Smartphone manufacturers are trying to bring the greatest possible innovations to users with each new model, lately these have mainly revolved around cameras and charging speed. It's been about a year since Xiaomi introduced 100W charging and Vivo even introduced an incredible 120W charging power that will charge a 4000mAh battery in just 17 minutes. She now saw the light of day informace about when we will finally see this high-speed charging.
The veil of secrecy is lifted on his Twitter by the leaker Digital Chat Station, who mentions that the main drivers of sales of gaming phones in the first quarter of next year will be the Snapdragon 875 processor, which will be Qualcomm's first processor made with 5nm technology and 100W (or better) charging. We also learn from the post that three of the four smartphone manufacturers there are already testing high-speed charging and working to promote it to the public.
The main selling point of the Q1 gaming mobile phone case next year is s875 + 100w ±. At present, three of the four domestic game phone manufacturers are testing and promoting the commercialization of 100-watt fast charging. The large battery + super fast charging is too c .. (1/2)
- Digital Chat Station (@StationChat) June 27, 2020
Waiting for powerful chargers is justified. According to available information, the implementation of such fast charging is not an easy matter at all. Because phone batteries suffer from fast charging, we also have specific numbers available. With 100W charging, battery capacity decreases 20% faster than with 30W "slow" charging. In addition, of course, it is necessary to ensure the safety of the entire charging process, which means, for example, protecting the smartphone components as well as the chargers themselves from damage.
Samsung currently offers "only" 45 Watt charging, will it join the Chinese companies in equipping its flagships with high-speed charging? Would you appreciate slower charging and longer battery life, or rather faster charging at the cost of faster battery degradation? Let us know in the comments below the article.