Xiaomi is all set to launch the Redmi Note 10 series on March 4. The series is likely to feature three new phones, the Redmi Note 10, Redmi Note 10 Pro and Note 10 Pro Max. Ahead of the launch, the phone maker has teased the series, with the company's India CEO Manu Kumar Jain taking to Twitter to show off the Redmi Note 10's box.
The teaser image reveals key specifications and features of the upcoming budget smartphone, with the box showing the Redmi Note 10 in orange gradient colour. The teaser also reveals other details about the devices, with the box confirming the top-end Note 10 will get a 108-megapixel lens. In another teaser, Jain has also confirmed that the Redmi Note 10 will support 120Hz display.
https://twitter.com/manukumarjain/status/1365884501914570753?ref_src=twsrc%5Etfw
Apart from this, Xiaomi has officially announced that the Redmi Note 10 series will be powered by Qualcomm's premium mid-range Snapdragon processors. While the company is yet to reveal the exact details about the processors powering the Redmi Note 10 series, it is expected that the Snapdragon 732G chip could make an appearance on one of the phones in the lineup. Reports suggest the standard Redmi Note 10 could be powered by the Qualcomm Snapdragon 678 processor which was launched back in December 2020.
Previous leaks have indicated that the Redmi Note 10 will arrive in three colours: White, Green and Grey and in two configurations of 4GB/6GB RAM and 6GB storage. Meanwhile, the Redmi Note 10 Pro is expected to be offered with 6GB/8GB RAM and 64GB/128GB storage options to choose from. The third phone on the list, the Redmi Note 10 Pro Max, is expected to be offered in black, bronze and blue colours with 6GB/8GB RAM and upto 128GB storage options.
As mentioned above, one of the phones in the Redmi Note 10 series will be the 108MP camera in the line-up. This will be part of a quad-camera set-up. However, we don't have any detail about the other lenses on the set-up. According to previous reports, the Redmi Note 10 Pro could have a 64MP camera lens based set-up.