Introduction
Battery balancers are equipment created, in other to harmonize the operation of a battery cell and battery ridge system. This is a process observed, in other to keep both appliances on a decent voltage.
In other words, a battery balancer is programmed to perform battery harmonizing duties.
A situation whereby, the relationship between a battery cell and a battery ridge is in disharmony, can unavoidably reduce a battery’s life-span. The battery balancer is made to avoid the above circumstance.
Location of battery balancers
Battery balancers are mostly located on laptops, computer devices, vehicles, and a good number of other devices.
Reasons for battery balancer production
Particular cells are made with numerous charging capacities. A good number of manufacturers produce cells with a variety of charging levels.
The difference in cells may be due to manufacturing guidelines and available materials.
Manufacturers possess broad knowledge of battery construction. Due to available knowledge, a manufacturer may well decide to use a particular cell. This cell may contain a different charging level from another.
The difference in cell construction is a major dictator for battery balancers. Playing down the need for a battery balancer would lead to devices running out of charge
A situation whereby a device runs out of charge may further obstruct the energy that moves to and fro a battery component.
Moving on. Without the presence of battery balancers, the little parts of a cell can become a serious problem. Likely problems associated with the absence of a battery balancer are over-power and over-distribution problems.
In a broader insight, a battery can be over-powered or can over-dispense power, without the cells charging well-enough. This circumstance will showcase its ugly head when the presence of a battery balancer is missing.
The technicality of battery balancing
The process of battery balancing can be extremely functional, or stagnant. Most of the time, when talking about battery balancing, the idea is usually stagnant balancing.
In stagnant balancing, power is got from the fully charged cell. Then this power is dispersed through a resistor.
However, in extremely functional balancing, the power got from the fully charged cell, is then passed o to the less charged cell. This process id usually observed through a capacitor.
More often than not, the battery balancing function is taken care of by converters. These converters are arranged in three parts.
· Enclosure to battery converter
· Battery to enclosure converter
· Duo-directional converter
Generally, the current taken care of by each converter is lower than the current handled by the battery bag in its entirety.
The process of battery management
The battery management system is an electronic policy that oversees the energy renewable battery and its battery bag.
The battery management policy oversees the energy renewable battery by offering it safe operation. As well as providing an in-house organization.
For a quality battery management policy, the battery bag must be powered and charged by a smart battery charger.
A system for battery management is created to organize and oversee the state of several battery components.
These components range from voltage, temperature, safety, and power state.