#RPI NETWORK SCAN MAC PLUS#
If you are making the Mac Plus or the Classic:ĭriveSupport_front.stl. The fronts have extra supports in the design that will need to be removed after printing along with the generated supports. The fronts were printed upright with supports Everywhere.
Important: I discovered an issue with misalignment of the screw hole in 2 of the fronts. The new ones will be up there soon as a remix of the original.
If you have the old iUniker screen, those files are available on Thingiverse. There are also a couple of files you can use to test your supports without printing the entire part. I've also included the SketchUp file if you'd like to tweak the designs. I will plainly mark them for the Faux Disk and the SD card. Take a look at the instructions before deciding which build.īe aware of which case build you are following. For those of you with larger hands, V2 can be a little tricky to safely squeeze it all inside. The real difference in the build is the lack of space inside the case. The cost difference between the 2 versions is minor. It is inserted and removed similarly to a disk in real Mac Plus. Version 2 moves the SD card to the front of the Tiny Mac. Version 1 has a faux disk in the front of the Tiny Mac and the SD card accessible from the right side. You can now make a Mac Plus, SE, SE30 or Mac Classic.
#RPI NETWORK SCAN MAC FULL#
Here's a full set of both Metric and US wrenches.Īll the STLs should be oriented properly on the build plate.
unless the applications you will be running need keyboard input. The keyboard is only really needed for setup. Anything much longer would be difficult to squeeze into the case.
#RPI NETWORK SCAN MAC INSTALL#
If you need the to install software for the original iUniker screen, jump to Step 16. These instructions and models have been updated to support the Waveshare display. Version 2 has the relocated SD card that is inserted in the front where the original Mac disk is.Ĭheck out the differences in Step 1.
Version 1 has a Faux disk and the SD card is accessible from the right side. Note: The STLs are updated for use with an updated screen. All the other parts are readily available. You will need access to a 3d printer for the case. I was able to make a smaller, cheaper and simpler version. Smaller, cheaper components and new fabrication methods have made the process far easier. Times have changed and technology has moved on. I really wanted one but didn't have the time or resources. Years ago I saw that John Leake, of RetroMacCast, built a 1/3 scale Macintosh.