-Once you have all the parts, the first thing to do is glue the
-switches to the switch plate since there's no PCB to hold them in
-place. Be aware that the screw holes unfortunately are not
-symmetrical, so before inserting the switches it's important to ensure
-that the plate is right-side-up. Use a drop of hot glue on the top and
-bottom of each switch to affix it in place.
-
-[[wires.jpg]]
-
-Once the switches are in place, the matrix must be created. I
-recommend getting red wire for the (postitive) rows and black for the
-(negative) columns. The rows need eight wires with the insulation
-exposed at intervals matching the spacing of the switches; see the
-above photo for details. You could also just use many short stripped
-segments of wire instead of a contiguous piece.
-
-[[thumb-diagram.jpg]]
-
-Most of the row wires will need four segments of insulation, but
-you'll need two with five for the rows with the inner thumb
-keys. Physically the inner thumb keys look like two additional
-columns, but logically they are treated as if they're in the same
-column with the left one in row 3 and the right one in row 4.
-
-[[matrix.jpg]]
-
-The exposed sections of row wire should be connected to the higher of
-the pins on the switch using a diode. Be aware that diodes are
-directional! The band around the diode should point to the top of the
-board. Take care with the upper row that you don't let the wire go too
-close to the top edge of the board; avoid getting in the way of the
-spacer layer. Once the rows are wired, the remaining (negative) pin of
-each switch should be wired into the negative pin of the switch above
-and below it with black wire. This should be slightly easier since no
-diode is necessary. The photo above shows the completed matrix for one
-side. Test each row and column as you go with a multimeter. You should
-be able to get continuity from row to column when the corresponding
-switch is activated.
-
-After the matrix has been wired on both sides, the next step is to
-connect the microcontroller. The TMK firmware has the rows in pins D0,
-D1, D2, and D3 of the microcontroller. You'll need to connect the rows
-from both the left and right sides into the proper pin. There are more
-columns than rows, so I used ribbon cable to bring the column
-connections back to the microcontroller from the outside in. The
-columns go to pins F0, F1, E6, C7, C6, B6, D4, B1, B0, B5, and
-B4. It's important to realize that when you flip over the board
-in order to solder it, you have to flip over the schematic in your
-mind too. If you count your columns from the left, you'll get them
-backwards. (Which I actually did for the first half.)
-
-[[controller.jpg]]
-
-Once you've wired one side of the microcontroller in, it would be a
-good time to test it. You'll need to compile and upload as per the
-"Firmware" section above. At this point you should be reading real
-keycodes from the half of the keyboard that you've wired. Once you've
-confirmed that's working, continue with the other half. Then screw the
-other layers in place and you're all set!