Thursday, 30 July 2020

Roland TR-8 Drum machine - MIDI trigger - Arturia Keystep Pro

 Some experiments triggering the Roland TR 8 Drum machine with an Arturia Keystep Pro
These basic notes should still work with most midi sequencers.

I re installed the factory settings of the Key step pro to firmware ver 2.01
Without changing any midi settings the TR8 & Keystep worked fine.
 
 

 The TR-8's default MIDI channel is 10

The Keystep's drum sequencer default midi channel is also 10

There are 11 sounds on the TR-8
1. C2    : Bass Drum      (35,36)* 
2. C#2    : Rim Shot             (37)*
3. D2    : Snare Drum 1       (38,40)*
4. D#2    : Handclap - HC        (39)*
5. F#2    : Hi Hat Closed - CH     (42)*
6. G2    : Low Tom              (43)**
7. A#2   : Hi Hat Open -OH -     (46)*
8. B2    : Mid Tom               (47) *
9. C#3    : Crash Cymbal            (49)*
10. D3    : Hi Tom                   (50)**
11. D#3    : Ride Cymbal   (RC)   (51)*


If you use the custom drum map assignments in Arturia's  MIDI Control Centre you should be able
to trigger all the instruments of the Roland Tr-8

----------------------------------------------------

The Roland TR-08
has a very similar MIDI implimentation

It's MIDI notes are:

1. C2    : Bass Drum      (35,36)*
2. C#2    : Rim Shot             (37)*
3. D2    : Snare Drum       (38,40)
4. D#2    : Handclap - HC        (39)*
5. F#2    : Hi Hat Closed - CH     (42,44)*
6. G2    : Low Tom              (43)*
7. A#2   : Hi Hat Open -OH -     (46)*
8. B2    : Mid Tom               (47)*
9. C#3    : Cymbal            (49)*
10. D3    : Hi Tom                   (50)*
11. G#3    : cow bell (56) 
12:             High Conga (62)
13:             Mid Conga (63)
14:             LOW Conga (64)
15:              Maracas (70)
16:             Claves (75)

Thursday, 16 July 2020

Midi2CV - Hexinverter - build pics

This is an old set of PCBs i had in storage.


It's a midi to CV converter module from Hexinverter.
This looks ideal ... sadly discontinued.

It's called the ACX synth
 Designed by Alan Coupel
8HP - size
There is no panel, so I'll need to make my own.


4 channel CV/Gate


There  are 3 PCBs... two logic boards & one controller board.

I'm not affiliated with Hexinverter. These are my personal build notes to help with troubleshooting






----------------
Board 2






Alternatives for midi 2 cv modules are plenty .
Yarns from Mutable Instruments is a logical choice.
I think 4 CV/Gates are ideal.



tHE PIC microcontroller










Width:8HP| Depth:55mmApproximate current draw@ 12V:+80mA, -15mACV output range:0 to 10VGate/Trig outputs:0 to 5V


Links
+ Hexinverter Midi2CV
+ Hexinverter BOM
+ Microcontroller Index Page
+ Midimplant
+ Midisizer

-----------------------------------------------------------------------------------------------
For more Euro DIY builds click here:
http://djjondent.blogspot.com.au/2017/12/diy-index.html
-------------------------------------------------------------------------------------------------

Roland SE 02 - Initialize & Fat Bass Patch

This initialise patch is good for most Moog like synths without presets.
Works for the Mini-Moog Model D too.

I'm using a SE-02 (my preset 101)



It's a basic single oscillator saw tooth patch.
 Sounds like this:


AND



Starting from left to right.

Glide = 0

Osc 1
Range  = 16'
Tune = 0
Waveform = saw (ramp up)

Osc 2
Range  = 16'
Tune = 0
Waveform = saw

Osc 3
Range  = 16'
Tune = 0
Waveform = saw

XMod = all zero

Mixer for Osc 1 = 10
Mixer for Osc 2 = 0
Mixer for Osc 3 = 0

Feedback & noise = 0
Filter
Cutoff = 2 - 4 (open)
Emphasis = 0
Contour = 0
attack =0, decay = 0, sustain = 10

Amp
attack =0, decay = 0, sustain = 10

 --------------------------------------------------------------------------------------------------------
Moog synths are famous for their "fattness".
It's hard to put a finger on it.
I think its all about the Ladder Filter & the Oscillators.... not individually,
but in combination. (and it's not just 2 detuned oscillators).
Other synths have these too, but there is something special about a Moog synth.
The SE 02, though not from Moog, sounds pretty darn close.

