The end result is a constant fade up and fade down just like a Mac on standby.
Try it! See how small you can build it.
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Step 1: Gather Tool and Components
470 ohm resistor (or a resistor to drop the current for your desired led from around 8 volts.)
33k resistor ( or a 100k potentiometer for adjustable fade times)
LED ( I used Blue)
Generic NPN Transistor
Copper clad board. breadboard, or project board.
Dremel or other rotary tool for drilling
1/32" drill bit for wires
Cutting wheel or tin snips if necessary to trim board down
Scotchbrite pad or fine sandpaper. ( I used sandpaper because it happened to be there)
Muriatic Acid (concrete cleaner or pool chemical) Home Depot and other hardware stores have it.
Hydrogen Peroxide (standard wound cleaner) Found in drugstores, grocery stores, you probably have some at home.
Latex or Nitrile Gloves
Acetone to clean ink off of board after etch.
Outdoors area to etch in
Plastic or glass container to put etchants in.
Helping Hands clamp with magnifying glass (nice to have a third hand)
I've included the files for Express PCB software. Free download.
Step 2: Breadboard it
Pin 1- To Ground
Pin 2- Jumper to Pin 6, Jumper to Base of NPN
Pin 3- 33k resistor to base of NPN
Pin 4- Jumper to Pin 8
Pin 5- NC
Pin 6-Jumper to Pin 2
Pin 8-Jumper to Pin 4, Connected to Positive voltage
Emitter of NPN to 470ohm resistor to LED
Base of NPN to + side of cap, then ground - side
Collector of NPN to + voltage
Step 3: Getting Started
I used a dremel and a 1/32" bit and hand drilled them. As long as you're careful and make sure you aren't driling at an angle, you can hand drill your holes contrary to popular belief.
I knew I'd be making more of these so I took an old broken jewel case from a CD and used it as a drilling template.
Once you have the schematic and your traces routed, transfer or draw it on the board. I used the drawing method due to the simplicity of the circuit. For a more complex circuit or for a more streamlined process, you might look into the toner transfer method. Anything you draw on the copper will not be dissolved by the acid. I drew the traces and then filled all of the "dead space" with more ink. This was to speed up the etching process. The more copper you're etching, the longer the etch takes.
Once you're all inked up, step outside with our acid and our peroxide.
Step 4: Let's Get Etching
Grab some gloves and put them on or risk chemical burns. I've splashed it on myself and it does burn.
Mix around two parts peroxide to one part acid into your container. Always add the acid to the peroxide and pour the acid down the side of the container instead of splashing it into the middle. This should cut down/eliminate splashing. Drop the board in and lightly agitate the fluid around the board by swirling it. This step is not necessary but it will cut down on etching time. This particular etch took less than two minutes. The container will get hot so be very careful. Grab yourself a plastic fork to manipulate the board and a small container of water to dunk the finished board in upon completion.
Step 5: Clean Up the Etched Board
At this point you can resand/scrub the board if you want to clean it further and bring back that shine. It will oxidize again so don't spend too much time on it.
Step 6: Let's Solder
The 100uf Capacitor
470 ohm Resistor
NPN Transistor (PNP will not work)
Our freshly etched board
The rest is easy. Place components making sure to keep polarity in mind. The top left pin with the circle next to it is pin one on the 555 timer. Both the capacitor and the LED have one long lead and one short lead. The long lead is the annode which is the positive side and the cathode is the shorter side.
Push the leads through the holes and bend them slightly on the other side to prevent them from falling out.
Solder away and power it up.
Wait... I forgot to add hole for power wires.
Actually I just forgot to drill them.
Hook up your 9v battery and apply positive to pin 8 and negative to pin 1. After a few seconds the LED should fade up, hold, and then fade back down. Lather, rinse, repeat.
Step 7: Done
Or add a switch and turn it on at your discretion.
Check out a short vid here.
I'll try to get a schematic up soon.
Props to this instructable
Same basic schematic, different implementation.
Enjoy and thanks for reading.