![]() The formula below is used to calculate the charging time of a Gel or AGM battery: Outside of these limits, the Mastervolt battery charger will continue to supply the connected consumers but not charge the batteries.Īdjusting the voltage to a higher or lower temperature is not required for Lithium Ion batteries. The compensation is at most 14.55 V for a 12 V system, and 29.1 V for a 24 V system.Īt very high (> 50 ☌) and low (<-20 ☌) temperatures, wet gel and AGM batteries may no longer be charged. We call this ‘temperature compensation’.īecause devices such as refrigerators are always drawing power from a battery, even while it is being charged, Mastervolt’s temperature compensation includes a maximum offsetting effect to protect the connected devices. This adjusts the charge voltage to the temperature of the battery, extending its lifespan. These battery chargers continuously regulate charge voltage and charge current.įor wet gel and AGM batteries, it is recommended to have a sensor for measuring the temperature of the battery. A battery charger with temperature compensation for optimal protectionĮnsuring the longest possible lifespan for gel, AGM and Lithium Ion batteries requires a modern Mastervolt battery charger with a three-step+ charge characteristic. For a 180 Ah battery, for instance, this means a maximum charge current of 60 amperes. However, to maximise the lifespan of the Lithium Ion battery, Mastervolt recommends a maximum charging current of 30 % of the capacity. Mastervolt Lithium Ion batteries can be subjected to much higher charge currents. ![]() The maximum charging current is 50 % for a gel battery, and 30 % for an AGM battery. This means that a 400 Ah battery bank and a connected load of ten amperes requires a battery charger capacity of between 70 and 90 amperes in order to charge the battery in a reasonable time. During charging, you usually continue to supply power to connected devices, and this power consumption should be added to the 15-25 %. Charge currentĪ rule of thumb for gel and AGM batteries states that the minimum charging current should be 15 to 25 % of the battery capacity. The float voltage is 13.5 V for 12 V and 27 V for 24 V systems. Lithium Ion batteries are charged with an absorption voltage of 14.25 V for 12 V, and 28.5 V for 24 V systems. The float voltage for this type of battery is 13.25 V for 12 V and 26.5 V for 24 V systems. These figures assume a temperature of 25 ☌.įor wet lead-acid batteries, the absorption voltage is 14.25 V for 12 V systems and 28.5 V for 24 V systems. The absorption phase is followed by the float phase (see 3-step+ charging characteristic on page 242) in which the voltage is reduced to 13.8 V for 12 V systems and 27.6 V for 24 V systems. Mastervolt gel (2 V, 12 V) and Mastervolt AGM (6 V, 12 V) batteries should be charged with a voltage of 14.25 V for 12 V systems and 28.5 V for 24 V systems.
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