 To make a fat Bass sound (My preset 102):


Glide = 0

Osc 1
Range  = 32'
Tune = 0
Waveform = saw (ramp up)

Osc 2
Range  = 32'
Tune = 0
Waveform = saw

Osc 3
Range  = 32'
Tune = 0
Waveform = Pulse (25%)

XMod = all zero

Mixer for Osc 1 = 10
Mixer for Osc 2 = 8
Mixer for Osc 3 = 3 - 9 ( I like 5)


Feedback = add just a little (3)
                   Raise the main volume up to make the feedback more prominent.
noise = 1 to 2 (just add a little noise)

Filter
Cutoff = 0 - 3 (open)
Emphasis = 0 - 3
Contour =  5
                (increase if you want more "snap" in the attack)
attack = 0 to 10ms , decay = 0 to 250 ms , sustain = 5 - 10

Amp
attack =0, decay = 600ms , sustain =8

 Sounds like this:

Synth panel designer

This looks useful, and its free too.

Rolling your own synthesizer panels is getting easier.



Synthpanel designer (SPD)
https://synthpanels.design/

User manual
https://docs.google.com/document/d/1KR6M1_s8He04fjyAf2Q0zOZF6PMyT0YhIDNOI8MRJcQ/edit


You will need inkscape to run synthpanel designer

 SPD is an extension for the INKSCAPE 1.0 open source vector graphics software for MacOS, Linux and Windows.

Inkscape download
https://inkscape.org/release/inkscape-1.0/windows/64-bit/exe/dl/


Open Inkscape.
Put the following files here
Preferences > System: User extensions





. After a restart of Inkscape, the new extension will be available under the menu EXTENSIONS -> RENDER -> Synth Panels Designer.

Inkscape is a vector graphics program.
Looks very useful to learn this software.

Italy 1995 - journal - drawings etc

These are some old journal drawings -- when i was younger and had more time to "smell the flowers"

Italy.
Florence.. etc






FISOLE






padova





St Marks Venice


tHE horses of St Marks

Tuesday, 7 July 2020

Happy TR-707 day

This drum is digital.
Built by Roland around 1984/85.



The sounds are 12 bit but its a great sounding machine.
The TR-707 has 10 voices.
# Bass Drum, Snare Drum, Low Tom, Mid Tom, Hi Tom, Rimshot, Cowbell, Hand Clap, Tambourine, Hi-Hat (Closed or Open), Cymbal (Crash or Ride)
Used a lot in Acid House.

It's part of the venerable line of Drum machines bearing the TR (Transistor Rhythm) name.
These included the TR-808 from 1980 & the TR-909 from 1983.

It's a very underrated piece of kit,
Just 5 years ago you could pick these up on ebay for around the $600AUD price.
It's now about $1000AUD.
It has lots of the sounds of the 909. I love it's matrix display & it is a great way to connect midi & din gear. The Rimshot can also trigger hardware that accepts a voltage pulse

64 programmable patterns, which are editable via step-write or tap-write

The TR-505 contains a subset of samples selected from the Tr 707 and 727. 

The videos below are of a modified TR-727
... the latin version of the 707

and


View this post on Instagram

A post shared by jono (@dj_jondent) on
----------------


+ Roland Drum Machine Timeline
+ Programming a TR 707

Sunday, 5 July 2020

Programmers for Microcontrollers

 ST-Link/v2
 
 
This is designed for the STM8 and STM32 microcontrollers.
 
 It has:
1. single-wire interface module (SWIM) 
2. JTAG/serial wire debugging (SWD) interfaces
 
STM32 applications use the USB full-speed interface to communicate with 
the STM32CubeIDE software tool or with integrated development environments from third-parties.  
-------------------------------------------------------------------
 
 Silicon Labs
http://www.silabs.com

DEBUGADPTR1-USB

 UDA-32-KIT 
 
 The attached 10 pin debug ribbon cable connects the adapter to the target board and the target device's debug interface signals. Power is provided to the adaptor from the USB connection to the PC.
 
This USB debug adapter supports only SiM3xxxx variants of the Silicon Labs 32-bit MCU portfolio and none of the other
devices that can be referred to as “Silicon Labs 32-bit MCUs”, including EFM32, EZR32, and EFR32 devices.
 
I used this for updating firmware on my Buchla 225e module

The 32-Bit USB Debug Adapter supports both JTAG and Serial Wire debug interfaces, and the adapter is powered
from the USB connection to the PC. The adapter uses the standard ARM CoreSight 10-pin connector.
 
