Printed circuit boards, otherwise known as PCB are found in almost all electronic devices. In manufacturing of PCB, electricians who are amateurs can make their own boards by drawing a design and then giving it to the manufacturer. There are three types; single sided, multi layered and double side boards. They are usually conducted with nickel, copper or aluminum material, and the type used is determined by the complexity and density of the circuits. The process of making them is described below.
The backing is first plated with a conductive material. Holes are then drilled into it in order for conduction to take place in between the layers and also to mount electronic components. The board is then scrubbed to get rid of any small particles of the conductor. Such particles can be later on recycled from the water by using a process such as filtration. Any copper particles left behind can easily mix with other wastes and become pollutant to the environment.
Cleaning of the board is then done. In the next stage, there should be adequate adhesion and therefore to enhance this, etching is also done. One more layer of conductor is added next. The holes that had been drilled earlier should be conducted; hence the application of electrolysis copper plating is vital. Acidic based solutions and alkaline ones are used so that the pH is properly balanced.
The final circuit design I achieved by the use of photo imaging. Copper is electroplated to the printed circuit in order to get the final thickness. The final circuits should be well protected in the next etching and it is therefore important to apply a thin layer of lead or tin solder. The copper will be exposed by getting rid of the tin or lead solder, because it will not be a component of the final circuit. The unwanted copper is etched away using either sulfuric acid solution or an ammonia based solution.
Obtaining alternative resist can be achieved by use of other compounds that are photosensitive or organic. They can be used in their dry or wet forms. When exposed to ultraviolet light, they become hard.
The resists that are in liquid form can be applied using a roller, squeegee, spray or silk screen. This liquid can also be applied to the surface on one or both sides of the surface. Finer circuits can be achieved by using light.
The last stage is the formation of multi layer panels. This is done by assembling together the inner cores of the layer. The assembled panels take the shape of a book that is composed of copper foil that has epoxy sheets alternating with each other.
The book is positioned into a laminating press and then high pressure as well as heat is applied to it. The intense heat will eventually cause the sheets to melt down and a bond will be formed. Next, there are holes that are drilled into it. Prior to this, it should undergo some trimming and buffing. Manufacturing of PCB can only be successful if all these steps and guidelines are clearly followed to the latter.
The backing is first plated with a conductive material. Holes are then drilled into it in order for conduction to take place in between the layers and also to mount electronic components. The board is then scrubbed to get rid of any small particles of the conductor. Such particles can be later on recycled from the water by using a process such as filtration. Any copper particles left behind can easily mix with other wastes and become pollutant to the environment.
Cleaning of the board is then done. In the next stage, there should be adequate adhesion and therefore to enhance this, etching is also done. One more layer of conductor is added next. The holes that had been drilled earlier should be conducted; hence the application of electrolysis copper plating is vital. Acidic based solutions and alkaline ones are used so that the pH is properly balanced.
The final circuit design I achieved by the use of photo imaging. Copper is electroplated to the printed circuit in order to get the final thickness. The final circuits should be well protected in the next etching and it is therefore important to apply a thin layer of lead or tin solder. The copper will be exposed by getting rid of the tin or lead solder, because it will not be a component of the final circuit. The unwanted copper is etched away using either sulfuric acid solution or an ammonia based solution.
Obtaining alternative resist can be achieved by use of other compounds that are photosensitive or organic. They can be used in their dry or wet forms. When exposed to ultraviolet light, they become hard.
The resists that are in liquid form can be applied using a roller, squeegee, spray or silk screen. This liquid can also be applied to the surface on one or both sides of the surface. Finer circuits can be achieved by using light.
The last stage is the formation of multi layer panels. This is done by assembling together the inner cores of the layer. The assembled panels take the shape of a book that is composed of copper foil that has epoxy sheets alternating with each other.
The book is positioned into a laminating press and then high pressure as well as heat is applied to it. The intense heat will eventually cause the sheets to melt down and a bond will be formed. Next, there are holes that are drilled into it. Prior to this, it should undergo some trimming and buffing. Manufacturing of PCB can only be successful if all these steps and guidelines are clearly followed to the latter.
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