Oukitel, the Chinese based manufacturer has been in the news for launching a dual screen smartphone Oukitel U6. This is the only smartphone next to Yotaphones to feature a normal IPS display along with an e-ink display on the rear of the device. Along with the U6, the company recently launched the U10 and U7 that offered some exciting features at a decent price.
Now, the company is all set to launch a new smartphone with a massive battery performance called Oukitel K4000. As the name itself suggests, the K4000 carries a long-lasting 4,000mAh capacity battery that can last upto seven days on regular usage and three days on heavy usage.
The Chinese company said that K4000 also features a Corning Gorilla Glass that is anti-crash, and they claim that it is an extremely durable device. According to Oukitel, the handset will survive even if it is run over by a car or continuously hitting with a hammer. In their latest testing, the company has tried to drill into the display of the device. The display of the device had withstood for most of the time and surprisingly even after it is completely drilled into the other side, the display of the device has been powered on.
Talking about its specifications, the Oukitel K4000 sports a 5.5-inch HD (1280 x 720 pixels) IPS display with Corning Gorilla Glass protection on top of it. It comes powered by MediaTek MT6735 quad-core processor clocked at 1.3GHz backed with 2GB of RAM. It has 16GB of internal storage and microSD card support for storage expansion upto 64GB.
There is a 13MP rear camera with LED flash and a 5MP selfie camera for video calling and selfie images. It has a dual sim functionality with 4G-LTE support, and other connectivity options include Bluetooth 4.0, Wi-Fi, GPS/A-GPS and microUSB port 2.0. As earlier said, it comes packed with a 4000 mAh Li-Ion battery, and the device runs on Android 5.1 Lollipop OS.
The device will be available in two color – Black & White and the price of this extremely durable smartphone is $139.99. There is no information about the availability of the device.