Hello,
I am interested in trying some experiment using a teensy to control a digital micro mirror device, used on digital projectors, in replacement of a traditional display.
These devices are like a matrix of very tiny mirrors, where you can get the light to be reflected or not. Also you can get some grayscale by vibrating the mirrors.
I couldn't find any project, or even some boards to be assembled for beginners like me. But I am curious to try all by myself if this is possible to be achieve.
Digital projectors need to change the pattern of the matrix for each of the red, green or blue channel in a short period of time. I just want to use it on gray scale, so that part might be easier.
Below, some reference information I find related to the chip and its controller. But I am still very far of connecting the dots by myself, this if anyone could orient me I want to try this project.
http://www.mouser.com/new/Texas-Instruments/ti-dlp3000/
http://www.ti.com/lit/ml/dlpb004/dlpb004.pdf
http://www.ti.com/lit/ds/symlink/dlpc300.pdf
https://youtu.be/9nb8mM3uEIc
I am interested in trying some experiment using a teensy to control a digital micro mirror device, used on digital projectors, in replacement of a traditional display.
These devices are like a matrix of very tiny mirrors, where you can get the light to be reflected or not. Also you can get some grayscale by vibrating the mirrors.
I couldn't find any project, or even some boards to be assembled for beginners like me. But I am curious to try all by myself if this is possible to be achieve.
Digital projectors need to change the pattern of the matrix for each of the red, green or blue channel in a short period of time. I just want to use it on gray scale, so that part might be easier.
Below, some reference information I find related to the chip and its controller. But I am still very far of connecting the dots by myself, this if anyone could orient me I want to try this project.
http://www.mouser.com/new/Texas-Instruments/ti-dlp3000/
http://www.ti.com/lit/ml/dlpb004/dlpb004.pdf
http://www.ti.com/lit/ds/symlink/dlpc300.pdf
https://youtu.be/9nb8mM3uEIc