ZRX61
Well-known member
I get that a 4AH battery should last twice as long as a 2AH... but does the 4 have more balls than the 2? or is it just down to the A of the motor in the tool (as I suspect.. & should ******** know)
Voltage sag on each cell is lower as more cells are added therefore giving you a slight "increase" in power.There are a few youtube vids that test this, and find that larger ah batteries provide more power. As always, youtube may not be the best place for reliable info, but the test results are consistent enough to confirm there is some difference. Something to do with there being more cells in larger ah batteries, so each cell does not have to work as hard? (clearly I don't understand the science).
Larger cells have a higher current capacity. If the tool knows that it might pull more but I don't know if they are doing this. While there is a little less sag it probably not much as lithium ion batteries have pretty stable voltage output. Maximum current output is not determined by the voltage sagging. Its determined by how much you can draw without destroying the battery. A brushless tool SHOULD be able to detect a larger battery and determine how much current it wants. But I don't know whether it's done like that or they just assume that you can draw so much and don't go over that.in theory it should last twice as long with no difference in performance when comparing apples to apples.
In reality people have opined that the Milwaukee batteries in larger sizes work better than the smaller ones in high draw applications due to their opinion that the battery is not one larger cell but two or more smaller batteries in parallel


Often smaller batteries are built with 18650 cells and larger batteries are built with 21700 cells.fir example, the 2.5/5ah Metabo hpt cells I suspect are but with Samsung INR18650-25R cells. I just pulled a 4/8ah cell apart and it had Samsung INR21700-40T cells in it. The 18650 cells weigh about 45g compared to a 21700 at 70g. That's roughly the same as the weight ratio. Each battery pack contains 2 5 cell 18v battery banks. The terminals on the battery pack are arranged such that an older 18v tool connects to both banks unparallel while a newer 36v tool connects to them in series. DeWalt uses a different way. They have an internal switch in the pack that determines how the sub packs are connected.I'm guessing a 4ah battery will be built with similar cells as a 2ah battery but twice as many of them in parallel so it can provide twice the power at any given time. A 2ah battery can provide 2 amps for an hour and a 4ah battery can provide 4 amps for an hour. Or 2 amps for 2 hours. If the tool is capable of using more power it will be more powerful with the larger battery.
If the tool is aware of which pack is connected, and capable of using more current, then there's no reason they can't design them to do it. But that's a design choice by the manufacturer to derate the motor when connecting to the smaller pack. Many seem to simply limit it to what the smaller pack can produce. But I'm sure some take the battery size into account. I can't imagine the companies trying to squeeze every last bit of performance out of their products would leave that on the table.I've always thought of volts vs amps like this:
Imagine a two-lane highway with a 55mph speed limit. Now imagine a four lane highway with a 55mph speed limit. Assuming the cars are all obeying the speed limit, each car won't get from A to B faster, but more cars can get there at a time.
The speed limit is the Voltage, and the number of lanes is the Current.
Does this translate to more performance? Not in terms of voltage, but in amps you get more run time. There may be a bit more "oomph" at first, but most of the time the electronics limit that in order to keep the batteries from overheating and extend the lifetime of the pack.
If you don't think so, go crank your car with an M12 battery. What, it won't do it? That doesn't make sense, your car is a 12V system, right??
You do often get a little more power with a 4ah vs a 2ah. Its because pretty obvious especially with high demand tools like impact wrenches.I get that a 4AH battery should last twice as long as a 2AH... but does the 4 have more balls than the 2? or is it just down to the A of the motor in the tool (as I suspect.. & should ******** know)
That's not actually how it works. A lithium ion cell has a very low internal resistance. It's the responsibility of the load not to draw enough current to destroy the battery. It seems like some cordless tools do, while others seem to simply assume the smallest battery battery and limit themselves to that.You do often get a little more power with a 4ah vs a 2ah. Its because pretty obvious especially with high demand tools like impact wrenches.
When you are talking about electricity, volts and amps go hand in hand. When you have more amp hours and more of a supply of power, you can put more power to the tool.