For the general problem of the above lead-acid battery charging, the new charger products are developed with unique methods and clever design, and solve complex technical problems in the charging of lead-acid batteries. It has been greatly improved through many years of experimental confirmation. The life of the lead-acid battery.It is assumed that there are two power supplies EA, EB, and when the power source EA is in the same ambient temperature, the positive electrode and the positive electrode are connected, the negative electrode is connected to the negative electrode, and in the closed circuit thereof. There is a relationship, if EA is higher than EB, EA will provide EB to EB, and the voltage of ΔE is supplied, and a delta current is supplied to the power source EB flow and perfusion. When EB absorbs the ΔI current provided by EA, the EB rises to the EB (in the battery in the battery, the increase in battery-end voltage increases), the power source EA will stop providing electricity to the power source EB, that is EA = EB, ΔE = 0, Δi = 0.
In the above description, we replace EB to be charged, calculated from a voltage corresponding to the battery at different discharge depths and ambient temperatures. EA is carefully designed to different ambient temperatures, can automatically adjust the power supply of the output voltage and current according to the battery charging balance, and the power supply EA can be used in accordance with the battery at any ambient temperature according to the battery according to the battery according to the battery, according to the battery. The received current, charging the battery, the battery is fully charged, ΔE = 0, Δi = 0, the EA power source will no longer consume power. Thereafter, EA only provides tracking balance compensation for the reservoir battery with ambient temperature, and because the entire process of battery charging is completely automated, we call it natural balance method.
The case where the method is completely ideal: the battery is at sufficient electricity, and the voltage difference between the EA and the chargeable battery EB is ΔE = 0, and naturally Δi = 0. Since the EA has no power supply battery (EB), the battery electrolyte is not possible to produce boiling, and it is impossible to decompose water in the electrolyte in the battery, which is less likely to increase the pressure and temperature in the battery, and generate a safety hazard. Therefore, this method provides the battery that does not charge the battery over the battery, nor does it make the battery charges, but more convenient, safer, more reliable.
From the above analysis, we are not difficult to see that this method is especially suitable for maintenance-free and less maintenance of lead-acid battery, which can adapt to the daily maintenance of the battery for intermittent discharge, which is conducive to improving the daily use of the battery. Reliability, improve the service life of the battery. Recommend: LiFePO4 Battery Manufacturer Energy storage battery Manufacturer Integrated machine energy storage battery series Manufacturer Lead lithium battery Manufacturer Outdoor Backup Battery Manufacturer Portable outdoor power supply Manufacturer Power battery Manufacturer Powerwall LiFePO4 Battery Manufacturer Battery rack Manufacturers Telecom LiFePO4 Battery Manufacturer Wall mounted battery storage Manufacturer China Lifepo4 Battery
