=https://www.tindie.com/products/28896/]]
+[[ER-PROTO-02]]
+[[FILE:ER-PROTO-02_SET_P1080833-720pxV.jpg]]
+* Eurorack Prototyping card set
+* 6 HP wide (30mm) front panel
+* 3U tall
+* 0-6 POTS
+** Series resistors on pot wiper
+** All 3 pot pins brought to top header
+* 0-6 Jacks
+* Tip/ring brought to header near bottom
+* Pots on top, jacks on bottom
+** Easier to adjust pots without bumping into pots
+** Pots more often accessed than jacks
+* Large prototyping area
+* +12V, -12V down board edges
+* 5V/GND down center of card
+* Bussed connections horizontally
+* Front Panel with generic labels
+** Cover with White on Black P-Touch labels
+=== ER-PROTO-02 - Examples ===
+Cards built on the PROTO-02 card set
+==== ER-BEZIER-CV ====
+* [[ER-BEZIER-CV]] - Random Control Voltages (CVs)
+[[file:RANDO_P1080937-720px.jpg]]
+==== ER-CV-AMP3 ====
+* [[ER-CV-AMP3]] - Amplify CVs or GATES by 2
+[[file:ER-PROTO-02-CV_AMP_P1080931-720px.jpg]]
+==== ER-DELAY-01 ====
+* [[ER-DELAY-01]] - Echo
+[[file:ER-DELAY-01_FRONT-BACK-720px.jpg]]
+==== ER-DELAY-02 ====
+* [[ER-DELAY-02]] - Echo
+==== ER-GATE-SEQ-01 ====
+* [[ER-GATE-SEQ-01]] - GATE Sequencer
+[[file:ER-GATE-SEQ-01_P1080960-720px.jpg]]
+==== ER-LEDS ====
+* [[ER-LEDS]] - Control a NeoPixel strip
+[[file:ER-LEDS_P1080999-720px.jpg]]
+==== ER-MOZZI-DB - Arduino NANO running MOZZI ====
+[[ER-MOZZI-DB]]
+[[FILE:ER-PROTO-02-MOZZI-DB_P1080850-720PX.jpg]]
+* Daughtercard to [[ER-PROTO-02]] card
+** Uses Front Panel and Controls card
+*** Controls card populated as required
+**** 0-6 Jacks, 0-6 Pots
+* Arduino NANO
+* High Def Sound output
+* Up to 6 Pots connected to A/D inputs
+* Up to 4 input jacks connected to A/D inputs
+* Options
+** 0-4 Pots, 0-4 Input Jacks
+** 5 Pots, 0-3 Input Jacks
+** 6 Pots, 0-2 Input Jacks
+==== ER-MOZZI-DB-03 - Arduino NANO running MOZZI ====
+[[ER-MOZZI-DB-03]]
+[[file:ER-PROTO-02-SET_MOZZI_FRONT-3D_V3.png]]
+==== ER-MOZZI-DRUMS ====
+* [[ER-MOZZI-DRUMS]] - Drums module
+[[file:ER-MOZZI-DRUMS_P1090041-F_B_720PX.jpg]]
+==== ER-SCOPE-01 ====
+* [[ER-SCOPE-01]] - Scope
+[[file:ER-SCOPE-01_Front-Rear-720px.jpg]]
+==== ER-SH-02 - Dual Sample and Hold ====
+[[ER-SH-02]]
+[[file:ER-PROTO-02_S-H_Front-Rear-720px.jpg]]
+==== CV SHIFT on ER-PROTO-02 ====
+[[CV SHIFT on ER-PROTO-02]]
+==== ER-STIX ====
+[[ER-STIX]] - Mutable Instruments Branches "like"
+[[file:ER-STIX_Front-Rear_720PX.jpg]]
+==== ER-USB-MIDI ====
+[[ER-USB-MIDI]] - USB MIDI to TRS A
+[[file:ER-USB-MIDI_P1090014-720PX.jpg]]
+[[File:tindie-mediums.png|link=https://www.tindie.com/products/28610/]]
 == ER-VCA2-01 - 2 Channel Voltage Controlled Amplifier ==
-* [[ER-VCA2-01]]
+[[File:tindie-mediums.png|link=https://www.tindie.com/products/28610/]]
-[[FILE:ER-VCA2-01-CTRLS_REV1_SET-3d-720PX.png]]
+[[ER-VCA2-01]]
+[[FILE:ER-VCA2-01_SET_Front-Rear-720PX.jpg]]
 * Dual VCA
@@ Line 142: / Line 358: @@
 * +/- 12V Power, 10-pin power connector
-== ER-VCF-01 - Voltage Controlled Filter ==
+== ER-VCF-02 - Voltage Controlled Filter ==
-[[ER-VCF-01]]
+[[ER-VCF-02]]
-[[FILE:ER-ER-VCF-01-SET-3D-720PX.png]]
