Why use MCPCB in led industry?
There are several reasons why MCPCB is ideal for led industry. The first and foremost is that MCPCB specifications include an ability to integrate dielectric polymer layer. Moreover, this provides significantly higher thermal conductivity. And the domino effect is a lower thermal resistance. Also, MCPCB can generate heat at least 8 times faster than the FR4 PCB’s. Additionally, the MCPCB can have a galvanizing effect in the LED industry as it can laminate dissipate heat. And that can actually maintain the heat-generating components significantly cooler. This feature can have an optimizing effect as keeping the LED products and devices is imperative to prevent a safety hazard. Furthermore, the prospect of efficient and fast cooling is crucial to ensure a constant light output.
Therefore, the ultimate result is an increased life and performance of the LED product.
The Aluminum PCB has good thermal conductivity. At the same time, the metal core PCB offers great processing properties and electrical insulation. However, the increased demand for LED products also resulted in an increased level of concern about the prospect of heat dissipation. Moreover, the heat dissipation will diminish the overall performance of the devices. Especially those that require high power in order to function.
That is why a proper installation of MCPCB construction is the key element that can neutralize this problem.
There are many LED’s that have tended to dissipate between 2 to 5W of hear. And often failures occur as a result of not properly removing the heat. To be more specific, the LED output is significantly decreased while the level of heat remains high in the LED product. And that is where the metal core PCB comes into the frame. Then, the MCPCB specification can efficiently neutralize the heat from all LED’s. And this process occurs as the aluminum PCB base combined with the dielectric layer connects the heat sink and IC’s. Also, the inclusion of one single heat sink is set up to the main aluminum base. Therefore, this eliminates the prospect of needing an additional number of heat sinks added on top of the surface added elements. On top of that, it is a cheap and simple cooling solution.