Thanks to a dumpster diving friend I had come into possesion of a pair of welding goggles, as well as some white translucent plexiglass. So, the old hallucination goggles project was adapted for this new, awesome, rugged, form factor.
Step 1 : electronics :
I chose to use an Arduino Pro-mini, two RGB LEDs for the goggles, and a 4 character multiplexed 7 segment display.
Step 2 : draw a circuit board. I like to use a generic drawing program so I can put graphics in the copper pattern. Some PCB drawing software will also allow this, although not all PCB fabrication services will do custom graphics. I skipped out on the current limiting resistors for the blue and green channels, since the supply voltage is actually lower than the LED driving voltage. I still needed them for the red though. This kind of design is very general, as you just need to get some LEDs to blink in a controlled manner. The circuit looks like this :
Next, transfer pattern, etch, drill, clean. It is easier to wire this up on a breadboard and then transfer it to a radioshack protoboard, to save on the hassle of making your own board.
Here is a tutorial that I loosely followed, and
here is a previous post where I practiced the technique, and below is the finished result. I made the traces from the Arduino to the LED display a too narrow, and unless you're careful this design requires clean up after etching.
I was wrong to try to drive this circuit from coin cell batteries. These batteries do not put out enough current to drive the LEDs. I worked around this by adding a 2xAAA battery pack to the interior of the goggles. If you copy my design, bear this in mind and adjust accordingly.
My friend laser cut white plexiglass to replace the tinted glass of the welding goggles. This is a square cut that could also be accomplished with a saw. These goggles have a slot for a piece of plexiglass on the inside, and another piece on the outside, with 7mm clearance in-between, so it is straightforward to sandwich the LEDs between two sheets of plexiglass to create diffused light. Position the LEDs approximately in the center of the visual field in each eye, so that when you look at them through a pane of the white plexiglass, they line up as if they were one diffuse source. I used standard connectors for indicator lights and power buttons in PC cases to connect the LEDs, and a rocker switch from an old Ikea lamp, to finish off the connections.
This is more durable than past designs, since it doesn't have a separate part for the driving hardware and the goggles, connected by a failure prone cable. Reminds me of
this. I can actually toss this one around without breaking it.
Alright kids, as promised, flicker hallucination visor kits for VIA are packed and ready to go! We should have about 30 kits available at Assemble on Wednesday October 5, 4-7PM. There will also be drawdio kits and LED illuminated kites. The Visor kit is a sexy remix of the brain machine kit, which retails for $35. The Visor also cost that much to produce, but we're still looking for last minute sponsors to subsidize the Assemble workshop and bring that cost down a bit. The remainder of the kits ( about 50 in total ) will arrive by Saturday and will be available at the main event. Assembly instructions and additional information are hosted at www.treehovse.blogspot.com. If there are any extra kits, we've reserved a booth at the Pittsburgh Mini Maker Faire to make them available there. Let me know if you would like me to reserve you a kit. There also might be a very limited number of pre-built kits available, time permitting. By the way, this most excellent Visor cartoon has been brought to you by Austin Redwood.