+[[FILE:ER-VCF-02_f-b_720px.jpg]]
 * 3U tall
 * 6 HP (30mm) wide
-* Uses [[ER-PROTO]] Front Panel and controls cards
+* Uses [[ER-PROTO-02]] controls cards
-** Re-label jacks using P-Touch labels
 * [https://github.com/tkilla64/eurorack/blob/main/diode-vcf/VCF.JPG Tommy Killander Design]
 ** Low pass only version of Moritz design
 * [https://www.youtube.com/watch?v=GX_bh88I6nM Video]
-== ER-VCO-03 - Eurorack RP2040 VCO ==
+== ER-VCO-03 - Eurorack VCO using RP2040 CPU ==
+[[File:tindie-mediums.png|link=https://www.tindie.com/products/28598/]]
+[[ER-VCO-03]]
+[[FILE:ER-VCO-03_SET_P1080788-720px.jpg]]
-* [[ER-VCO-03]]
 * Eurorack 6HP
 * (3) Card set
 * Views: Control Panel rear side, Control Panel controls side, Logic card component side, Logic card rear side, Front Panel
-[[FILE:SYNTH-VCO_CTL-01-CARD_SET-3D.png]]
 == Eurorack DIY Panel ==
@@ Line 192: / Line 410: @@
 [[FILE:DUAL_LINEAR_PS_SCHEM.PNG]]
+== HAGIWO Builds ==
+* [https://www.reddit.com/r/synthdiy/search/?q=HAGIWO&restrict_sr=1&sr_nsfw= HAGIWO on Reddit]
+* [https://note.com/solder_state/n/n54e016f19c94 Repository of HAGIWO's DIY Modular Synth Summary]
+* Mapping of Land Boards Synth cards to HAGIWO designs
+** Purpose is re-use of Land Boards card elements for HAGIWO designs
+{| class="wikitable"
+! FUNCTION
+! 3.5MM
+! POTS
+! TOGG
+! PBS
+! ROT
+! DIN5
+! PROCESSING
+! LINK
+|-
+| No. 59 CV Adder
+| 12
+| 0
+| 0
+| 0
+| 0
+| 0
+| NONE
+| https://note.com/solder_state/n/nd040f097cbc2
+|-
+| No. 58 Bezier CV
+| 2
+| 4
+| 0
+| 0
+| 0
+| 0
+| NANO
+| https://note.com/solder_state/n/n39aacefd73a3
+|-
+| No. 57 Strain CV
+|
+|
+|
+|
+|
+|
+|
+| https://note.com/solder_state/n/n79cdb2c458a9
+|-
+| No.56 Sample Drum
+| 3
+| 1
+| 1
+| 0
+| 0
+| 0
+| ESP32C3
+| https://note.com/solder_state/n/n950ed088c3cb
+|-
+| No.55 V2164 Dual VCA
+| 6
+| 6
+| 0
+| 0
+| 0
+| 0
+| NONE
+| https://note.com/solder_state/n/nd82c027d0597
+|-
+| No.54 PT2399 clock sync delay
+| 4
+| 3
+| 1
+| 0
+| 0
+| 0
+| NANO
+| https://note.com/solder_state/n/nf6dc0a61e26d
+|-
+| No.52 Reverse step sequencer
+| 4
+| 8
+| 2
+| 0
+| 0
+| 0
+| CDT7350
+| https://note.com/solder_state/n/n13c49f08ca1f
+|-
+| No.50 LFO/VCO rebuild
+| 2
+| 3
+| 1
+| 0
+| 0
+| 0
+| NANO/AD9833
+| https://note.com/solder_state/n/nd2c22a73e8fe
+|-
+| No.49 Clock Divider
+| 11
+| 0
+| 0
+| 0
+| 0
+| 0
+| TC4040BP
+| https://note.com/solder_state/n/n7979cda44dcb
+|-
+| No. 47 Sample & hold
+| 3
+| 2
+| 1
+| 0
+| 0
+| 0
+| LF398
+| https://note.com/solder_state/n/n29b52f4f01f1
+|-
+| No.46 Dual Envelope generator
+| 4
+| 8
+| 0
+| 0
+| 0
+| 0
+| NANO
+| https://note.com/solder_state/n/n6fb73eb1d8b8
+|-
+| No.45 Diode clip Distortion
+| 2
+| 3
+| 0
+| 0
+| 0
+| 0
+| NONE
+| https://note.com/solder_state/n/n5f35e2e84a3e
+|-
+| No.44 Wave shaper & VCA
+| 2
+| 1
+| 0
+| 0
+| 0
+| 0
+| NONE
+| https://note.com/solder_state/n/nfdc2e198255a
+|-
+| No.43 Envelope Follower
+| 4
+| 3
+| 0
+| 0
+| 0
+| 0
+| NONE
+| https://note.com/solder_state/n/n110e9ba066b3
+|-
+| No.42 PCM drum
+| 6
+| 4
+| 2
+| 1
+| 0
+| 0
+| NSX-1/SAMD
