Einhell battery charger user manual

UK Hotline IR Hotline Monday till Thursday am - pm Friday am - pm. Contact form. Inform about spare parts for your Einhell Product Sparepart service. Manuals and documents to download Instruction manuals. Among other things this versatile battery charger can be used to charge up 6 V and 12 V vehicle batteries, along with gel batteries, AGM, and zero and low maintenance lead-acid batteries. The battery charger is suitable for use in the workshed and garage and has IP65 protection dustproof and protected against water jets.

The multi-stage charging cycle is controlled and permanently monitored by a microprocessor controller, and the charging cycles are optimized to contribute to an extended battery life. Changing between 6 V and 12 V vehicle batteries is selected by pushbutton. The battery charger from Einhell is ideally suitable for seasonal vehicles which are not used for extended periods and has a trickle charge function for a continuously ideal charging status.

The battery charger from Einhell has electronic protection against overcharging, short-circuit and swapped poles. The battery clamps are fully insulated. The housing has a suspension eyelet to mount to the wall. How can we help you? Go to Einhell services. Please select. Go to Einhell Service Shop. Customer reviews. What was that about watts, volts and ampere-hours? Here comes your portion of battery knowledge:. In this context, "ageing" means the loss of capacity.

Everybody knows the phenomenon that after a few years the smartphone runs out of juice faster and faster. Therefore, the battery is also considered a wear part. This is due to the chemical processes that take place in the battery during charging and discharging. The lithium-ions become less and less and this inevitably leads to a loss of capacity in the battery at some point. However, a battery may age even when not in use, e.

So aging is quite normal with a battery, but there are still some things you can do to slow down the loss of capacity and give you a longer battery life.

Unfortunately no, because there is also potential for optimization when recharging. The charge current, measured in amperes A , for example, is a decisive factor, because it makes a big difference whether batteries are charged quickly or slowly. The higher the charging current, the shorter the battery life. You can see with which charging current your charger is charging by the amperage on the data label: chargers with 3 A are more than sufficient to charge your tool battery in most cases. If things have to go faster, chargers with 6 A or more have their right to exist, such as our Boost Charger.

Just be careful not to use them on every charge cycle, but only when time is really a critical factor. That is why the boost function of our Boost Charger can also be optionally switched on by key. But what about the memory effect? Does it still exist or is it a myth? Nowadays, thanks to Li-Ion batteries, we can fortunately say that the effect in the form no longer exists.

But what is the memory effect? The memory effect occurs when batteries are temporarily charged when they are not yet empty. Especially with the now obsolete nickel-cadmium batteries, this led to the fact that they "memorized" the charge level and then could no longer be charged to full capacity during the next charging process. Nowadays the devices are equipped with lithium-ion batteries. These not only have a significantly longer running time , but the memory effect is also no longer important.

Nevertheless, even with the new energy sources, it is decisive how long and when they are charged:. Basically, it should be noted that the capacity of the batteries deteriorates if the battery is connected to the charger for too long. It is the last percent of the charge in particular that places a particular strain on the energy storage system. On the other hand, a Li-Ion battery should not be completely discharged. The memory effect is no longer important, but as mentioned above, modern lithium-ion batteries can become deeply discharged.

Modern rechargeable batteries switch off automatically when the charge falls below a certain minimum level. This is to prevent deep discharge. One speaks of a deep discharge when the entire battery capacity is removed or this minimum load value has been undercut.

This usually happens when batteries are stored empty and then discharge themselves even further. If self-discharge takes place for too long, deep discharge occurs, which can cause permanent damage. Can such deeply discharged batteries still be saved?