Is it suitable to use lithium iron phosphate battery for outdoor power supply?
In recent years, due to the impact of the epidemic, many travel enthusiasts cannot travel around the mountains and waters, and their lives have also changed a lot. Outdoor activities have also become people's daily pastimes after work, such as camping, picnics, fishing, etc. are increasingly favored by the public. The emergence of outdoor power supply satisfies people to have sufficient power supply when camping, picnicking, and fishing. So which lithium battery is used for outdoor power supply? Are lithium iron phosphate batteries suitable for use in outdoor power supplies?
There are currently two main types of lithium batteries for outdoor power supplies, one is lithium iron phosphate battery, and the other is ternary lithium battery. In fact, lithium iron phosphate battery is very suitable for outdoor power supply. It has many advantages, which are the necessary conditions for choosing it:
First of all, let's look at its material. Lithium iron phosphate battery refers to a lithium ion battery that uses lithium iron phosphate as the positive electrode material. Lithium iron phosphate batteries have the advantages of large capacity, good high temperature performance, high safety performance, long cycle life, no memory effect and green and pollution-free. Its capacity is large enough to solve the problem of insufficient power, and it can also be used as a backup power supply, such as power failure at home, insufficient power in the car during travel, etc. The small size contains a lot of energy.
In terms of materials for outdoor power supply, the portable energy storage battery adopts imported high-strength engineering plastics. This material has many functions such as anti-fall, anti-shock, rain-proof, fire-proof, etc. It is used in the production of portable energy storage batteries and can effectively ensure the safety of its outdoor use.
The portable energy storage power supply adopts multiple protective materials outside, and also has many protection designs inside. The protection design for energy use such as overvoltage, overload, and short circuit also has protection design for charging and discharging such as overload, overcurrent, overcharge, and overdischarge. Multiple protection designs can provide users with a better and safer experience.
