Direct to PCB InkJet Resist Printing

Epson Stylus C84 by Stefen Trethan

Stripping down

First all plastic is removed around the C84 that is not required for printing. This is the side caps, the main body, and some smaller loose bits. At this point the printer will still print normally.

Preparation

make sure the printer is in good working order, and the parking station is clean. With all used C84s you will find a badly clogged parking station/vacuum mechanism that MUST be cleaned. See:

Do a nozzle check to make sure the head is working on all nozzles. I opted to disable the vacuum mechanism by removing the small gear on the rough transport roller and instead manually provide vacuum with a syringe. You can leave the pump engaged if you do not mind unnecessary cleaning.

This is also the best point to install spongeless cartridges^ with auto-reset chips^ and test them on paper. Fill yellow MISPRO ink in the black cart (you may also use the yellow cart; the C84 can not tell which cart is where as long as all are present). Add a few drops of black MISPRO ink for better visibility.

Volkan says: "You need to use MIS PRO yellow or magenta; both are working but yellow is the best etch resistant. I use yellow (in cyan and yellow cartridges), magenta (of course in magenta cartridge) as a media glossy photo and as a printing color 'color black' {which mixes the colors to make black, using all the cartridges, and reducing issues with a single clogged nozzle}. "

Rear Paper path

The paper feeder is removed from the back, taking out the optical paper sensor.

This sensor is glued to the side of the paper slot (in the metal chassis), so that the material passing through here will activate it.

Front Paper Path

Remove the pizza wheels from the output. You may also remove the black plastic paper guide and that ink sponge at the front. Rip out the whole spiel, you only need to keep that greased sheetmetal rail where the head rides on. It is easier to leave the shaft with the rubber output rollers in place since it carries a pulley for the belt. It has no further function and you could remove it if you tension the belt some other way. Now a flat sheet will pass through the printer.

Central Transport Roller

Remove the middle pressure roller assy. Now a small PCB will fit through the middle. If you cut it in half and replace the outer pressure rollers with the half sections you get even larger PCBs through. You must hold the springs up with something like a strip of metal or PCB to make up for the cut-away half. If one needs full with even narrower wheels could be attached at the very outside, but usually it will not be needed. If you go for a rail under the carrier for 2-sided PCB alignment you need to take out the rough transport roller and grind it down in the middle to allow this rail to pass. Works well with a bench grinder. Don't grind it too thin you need some strength.

Head Height

If you use very thin PCB material (60mil / 1.5mm) you can skip this section, but to allow for the increased media thickness we must adjust the head height. The easiest method i found is to cut through the chassis just over the paper gap. You could cut exactly through the paper gap, but that would lift the pressure rollers as well and require a change there. The chassis can be cut in place with nibbler pliers.

On the left (stepper/belt) side of the printer you need to add a small piece of sheetmetal (ideally an angle piece around the rear edge) that holds the cut-off part at about 3mm higher than it originally was.

On the right (head) side you can simply put nuts or washers under the two mounting screws (and use longer screws) to achieve the same increase in head height.


CENTER


RISERS

You also need to raise the head parking station, lift up the plastic over the screw mount on the inside and again use a piece of plastic or sheetmetal with screws to raise it on the outside. There was a snap-in mechanism originally not allowing you to simply put something under a screw. The inside is not held as firmly now, but that's fine and you could use a longer screw and some strip of metal to clamp it down if you really like.


FRONT RAIL


SPACER

Lastly you need to raise the front head rail by the same amount. Simply put spacers (nuts) under where the screws attach the piece and use longer screws.

Carrier


TOP


BOTTOM

You need to make a carrier for your PCBs, any rigid material like cardboard will work. It should not be too heavy. I used a sheet of formica and glued thin cardboard to the bottom for traction (probably not needed). If you want a rail for alignment you can glue a piece of aluminum to the carrier. It must be low in height to fit in the gap in the transport roller, but high enough to provide alignment between plastic guide rails. If you do not need the rail a simple piece of cardboard will do.

The C84 will expect a short delay between the start of the feeding mechanism and activation of the paper switch, so you need to make a cutout of 3.54inches / 90mm on the carrier to facilitate this delay. That is with the sensor right at the metal, if you place it further outward you need a longer cutout. The C84 is quite tolerant, a tolerance range of about +-4cm or so was found to work.

2-sided Alignment

If you need to align printing on the second side of the PCB it would be good to be able to print in the same spot each time. To ensure that you can put a rail on the underside of the carrier which rides between plastic guides on both the input and output of the printer. To mount these plastic guides it is easier to cut out the plastic bottom of the printer to allow for wooden mounting blocks. I have not yet installed this fully as aligned doublesided printing is not a priority.

Here is a nice shot of the final modified C84 ready to print. The guides are mocked up in this photo, but have been completed as planned.

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