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Bus Bar PCB: What are the Considerations During Designing?

In the electronics industry especially for new-energy vehicles, a Bus Bar PCB plays an important role to achieve specific function. It transmits large amounts of current through metal strips or conductive paths, making it ideal for high-power applications. The design of busbar PCBs is a key technical area for designers or engineers who engaged in power distribution or who require efficient current management. In this article, we would like to share some information about the considerations during a bus bar circuit board designing, hope this may help you to design a desired PCB successfully.

What is a Bus Bar PCB?

Bus bar PCB is one of a new type of heavy copper PCB and it was made by FR4 fiber glass material and laminated with metal alloys.  It transmits electrical energy from one point to multiple output points through integrated conductive paths, which are typically made of copper or aluminum. Busbar PCBs are designed to reduce resistance and inductance, thereby maximizing current transfer efficiency and minimizing energy loss.

bus bar pcb design

Generally, if it is used in a charging pile product, there are generally at least 2 busbar circuit boards, one is the main control board (a larger one), and the other is a smaller board, both of two need to use the bus bar process.

Bus bar PCB is widely used in power distribution systems, electric vehicles, industrial equipment and other occasions requiring high current. They are designed to simplify system wiring, reduce electromagnetic interference (EMI), and improve overall reliability and performance of the product.

Why is High Current Bus Bar PCB Important?

Bus bar PCB has irreplaceable advantages in current transmission and power distribution. They mainly feature three functions when used in electronics. First of all, they are able to efficiently handle large currents without generating excessive heat. This is what standard FR4 PCB cannot achieved. Secondly, bus bar PCB has ability to significantly reduce the complexity of the circuit layout design. By integrating the current transfer path, they can reduce the number and length of circuits required by the system, thereby simplifying system design and reducing potential failures.

In addition, bus bar PCB helps reduce electromagnetic interference. Due to the design optimization of the conductive path, the noise generated during current transmission can be effectively suppressed. This characteristic makes it perform well in high-noise environments, ensuring the stability and reliability of electronic devices.

What Should We Consider When Designing A Bus Bar PCB?

Due to it is a new innovation in the industry, it is a not a simple thing to design a bus bar circuit board successfully. It’s a complex task that requires consideration of several technical factors to ensure its effectiveness and reliability. The following are the main aspects to focus on when designing a bus bar PCB.

  • Copper Thickness

The first important thing is what’s the copper thickness of busbar you want to. You must know, thicker copper allows for higher current carrying capacity, but not thicker thickness is better, it should be calculated according to the voltage and current it will used in.

  • Current capacity and temperature management

The bus bar PCB should be designed to carry the maximum expected current while keeping the temperature within a safe range. This is usually achieved by selecting the appropriate conductor material and optimizing the cross-sectional area of the conductor. For example, for 100A current requirements, a typical design would use copper strips with a thickness of 5mm to ensure that the temperature rise does not exceed 20C.

bus bar pcb design
  • Resistance and inductance

Low resistance and low inductance are key to bus bar PCB design. The shape, thickness and layout of conductors should reduce resistance and inductance as much as possible to improve the efficiency of current transmission. For example, the use of trapezoidal or flat conductors can effectively reduce inductance, thereby improving current transmission performance.

  • Electromagnetic compatibility (EMC)

Bus bar PCB design also needs to consider electromagnetic compatibility issues to ensure that it does not produce too much electromagnetic interference (EMI), while being able to resist external electromagnetic interference. By optimizing the conductor layout and using shielding materials, the electromagnetic compatibility of the bus PCB can be significantly improved.

  • Thermal management

Because bus bar PCB aims to transmit high current, thermal management is an important part of the design. The thermal design should ensure that the PCB can effectively dissipate heat and prevent overheating damage. For high power applications, radiators or active cooling are often used to ensure temperature control within design specifications.

bus bar pcb design

Best Technology Manufacturing Capability of Bus Bar PCBs

As the one of leading PCB manufacturers in China, Best Technology has exceptional capabilities in the production of busbar PCBs. Our manufacturing capabilities include high-precision metal processing technology to produce busbar PCBs with complex geometry and tight tolerances. In addition, we also have the production capacity of multi-layer bus bar PCB to meet the needs of different applications.

Best Technology is committed to providing customers with high-quality, high-performance busbar PCBs to support their power management and distribution systems. Below is a basic parameter of our bus bar PCB manufacturing capability. For more details, welcome to e-mail us at sales@bestpcbs.com.

Best technology capability of bus bar pcb
(Best technology capability of bus bar pcb)

Nowadays, bus bar PCBs are widely used in power distribution systems, electric vehicles, industrial equipment and other occasions requiring high current. According to statistics, the global busbar market is expected to grow at a compound annual growth rate (CAGR) of 6.5% between 2023 and 2028, demonstrating the growing importance of this technology in multiple industries.

With the rapid development of the eras, the most important thing for designers or buyers is to find a reliable bus bar PCB manufacturer to meet the high demands of the market. As the expert of the bus bar PCB fabricating, Best Technology has the mature technology and advanced equipment to produce high quality bus bar PCBs. Contact us right now to get your own bus bar PCB solutions!

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