Vivo’s upcoming smartphone, the Vivo S9, has leaked online with detailed specifications ahead of its official announcement. The specs and design renders surfaced on Weibo suggesting a dual selfie camera setup. Interestingly, the leaked image shows that the dual selfie camera setup will include a 44-megapixel primary sensor. Also, the phone will reportedly come with a 90Hz display and a 2.5D glass back. Further, Vivo S9 will have two storage configurations, going up to 12GB of RAM and 256GB of internal storage. The phone will launch in China next month, claim the rumors.
Vivo S9 Specifications, Features (Expected)
As per the specs shared by various tipsters on Weibo, we speculate that the unannounced Vivo S9 will feature a 6.44-inch AMOLED display with a 90Hz refresh rate. The leaks confirm that the upcoming phone will run an all-new MediaTek Dimensity 1100 SoC. Reportedly, this chipset has received a score of 600,000 on AnTuTu. In terms of storage, the upcoming Vivo phone may come in two storage options — an 8GB RAM + 128GB storage variant and a 12GB RAM + 256GB onboard storage model.
As said before, the Vivo S9 smartphone will reportedly have a 44MP primary sensor in the dual selfie camera setup. The other camera will be an ultra-wide shooter. Further, the tipsters claim that the phone may sport a triple rear camera setup, however, they didn’t reveal any detail about the sensors. To keep the lights on, the handset will pack a 4,000mAh battery with 33W fast charging support.
Further, the Vivo S9 sports a thin design with a 2.5D glass protection at the back. It is said to be made of an aerospace aluminum-magnesium alloy material. Tipsters claim that the smartphone will be just 7.31mm thick and weigh 168 grams. The renders suggest a gradient finish, while the overall design remains similar to the phone’s predecessor, Vivo S7.
Currently, there’s no official information from Vivo about this phone, but some reports claim that the S9 will debut on March 6. It had purportedly appeared on the China Compulsory Certification (3C) site earlier.