Huawei Mate 80 may be unveiled in October! Equipped with Kirin 9030+ cooling fan!

　　Digital blogger revealed that the release time of Huawei Mate 80 series may be advanced and will be officially unveiled as early as October this year, which is earlier than the previous expected November to December.

　It is understood that this series of models is expected to launch a new generation of Kirin chips for the first time, achieving significant performance improvements through architecture optimization. Early test data showed that its CPU energy efficiency and GPU rendering capabilities were about 20% higher than those of the previous generation, providing stronger hardware support for the deep collaboration of the Hongmeng system.

　In terms of imaging systems, the Mate 80 series or the entire series is equipped with the domestic STEW SC595XS 50-megapixel main camera sensor, adopts a 28nm+ stacking process, and supports physical variable aperture technology to further improve shooting performance.

　　In addition, the high-end version may introduce a built-in active cooling system for the first time. Through the ultra-thin fan and air duct design (DECO side integrated inlet/outlet air vent), the heat dissipation efficiency is increased by 30%-50% compared with the traditional solution, effectively dealing with heating problems in high-performance scenarios.

In terms of screen, supply chain news says that the entire series will adopt a 1.5K resolution straight screen, which is available in two sizes: 6.74-inch and 6.85-inch, with a very narrow bezel design. The product line is expected to include four models, namely Mate 80, Mate 80 Pro, Mate 80 Pro+ and RS Porsche Design, with a starting price of over 5,000 yuan.

　　If the series is really released in October, it will be directly benchmarked against the Apple iPhone 17 series (it is expected to be released in September). Analysts believe that Huawei's acceleration this time is mainly due to the improvement of the maturity of domestic supply chains and the optimization of the adaptation efficiency of Hongmeng system.