Qingyuan's scientific research has another success! New fiberglass substrate has achieved industrialization?

  In the context of the global race for 5G communication technology, Qingyuan's scientific and technological research has once again achieved success. The "Research on Ultra-low Loss Integrated Circuit Substrate Fiber Glass for 5G High-speed Communication", which was supported by the Municipal Science and Technology Bureau, has been successfully industrialized and applied, marking that Qingyuan City has achieved "double leaps" in the research and development and application of key materials in the field of electronic information, and provided core technical support for the performance improvement of 5G communication equipment.

  This technological breakthrough originated from the municipal science and technology plan project undertaken by Qingyuan Zhongxin Century Electronic Materials Co., Ltd. In response to the urgent demand for high-performance substrate materials in the global 5G communication field, the company's R&D team took three years to successfully overcome the two major technical difficulties of fiberglass component system and manufacturing process upgrade, and successfully developed a new low-dielectric fiberglass material with independent intellectual property rights.

  "This technology is like building a 'highway' for 5G equipment." The project leader introduced vividly. By optimizing the dielectric properties of the material, the project has achieved double breakthroughs in signal transmission rate improvement and energy consumption control. 5G devices using this new fiberglass substrate can not only maintain the characteristics of low dielectric loss, but also greatly improve the signal transmission speed, achieve a leap-forward growth in signal stability and transmission distance, and significantly reduce the energy consumption and heat generation of the equipment, bringing a better and more stable communication experience to end users. At present, this new low-dielectric fiberglass has been widely used in core communication equipment such as 5G base stations, routers, and smartphones.