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5000mAh Mi Power Bank
ATL/Lishen lithium-ion polymer battery cells in a super slim 9.9mm aluminum case, our thinnest yet.
Super slim 9.9mm caseSo thin, you won’t know it’s in your pocket
Keep things light. The 5000mAh power bank is designed for everyday use. Stash it in your bag or pocket – it’s so slim you won’t even know it’s there.
Slimmer, safer chargingPremium lithium-ion polymer batteries
Sourced from reputable suppliers such as ATL, premium lithium-ion polymer battery cells add 5000mAh of battery life to your smartphone, tablet or digital camera.
1full charge for
Redmi Note 4G- 1.8full charges for iPhone 6
- 2.2full charges for iPhone 5s
* Lab test results. Actual usage may vary.
World-class chipset protectionNine layers of circuit protection, built by Texas Instruments
Mi Power Bank’s adopted USB smart-control and charging/discharging chips from Texas Instruments provide nine layers of circuit chip protection while enhancing efficiency.
Temperature Resistance
Heat-sensitive and temperature control mechanisms ensure Li-ion batteries operate within a safe range.
Short-circuit protection
The motherboard and battery are automatically protected if short circuit occurs.
Reset Mechanism
Reset the power bank if it stops responding by simply pressing the Power button.
Input Over-Voltage Protection
OVP circuit prevents voltage surges from damaging the device.
Automatic Charger Protection
Detects when the charger is inserted incorrectly and will automatically stop charging.
Output Overcurrent Protection
Monitors output current and shuts off when current exceeds the maximum limit to protect the device.
Output Overvoltage Protection
Monitors output voltage and shuts off when voltage exceeds the maximum limit to protect the device.
Overcharge and Over-discharge protection
Japanese technology is used to prevent overcharging and over-discharging from damaging the Li-ion batteries.
PTC Protective Circuits for the Cell
Imported battery cells are equipped with PTC to effectively control and protect batteries when temperature and current exceed the maximum limit.
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