Manufacturing of PCB has been made simple with the introduction of technology in design and preparation. This innovative approach allows manufacturers to achieve better and more precise results. You will be required to get an appropriate photo resist board that has plastic reinforcements on glass. One of the faces of this board is photo sensitive and coated with copper. This surface is initially covered with a plastic film.
The transparent printed circuit board is placed beneath the photo resist board. It is important to ensure that you select boards that are of equal size. It is the removal of the covering plastic film that makes the surface sensitive. Care should be taken to place the board in the right way. It will prevent the tracks from ending in the wrong way. These are the preparatory steps that make the board ready to be transferred into the UV light box.
An appropriate cover should be placed on the box to ensure that it is completely shut. The UV light box is then switched on and left to run for approximately two and a half minutes. Plastic tongs will be used to get the board out of the box after which it is placed on a tank ready for development. The approximate time the board should be left in the box is ten seconds. It should not exceed this limit or go below it by considerable margin.
Plastic tongs are used to hold the board during all these operations. It is transferred into an etching tank after carefully washing in clean water. Heating allows the bubble etch tank to complete a very important process. The process involves etching away all unwanted copper materials. You will only be left with carefully drawn tracks. Success during this stage demands constant checks.
Etching will take approximately fifteen minutes. Under-etching exposes the board incomplete development while it will get damaged when etching is overdone. The tracks are likely to be removed in the process. The process of manufacture should be monitored by the minute and will eventually be mastered.
Technology has simplified the process of design since a Computer Aided Design system or Auto CAD may be used. The data is easier to in-script and transfer to manufacturers. This automated system defines and earmarks your copper layers. It makes it easier and clear to identify soldier marks and component notifications.
Photo tools are prepared using laser photoplotters. A controlled dark room is the best environment for such work. It makes it easier to manage temperatures and humidity. Data for the board is turned into a pixel image making it easier to work with. The film is written using a laser writer. The film develops automatically and is unloaded by the operator.
Manufacturing of PCB is not complete until profiling or V-cut scoring is done. This is done from the production panel. A scoring machine is used in this process. Cutters are either above or below the panel. The cut is made at a third of the entire thickness in order to leave a film that connects the board together. The board is then checked thoroughly by an experienced person to ensure that everything is in order.
The transparent printed circuit board is placed beneath the photo resist board. It is important to ensure that you select boards that are of equal size. It is the removal of the covering plastic film that makes the surface sensitive. Care should be taken to place the board in the right way. It will prevent the tracks from ending in the wrong way. These are the preparatory steps that make the board ready to be transferred into the UV light box.
An appropriate cover should be placed on the box to ensure that it is completely shut. The UV light box is then switched on and left to run for approximately two and a half minutes. Plastic tongs will be used to get the board out of the box after which it is placed on a tank ready for development. The approximate time the board should be left in the box is ten seconds. It should not exceed this limit or go below it by considerable margin.
Plastic tongs are used to hold the board during all these operations. It is transferred into an etching tank after carefully washing in clean water. Heating allows the bubble etch tank to complete a very important process. The process involves etching away all unwanted copper materials. You will only be left with carefully drawn tracks. Success during this stage demands constant checks.
Etching will take approximately fifteen minutes. Under-etching exposes the board incomplete development while it will get damaged when etching is overdone. The tracks are likely to be removed in the process. The process of manufacture should be monitored by the minute and will eventually be mastered.
Technology has simplified the process of design since a Computer Aided Design system or Auto CAD may be used. The data is easier to in-script and transfer to manufacturers. This automated system defines and earmarks your copper layers. It makes it easier and clear to identify soldier marks and component notifications.
Photo tools are prepared using laser photoplotters. A controlled dark room is the best environment for such work. It makes it easier to manage temperatures and humidity. Data for the board is turned into a pixel image making it easier to work with. The film is written using a laser writer. The film develops automatically and is unloaded by the operator.
Manufacturing of PCB is not complete until profiling or V-cut scoring is done. This is done from the production panel. A scoring machine is used in this process. Cutters are either above or below the panel. The cut is made at a third of the entire thickness in order to leave a film that connects the board together. The board is then checked thoroughly by an experienced person to ensure that everything is in order.
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