+| https://note.com/solder_state/n/neabe7e014c11
+|-
+| No.40 Voltage controlled switch
+| 8
+| 1
+| 0
+| 1
+| 0
+| 0
+| NJU211
+| https://note.com/solder_state/n/n98883e71f814
+|-
+| No.39 Diode ladder VCF
+| 3
+| 3
+| 0
+| 0
+| 0
+| 0
+| NONE
+| https://note.com/solder_state/n/n598f23105ec4
+|-
+| No.38 Touch controller
+| 5
+| 1
+| 1
+| 4*
+| 0
+| 0
+| NANO/MPR121
+| https://note.com/solder_state/n/ncd42925f726b
+|-
+| No.37 Overflow folding VCO
+| 4
+| 3
+| 0
+| 1
+| 0
+| 0
+| XIAO
+| https://note.com/solder_state/n/nf01e7c92b010
+|-
+| No.36 LM13700 Dual VCA
+| 6
+| 2
+| 0
+| 0
+| 0
+| 0
+| LM13700
+| https://note.com/solder_state/n/n3357199504d8
+|-
+| No.35 CV to MIDI
+| 6
+| 1
+| 0
+| 0
+| 0
+| 1
+| NANO/SSD1306
+| https://note.com/solder_state/n/nb618127f37c9
+|-
+| No.33 Dual Quantizer
+| 7
+| 1
+| 0
+| 0
+| 1
+| 0
+| SAMD/SSD1306
+| https://note.com/solder_state/n/nb8b9a2f212a2
+|-
+| No.32 Spin FV-1 multi FX
+| 5
+| 5
+| 0
+| 0
+| 0
+| 0
+| NANO/FV-1
+| https://note.com/solder_state/n/n1c402a78a0fe
+|-
+| No.31 Ring modulator & wavefold
+| 4
+| 3
+| 0
+| 0
+| 0
+| 0
+| AD633
+| https://note.com/solder_state/n/n9d138d74b39d
+|-
+| No.30 Euclidean rhythm sequencer
+| 7
+| 0
+| 0
+| 1
+| 1
+| 0
+| NANO/SSD1306
+| https://note.com/solder_state/n/n433b32ea6dbc
+|-
+| No.29 SH-101 type sequencer
+| 7
+| 1 TRIM
+| 0
+| 1
+| 1
+| 0
+| SAMD/SSD1306
+| https://note.com/solder_state/n/n80f4baf81226
+|-
+| No.28 DSP multi effector
+| 2
+| 0
+| 0
+| 0
+| 0
+| 0
+| DSP
+| https://note.com/solder_state/n/nd9c984a9ab7a
+|-
+| No.27 5ch mixer
+| 6
+| 6
+| 0
+| 0
+| 0
+| 0
+| NONE
+| https://note.com/solder_state/n/nffc1a33053be
+|-
+| No.26 V2044 VCF
+| 3
+| 3
+| 0
+| 0
+| 0
+| 0
+| V2044 VCF
+| https://note.com/solder_state/n/n0fabdc23fe1e
+|-
+| No.25 Oscillo scope & Spectrum analyzer
+| 3
+| 1
+| 1
+| 0
+| 1
+| 0
+| NANO/SSD1306
+| https://note.com/solder_state/n/n6b4cc8d1c6b9
+|-
+| No.24 V2164 Dual VCA
+| 6
+| 2
+| 0
+| 0
+| 0
+| 0
+| V2164
+| https://note.com/solder_state/n/n14a8be5f7118
+|-
+| No.23 CHORD VCO
+| 4
+| 3
+| 0
+| 0
+| 0
+| 0
+| NANO
+| https://note.com/solder_state/n/n681d2e07e324
+|-
+| No.22 Additive VCO
+| 4
+| 3
+| 0
+| 0
+| 0
+| 0
+| NANO
+| https://note.com/solder_state/n/n30b3a8737b1e
+|-
+| No.20 CV/GATE 8step sequencer
+| 3
+| 8
+| 1
+| 0
+| 0
+| 0
+| CD4022BE /NE555
+| https://note.com/solder_state/n/n4da93d157f26
+|-
+| No.19 FM VCO
+| 4
+| 3
+| 0
+| 0
+| 0
+| 0
+| NANO
+| https://note.com/solder_state/n/n88317851a4c7
+|-
+| No.18 2OSC VCO
+| 3
+| 3
+| 1
+| 0
+| 0
+| 0
+| NANO
+| https://note.com/solder_state/n/n71c67b5aaeca
+|-
+| No.17 Multi mode Envelope generator
+| 2
+| 4
+| 1
+| 0
+| 0
+| 0
+| NANO
+| https://note.com/solder_state/n/n69643b792274
+|-
+| No.16 CV/Gate sequencer & Arpeggiator
+| 5
+| 0
+| 0
+| 1
+| 1
+| 0
+| NANO/SSD1306
+| https://note.com/solder_state/n/n7c2809976698
+|-
+| No.15 TR-808/909 sample player drum
+| 5
+| 0
+| 0
+| 1
+| 0
+| 0
+| SAMD/SSD1306
+| https://note.com/solder_state/n/n0209d16d0d08
+|-
+| No.14 KICK
+| 3
+| 4
+| 0
+| 0
+| 0
+| 0
+| NANO
