The current plan is to capture frames and control the motor using a Raspberry Pi. This way I can capture a frame, then have a command to go to the next frame and repeat. It seems pretty easy, if I just new how to code in python.
Capturing the frames is actually the easy part. And in order to make it easier I pretty much gutted the projector. The light for the project is actually on a system to easy move around x-axis and y-axis.
I ripped the light out and 3D printed a mount to place a Raspberry Pi camera module. Where the lens of the projector would be I have some translucent acrylic to let whatever light I choose brighten the frame.
The new Raspberry Pi camera module v2.1 has a great lens that's adjustable for macro work. That is after you remove the glue.
I was going to keep the regular motor and try to capture at 5fps or 18fps. But considering how long it takes for a high rez image to get saved, it seemed like making it slow would be easier.
So I took a spare Nema 17 motor lying around and used a 1/4" coupler to attach it to the shaft where the fan used to be.
[youtube]http://www.youtube.com/watch?v=xk_3hAGF0nE[/youtube]
I've been able to test motion. But now I have to get this all wired together with a stepper motor controller hat. I tried one and accidentally burned it out. Oh well. Maybe I'll get this done another year. Anyway, hope you enjoyed my weekend tinkering.