The new smartphone codenamed ‘Sargo’ has been leaked once again in the wild along with some other devices. The upcoming and never confirmed device, Pixel 3 Lite has leaked in comparison photos against various iPhones and original Pixel device. The new images have showcased its design aspects which purely matches with original Pixel 2 with the difference in size. The new purported Pixel 3 lite is courtesy of Russian blog. The new images show its thick bezels on the right and left sides of the display.
We can also see the presence of Android Pie on purported Pixel 3 Lite in the image. There are multiple images of Pixel 3 Lite standing against different iPhone variants. Overall, from the front side, we only managed to see is round cornered display and similar overall design with curved corners. On the back, there’s a single rear camera with an LED flashlight and a fingerprint scanner on the center.
Additionally, Pixel 3 Lite also surfaced last week with some hands-on images. It led us to know about the plastic build along with USB- Type-C port at the bottom and a fingerprint scanner on the back. Surprisingly, Google has not ditched 3.5 mm headphone jack on Pixel 3 Lite.
Pixel 3 Lite purported specs
Additionally, Pixel 3 Lite is rumored to host a 5.56-inch full HD+ display having a resolution of 1080 x 2220 pixels at an aspect ratio of 18.5:9. The display features 441 ppi of pixel density. It is speculated to come with Qualcomm Snapdragon 670 chipset with Adreno 615 GPU. It will be made available in 4GB RAM and 32 GB internal storage. In camera, you could see a 12-megapixel single rear camera with LED flash. There’s another shooter of 8 megapixels on the front side for selfies. To give you a better standby on battery, Google Pixel 3 Lite might come with 2915 mAh battery with Quick Charge 4+ support.
Further, the device might come with another Pixel device codenamed ‘Bonito’ as revealed by ARCore APK insights.
As like of Pixel 3 standard series, it will also feature cameras and software optimizations for taking pictures in low light.