Today, Zimi launched the Zimi 33W Gallium Nitride Charger mini. It will go on sale on March 8, starting at 79 yuan (12.2$). And it uses gallium nitride material, which is the third-generation semiconductor material for the development of microelectronic devices. It also has the characteristics of high temperature resistance, radiation resistance, acid and alkali resistance, high strength and high hardness. in conclusion , it is the future development direction of semiconductors.
Thanks to the gallium nitride material, its size is close to the original iPhone 5W charger. Compared with Xiaomi’s normal USB-C 33W charger, the size is reduced by 56%, the same speed is the same, and the size is reduced by half. The minimalist design of the bright shell, low-key simplicity, small and portable, easier to carry when going out, one can meet the needs of use when traveling on business. The Zimi 33W Gallium charger mini has 33W high power, which can provide the Redmi K30 Extreme Commemorative Edition with a charging power comparable to the original charger. It can be charged to 100% in 58 minutes and Mi 10 can be charged in 57 minutes.
Zimi 33W Gallium Nitride Charger Mini Feautures
The size is close to the original iPhone 5W charger. It can provide 33W MAX fast charging for the Redmi K40 and fast charging for iPhone 12. In addition , It can charge 60% of iPhone 12 in 30 minutes and 100% in 1 hour and 50 minutes. Furthermore, It can provide fast charging for iPad Pro, which can charge 65% in 1 hour. In addition it can also provide charging power comparable to the original charger. The latter can charge 55% in 1 hour.
The package contains a USB-C TO USB-C charging cable , which is 1.5m long while charging and playing, which can meet the needs of multiple scenarios. In terms of safety, the Zimi 33W Gallium Nitride Charger Mini uses an imported chip solution to intelligently identify . It match the current of the connected device to protect the battery from damage. Multiple protections ensure safe use, improve efficiency, and charge more efficiently.