Huawei presents the Huawei Ascend Mate 7 with fingerprint scanner


The Chinese giant has announced the new Huawei Ascend Mate 7 at the IFA 2014 underway in Berlin, a highly anticipated and widely anticipated phablet.

The smartphone offers a large 6-inch LTPS display with a screen density of up to 83%, with bezels of just 2.9 millimeters and Full HD 1920 x 1080 pixels resolution. The processor, as emerged from the latest rumors, is Huawei's own Kirin 925, which offers 8 classic +1 cores, a micro core that operates at just 230MHz and is in charge of managing the 'continuous standby'. The chipset is made with ARM big.LITTLE architecture at 28 nanometers.

Huawei has equipped the new phablet of a high sensitivity fingerprint scanner made in collaboration with the Swedish company FCP. The scanner, with a concave shape, immediately awakens the smartphone at the touch of a finger.

The new phablet is also equipped with a dual antenna that should guarantee the 40% of missed calls less, and offers 4G LTE connectivity optimized to choose the best signal and select the ideal source to send and receive data.


The smartphone is managed by the Android 4.4 KitKat operating system customized by Emotion UI 3.0, supports LTE Cat.6 and has a thickness of just 7.9 mm. Huawei will also distribute its new gem bundled with a pair of UltimoPower headphones with Noise Canceling, which reduce noise by 15-30db.

The rest of the specifications include the Mali-T628 GPU, 2GB of RAM in the 16GB version of internal memory, 3GB of RAM in the 32GB version of internal memory, 13 mega-pixel rear camera with Sony sensor, LED flash, 5 lens F2.0 elements and aperture, 5 mega-pixel front camera and a weight of 182 grams.

The smartphone will be powered by a large 4100mAh battery, and will arrive on the market in black, silver and gold. Marketing is expected in over 30 countries in Q3 2014, including Italy, with a price of 499 euros for the version with 2GB of RAM and 16GB of internal memory, and 599 euros for the version with 3GB of RAM and 32GB of internal memory.