 Software Setup using a USB Debug Adapter
The Silicon Laboratories Precision32 IDE along with other software tools are provided for device development and debugging.  
The IDE is available for download from the Silicon Laboratories website (www.silabs.com/
mcudownloads)
 
----------------------------------------------------------
 
OLIMEX 
DEvelopment Board
AVR ISP Mk-2
 

ATAVRISP2 COMPATIBLE PROGRAMMER
AVR® series Programmer (In-Circuit/In-System)
 
User manual
 
Tested and working with: AVR Studio 4; AVR Studio 5; Atmel Studio 6; Atmel Studio 7
 
Tested and working with AVRDUDE and Arduino Ide
 
Uses Atmel's 2×5 pin ICSP and 2×3 pin PDI and TPI connector layout
 
can program tinyAVR and megaAVR devices using the ISP Interface, tinyAVR
devices using the TPI interface, and AVR XMEGA devices using the PDI Interface
 
  
AVR-ISP-MK2 is a ready-to-use programmer that behaves like Atmel AVRISP mkII. The board is
suitable for programming microcontrollers that, according to their respective datasheets, have ISP,
PDI, or TPI interfaces available for programming
 

 
Links
 
 

Friday, 3 July 2020

Synthesizer Logic Modules - The 7 gates

Logic gates are great ways to create interesting rhythms or combine triggers from various sequencers.
Recently I've been using them to trigger drum modules.
Some logic gates also work at audio ranges.
There are 7 basic gates: OR, XOR, AND, NOT (inverter), NOR, XNOR, & NAND.

To make things even simplier, the 3 basic fundamental gates are OR, XOR, AND.
They use the inverter (NOT) to make NOR, XNOR, & NAND.
 
One final grouping of gates is what is known as Universal Gates
A universal gate is a gate which can implement any Boolean function without need
to use any other gate type.  
The NAND and NOR gates are universal gates.
These 2 gates are the basic gates used in all IC digital logic families. 

--------------------


OR gates
Output a high signal whenever one or more of its inputs are high.
Useful if you wish to combine several gate signals into one.

You can use this instead of a mixer or multiple.




 In1 In2 Out
 0         0 0
 1 0 1
 0 1 1
 1 1 1


XOR Gate (Exclusive OR gate)
Will only output a high signal when one input is high and the other is low.
It allows the signals to pass Except when they happen simultaneously.
It's like when 2 people try to squeeze through a narrow door at the same time.
(use this for your two snare drums - to prevent them triggering simultaneously)




 In1 In2 Out
 0         0 0
01 1
 1 0 1
 1 1 0

AND gate
Outs a high signal when all its inputs are high.
(If only one input is high it will output a low signal)




 In1 In2 Out
 0         0 0
 1 0 0
 0 1 0
 1 1 1


NOT gate
The above 3 gates are available as inverted versions (N = not):




 In Out
 1 0
 0 1


OR -----> NOR
XOR -----> XNOR
AND-------> NAND

NOR Gate
This is a OR gate followed by and inverter.
This is quite a useful gate to have, as it's possible to build the other basic logic gates
using only NOR gates.




 In1 In2 Out
 0         01
 0 1 0
 1 0 0
 1 1 0

Its output is "true" if both inputs are "false." Otherwise, the output is "false."

XNOR
This is a XOR gate followed by an inverter




 In1 In2 Out
 0         01
 0 1 0
 1 0 0
 1 1 1


NAND Gate
This is a AND gate followed by an inverter




 In1 In2 Out
 0         0 1
 0 1 1
 1 0 1
 1 1 0

-----------------------------------------------------------------------

For most Eurorack modules:
Low signal = 0V to 1V (usually)
High signal = greater than 1V to 5V (Usually)

Many logic modules respond to continuous CVs like LFOs .
They are reading the CV as a high gate when it exceeds 1V (usually) and a low gate when it is below.
So they can be used as comparators with a fixed threshold.

The logic synth modules you can buy or build will either use discrete diodes, transistors & resistors,
or use integrated circuit chips. TTL and CMOS are the most common types of ICs.
TTL IC’s may often be labeled as the 7400 series.
CMOS ICs are commonly marked as 4000 series.


Eurorack Logic Modules
+ Elby ED132 - Boolean Logic (Also a Serge Version)
+ Erica Synths - Pico Logic
+ Mystic Circuits ANA
+ Intellijel OR, Plog, Spock , uMod II
+ AniModule  LogicOgic, XX_OR
+ 2HP - Logic
+ Mutable Instruments - Kinks (OR & AND gate)
+ Doepfer A-166 (Dual Logic Module) .... AND, OR & NOR, plus two inverters.
+ NLC - Bools, Neuron, Chopper, 8 bit cypher,
+ CGS Funky Drummer
+ CGS Boolean Logic
+ EMW Logic 101, Logic 202
+Wiard /Malekko - JAG
+ Snazzy FX Ardcore
+ Synthrotek - Either-OR Eurorack OR Module
+ Pittsburgh Modular - Logic Banks
+ Analog Ordnance - Logiplex, OR gate,
+ Ladik B-010 Bool2, B-020 Bool3,
+ Circuit Abbey - ANDY, ORY, XORY, VERTY
+ Synth Cube Dual Logic
+ LZX - Castle 100, Castle 101
+ Pulp Logic (1U tiles) -Logical AND, OR, Diode-OR, XOR


Plog - Intelligel
This has AND, OR, NOR, XOR, NAND, and XNOR gates
RYO
NOT, XNOR, NOR, OR, NAND, AND


Links