In exploring modern communication power solutions, we found that the choice of telecommunications batteries is critical to ensuring uninterrupted communication.

Here are some of the key features and benefits of telecom batteries:

the ascension of voltage stability  

traditional lead-acid battery voltage will drop significantly in the process of discharge, This can cause communication devices to fail to function properly when the battery is not fully discharged. In contrast, lithium iron phosphate (LiFePO4) batteries are able to maintain a stable voltage throughout the discharge cycle until their charging state drops to 5%.

the increase of charging rate  

lead-acid batteries for fast charging poor response, And fast charging can damage those batteries. In contrast, the LiFePO4 battery is able to accept a high charge rate and charge quickly even at close to full discharge. This means that in a short period of time, such as running a vehicle engine for about 20 minutes, the battery can be re-charged for several hours.

Fast discharge capacity   Fast discharge damages lead-acid batteries more than LiFePO4 batteries. LiFePO4 batteries are able to withstand rapid discharges without damage, which makes them ideal for use with inverters, especially when it's necessary to power devices that consume a lot of current, such as coffee makers, induction stoves, microwaves, hair dryers, and toasters.

to maximize the battery capacity of  

lead-acid battery charging status at 50%, the voltage is usually falls to not support the level of the equipment to work normally. The LiFePO4 battery provides sufficient voltage support even when the discharge is well below 50%. When the discharge reaches about 95%, LiFePO4 batteries with a good battery management system (BMS) automatically shut down to prevent excessive discharge.

cycle longer lifespans  

cycle life of lead acid battery is usually limited, The LiFePO4 battery has a cycle life of thousands of times. Proper use and maintenance can significantly extend the life of LiFePO4 batteries, and some batteries can even last longer than the vehicles in which they are installed.

to reduce self-discharge  

lead-acid batteries, if long time don't use sulfate could occur, The battery is damaged and the power is lost. LiFePO4 batteries have an extremely low self-discharge rate, averaging just 3% per month, so they can be left for long periods of time without losing significant amounts of power.

no maintenance  

lead-acid batteries need regular inspection and maintenance, and LiFePO4 battery completely free maintenance, Reduced maintenance costs and time.

the flexibility of installation position  

lead-acid battery often need to install on top of the position, The LiFePO4 battery can be installed anywhere, as long as it is not upside down. This provides more choice and flexibility for battery installation.

portability  

LiFePO4 battery lighter than lead-acid batteries of the same energy by about 50%, that reduce weight, Reduced installation and transportation costs.

to safety and environmental friendly  

LiFePO4 battery safer than lead acid battery, There is no risk of toxic fumes or liquid leaks, and no explosion or fire. They have a low environmental impact and are a more environmentally friendly option.

ability of fast charging  

LiFePO4 batteries can be through the vehicle engine quick charge, This eliminates the need for a generator or fuel cell, providing a more efficient and convenient way to charge.

widely applied  

LiFePO4 can be used in almost all used lead-acid battery The application scenario of pools provides a more efficient and secure alternative.

In summary, the application of LiFePO4 batteries in the field of telecommunications provides higher performance, better security and longer service life, making them ideal for the uninterrupted operation of communication networks.