In Batscan, all parts after the protective resistor including wiring, sockets, measuring modules, communication bus network etc, meets the specifications for Limited Current Circuit (LCC), or SELV for personal safety as required by the International and European safety standard IEC/EN60950.

A fuse is simply a piece of wire inside a glass cylinder. The wire inside the fuse will melt when heated by a current flowing trough it that exceeds the rated current of the fuse for some time. Unfortunately, this current is in the orders of magnitudes higher than the current required for killing a person. Fuses do nothing for protection of humans.

Fuses are mainly intended for protection of wires so that they do not overheat in case of a short circuit. However, all fuses have limiting values regarding maximum breaking current and voltage that cannot be exceeded for them to work as a protection device.

A standard small fuse of the type you will find in these systems have typically a maximum breaking current specification of 35A. But the short circuit current in a large UPS battery can easily be in the 5000A range. This exceeds the limits of the fuse more than 100 times, a short circuit will make the fuse explode and produce an arc that can ignite hydrogen gas, it may also re-melt and allow excessive current though the wire it was supposed to protect.

In short: Fuses should not be used in secondary connections to a high-energy battery.

The resistor will effectively protect the battery, not only from accidental discharge in case of a fault in the wiring, but also from fire and explosion that can be the result from sparks igniting hydrogen gas.

The Batscan Software is running at a standard PC-Computer under the Windows operating system. This gives many advantages in terms of connectivity to other systems, compatibility with future versions, and a lot of computation power and memory storage space to Batscan.

However, this may not be the ideal platform for a system that is allowed to shut down the charger for an emergency battery in a nuclear power plant.

Battery Management activities are best handled by the power system itself and many UPS's already have built in functions for periodic battery tests. A good Battery Monitor System should be able to take advantage of this feature in the UPS and detect and record all battery data during such a test.

In Batscan the current is known to always be exactly the same (due to the simultaneously sampling technique) for all cell voltage readings. Therefore, when there is a change in current, the change in voltage over a cell is in direct proportion to its IR.

 

High internal resistance (IR) as detected by Batscan.