Xiaomi 200W HyperCharge Would Arrive Next Year. Makers of the Chinese smartphone have seemed to have engaged in their own race to possess the fastest charging technology in the consumer market.
Although OPPO might have just started it all, Xiaomi tried to expand the gap with its insane 200W charging technology. Of course, that does not have to come without costs. But Xiaomi may have plenty of time if it does not plan on actually place this 200W HyperCharge technology right into the production up until next year.
Xiaomi 200W HyperCharge Would Arrive Next Year
Manufacturers happen to have opted to create many faster-charging rates in the absence of huge advancements. A lot of high-end smartphones currently is offering fast charging at 65W, but OPPO, Xiaomi, and Vivo happen to have an envelope to go far beyond three-digit output.
As of last May, Xiaomi outdid itself which comes with a display of literal power in the form of its HyperCharge tech. with 200W wired charging, a phone with a 4,000mAh battery goes from around Zero to 100% in just 8 minutes. Equally impressive is 120W wireless charging that just takes around only 15 minutes to get the phone fully charged.
Xiaomi Plans For 2022
MyDrivers now Reports that the tech bloggers that are in China are leaking Xiaomi’s plans for this frighteningly impressive piece of technology. The HyperCharge would be heading straight to production from around June 2022. They stated that the goal of being available for the Xiaomi Mi 12 series, most likely the Mi 12 Ultra. That’s happened to be a year-long wait, but it would exactly be what Xiaomi needs.
HyperCharge Effect on Batteries
Despite the impressive power of this HyperCharge technology, this would come at a really big cost. It has been revealed that the life of the battery can get reduced by 20% in just around 800 charging cycles. This is really fast compared to most of the smartphones in the market. Xiaomi hopefully would be spending their next months optimizing its charging technology in other to reduce the damage it would further inflict on batteries.