+| https://note.com/solder_state/n/ne33e32660d50
+|-
+| No.13 Noise & Hi-hat
+| 4
+| 3
+| 0
+| 0
+| 0
+| 0
+| NANO
+| https://note.com/solder_state/n/nf65437f12790
+|-
+| No.12 Clock SYNC LFO
+| 2
+| 4
+| 0
+| 0
+| 0
+| 0
+| NANO
+| https://note.com/solder_state/n/n4c600f2431c3
+|-
+| No.11 MIDI to CV
+| 4
+| 1
+| 0
+| 0
+| 0
+| 1
+| NANO
+| https://note.com/solder_state/n/n17e028497eba
+|-
+| No.10 Gate Burst/Delay
+| 4
+| 2
+| 1
+| 1
+| 0
+| 0
+| NANO
+| https://note.com/solder_state/n/n28b5c43229af
+|-
+| No.9 6ch trigger sequencer
+| 7
+| 0
+| 0
+| 1
+| 1
+| 0
+| NANO/SSD1306
+| https://note.com/solder_state/n/n17c69afd484d
+|-
+| No.8 SX150 VCF
+| 3
+| 2
+| 1
+| 0
+| 0
+| 0
+| NANO/MCP4726
+| https://note.com/solder_state/n/n5136d98930a8
+|-
+| No.7 Quantizer
+| 4
+| 2
+| 1
+| 0
+| 1
+| 0
+| NANO/MCP4726
+| https://note.com/solder_state/n/nde97a0516f03
+|-
+| No.6 Clock multi divide
+| 4
+| 2
+| 1
+| 0
+| 0
+| 0
+| NANO
+| https://note.com/solder_state/n/n8907f2f6e8f5
+|-
+| No.5 Generative sequencer
+| 3
+| 2
+| 1
+| 0
+| 0
+| 0
+| NANO/MCP4911
+| https://note.com/solder_state/n/n8a489f0b857a
+|-
+| No.4 samplar
+| 3
+| 1
+| 1
+| 0
+| 1
+| 0
+| NANO/TF PLAYER
+| https://note.com/solder_state/n/n6057a5256042
+|-
+|}
+== Eurorack Reference Docs ==
+* [https://doepfer.de/home_e.htm Doepfer Eurocard inventor/specs]
+** [https://doepfer.de/a100_man/a100t_e.htm Principles of Voltage Control]
+* [https://www.tigoe.com/pcomp/code/communication/midi/ MIDI Communication]
+* [https://www.perfectcircuit.com/signal/midi-to-cv Creative Control Strategies: MIDI to CV]
+* [https://www.behance.net/gallery/113377671/EuroPi-Making-EuroRack-Affordable EuroPi]
+* [https://reverb.com/news/beginners-guide-to-eurorack-case-basics-oscillators-filters Eurorack Beginners Guide]
+* [https://en.wikipedia.org/wiki/Eurorack Eurorack Wiki page]
+* [https://github.com/clacktronics/AudioJacks KiCad Audio Jack Symbols]
+* [https://www.midisoft.de/ MidiSoft]
+** [https://www.midisoft.de/EuroRackDimensions/EuroRack_Dimensions.html EuroRack Dimensions]
+** [https://www.midisoft.de/EuroRackDimensions/holes.jpg Panel Holes]
+* [https://minimidi.world/#how-trs-midi-works A simplified guide to TRS MIDI]
+* [https://www.midi.org/midi-articles/updated-how-to-make-your-own-3-5mm-mini-stereo-trs-to-midi-5-pin-din-cables How to Make Your Own 3.5mm mini stereo TRS-to-MIDI 5 pin DIN cables]
+* [https://division-6.com/learn/eurorack-power/ Eurorack Power Connectors]
+* [https://www.midi.org/specifications-old/item/midi-din-electrical-specification MIDI Electrical spec]
+* [https://www.facebook.com/groups/403937676290574/ Eurorack Facebook group]
+=== Projects ===
+* [https://github.com/elkayem/midi2cv elkayem midi2cv GitHub page] - Nano based project
+** Arduino MIDI library has '''not''' yet been ported to Pico so will need to use Python
+** Drives 4 CV outputs: Pitch Blend, Control, Note, Velocity
+** This card only drives Note (Voltes/Oct, Mod)
+* [https://github.com/benevpi/PicoPicoSynth PicoPicoSynth]
+* [https://github.com/Deftaudio/Midi-boards Deftaudio GitHub] - KiCad footprints
