|
[China]
Trade Verify
Address: Address:Room624,Fangdichan development building,Guicheng south,Nanhai,Foshan,China
Contact name:Tracy
ONESEINE TECHNOLOGY CO.,LTD |
|
Verified Suppliers
|
|
|
China Factory 2 Layer Aluminum Base Copper core PCB Board
PCB parameter:
Board thickness: 1.6MM
Brand:Oneseine
Withstand voltage: AC2000V
Thermal conductivity: 2.0w/m.k
Copper foil thickness: 1OZ
Quality certification: ULE354470/ISO/SGS/IATF16949
Surface treatment: OSP
Test: 100% computer open and short circuit test
There are numerous PCB manufacturers around the world that specialize in the production of metal core PCBs. Here are a few well-known PCB manufacturers that offer metal core PCB fabrication services:
Advanced Circuits: Advanced Circuits is a PCB manufacturer based in the United States. They provide metal core PCB fabrication services using aluminum and copper core materials. They offer a range of options for layer count, thickness, copper weight, surface finish, and other customization features.
ITEQ: ITEQ is a global PCB manufacturer with production facilities in Europe and Asia. They offer a variety of metal core PCB options, including aluminum and copper core boards. ITEQ specializes in high-quality PCB manufacturing and provides custom solutions tailored to specific customer requirements.
King Credie Technology Limited: King Credie is a PCB manufacturer based in China that specializes in metal core PCB production. They offer aluminum and copper core PCBs for various applications and provide comprehensive PCB manufacturing services, including design, fabrication, and assembly.
Ventec International Group: Ventec is a leading global provider of high-quality PCB materials and solutions. They offer metal core PCBs with aluminum and copper cores, catering to applications that require efficient thermal management. Ventec focuses on delivering advanced materials and reliable PCB manufacturing services.
ONESEINE PCB: ONESEINE PCB is a PCB manufacturer with facilities in the China. They offer metal core PCBs using aluminum and copper core materials. ONESEINE PCB specializes in quick-turn PCB fabrication and prototyping, along with volume production services.
When selecting a metal core PCB factory, it's essential to consider factors such as manufacturing capabilities, quality standards, certifications, production lead times, pricing, and customer support. Conducting thorough research, reviewing customer testimonials, and requesting quotes from multiple manufacturers will help you make an informed decision based on your specific requirements.
Kinds of metal core PCB:
Metal core pcb production:
Metal Core PCBs (Printed Circuit Boards) are specialized circuit boards that have a base layer made of metal, typically aluminum, instead of the traditional FR4 (fiberglass-reinforced epoxy) material. These boards are commonly used in applications that require efficient heat dissipation, such as high-power LED lighting, power supplies, automotive electronics, and power electronics.
The production process for metal core PCBs is similar to that of traditional PCBs but with some additional considerations for the metal layer. Here are the general steps involved in the production of metal core PCBs:
1,Design: Create a PCB layout using PCB design software, taking into account the circuit requirements, component placement, and thermal considerations.,
2,Material Selection: Choose the appropriate metal core material for your application. Aluminum is the most common choice due to its good thermal conductivity, lightweight, and cost-effectiveness. Other options include copper and alloys like aluminum-backed copper-clad laminates.
3,Base Layer Preparation: Start with a metal sheet of the chosen material, typically aluminum. The sheet is cleaned and treated to remove any contaminants and oxidation, ensuring good adhesion between the metal and the PCB layers.,
4,Lamination: Apply a layer of thermally conductive dielectric material, such as an epoxy-based resin, on both sides of the metal core. This dielectric layer provides electrical insulation and helps to bond the copper layers.
5,Copper Cladding: Add a thin layer of copper to both sides of the dielectric material using methods like electroless copper plating or a combination of electroless and electrolytic copper plating. The copper layer serves as the conductive traces and pads for the circuit.,
6,Imaging: Apply a photosensitive resist layer over the copper surfaces. Expose the resist layer to UV light through a photomask that contains the desired circuit pattern. Develop the resist to remove the unexposed areas, leaving the circuit pattern on the copper.
7,Etching: Submerge the board in an etchant solution that removes the unwanted copper, leaving only the circuit traces and pads as defined by the resist layer. Rinse and clean the board thoroughly after etching.,
8,Drilling: Drill holes through the board at designated locations for component mounting and interconnection. These holes are typically plated through with copper to provide electrical continuity between the layers.
9,Plating and Surface Finish: Further copper plating may be performed to increase the thickness of the circuit traces and pads if required. Apply a surface finish, such as HASL (Hot Air Solder Leveling), ENIG (Electroless Nickel Immersion Gold), or OSP (Organic Solderability Preservative), to protect the exposed copper and facilitate soldering.,
10,Solder Mask and Silkscreen: Apply a solder mask to cover the copper traces and pads, leaving only the desired soldering areas exposed. Apply a silkscreen layer to add component labels, reference designators, and other markings.
11,Testing and Inspection: Conduct electrical testing, such as continuity checks and netlist verification, to ensure the integrity of the circuit. Inspect the board for any manufacturing defects or errors.,
12,Assembly: Mount electronic components onto the metal core PCB using automated pick-and-place machines or manual soldering, depending on the complexity and volume of production.
13,Final Testing: Perform functional testing on the assembled PCB to verify its performance and ensure it meets the required specifications.
It's important to note that the production process can vary depending on the specific requirements of the metal core PCB, the chosen materials, and the manufacturer's capabilities. It's recommended to consult with a professional PCB manufacturer for specific guidelines and recommendations tailored to your project.
Metal core pcb thickness:
The thickness of a metal core PCB (Printed Circuit Board) refers to the overall thickness of the PCB, including the metal core and all the additional layers. The thickness of a metal core PCB is determined by several factors, including the application requirements, the choice of metal core material, and the number of copper layers and their thickness.
Typically, metal core PCBs have a total thickness ranging from 0.8mm to 3.2mm, although thicker boards can be produced for specific applications. The metal core itself contributes to a significant portion of the overall thickness.
The metal core thickness can vary depending on the thermal conductivity requirements and mechanical stability needed for the specific application. Aluminum is one of the commonly used metal core materials due to its good thermal conductivity and lightweight nature. The aluminum core thickness can range from around 0.5mm to 3.0mm, with 1.0mm and 1.6mm being common choices.
In addition to the metal core, the overall thickness of the PCB includes other layers such as dielectric material, copper traces, solder mask, and surface finish. The dielectric layer thickness is typically in the range of 0.05mm to 0.2mm, while the copper layer thickness can vary depending on the specific requirements of the circuit design, such as current-carrying capacity. Typical copper layer thicknesses range from 17µm (0.5oz) to 140µm (4oz) or higher.
It's important to note that the thickness requirements for metal core PCBs can vary significantly based on the application and specific design considerations. It's recommended to consult with a PCB manufacturer or design engineer to determine the appropriate thickness based on your project's requirements and constraints.
