Home > Information> Grepow Blog>

Which battery is used in Bluetooth headsets?

Which battery is used in Bluetooth headsets?

Editorial: Issue Date:2021-03-13 Views:1939
Compared with ordinary earphones, the battery life and battery life of Bluetooth headsets are relatively short when you keeping connect with Bluetooth. In addition, the Bluetooth headsets currently on the market have made the size smaller and handy to adapt the needs of market users for portability and appearance. Therefore, we have to extend the battery life, and its the most significant part for Bluetooth headsets. Excluding the impact of battery quality and environmental factors, in order to extend the battery life of our Bluetooth headsets, I think there are only three things we can do:
  1. Reduce the power consumption of the headset;
  2. Make a bigger battery (bigger size);
  3. Break through the energy density of the lithium battery.

Reducing the power consumption of the headset

Devices connected with Bluetooth capabilities will generally consume extra power. Even when the device is not in use, power will still be drained to a certain degree. In 2020, SIG (Bluetooth Special Interest Group) attempted to increase the potential for lowered power consumption when it officially released its Bluetooth 5.2 of the audio technology standard, LE Audio (LE Power Consumption). LE Audio not only improved the audio quality of headsets but also added low-power consumption features. It optimized the power consumption of Bluetooth devices and maximized the battery life and lifespan of lithium batteries in Bluetooth devices. Those interested in this technology can find more here. This video introduces the basics of power consumption in Bluetooth and LE battery life.

Making a bigger battery

Longer battery life is always ideal, and the logical next step would be to make a bigger battery to do so. However, Bluetooth headsets are already designed to be as portable and small in size as possible, and they are generally made with rectangular batteries. There really isn’t the space to produce a bigger battery without sacrificing size for the overall product itself.

What if we change to a Round battery?

So then, what other options can we consider?  We can consider changing the shape of the battery first. Combined with a PCB, a rectangular battery doesn’t occupy the full space of Bluetooth headsets.  In the below images, you can see how only about ⅔ of the device is inhabited, which wastes potential space. [caption id="attachment_3615" align="aligncenter" width="600"] JBL T450BT Bluetooth Headsets (Disassembly) JBL T450BT Bluetooth Headsets (Disassembly) - from YouTube[/caption] [caption id="attachment_3616" align="aligncenter" width="600"] JBL e55bt Bluetooth Headsets (Disassembly) JBL e55bt Bluetooth Headsets (Disassembly) - from YouTube[/caption] If we leave the confines of a standard rectangular battery, we move onto considering special-shaped batteries.  These batteries can be customized into a plethora of different shapes according to the needs of a product. Of shaped batteries, the round battery is the most frequently requested shape, and this shape in particular can maximize the use of the battery while filling up the internal space of Bluetooth headsets. To customize round batteries, the radios (R), height (H), and thickness (T) of the battery must be provided. [caption id="attachment_3614" align="aligncenter" width="272"]Line drawing of the Round Shaped battery Line drawing of the Round Shaped battery[/caption] Let us "pretending" to replace its original battery with a Round battery. Is this a perfect match? Lithium Round battery replace JBL e55bt rectangle battery

Energy density of lithium batteries

Lithium batteries have one of the highest energy densities of any battery technology today (100-265 Wh/kg or 250-670 Wh/L). In addition, Li-ion cells can deliver up to 3.6V, which is 3 times more than that of technologies like Ni-Cd or Ni-MH. So what does this mean?  Energy density represents how much energy can be released by different batteries under the same weight or volume.  If we want to achieve longer battery life, we need to break through the energy density threshold of lithium batteries.

Increase the upper limit of battery voltage

Generally, the nominal voltage of a lithium-ion battery is 3.7V (and 3.2V for lithium iron phosphate batteries), and the fully-charged voltage is 4.2V (and 3.65V for lithium iron phosphate battery). The discharge cut-off voltage of a lithium-ion battery is 2.75V to 3.0V. Therefore, the higher the upper voltage limit, the higher the capacity and energy.  This creates a high-voltage lithium-ion battery (read more here). High-voltage batteries have high energy density and high discharge platforms. They can also deliver more capacity under the same conditions of use, so their battery life is longer while delivering more power. Under normal circumstances, the lifetime of Grepow’s high-voltage batteries will increase by 15-25%. [caption id="" align="aligncenter" width="1351"]Comparison of 4.2V and LiHv 4.35V, 4.4V, 4.45V Grepow lithium battery Comparison of 4.2V and LiHv 4.35V, 4.4V, 4.45V lithium battery[/caption] Grepow has a variety of high-voltage batteries.  Not only do we provide batteries that have a nominal voltage of 4.35V to 4.5V, but we also can customize these LiHV batteries in different shapes and sizes to meet our clients' needs. [caption id="attachment_3617" align="aligncenter" width="819"]A part of model table of high-voltage Shaped battery A part of model table of high-voltage Shaped battery[/caption]

Considering a new formula

To go even further than LiHV batteries, Grepow has successfully developed a semi-solid lithium-ion battery, which has raised the energy density of lithium batteries to a new level. According to the latest test results, the energy density comes out to 290Wh/kg. Compared to the standard lithium-polymer battery formula,  the energy density is about 30Wh/kg higher.
Grepow's semi-solid battery
Grepow's semi-solid battery is a pouch cell produced via the stacking method with silicon-carbon anode material. With these batteries, capacity retention can stay over 80% after 1000 cycles. This technology is more reliable and lightweight, making it an excellent option for commercial drones used for mapping, E-VTOL, and consumer electronics. Plus, semi-solid batteries can be customized in a variety of shapes the maximize the internal space of different products. If you are interested in learning more about these batteries, go here.

About Grepow

Keep an eye on Grepow's official blog, where we’ll regularly update industry-related articles to keep you up-to-date on the battery industry. Grepow: https://www.grepow.com/ Grepow Blog: https://www.grepow.com/blog/

Related Articles

Related products


Comment( Your email address will not be disclosed. Required fields are marked as *

*Verification Code
Grepow UAV Drone Battery
Grepow Shaped Battery