PCB DESIGNING
A printed circuit board (PCB) mechanically supports and electrically connects electronic components using conductive tracks, pads and other features etched from copper sheets laminated onto a non-conductive substrate
Single Layer PCB at Home:
A printed circuit board has pre-designed copper tracks on a
conducting sheet. The pre-defined tracks reduce the wiring thereby reducing the
faults arising due to lose connections. One needs to simply place the
components on the PCB and solder them.
Materials required in PCB Designing:
· Over Head Projector sheet (known as OHP sheets) or a wax paper(photo paper .,ie best).
· Laser Printer.
· Electric Iron.
· Steel wool.
· Two plastic trays.
· Copper board/ PCB (eg: paper phenolic, glass epoxy, FR4, FR10, etc.)
· Black permanent marker.
· Etching solution (Ferric chloride).
· Drill machine.
Materials required in PCB Designing:
· Over Head Projector sheet (known as OHP sheets) or a wax paper(photo paper .,ie best).
· Laser Printer.
· Electric Iron.
· Steel wool.
· Two plastic trays.
· Copper board/ PCB (eg: paper phenolic, glass epoxy, FR4, FR10, etc.)
· Black permanent marker.
· Etching solution (Ferric chloride).
· Drill machine.
Step
1: Prepare a layout of the circuit on
any commonly used PCB designing software. A layout is a design which
interconnects the components according to the schematic diagram (circuit
diagram). Take a mirror image print of the layout on the OHP sheet using a laser
printer. Make sure that the design is correct with proper placement of the
components.
Step
2: Cut the copper board according to
the size of layout. A copper board is the base of a PCB, it can be single layer, double
layer or multi layer board.
Single
layer copper board has copper on one side of the PCB, they are used to make
single layer PCBs, it is widely used by hobbyist or in the small circuits. A
double layer copper board consists of copper on both the sides of the PCB.
These boards are generally used by the industries. A multilayer board has
multiple layers of copper; they are quite costly and mainly used for complex
circuitries like mother board of PC.
Step
3: Rub the copper side of PCB using
steel wool. This removes the top oxide layer of copper as well as the photo
resists layer if any.
Step
4: Place the OHP sheet (wax paper)
which has the printed layout on the PCB sheet. Make sure that the
printed/mirror side should be placed on the copper side of PCB.
Step
5: Put a white paper on the OHP sheet
and start ironing. The heat applied by the electric iron causes the ink of the
traces on the OHP sheet to stick on the copper plate exactly in the same way it
is printed on the OHP sheet. This means that the copper sheet will now have the
layout of the PCB printed on it. Allow the PCB plate to cool down and slowly
remove the OHP sheet. Since it is manual process it may happen that the layout
doesn’t comes properly on PCB or some of the tracks are broken in between. Use the
permanent marker and complete the tracks properly.
Step
6: Now the layout is printed on PCB.
The area covered by ink is known as the masked area and the unwanted copper,
not covered by the ink is known as unmasked area. Now make a solution of ferric
chloride. Take a plastic box and fill it up with some water. Dissolve 2-3 tea
spoon of ferric chloride power in the water. Dip the PCB into the Etching
solution (Ferric chloride solution, Fecl3) for approximately 30
mins. The Fecl3 reacts with the unmasked copper and removes the
unwanted copper from the PCB. This process is called as Etching. Use
pliers to take out the PCB and check if the entire unmasked area has been
etched or not. In case it is not etched leave it for some more time in the
solution.
Step
7: Take out the PCB wash it in cold
water and remove the ink by rubbing it with steel wool. The remaining area
which has not been etched is the conductive copper tracks which connect the
components as per the circuit diagram.
Step
8: Now carefully drill the PCB using a
drilling machine on the pads.
Step
9: Put the components in the correct
holes and solder them.
This
completes your PCB fabrication now put the components on mounting side
and solder them. Make sure that you properly dispose of the FeCl3
solution, clean your tools and wash your hands after this exercise. You can
also store the solution in a plastic box for future use but not for too long.
When you
finish the design and prototyping of your project and you want to make a
PCB, you need to use some kind of PCB layout software. While there are a
plethora of commercial products (most of them expensive - very
expensive), there are relatively few that are low cost or free for the
open source designer. This guide will look at the options and make
recommendations based on the author's knowledge and preferences.
Online PCB Software
Some commercial PCB fabricators offer their own free online software. While some of these products may be quite capable, they suffer from one huge drawback - you are locked into their services. If you want to have your PCB made elsewhere, you are out of luck. For that reason I don't give these programs a second look.
free software you might want to check out:
- expresspcb: http://www.expresspcb.com/ (only works with their board making service)
- gEDA: http://www.gpleda.org/ (open source -- is to Eagle what Gimp is to Photoshop)
- pad2pad: http://www.pad2pad.com/
- Tina: http://www.tina.com/English/tina/ (includes some simulation capability)
- FreePCB: http://www.freepcb.com/ (open source -- it's more like MS Paint than a full system)
I chosen sprint -layout software, due to it's simplicity(drag & drop) " CLICK HERE TO DOWNLOAD "
