The Ultimate Audio Converter
Intro: The Ultimate Audio Converter
I always find myself wanting to convert between mono and stereo and 1/8" and 1/4" jacks and never seem to have the right adapter on hand. The other day I was making two separate adapters for two separate conversion tasks when I had the sudden brainstorm to make a panel with every single mono to stereo and 1/8" to 1/4" conversion path I could reasonably think of. And with that in mind I bring you the ultimate audio converter.
It can convert from 1/8" or 1/4" stereo to either 1/8" or 1/4" mono (with the option to change jack sizes between channels). It can do simple conversion from 1/8" to 1/4" in mono and stereo. It can even split a mono signal into a stereo signal (again, with fully selectable 1/8" and 1/4" conversion options).
It is my hope that I will never need to make another converter again!
Well... until I need two of the same kind.
It can convert from 1/8" or 1/4" stereo to either 1/8" or 1/4" mono (with the option to change jack sizes between channels). It can do simple conversion from 1/8" to 1/4" in mono and stereo. It can even split a mono signal into a stereo signal (again, with fully selectable 1/8" and 1/4" conversion options).
It is my hope that I will never need to make another converter again!
Well... until I need two of the same kind.
STEP 1: Go Get Stuff
You will need:
A 14" x 12" sheet of white acrylic.
An awesome Epilog laser cutter
Red and blue acrylic paint
A paintbrush, water cup and palette
A heat gun
Heat protective work gloves
An 18" metal extrusion
Table clamps
A ruler
A drill with a 1/4" bit
(x2) 3" carriage bolts
(x2) 1/4" nuts
(x2) rubber stoppers
(x6) 1/4" mono jacks
(x3) 1/4" stereo jacks
(x6) 1/8" mono jacks
(x3) 1/8" stereo jacks
(x4) SPDT rocker switches
A DPDT slide switch
Hookup wire
A soldering setup
If you don't have a laser cutter, you can use a service like Ponoko
A 14" x 12" sheet of white acrylic.
An awesome Epilog laser cutter
Red and blue acrylic paint
A paintbrush, water cup and palette
A heat gun
Heat protective work gloves
An 18" metal extrusion
Table clamps
A ruler
A drill with a 1/4" bit
(x2) 3" carriage bolts
(x2) 1/4" nuts
(x2) rubber stoppers
(x6) 1/4" mono jacks
(x3) 1/4" stereo jacks
(x6) 1/8" mono jacks
(x3) 1/8" stereo jacks
(x4) SPDT rocker switches
A DPDT slide switch
Hookup wire
A soldering setup
If you don't have a laser cutter, you can use a service like Ponoko
STEP 2: Laser Cutter - the Tool of the Future
First you will need to cut up your acrylic.
Using the files below, first make a raster cut with the following settings:
Speed: 100
Power: 100
DPI: 600
Then make a vector cut with the following settings:
Speed: 10
Power: 100
Frequency: 5000
Using the files below, first make a raster cut with the following settings:
Speed: 100
Power: 100
DPI: 600
Then make a vector cut with the following settings:
Speed: 10
Power: 100
Frequency: 5000
STEP 3: Paint
Neatly paint in the part that was etched away with dark purple paint. For an added touch of class, also paint around the outside edge.
Place it elevated and flat so that the edges don't touch anything and you can pick it up from underneath if need be. I balanced mine on top of my water cup.
Wait for it to fully dry and then peel away the protective coating.
Place it elevated and flat so that the edges don't touch anything and you can pick it up from underneath if need be. I balanced mine on top of my water cup.
Wait for it to fully dry and then peel away the protective coating.
STEP 4: Bend
Using your table clamps and the piece of metal extrusion, clamp the board to your heat resistant table such that 6" of the board is sticking off the end as shown. Make sure that measurement is even on both sides.
Put on your work gloves. Heat up across the joint (where the board is clamped) until it starts to visibly start to droop a little. Hold the part of the acrylic farthest from the heated edge (the coolest part) and gently and evenly start to bend the entire panel down. Continue bending until the panel is at around 45 to 60 degrees.
Hold it in place until it starts to cool and stiffen and then unfasten it.
Put on your work gloves. Heat up across the joint (where the board is clamped) until it starts to visibly start to droop a little. Hold the part of the acrylic farthest from the heated edge (the coolest part) and gently and evenly start to bend the entire panel down. Continue bending until the panel is at around 45 to 60 degrees.
Hold it in place until it starts to cool and stiffen and then unfasten it.
STEP 5: Install a Stand
Clamp the rubber stoppers in place and then drill a 1/4" hole into the top of the stopper such that it goes most of the way through.
Install your carriage bolts into the top corners of the board, fasten them tightly with 1/4" nuts and then screw the rubber stoppers onto the bottom.
Install your carriage bolts into the top corners of the board, fasten them tightly with 1/4" nuts and then screw the rubber stoppers onto the bottom.
STEP 6: Jack It
Install all of your jacks as they are labeled on the front side of the board.
This means, removing the nut from the threading, pushing the threading through from the backside and then refastening the nut. Easy!
This means, removing the nut from the threading, pushing the threading through from the backside and then refastening the nut. Easy!
STEP 7: Wire It Up
Place your board face down on a piece of felt or an unloved t-shirt.
Wire it up using the following schematic.
Unlike me, be careful to pay attention while you do it so that you don't wire everything wrong and realize halfway that you have to redo all your work.
One you are done soldering, you are ready to start converting.
Wire it up using the following schematic.
Unlike me, be careful to pay attention while you do it so that you don't wire everything wrong and realize halfway that you have to redo all your work.
One you are done soldering, you are ready to start converting.
43 Comments
n0ukf 14 years ago
randofo 14 years ago
Or, you could possibly hack this with a power drill, a dremel and some screen printing.
clazman 11 years ago
phant0m_sp00f3ra 14 years ago
KaydenST 11 years ago
deafmonkey 12 years ago
feed a thin copper wire across the terminal to form a bridge to tie in your resistors assuming you are staying passive
building_boy 12 years ago
ARJOON 12 years ago
interactive3 14 years ago
randofo 14 years ago
hintss 13 years ago
mattthegamer463 14 years ago
dragonfly_blue 13 years ago
woodswalker77 13 years ago
randofo 14 years ago
Sound Guy Andy 14 years ago
The circuitry need not be complex, an appropriately rated resistor (470-600 R or so works nicely) ) in line with each channel before they're tied together is all you really need (if you want to get fancy, a 10k shunt from the summed point to signal ground is nice, but not strictly necessary).
See this article for a more detailed explanation and example circuits:
http://www.rane.com/note109.html
spytech128 14 years ago
clintsmithgsm 14 years ago
3BlindMice 14 years ago
Davidl3 14 years ago