Transformer chargers are designed to charge traction lead-acid batteries

In order to better understand what kind of charger is needed, we will dwell on the key points of selection.

Classification of chargers:
Pulse and transformer are the two main classes of data. The main difference between them is the structure of the device and the principle of operation.

Transformer chargers are designed to charge traction lead-acid batteries, can be single-phase, operate from an AC network with a voltage of 220 V, as well as three-phase, operating from a three-phase AC network with a voltage of 380 V.

Transformer storage device:

Transformer;
Rectifier.
Advantages:

Low cost;
Simplicity of design;
The presence of protection against short circuit;
Rarity of breakdowns;
Possibility to restore any battery.

The disadvantages of transformer chargers include: Energy

Large size and weight;
The need to measure the charge before recharging;
The need to track the entire charging process.
Despite the shortcomings, transformer-type chargers are widely in demand.

Pulse chargers.

The difference between pulse chargers and transformer chargers is the implementation of recharging by pulses.

Advantages of pulse chargers:

Light weight and size;
Process automation;
Display hints, LED indicators;Current Source
Reliable protection system.
The disadvantages include the relatively high cost of equipment.

For a maintenance-free battery, it is safer to use a pulse charger to recharge, as it does not adversely affect the electrodes.

The choice between transformer and pulsed data is left to the consumer. Both imported and domestic chargers for traction batteries are in great demand in the market.