Those modules seem really good, it's probably going to be huge, but if I could get 20 of them (2s10p maybe) then it would be 93.6v, 64ah, which is 5990 Wh.
If you mean these that I linked in my reply in this thread
2020 48V LG Chem battery module for sale. Free ground shipping and 6 month extendable warranty. Trust Greentec Auto for your next DIY project today.
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then 2s 10p (of the modules) is 96v 627Ah = 60kwh. (rounded numbers) Would be capable of up to a couple thousand amps; wouldn't wanna short that out by accident.
And 20 of them would weigh 35lbs x 20 = 700lbs. You're not going to carry that on a bike or even a motorcycle. Maybe in a motorcycle's trailer.
(I could carry it on my Mk IV / V trailer, which has hauled a piano, but not at normal riding speeds, maybe walking speed, so bumps and holes don't break the trailer wheels, so it would not be practical. Would probably overheat the trike's motors/etc from the repeated accelerations of all that mass in traffic, too)
If you mean the first module I posted about in the linked SB Cruiser thread post
This is the best deal on 48v modules that test like new. Just $20. These are absolute BEAST power modules with Panasonic cells inside. 48.1v 6.4ah 307.84wh. Built for power but at this price you will not find a better deal on batteries that have either never cycled or only cycled a few times...
batteryhookup.com
then 2s 10p would be 96v 64Ah = 6kwh. (rounded numbers) could supply up to a thousand amps.
At 8lbs each x 20 it'd be 160lbs (not counting enclosures you'd have to build), which you could put on a motorcycle, but not a bicycle. Trailer, sure, but not at the speeds you want to ride at. Even if they were lighter, at 13" x 6" x 2.25" per module, that's a fair bit of volume to find room for on a bicycle. Because they come in "smaller chunks" than the big packs like the first one in this reply, it might be possible if you're creative at building panniers for them on all "four corners" of the bike, like touring bikes can have, but it would probably change handling enough to make high speeds even less safe. I've built cargo bikes to hold stuff that way...they don't ride as well loaded up as empty, by quite a bit of difference, worse the faster they go.
But at $20 a piece, not including shipping, it's not too bad a price, at $400 for the batteries; I'd guess a third of that again for shipping costs based on the estimate I got for half that many.
If you mean some other module, you'll have to link it.
Oh, the discharge is also going to be 1000a peak continuous, which is genuinely insane, like 93.6v 1000a is around 93.6kw on a bike, maybe I shouldn't do this..
That is only the amount of current it *can* provide.
As previously noted, the actual amount of current is determined by the controller based on the load the motor puts on it based on your rider inputs and the riding conditions at that moment.
If you have a 10A controller, it's only ever going to draw a max of 10A even if you had a battery that could supply a million A.
I really think you should go visit the ebikes.ca simulator and play with it to learn how all these parts of your system interact before you go any further.
, sorry about that..
