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Astronaut500
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When 5 batteries are connected in parallel, how can I find the equivalent current that it gives? What is the formula for calculating that?
When you connect batteries in parallel, you will get a combined power source that has a smaller internal resistance than a single battery. The main significant effect is that that the combination is a greater fire hazard if you short circuit it.Astronaut500 said:When 5 batteries are connected in parallel, how can I find the equivalent current that it gives? What is the formula for calculating that?
hilbert2 said:When you connect batteries in parallel, you will get a combined power source that has a smaller internal resistance than a single battery. The main significant effect is that that the combination is a greater fire hazard if you short circuit it.
It's not as bad as that. If the batteries are all new, the same capacity and design (and manufacturer) and they stay connected all their lives then they will survive to a ripe old age. It's standard practice in large standby systems. I remember visiting an old telephone exchange and the battery room had shelves full of large accumulators, connected in series / parallel. They could supply the exchange for the longest power cut ever envisaged and the batteries lasted for many years.Dale said:Do not connect batteries in parallel! Ever.
sophiecentaur said:knacker
Most light and medium duty diesel trucks use 2 batteries in parallel in order to provide enough current to start the engine. Heavy trucks may use more, IDK. Batteries in parallel are fine as long as they're the same chemistry. 2 batteries in parallel is essentially the same as 1 battery with plates that are twice as big. Circuit protection is required against short circuits, but that's required even for single batteries.Dale said:Do not connect batteries in parallel! Ever.
Why? There are battery packs with cells connected in parallel and without a controller circuit like those used in RCDale said:Do not connect batteries in parallel! Ever.
Astronaut500 said:When 5 batteries are connected in parallel, how can I find the equivalent current that it gives? What is the formula for calculating that?
Trouble can start when the batteries do not have equal levels of charge and one battery can be discharging through another. The nervousness is not totally unfounded - just a bit over-dramatised, perhaps. Trying the trick with a mixture a AA cells out of a drawer can be expensive and new batteries could often be a better solution.oz93666 said:No one has yet answered this very simple question ..just a lot of unfounded nervousness about parallel connection.
First you need to find the internal resistance of the battery . 12v car batteries have an internal resistance of about 0.006 Ohms ... if you put a 0.006 Ohm load across it the total resistance is 0.012 and the current will be a thousand amps ...
If you connect 5 of these batteries in parallel you have the same 12 volts , but now with an internal resistance of 0.006/5 = 0.0012 Ohms so whatever load you put on this , you'll get a higher current than from just one battery .
sophiecentaur said:Trouble can start when the batteries do not have equal levels of charge and one battery can be discharging through another.
derek10 said:Why? There are battery packs with cells connected in parallel and without a controller circuit like those used in RC
You should give reason/explanation why not ! People do this all the time,,,,,,Dale said:Do not connect batteries in parallel! Ever.
When batteries are connected in parallel, the overall voltage output remains the same as a single battery. This is because the positive terminals are connected to each other and the negative terminals are connected to each other, essentially creating one larger battery with the same voltage output.
Yes, connecting batteries in parallel can increase the overall battery life. This is because the total capacity of the batteries is increased, allowing for a longer period of use before the batteries need to be replaced or recharged.
It is not recommended to connect batteries with different capacities in parallel. This can lead to unequal charging and discharging, which can cause damage to the batteries and decrease their overall lifespan.
Connecting batteries in parallel increases the overall current output. This is because the current is divided among the batteries, allowing for a larger total current output. However, it is important to note that the current output should not exceed the maximum current rating of the individual batteries.
Connecting batteries in parallel can be potentially dangerous if not done properly. It is important to ensure that all batteries have the same voltage and capacity, and are connected with the correct polarity to avoid short circuits. Also, it is important to monitor the batteries to prevent overcharging or discharging, which can lead to damage or failure.