Influencing factors of low temperature characteristics of lithium iron phosphate battery

Although compared with other rechargeable batteries, lithium iron phosphate batteries have great advantages in terms of cycle system service life and rechargeable battery multiples, but under low temperature standards, their characteristics are slightly reduced. Therefore, improving and improving the low-temperature characteristics of lithium iron phosphate batteries more reasonably improves their competitiveness.

First, the positive electrode material selected in the lithium iron phosphate battery has a weak electrical conductivity of its own electronic devices, which is very prone to electrical polarization, thereby reducing the volume of the lithium battery.

Second, the negative stage of the negative lithium battery is very harmful to these aspects of low-temperature battery charging, and will endanger the safety factor of the rechargeable battery.

Third, lithium iron phosphate battery electrolyte under low temperature standards, the viscosity of the internal lithium battery electrolyte increases, thereby increasing the characteristic impedance of lithium ion battery transfer.
Ways to improve and improve the low-temperature characteristics of lithium iron phosphate batteries

1. The three elements of positive electrode particle size, resistance and resistance, from the perspective of the positive level of lithium iron phosphate battery rechargeable batteries, will all harm the ultra-low temperature characteristics of rechargeable batteries. The low-temperature charge and discharge characteristics of lithium batteries can be improved according to the positive-level manufacturing process. Increasing the length of the axis of the plan can expand the safe passage for the transfer of lithium-ion batteries, which is beneficial to increase the volume of rechargeable batteries. According to research findings, the low-temperature charging and discharging characteristics of lithium iron phosphate batteries can release 914 particles at minus 20°C. The particle size is 100-200nm. Nanotechnology of particles can reduce the transfer path of particles and improve their low-temperature charging and discharging. characteristic.
Lithium Ion Battery

2. The negative electrode is the most harmful to the lithium iron phosphate battery charged by the low-temperature battery. The key lies in the change of the negative electrode particle size and the negative interval. Human high-purity graphite is a battery cathode material with different layer spacing and particle size. The particle high-purity graphite layer with a large layer spacing has slightly lower characteristic impedance and positive ion transfer characteristic impedance from the perspective of the antigen. Because the interval between the artificially synthesized high-purity graphite layers is enlarged and the particle size is reduced, the low-temperature constant-current power supply battery charging has greatly improved the lithium iron phosphate battery.

3. When the temperature of the lithium battery electrolyte drops to minus 20°C or lower, the electrolyte of the lithium iron phosphate battery is prone to freezing, viscosity increase, and characteristic changes. Experiments show that the harm of organic solvents to the low temperature of rechargeable batteries varies from 70% to 90%, reaching more than a dozen points. In addition, different lithium salts are also harmful to the charging characteristics of the battery. The test found that if only the preservative is changed, the low-temperature preservative can increase the charge and discharge capacity of the rechargeable battery from 8% to 90%.

The above exemplified several ways and key points to improve and enhance the low-temperature characteristics of lithium iron phosphate batteries. The key is the composition of the internal raw materials of the rechargeable battery. In fact, in order to improve the characteristics of lithium iron phosphate batteries at lower temperatures quickly and faster, not only must the internal constituent materials of rechargeable batteries be improved, but also according to a variety of methods, such as rechargeable battery intelligent management system, overall circulation System, etc., to improve its high efficiency.

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