Chinese company Xiaomi is said to be working on its next smartphone which is dubbed as Xiaomi Mi 6C. Earlier, a couple of images and detailed specifications sheet of the Xiaomi Mi 6C smartphone was leaked. Now a new render of the alleged Xiaomi Mi 6C has surfaced online on Chines microblogging website, Weibo which has revealed the design of the device by showing us the front and the back of the device.
The render hints at the Mi 6C featuring glass and metal body which is in contrary to earlier reports which claimed that it will be featuring a metallic body. The Mi 6 can be seen as sporting dual rear camera setup at the back of the device. As per the leaked image, the Xiaomi Mi 6 will be featuring narrow bezels. There is also a home button on the front of the device which might also act as a fingerprint sensor since there is no fingerprint scanner can be seen at the back. The leak also confirms the presence of Xiaomi’s in-house Surge S2 chipset. It will be priced at 1,699 Yuan which is approximately Rs 16,742, as per the leak.
The previous reports have also revealed that the Xiaomi Mi 6C will be powered by the Surge S2 processor which will be a successor to Surge S1 which was launched earlier this year with Xiaomi Mi 5C. The processor is produced using the 16nm process node and is configured as octa-core (2.2 GHz four Cortex-A73 and 1.8 GHz four Cortex-A53 cores). The processor will come with a Mali G71MP8 GPU and supports UFS 2.1 flash memory.
The earlier leaked specifications suggest that Xiaomi Mi 6C will feature a double-sided 2.5D curved glass design and the screen ratio of the device is said to be higher than that of the Mi 6. Furthermore, the Xiaomi Mi 6C is also said to feature a dual rear camera setup of 12-megapixel primary camera with Sony IMX386 CMOS sensor and a 5-megapixel secondary camera. It will reportedly feature a 5.15 inch full HD display with 1080 x 1920 pixel resolution. The smartphone will come in two variants – 4GB RAM with 64 GB internal storage and another with 6GB RAM with 128GB internal storage.