Top 5 Primary Aspects of Heavy Copper PCB Design

Posted by Darrin Hein
3
Dec 20, 2021
280 Views
The majority of the commercially available printed circuit boards use Heavy Copper PCB for both inner and outer surfaces. 
 
In the circuit board assembly, it is of utmost importance to pick an appropriate copper thickness. Some applications rely on heavy power consumption. Those are the applications that have components carved out of copper. This paves the way for stable transmission of power. Most electronic substances in recent times have started to incorporate this technology while designing printed circuit boards.
 
Making a prudent choice
 
Choosing the right thickness is necessary because it is not possible to distribute power through a poorly manufactured printed circuit board. The conductive layer on Heavy Copper PCB ensures a smooth passageway for the current flow. For any electrical appliance or product, a printed circuit board forms an integral component. In the market, you will come across a wide range of printed circuit boards. 
 
1. Effective thermal distribution
 
The copper plates offer high thermal resistance. It is due to the outstanding thermal conductivity that they are often used for the conduction of heat at a rapid pace. For conducting a high magnitude current Heavy Copper PCB is usedIn this category falls any circuit board whose thickness is in the range of 4oz/ft2 to 20oz/ft2. Weights beyond this range are classified as an extreme printed circuit board. These products are in extensive use in the case of applications that need high frequency and reliable speed. They can withstand extreme temperatures. 
 
2. Rated as a good conductor
 
They are known for the mechanical strength they provide. These products lend durability and robustness to the system. In the category of common metals, the ranking of copper is relatively high from the perspective of thermal and electrical conductivity. It is the right blending of formability, inherent resistance, and anti-corrosive power that renders a unique touch to the alloys. These features make them the ideal choice for electronic products and connectors.
 
3. Heat sink
 
Due to their copper plating, the routeways can carry a high flowing current. The transfer of heat takes place to a heat sink. These heat sinks have mosaic surfaces. In the technology field, the utilization of such heat sinks is a giant development. One of the best methods of heat dissipation is by utilizing heat sink technology. This method is effective for the transmission of heat throughout the entire circuit.
 
4. Protection of exotic material
 
Situations facing high temperatures may need exotic material. Otherwise, it will become challenging to survive in these extreme environmental scenarios. Electronic components are sometimes designed with exotic substances because copper can exploit them to their full capabilities.
 
5. Distribution of copper
 
Throughout the entire design, the copper distribution should be even to the maximum extent possible. Therefore it is not just about the thickness of the chemical element on each layer but is the way it is distributed across each level is also taken into account. During layout, these factors are to be taken into account. 
 
Taking a rational stand
 
In modern times in the circuit industry, the popularity of copper has soared. This is one of the latest trends owing to the host of benefits they provide. Do not rush into the decision-making process. Making the right choice of supplier for your industrial fabrication needs is necessary. Make sure that the supplier you have in mind has a solid reputation in the industry. They should be known to offer reliable services to their clients. A close look at their website will help you gather information about their service offerings. You should set aside time to glance through the feedback posted by past customers. 

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