+* [https://github.com/TomWhitwell/TuringMachine Turing Machine]
+* [https://diyelectromusic.wordpress.com/ Simple DIY Electronic Music Projects] - diyelectromusic
+* [https://github.com/gavD/arduino-drum-machine DIY Hackable Arduino Drum Machine]
+** [https://www.youtube.com/watch?v=4u4Px2gMwGw vIDEO]
+* [https://www.notesandvolts.com/2014/07/build-auduino-granular-synth-part-1.html Build the Auduino Granular Synth]
+* [https://benjiaomodular.com/ Benjie's Synth DIY notes] - Nice docs
+** [https://www.youtube.com/@BenjieJiao/videos Benjie Jiao - DIY Modular Synth Project] - YouTube channel
+* [https://www.reddit.com/r/synthdiy/ REDDIT Synth DIY]
+* [https://github.com/tkilla64/eurorack tkilla64] Nice collection of Eurorack module designs - mostly Gerbers
+* [https://github.com/ScottBillingsley/Philosophy-of-Noise Scott Billingsley Philosophy of Noise] - GitHub Repo
+* [https://github.com/hires/Dintree Andrew Kilpatrick DINTREE GitHub]
+* [https://bgr360.github.io/blog/modular/2018/06/17/mutable-instruments-schematics.html Mutable Instruments Schematic PDFs]
+* [http://musicfromouterspace.com/index.php?MAINTAB=HOME&VPW=1024&VPH=500 Music From Outer Space]
+* Kristian Blåsol's Modular in a week]
+** [https://www.youtube.com/@KristianBlasol Kristian Blåsol's Modular in a week] - YouTube channel
+** [https://www.tindie.com/stores/Sourcery/ Sourcery Studios Tindie Store]
+** [https://discord.com/channels/770322244584210432/802902252720357396 Sourcery Studios Discord channel]
+=== KiCad Libraries ===
+* [https://github.com/benjiaomodular/KiCadLibraries Ben Jiao Modular KiCad Libraries]
+* [http://graybloomfield.com/guitar/synth/ graybloomfield] - Very nice Arduino based designs
+* [https://github.com/wntrblm/winterbloom_kicad_library Winterbloom KiCad Library]
+* [https://blog.thea.codes/raster-vectorization-with-python/ Using Python to vectorize artwork for PCBs]
+=== Daughterboard Heights ===
+* From notes on [https://www.youtube.com/watch?v=HMDGYm91Q1Y How to Make Great Looking Modular Front Panels - Part 3 Module Circuit Board Layout]
+** The absolute maximum of other boards I've seen is 111,5 mm and the TipTop Happy Ending Kit offers a space of 112,5 mm
+* 114.8mm measured between 3U Synthrotek rails
+** 128.5mm - 114.8mm = 13.7mm both sides, 6.875mm per side
+** 111.5mm daughtercard, leaves 8.5mm clearances top/bottom
+=== Part Orientations ===
+* For pots with built-in pointers, pot pins go down for pointer to go up at center (up) point
+=== Front Panel Jacks ===
+* [[Eurorack Panel Jacks]]
+=== Eurorack Vertical Pots ===
+* [[Eurorack Pots]]
+=== Op Amps ===
+* From [https://www.apogeeweb.net/circuitry/TL084-op-amp.html#tl084-vs-tl074 this site]
+** The TL084 Op-Amp is very similar to TL074 but has high noise immunity and better offset characteristics.
+** The TL074 has lower noise figure, so is better for AC signals.
+** The TL084 has lower offset, so is better for DC signals.
+** The TL084 has better DC performance (low offset) and the TL074 has better noise/distortion performance.
