Lithium iron phosphate battery BMS management system is highly compatible with the development of 5G base stations -Lithium - Ion Battery Equipment
Lithium iron phosphate battery BMS management system is highly consistent with the development of 5G base stations
The lithium iron phosphate battery BMS management system can be split into two sciences, battery monitoring and battery control; the monitoring part includes voltage and temperature measurement and battery balancing. These are the basic attributes of the BMS lithium-ion battery management system. The safety management mode of the battery management system is crucial to the safety of the battery. The lithium iron phosphate battery management system mainly includes a data acquisition unit, a computing and control unit, a balancing unit, a control execution unit and a communication unit.(Lithium - Ion Battery Equipment)
The BMS (battery management system) of the lithium iron phosphate battery can monitor the entire battery system equipment and monitor the performance of each battery in the backup power supply. Users can easily grasp the remaining power of each battery and the operation of the equipment with just the move of their fingers. situation, etc., which is highly consistent with the trend of smart development of 5G base stations.
The production process of lithium iron phosphate batteries is relatively complex, and the consistency difference of single cells will be greater than that of valve-regulated sealed lead-acid batteries. This causes the voltage of individual single cells to rise rapidly in the later stages of charging of the battery pack. In addition, the communication base station is in a long-term It is not easy to detect in an unattended state in time, which will cause the life of the lithium iron phosphate battery pack to be shortened or damaged. In order to prevent the above phenomena from happening, a battery management system must be used to ensure the safety and reliability of the battery.
Lithium iron phosphate battery can meet the characteristics of 5G base station. The lithium iron phosphate battery system has many advantages such as small size, light weight, outstanding high temperature performance, excellent cycle performance, high rate charge and discharge, green and environmental protection, etc., so it is more suitable for Harsh base station environments such as high ambient temperature, small computer room area and small load-bearing capacity can ensure the safe operation of 5G base stations.
The lithium iron phosphate battery management system adopts advanced self-fault diagnosis and fault-tolerant technology, and has a self-checking function for the module's own software and hardware. Even if there is an internal fault or even device damage, it will not affect the safety of the battery operation. The BMS lithium-ion battery management system has corresponding digital communication interfaces and open communication protocols, as well as necessary input and output dry nodes. It can be flexibly connected to PCS, energy storage power station monitoring and dispatching systems, etc., to achieve linkage control and improve the efficiency of energy storage power stations. Optimize load control and dispatch decisions.
Lithium iron phosphate battery is a new environmentally friendly backup power supply for energy storage and backup power applications. The system uses environmentally friendly lithium iron phosphate batteries and is equipped with a high-performance BMS to effectively manage the cells. Compared with traditional batteries, it has a wider range of performance and application advantages. The country’s emphasis on 5G base stations also brings more development opportunities to iron lithium-ion batteries. my country Mobile's tender is just the beginning of this year's 5G communications. It is expected that after the epidemic situation improves, the energy storage market will further develop, and the lithium iron phosphate lithium-ion battery industry will have greater room for improvement in 2020.
Summary: Companies have increased their research and development efforts on lithium iron phosphate batteries, invested in expanding production, and a new round of market competition has gradually begun. In new 5G base station projects in the future, we will continue to encourage the use of lithium iron phosphate batteries as backup power batteries for base stations and promote the large-scale application of lithium iron phosphate batteries in base stations.