IUoU battery charging


IUoU is a DIN-designation for a lead-acid battery charging procedure that is also known as 3-stage charging, 3-phase charging, or 3-step charging. It consists of three phases, to be executed by a battery charger. The three phases are: I-phase, Uo-phase, and U-phase. The purpose is to fully charge the battery in a relatively short time without reducing its life span and to indefinitely keep the battery charged as long as the charger is connected.

Stages

Stage 1 is called the I-phase, constant-current stage, or bulk charge stage. This phase occurs when an IUoU charger is connected to a deeply discharged battery. The charger provides a constant current, typically the maximum current that the charger is capable of producing. As a result of the current, the battery absorbs the charge and its voltage rises. The charger limits the maximum voltage to Umax, a constant or temperature-dependent maximum, typically around 2.4 V per cell. Once the Umax voltage is reached, typically when the battery is charged to 70–80% of its capacity, the charger enters the Uo-phase. In case of a battery that is more than 80% full, this may happen immediately once the charger is switched on. Some chargers may keep the voltage at Umax for some time and allow the current to drop to 80% of the constant-current value, before proceeding to the next stage.
Stage 2 is called the Uo-phase, constant-voltage boost stage, absorption stage, or topping charge.
In this stage, the battery is continued being charged at a constant voltage Uo, but the charge current is decreasing. The decrease is imposed by the battery. The voltage in the Uo-phase is too high to be applied indefinitely, but it allows charging the battery fully in a relatively short time. The Uo-phase is concluded when the charge current goes below a threshold Imin, after which the U-phase is entered. This happens when the battery is charged to around 95% of its capacity. Some chargers follow this stage by a second constant-current stage before continuing with the U-phase. The voltage Uo may be the same as Umax in the previous stage, or it may be taken slightly higher.
Stage 3 is called the U-phase or float charge state, the voltage is reduced to a value that is safe to be applied for long periods without significantly reducing the lifetime of the battery. During this phase, the charge current decreases gradually to a small residual value that compensates for any self-discharge of the battery.

Voltages and currents

The current in the I-phase should be chosen depending on the capacity of the battery. In practice, it depends on the capability of the charger. The battery capacity C is expressed in Ah units, typically the C20 value based on a 20-hour discharge time. The charging current can be written as C/t where t is a time. For example, for a battery with C = 40 Ah, a current C/ is equal to 4 A. The charging current is a compromise between charging time, the prevention of damage due to overheating or gassing, and cost of the charger. Recommendations for the maximum charging current vary between C/10 and C/2. At high charging currents, active cooling measures may be necessary to prevent overheating.
The voltages in the U and Uo phases depend on the type of battery and the temperature. Batteries have varying numbers of cells and may be flooded-cell, absorbed-glass-matt, or gel-electrolyte types. The numbers in the table below are for a temperature around 20 °C. For temperatures that deviate more than about 5 °C, a correction should be applied of −5 mV/°C per cell or −0.03 V/°C for a 12 V battery.

Special cases

A bad battery will have short I-phase and Uo-phase, but there is a risk of gassing, further damaging the battery.
If a battery is connected to a significant load during charging, the end of the Uo-phase may never be reached and the battery will gas and be damaged, depending on the charge current relative to the battery capacity.