XTAR 4150mWh/2500mAh 1.5V AA Lithium Battery with Low Voltage Indicator
SKU:
1.5V AA rechargeable battery for Trail Camera, Drone remote control handle, Game controller, Wireless mouse, Keyboards, Smart door locks, VR handle controller, Electric toothbrushes, Oral irrigator, Electric shaver, Blood pressure monitor, Toy, Digital audio, etc.
The highest real capacity in the field. • Charge capacity 2500mAh, energy 4150mWh • Consistent and reliable 1.5V output • Super quick charing time 2.9 hours, with smart LED indicator • Intelligent safety chip, anti-leakage and multiple protections • Low-voltage detection function • Cycle life more than 1200 times
Replacing your single-use AA and AAA batteries with rechargeables is a quick and easy way to lower our environmental footprint. The long-lasting power in the latest XTAR Li-ion batteries means that you get improved performance while reducing up to 30 times less pollution compared to alkaline cells. An ultra-stable 1.5V output for heavy-load devices,Super fast charging time of 1.5 hours to full top-up, 1000+ life cycles for exceptional longevitye time.
FAQ about 1.5V AA 4150mWh battery
1. Is the battery safe?
Yes. The rechargeable 4150mWh AA lithium battery is equipped with a built-in 3-in-1 smart chip. It enables intelligent charging and discharging management and multiple protections of over-discharge, short circuit, over temperature and more. Also it has LED indicators for timely charging, full charged and discharge abnormal indication. At the same time, the lithium battery is anti-leakage, anti-corrosion.
2. The difference between mWh vs mAh, and how to convert?
Battery capacity (mAh) defines the amount of charge stored by the battery. It is the maximum power that the battery can be used, more useful for the battery runtime. Battery energy (mWh) is the value of mAh multiplied by voltage, which determines what kind of device the battery can drive. It is a dynamic concept. It is the actual power of the battery in a certain state. Just like a reservoir, its storage capacity remains constant, but its actual water volume is dynamic.
A battery with a marked capacity of mAh can emit different amounts of electricity under different discharge currents. The higher the current, the less energy can be released. This is caused by polarization inside the battery. Therefore, when discussing the battery life, you should also consider the discharge rate performance.
How to calculate the “4150mWh”:
The XTAR 4150mWh AA lithium battery adopts a cell of 3.6V 14430 1150mAh. The rating capacity comes from the capacity of the internal battery cell, because the cell capacity is fixed. It is 1150mAh*3.6V=4140mWh. The mAh capacity is 2500mAh, and it comes from XTAR lab’s test under the condition of standard discharging current of 0.5A.
Convert the capacity mAh to mWh,it is 2500mAh x 1.5V=3750mWh, not the rated 4150mWh.
What’s the reason:
The formula of “Voltage x mAh capacity=mWh energy”only works on 3.6/3.7V lithium-ion batteries. For the rechargeable 1.5V lithium-ion battery, there is a conversion loss due to the built-in voltage regulator circuit, typically estimated to be around 8% to 10%. Therefore, the discharging energy of the XTAR 4150mWh AA lithium battery is around 4150mWh*90%=3735mWh. That means, the energy after fully charging is 4150mWh, but it would be less in discharging due to the conversion loss.
3. How users can test the actual capacity of this battery by themselves?
There are two ways. One is discharging test with professional grading machine or electronic load under constant current, and then calculate the capacity with discharging time integration. The other one is discharging test by connecting a 3 ohm or 5W+ resistor to the terminals of the battery, then calculate the capacity with ampere-hour integral method.
Firstly, the battery must be fully charged. If you test twice but get different results, it may due to the different battery saturation. XTAR’s battery low-voltage detection function is set with the voltage of around 1.1V, and there is some power can be discharged. So the cut-off voltage should be set under 0.8V, to count in the rest power under 1.1V. In addition, the test deviation should also be count in. XTAR’s battery capacity lower limit is 2420mAh at 0.5A.
Regarding battery capacity testing, please pay attention to the following points:
A. The battery must be fully charged. We recommend to use LC4, LC8, L4, L8 & BC4 charger, because their cut-off charging currents are lower, so you can get a higher battery saturation.
B. Set the cut-off discharging voltage to below 0.8V to avoid stop discharging too earlier and lower test capacity.
C. The discharging current is suggested to be set with 0.3-0.5A, due to the conversion loss of internal voltage step-down and the conversion efficiency deviation under different discharging current.
D. The discharge capacity of the battery will be affected by the discharger's current error, fluctuation size, integral error, discharge cut-off voltage, battery saturation, and ambient temperature. It is recommended to test more than twice.
4. Can 1.5V lithium batteries work stably in extremely cold and hot weather without excessive power consumption?
The discharge operating temperature range for XTAR 1.5V lithium batteries is -20°C to 60°C.
5. Which devices do 1.5V lithium batteries work for and which devices do they not work for?
1.5V lithium batteries are generally suitable for most of the devices that use AA/AAA NiMH and dry batteries, especially those that require fast power consumption and stable power supply, such as wireless microphones, VR controllers, game controllers, RC toys, etc. They are also suitable for devices that are frequently used and require a large number of batteries, such as trail cameras, multimeters, sound mixers, Guitar amplifiers and so on.
1.5V lithium batteries are not suitable for electronic clocks because they have a higher power output, resulting in faster battery consumption and need for frequent battery replacements. Not suitable for radios due to the noise caused by electromagnetic interference.
6. What are the advantages compared with AA NiMH batteries?
Compared with AA NiMH batteries, the main advantage of rechargeable 1.5V AA lithium-ion batteries is their ability to provide a continuous 1.5V high-voltage output, stable performance, fast charging, and no memory effect.
7. What happens when XTAR 4150mWh 1.5V rechargeable lithium battery runs out of power?
The XTAR 4150mWh AA lithium battery has a low-battery reminder function. When you use it on your device that also have the low-battery alert like smart locks, VRs, GPS, you will get the reminder in time. If you use the battery on flashlights, you can also find the light is dimming when the power is low.
The above comparison data comes from the battery comparison test website – Akkuvergleichstest.de