+** '''You can use TL074s on the audio paths, TL084s on the control paths.'''
+** [https://www.ti.com/lit/ds/symlink/tl071h.pdf?HQS=dis-mous-null-mousermode-dsf-pf-null-wwe&ts=1666712437480&ref_url=https%253A%252F%252Fwww.mouser.com%252F TL074 Datasheet]
+** [https://www.ti.com/lit/ds/symlink/tl082m.pdf?HQS=dis-mous-null-mousermode-dsf-pf-null-wwe&ts=1666740012859&ref_url=https%253A%252F%252Fwww.mouser.ca%252F TL084 Datasheet]
+* The TL074 is $0.75 in qty 10 ([https://www.mouser.com/ProductDetail/Texas-Instruments/TL074CN?qs=AMJt07B76uv7dLYnj7iLiQ%3D%3D on Mouser])
+* The TL084 is $0.55 in qty 10 ([https://www.mouser.com/ProductDetail/Texas-Instruments/TL084CN?qs=q2XTDbzbm6ANF36GVAxPiQ%3D%3D on Mouser])
+* The [https://www.censtry.com/product/st/tl072n.html TL072] and TL082 are both about the same price as each other, but are more expensive than the quad parts
+=== Module Kits ===
+* [https://www.ericasynths.lv/ Erica Synths]
+** [https://github.com/erica-synths/diy-eurorack Erica Synths DIY GitHub]
+* [https://syntherjack.net/category/project/ SyntherJack] - DIY Synths
+* [https://www.befaco.org/# BEFACO] - Kits
+* [https://store.kassutronics.net/eurorack-diy-c-1/ Kassutronics] DIY Store
+** [https://github.com/kassu/kassutronics Kassutronics] DIY GitHub
+* [https://synthcube.com/cart/music-from-outer-space-en synthCube MFOS PCBs]
+* [https://www.thonk.co.uk/shop/ Thonk Shop] - in UK
+* [https://www.synthrotek.com/ synthrotek]
+* [https://github.com/TomWhitwell/TuringMachine TuringMachine Mark 2]
+==== Erica Synths EDU DIY Sequencer Build Notes ====
+[[FILE:Edu_DIY_SEQ.720PXv.jpg]]
+* [https://www.ericasynths.lv/shop/diy-kits-1/edu-diy-sequencer/ EDU DIY Sequencer]
+* Assembly drawing unreadable line weights when printed out
+** Needed to zoom way in on PC to PDF
+* Ref des of parts not in any particular order
+** A break-out drawing pointing to Find Numbers would help a lot
+* No real PL
+** What is called a PL does not list ref des
+* BC548 in design. BC547 was shipped
+** BC547 is a better spec part (same function, higher voltage version)
+* Transistors pad sizes way too small
+* Resistor holes are very big compared to 1/4W lead diameters
+* Getting to the legs of the LEDs was challenging
+** Soldering was not trivial but was the least of the challenges
+** Trimming the legs near the transistor was scary
+** Could not cut one low due to nearby parts
+* Toggle switch has very large holes that make alignment of the switches very difficult
+* Clock In voltage needs to meet CD4000 expected level ~70% of Vcc or about 8V
+** My 5V clock didn't work
+*** Replacing the clock unity gain with a comparator might be a good choice, but would create a 12V clock out from a 5V in clock
+* Trimmer 2K was 2K5
+* Unable to get trim all the way to 5V or 2.5V
+** [https://youtu.be/xKalof-7tlE?t=460 Video has same issue] but just w/ 5V
+** Probably not a big issue and might just be "safer"
+** Got closer to the 2.5V position
+* Switches don't turn off the CV, they just shut off the gate
+** Need an Envelope Generator to test
