What are the charging methods of Panasonic battery?
Panasonic battery plays a very important role in our life. Do you know the charging methods of Panasonic battery? Here is a detailed introduction:
When the load of Panasonic battery changes in the normal range, the charging equipment shall reach ± 1% voltage stabilization accuracy, and the charging equipment of Panasonic battery shall be able to meet the charging requirements specified in this specification. Please do not stop floating charge during non working time of floating charge application; slight battery vulcanization will reduce the capacity of the battery, add internal resistance of the battery, and in severe cases, the electrode will fail to charge.
Many users don't quite understand how to charge and how to charge Panasonic battery. The staff of Panasonic battery introduced the charging method and way of Panasonic battery to us. First, introduce the charging method of Panasonic battery: the normal range of charging rules of Panasonic battery: please use the active voltage and current limiting charging equipment with excellent functions.
Some methods can be used to recover the subtle battery vulcanization. In severe cases, the normal charging method can not recover the capacity. Panasonic battery needs pulse attack equipment to recover the capacity. Water loss and positive plate softening of Panasonic battery have external characteristics. The way to distinguish whether Panasonic battery can be vulcanized or not is often to use pulse capacity restorer to stop pulse repair of Panasonic battery. If the capacity is increased, it is vulcanized. If there is no little capacity increase, the battery capacity may be reduced due to other reasons.
One of the factors determining the capacity of Panasonic battery
The size of the center distance between the plates of Panasonic battery also has a certain impact on the capacity. This impact can be analyzed from two aspects. One is to consider the impact of the amount of electrolyte on the capacity of the battery; the other is to affect the internal resistance through the change of the center distance between the plates, and then affect the discharge capacity of the battery. When it comes to the influence of electrolyte quantity on battery capacity, it is necessary to introduce another concept closely related to the plate center distance: plate surface distance, which refers to the distance between adjacent plates of different polarity in a battery. As we all know, the amount of acid in the active material hole in the plate is far from enough to meet the demand of the electrochemical response of the active material. It is reported that the amount of acid in the plate of Panasonic battery is only 10% of the total amount of the active material to participate in the electrochemical response. In the design criterion of valve regulated sealed lead-acid battery which is more popular nowadays, it is not only not allowed to have free electrolyte, but also requested that the amount of acid in battery partition should not be saturated, and 5% - 10% holes must be left as the channel of oxygen recombination.