Qualcomm Quick Charge 3.0 10000mAh ultra-slim dual USB output power bank fast charger for phones and tablets.
Quickcharge Power Bank 10000mAh
10000mAh fast charge powerbank with dual USB output featuring Quick Charge 3.0 technology.
The ultra slim UEB-11 powerbank features:
- Dual USB output to charge up to two (2) devices at the same time:
- 1 x Quick Charge 3.0 USB port
- 1 x high current (2.0A) USB port
- High capacity 10000mAh lithium polymer battery inside can recharge most smartphones 2-3 times on a single charge.
- Stylish design with non-slip textured case and discreet LED power indicators on the side.
- Comes with 1 x USB to Micro USB charging cable.
The latest power supplies and products from Enecharger feature integrated Quick Charge 3.0 technology inside made to suit the modern fast paced lifestyle.
With Quick Charge 3.0 technology, you can now charge a typical 3300mAh smartphone battery from 0% to 80% capacity in as little as 35 minutes. It’s 100% backwards compatible with Quick Charge 1.0 and Quick Charge 2.0 devices, and it supports a broad range of connectors: USB Type-A, USB micro, USB Type-C, or proprietary connectors. Quick Charge is supported by a far-reaching assortment of certified accessories, including wall chargers, car chargers, battery packs, and power controllers.
Quick Charge 3.0 employs Intelligent Negotiation for Optimum Voltage (INOV), an algorithm which allows your portable device to determine what power level to request at any point in time, enabling optimum power transfer while maximizing efficiency. It also supports wider voltage options, allowing a mobile device to dynamically adjust to the ideal voltage level supported by that specific device.
Ideal for use with QC3.0 enabled devices from major brands including HTC, LG, ZTE and others. Enecharger’s QC3.0 adaptors and power supplies are also compatible* with non-Quick Charge enabled devices as well, including iPhones and iPads.
*All USB charged devices can be charged safely with this charger however charge rates will differ and may be slower depending on the charge acceptance of the device.