+* Holes to mount in rack are round - slotted would be better possibly
+* All in all, good value for the money
+<video type="youtube">xKalof-7tlE</video>
+==== Braids Throughhole version of the Mutable Instruments Braids ====
+* [[Through-hole Braids]]
+[[file:Braids-P1090147-720pxV.jpg]]
+==== Sorcery Studios Beaks, a throughhole PWM version of MI Peaks ====
+* [[Beaks Through Hole Peaks]]
+[[file:Beaks_P1080894-720px.jpg]]
+==== Sorcery Studios POW - Power Module ====
+* [https://www.tindie.com/products/Sourcery/pow-modular-power-panel/ POW - Modular Power Panel] - Tindie page
+[[file:POW_front_rear720px.jpg]]
+<video type="youtube">fqp602L9OBc</video>
+==== Sorcery Studios GRIS - Drum Controller ====
+* [[GRIS - Through-hole GRIDS]]
+[[file:GRIS_P10366-720pxV.jpg]]
+=== Software ===
+* [https://docs.circuitpython.org/projects/midi/en/latest/api.html adafruit_midi CircuitPython API]
+** [https://github.com/adafruit/Adafruit_CircuitPython_MIDI/tree/main/examples Example code]
+* [https://learn.adafruit.com/raspberry-pi-pico-led-arcade-button-midi-controller-fighter/coding-the-raspberry-pi-pico-midi-controller MIDI Controller in Python]
+* [https://learn.adafruit.com/qt-py-rp2040-usb-to-serial-midi-friends/coding-the-qt-py-rp2040-usb-to-serial-midi-friends USB to Serial MIDI]
+* [http://www.midieditor.org/ MidiEditor]
+* [https://hello-world.blog.ss-blog.jp/2016-10-16 Convert binary files to C data arrays (Arduino)] - In Japanese
+* [https://github.com/AntumDeluge/bin2header Binary to C Array]
+* [https://sensorium.github.io/Mozzi/ Arduino Mozzi Library]
+* [https://github.com/marcel-licence/esp32_basic_synth esp32_basic_synth]
+* [https://github.com/marcel-licence/esp32_usb_midi esp32_usb_midi]
+* [https://github.com/FortySevenEffects/arduino_midi_library arduino_midi_library]
+* [https://github.com/rppicomidi/midi2usbhost Pico MIDI Host to MIDI UART Adapter]
+=== Hardware/Parts ===
+* [https://store.synthrotek.com/ Synthrotek Store]
+* [https://www.thonk.co.uk/shop/thonkiconn/ THONKICONN – 3.5MM JACK SOCKETS]
+* Potentiometers are usually marked with an "A" for logarithmic taper or a "B" for linear taper;
+* [https://www.mouser.com/c/passive-components/potentiometers-trimmers-rheostats/potentiometers/?q=RV09AF&orientation=Vertical RV09AF vertical mount is Alpha pot] part number
+* [https://www.tubesandmore.com/products/potentiometer-song-huei-linear-9mm-tall 9mm Pots]
+* [https://www.taydaelectronics.com/hardware/3-5mm-plugs-jacks.html Tayda 3.5mm Jacks and stuff]
+=== Samples ===
+* [https://samplefocus.com/tag/drums Drum Samples]
+== Box Build ==
+=== Box Version 2 ===
+[[Eurorack Box Build V2]]
+[[file:Box_6U_104HP_P1143-720px.jpg]]
+* 104 HP
+* Two 3U rows
+* 1/2" Cherry
+* Spar varnish finish
+=== Box Version 1 ===
+[[Eurorack Box Build]]
+[[file:Eurorack_Plywood_Box_02_cropped-720px.jpg]]
+* 3/4" Red Oak plywood
+* Spar varnish finish (no finished in photo)
+* 84HP
+* Single 3U
+== Videos ==
+* Hooking together modules
+<video type="youtube">J0iUN2B4aBQ</video>
+<video type="youtube">UOQezMJ560o</video>

