Showing posts with label DIY. Show all posts
Showing posts with label DIY. Show all posts

Tuesday, 6 February 2018

ARSEq - NLC - Build notes

These are my build notes for the ARSEq. It's a Nonlinearcircuits module in Eurorack format.
 ARSEq ( =Attack Release SEquencer). Its a hybrid sequencer and AR envelope generator.

The thing that makes this special and unique is that the envelope needs 2 clock signals to work.. one to start the attack and the next to start the release.
There are 4 clocked envelopes.


NLC words of wisdom.








--------------------
When installing the pots, you will need to decide how snappy you want the envelopes to be,
Andrew suggests the best setup is
100k pots for Attack and 1MA pots for Release.
The 100K pots are type B, linear taper.
jACKS , LEDs and pots.
The underside.
Nice one andrew



Notes:
+ NLC BOM & Build notes
+ NLC Blog notes

-----------------------------------------------------------------------------------
You can find more NLC builds here.
---------------------------------------------------------------------------------------

Sunday, 4 February 2018

Divide & Conquer - NLC - Build notes.

These are my build notes for the Nonlinearcircuits eurorack Divide & conquer module.
Obviously this is a clock divider.

4 different dividers:
1. /2, /4, /8, /16, /32, /64, /128, /256
2. /1.5, /3
3. /2.5, /5
4. /3.5, /7
 Its super flexible as you can patch outputs into inputs to get crazy divisions.

 Some NLC words of wisdom
Broke Down Engine and Other Troubles with Machines. This is a book by Ron Goulart.
 "Thirteen wry and terrifying tales of homo mechanicus (what we are becoming) versus the machines we have created." 1971.
I haven't read this, but it sounds a bit like The Terminator.
La Grande Bouffe is a 1973 French–Italian film directed by Marco Ferreri. "The film centers on a group of friends who plan to eat themselves to death. It satirizes consumerism and the decadence of the bourgeoisie." Wikipedia.

 ======================
Back to the build.
The CMOS chips you will need are: 4013, 4024, 4070.
They are all SOIC format.

CD 4024


The second from the left is the CD4070

I don't have any 4013s so I've ordered these:
Mouser No:
Mfr. No:CD4013BM96G4
Mfr.:Texas Instruments
Flip-Flops CMOS Dual D-Type Flip Flop
----------------------------------------------------------------------

I used 810 Ohm resistors for the LED resistors.

I ended up using these.

These rectifiers are for protection only .. against plugging the module in backwards.

If you are building lots of the NLC modules, buy these diodes in bulk. Andrew uses these in almost every project.


Soldering the headers.

I use standard 40pin male/female headers. The are cheap as chips on ebay. Cut them to size.

Jacks

The LEDs before soldering. Solder them only after you have secured the panel.
Ready to put it all together




Yes it lights up like a Christmas tree. That's a good sign.

Links:
+ NLC Build notes & BOM
+NLC Wiki
+ CMOS & Lunetta synths

--------------------------------------------------------------------------------------------------- Click here to return to the NLC Build Index: http://djjondent.blogspot.com.au/2015/03/non-linear-circuits-ncl-index.html  

Monday, 29 January 2018

Sly Grogan - NLC - Build notes

These are my build notes for the nonlinearcircuits Sly Grogan.
Its a envelope generator Eurorack module based on a design in Electronotes #86.

Some pick of the virgin PCB & panel

Get those ICs on first.

-------------------------------------
On Order:
Mouser No:
Mfr. No:
BZX79B2V7
Mfr.: Taiwan Semiconductor
Zener Diodes 2.7 Volt
 ----------------------------------

 The SMD version of the 4148
 Almost there, just waiting on some parts.
 Japanese slang term meaning "butt poke".

While waiting for those components do contemplate the ancient Japanese Art of Kancho.

The 2.7 V zener diode

The 100k trimmer







I used a 820 ohm resistor for the LED resistor. -----------------------------------------
Links
+ NLC Wicki
+ NLC Build notes & BOM
+ NLC Template



---------------------------------------------------------------------------------------------------
Click here to return to the NLC Build Index:
http://djjondent.blogspot.com.au/2015/03/non-linear-circuits-ncl-index.html