Metal Core printed circuit boards, shortened to MCPCB, or thermal management boards are printed circuit boards constructed with Turn key PCB assembly accustomed to disperse heat from the parts of the board, effectively lowering the core temperature of high heat applications. One can use them when conventional fan-cooling techniques are insufficient for cooling the entire system.
Metal core printed circuit boards transfer heat often (as much as 8 or 9 times) faster than FR4 boards. MCPCB laminates scatter and eliminate heat, keeping heat generating components cooler which leads to increased performance and lifetime of the applications.
The sunshine emitting diode applications generate large amounts of heat. Through the metal core’s dielectric polymer layer having a high thermal conductivity, the application overall carries a lower thermal resistance.
Other applications that happen to be becoming increasingly more significant for Heavy Copper PCB are solar panels and motion control applications.
As solar technology harnessing becomes increasingly more crucial in everyday applications including electric cars and solar power roofs, the warmth trapped within them increases. Likewise, with met1cor motion control applications, huge amounts of processing and friction are designed to produce the dynamics in the movement in the advanced technology robots.
In common computer applications today, LEDs and LED indicator lights are often used. The sunshine and also heat developed by these LEDs has grown the core temperature of applications significantly, making the necessity for thermal management increasingly important. Metal core boards are generally present in LED applications and likewise in LED-heavy computer hardware situations.
MCPCBs remain fabricated using standard SMT (surface mount technology – the complete body from the process and components that produce printed circuit board assembly with leadless components) assembly equipment. They are normally Metal Core PCB. They can be built over a flex board or rigid flex board for tight space areas or custom sized applications, for example cellphones.