Difference between revisions of "Eurorack Synth Modules"

Latest revision as of 06:12, 18 July 2023

Contents

Overview

ER-ADSR-555-01 - Eurorack ADSR Envelope Generator Module

ER-CV-POTS-5 - Eurorack Control Voltage Pots

ER-MIDI-CV4-02 - Eurorack 4X CV Module

ER-MIDI-THRU - Eurorack MIDI Thru

ER-MIXER5-01 - Eurorack 5 Channel Mixer

ER-MIXER5-02 - Eurorack 5 Channel Mixer

ER-MULTS-01

ER-MULTS-02

ER-PWR-01

ER-PROTO-01 - Eurorack Prototype card (6 pots, 4 jacks)

ER-PROTO-01 - Examples

Arduino NANO MOZZI

CV4 - 4 Control Voltages

Noise Generator

Slew Rate Controller

ER-PROTO-02 - Eurorack Prototype card (6 pots, 6 jacks)

ER-PROTO-02 - Examples

ER-BEZIER-CV

ER-CV-AMP3

ER-DELAY-01

ER-DELAY-02

ER-GATE-SEQ-01

ER-LEDS

ER-MOZZI-DB - Arduino NANO running MOZZI

ER-MOZZI-DB-03 - Arduino NANO running MOZZI

ER-MOZZI-DRUMS

ER-SCOPE-01

ER-SH-02 - Dual Sample and Hold

CV SHIFT on ER-PROTO-02

ER-STIX

ER-USB-MIDI

ER-VCA2-01 - 2 Channel Voltage Controlled Amplifier

ER-VCF-02 - Voltage Controlled Filter

ER-VCO-03 - Eurorack VCO using RP2040 CPU

Eurorack DIY Panel

Eurorack +/- 12V Power Supply

HAGIWO Builds

Eurorack Reference Docs

Projects

KiCad Libraries

Daughterboard Heights

Part Orientations

Front Panel Jacks

Eurorack Vertical Pots

Op Amps

Module Kits

Erica Synths EDU DIY Sequencer Build Notes

Braids Throughhole version of the Mutable Instruments Braids

Sorcery Studios Beaks, a throughhole PWM version of MI Peaks

Sorcery Studios POW - Power Module

Sorcery Studios GRIS - Drum Controller

Software

Hardware/Parts

Samples

Box Build

Box Version 2

Box Version 1

Videos

Navigation menu

Search