Metal Core PCBs

What is Metal Core PCBs?

MCPCBs Metal Core or Metal Clad PCBs Boards, also known as a thermal PCBs or metal-backed PCBs, is a specialised type of PCBs designed to improve the thermal performance of electronic components by using a metal base material for its heat spreader layer.

This layer usually consists of either aluminium or copper, providing superior conductivity and dissipation capabilities compared to traditional PCBs. The metal layer covers one side of the PCBs and helps to dissipate heat away from the components, ensuring optimal performance and reliability.

Get The Best Metal Clad PCBs in India

Meena Circuits Pvt. Ltd is one of India’s leading Metal Core PCBs manufacturing company, offering our customers the best quality and service. We specialise in providing PCBs with a low-cost solution for all your thermal management needs. Our state-of-the-art technology and highly professional team guarantee superior performance, making us India’s No. 1 PCBs metal core manufacturer.
At Meena Circuits Pvt Ltd, we take pride in our commitment to providing top-notch services and products, ensuring customer satisfaction at all times. With our superior quality, competitive prices and timely delivery, we are sure to meet all your requirements.
So, if you are looking for a reliable and cost-effective metal core PCBs manufacturer in India, get in touch with us today! We look forward to helping you find the perfect solution for your thermal management needs.

Metal Core PCBs Manufacturing Process:

1. Step 1: Material Selection. The metal core material used for MCPCBs fabrication must be chosen according to the application requirements. This includes the metal core (typically aluminium or copper) and the dielectric material, usually a fibreglass-filled epoxy laminate.
2. Step 2: Drilling. The next step in manufacturing an MCPCBs is the drilling of the layers. The holes in the material must be drilled accurately to ensure that all components fit properly when assembled.
3. Step 3: Dry Film Image Transfer. Once the board is drilled, it needs to be prepared for imaging. This includes applying a layer of photo-sensitive dry film that will transfer the desired layer design onto the board.
4. Step 4: Solder Mask. An additional layer of solder mask is then applied to protect the surface from oxidation and provide a protective coating for the components.
5. Step 5: Routing. Once the image has been transferred, it needs to be precisely routed to create connections between components on the board.
6. Step 6: V-Cut. The next step in the process is to create a V-cut or two intersecting cuts that remove the excess material from the edges of the board.
7. Step 7: Test. After all, the components have been assembled and connected, and it’s time for testing. At this stage, tests are conducted to ensure the board functions correctly.
8. Step 8: HiPot. Finally, a high-potential (HiPot) test is performed to check for any shorts between components on the board. This test also verifies that all connections are secure and that no leakage current exists. After successfully completing this final test, the board is ready for shipment.

Benefits of Metal Core PCBs India:

• • Improved Heat Dissipation: Metal core PCBs are much more efficient at dissipating heat than their traditional counterparts, making them well-suited for applications with high power requirements.
  • Increased Reliability: The metal core used in manufacturing helps reduce expansion and contraction due to temperature variations, leading to improved reliability and long-term performance.
  • Reduced Cost: The cost of producing MCPCBs is typically lower than traditional PCBs due to the shorter production times and reduced number of components and materials required. This can translate into cost savings for manufacturers needing large boards.
  • Improved Electrical Performance: Metal core PCBs are more effective at conducting electricity, allowing components to be placed closer together and enhancing signal integrity. This can lead to improved electrical performance and reduced risk of interference.
  • Better Strength and Stability: The metal core adds additional strength and stability to the board, making it both more durable and less likely to deform over time. This can reduce maintenance needs and extend the lifetime of your MCPCBs.
  • Improved Design Flexibility: Due to their improved thermal performance, MCPCBs allow for greater design flexibility when compared to traditional PCBs. This can lead to more efficient designs that are better suited for high-power applications.
  • Longer Lifetime: MCPCBs have a longer lifespan than traditional PCBs and are often more reliable when exposed to harsh environments. This can help manufacturers save on costs associated with frequent repairs or replacements over time.

What are the Applications of Metal Core PCBs?

Metal core PCBs are used in wide variety of applications for improved thermal and electrical performance. Some of the most common uses include:

• Automotive electronic devices
• Power devices, such as LED Lighting and power supplies
• High-power servers and other computing equipment
• Telecommunications infrastructure
• Aerospace systems
• Industrial robotics
• Medical and diagnostic equipment
• Military systems
• Solar panel arrays.