The MakerGear Mosaic 3D Printer - Part VII: The Electronics

Your Mosaic kit will probably arrive with the RAMP shield pre-installed on the Arduino Mega. If not, however, install the shield before proceeding.

Align the three small slits in the plywood mounting plate with the mounting holes in the RAMPS and/or Mega PCBs, as shown,

Pass each of three cable ties through one of the slits in the mounting plate, through the corresponding mounting hole in the lower PCB (the Arduino), and, finally, through the corresponding mounting hole (if present) in the RAMP shield.

Cinch down the cable ties gently, but firmly, and cut off the extra from each tie with a pair of side-cutting pliers.

Use a 2.5mm hex wrench to remove two M3x10mm socket cap bolts from the printer frame, as shown in the photo. Remove the washer from each screw. The screws themselves should be preserved as spare parts, but will not be needed again in the assembly of the printer.

Run each of two M3x14mm socket cap bolts through one of the washers you just removed, then through one of the round holes at either end of the electronics mounting plate, and finally into the corresponding captive nuts behind frame section I. Turn them down with the 2.5mm hex wrench, but be careful, as always, not to overtighten.

Locate the platform heater power leads in the build platform wiring harness. Separate the leads for about two inches from the cut end, and strip about 1/4" of the insulation from each.

When making connections to the PCBs, it will be very helpful to refer to the diagrams in the PDF attached to this project.

Loosen the screw in each of two terminals D8 in the terminal block in the upper left corner of the RAMPS PCB, as pictured. Insert each of the two build platform heater power leads you just stripped into one of these terminals. The heater is not polarized, so it does not matter which of the two wires goes into which of the two terminals D8. Tighten the screws back down to secure the leads.

Find the 1x4 socket Y-axis stepper motor cable connector, and plug it into the center 1x4 pin header block, as shown. The connector can be reversed later, if it turns out the Y-axis motor is turning the wrong way. For now, make an arbitrary choice.

Connect the 2-socket build platform temperature sensor to the center two pins of the 1x6 pin header block immediately above the Z-axis stepper motor connector on the center-right edge of the board, as pictured.

Locate the 1x3 socket connector from the Z-axis upper limit switch, and install it in the 3x6 pin header block in the second position from the right, as shown.

Find the 1x4 socket Z-axis stepper motor cable connector, and plug it into the 1x4 pin header block immediately to the right of the Y-axis stepper connection. This connector can be reversed later, if it turns out the motor is turning the wrong way.

Find the 1x4 socket X-axis stepper motor cable connector, and plug it into the 1x4 pin header immediately to the left of the Y-axis stepper connection. Again, the orientation of the connector is arbitrary.

Find the 1x4 socket connector from the extruder motor in the extruder wiring harness and connect it to the 1x4 pin header about center on the top edge of the PCB, as shown. As with the other three motors, this connection is simply flipped over later if the extruder turns out to be wired backwards.

Find the 2-pin connector from the hot end fan in the extruder wiring harness and connect it to the two leftmost positions in the upper 1x6 socket header. The red wire goes to the left, as shown.

Find the 2-socket connector from the temperature sensor in the extruder wiring harness and connect it to the two leftmost positions in the 1x6 pin header, center right edge, immediately to the left of the build platform temperature sensor connector.