Adjusting to the requirements of the emerging energy sector: The application of busbars is expected to expand as a result of the development of emerging industries, including smart infrastructure, photovoltaic equipment, and new energy vehicles. For example, the utilisation of busbars in charging piles, power distribution cabinets, and battery switching equipment is anticipated to expand due to their advantages, including their compact size, safety, and stability, as well as their high gearbox efficiency.

   Enhancing reliability and stability: The power system's reliability and stability requirements are intensifying on a daily basis. In order to guarantee the stability and dependability of power transmission, busbars will implement more dependable transmission technologies and equipment, including the incorporation of additional safety protection devices and functions.

   Increasing the number of customised products: The cross-sectional area and shape of customised copper busbars can be adjusted to satisfy the diverse application requirements of customers. It is anticipated that the market share of these products will increase in the future.

    Emphasising environmental protection design: Busbars will prioritise environmentally friendly designs, implement environmentally friendly materials and equipment, and mitigate their environmental impact as a result of the increased environmental consciousness of customers. Mega Technology's epoxy resin fluidised bus duct exhibits exceptional insulation capabilities. This insulation technology has successfully undergone the rigorous Environmental Protection Department review. The short-term withstand capacity and high-temperature conduction capabilities minimise losses and reduce electricity expenses. It is entirely automated and controlled by a PLC, and the surface treatment is remarkably smooth, uniform, and aesthetically pleasing. The resistance of the conductor is influenced by temperature, and epoxy resin has a low resistance and effective heat dissipation. Consequently, it is possible to reduce electricity consumption and achieve energy savings. Physical operations are employed to perform the fluidised high-efficiency automatic production line and the fluidised pre-treatment. The fluidised layer can be recycled, and the conductor size can be reduced for the same current capacity. Consequently, the demand for copper mining can be reduced.. It offers the advantages of environmental protection and energy conservation.

    In the future, bus ducts will be more effectively adapted to the needs of the industrial and commercial sectors, and they will provide a new impetus to power transmission with increased efficiency and reliability, thanks to the continuous innovation of materials and the application of new technologies.