Aluminum PCB 2-layer 2W/MK Metal Core 2oz Finished Copper

This PCB utilizes an AL 5052 aluminum substrate supplied by Mingtai, adopts Lead-Free Hot Air Solder Leveling (HASL) as its surface finish, and is equipped with dual 2oz copper layers. Configured as a double-sided copper-clad aluminum substrate with a finished thickness of 3.2mm, it incorporates two layers of 2 W/mK thermal conductivity prepreg to establish a high-efficiency heat dissipation structure, which is tailored to meet the high heat dissipation requirements of power electronic devices.

PCB Specifications

Stack-up Configuration

Why Choose Aluminum Substrate?

-Aluminum substrates are widely adopted in power electronics and high-heat-generating devices due to their inherent advantages that surpass traditional FR4 substrates:

-Superior Heat Dissipation: Aluminum features excellent thermal conductivity (far higher than FR4), enabling rapid transfer of heat generated by components to the substrate, reducing thermal accumulation and preventing device overheating.

-Enhanced Device Reliability: By lowering operating temperatures of electronic components, aluminum substrates extend the service life of devices, reduce thermal fatigue, and improve overall operational stability, which is critical for power amplifiers, LED drivers, and automotive electronics.

-Mechanical Stability: AL 5052 aluminum alloy offers good mechanical strength, corrosion resistance, and dimensional stability, ensuring the PCB maintains structural integrity under harsh operating conditions (e.g., temperature fluctuations, vibration).

-Cost-Effectiveness: Compared to other high-thermal conductivity substrates (e.g., copper substrates), aluminum substrates balance performance and cost, providing an optimal solution for mass-produced high-power products.

Core Heat Dissipation Technology of Aluminum Substrate: Prepreg

The prepreg (dielectric layer) between the copper foil and aluminum core is the key to realizing efficient heat dissipation in aluminum substrates, as it directly affects thermal transfer efficiency and insulation performance:

-Thermal Conductivity Bridge: Two layers of 2 W/mK prepreg form a multi-stage thermal transfer path between the dual copper layers and aluminum core. They overcome insulation barriers while minimizing overall thermal resistance, ensuring heat generated on the copper layers is quickly conducted to the aluminum core for rapid diffusion.

-Insulation Performance Guarantee: As an insulating layer, the prepreg must maintain high dielectric strength to prevent short circuits between the copper foil and aluminum core. The selected prepreg in this PCB balances high thermal conductivity and excellent insulation, meeting the electrical safety requirements of power devices.

-Thickness Control Significance: The 120μm prepreg thickness is precisely designed—too thick will increase thermal resistance, reducing heat dissipation efficiency; too thin may compromise insulation reliability. This thickness ensures optimal thermal transfer and insulation balance.

-Material Compatibility: The prepreg is compatible with the AL 5052 aluminum core and copper foil, ensuring strong bonding during lamination. This bonding stability prevents delamination under thermal cycling, a common failure point in aluminum substrates.

Quality & Application Scope

This aluminum substrate PCB adheres to strict manufacturing standards, with lead-free processes complying with environmental requirements. The white solder mask (Lanbang W-8) and black thermosetting silkscreen (Lanbang Thermasetting-08) ensure clear component identification and excellent surface durability (5H hardness).

Typical applications include: Power amplifiers, LED lighting drivers, automotive electronic modules, industrial control power supplies, and other high-power, high-heat-dissipation electronic devices. The product is available for worldwide, supporting global project needs and ensuring timely delivery.