mynameisjoe
100 µW
Hi everyone and sorry if I ramble a little here. I'm a newbie to all of this and trying to research as much as I can, something I wish I had done BEFORE going ahead with this project! But I have money and time invested in this now so there is no turning back, only different paths to take.
I fly drones and want a field charger, but they're £500 for the one I want. On another forum I frequent I came accross a guy who made their own battery pack out of reclaimed 18650 cells, great idea as I have a mate in IT who has just done a large roll-out of new laptops in his company. So I have now collected 100's of cells from the old laptop batteries and over the last wee while have been sorting them out into groups. Anything with physical damage or below 2 volts were recycled. The cell type I have the most of are Sanyo R1122, around 300, so it made sense to use these first as they're all the same type, same chemistry, same charge/discharge etc. I have tested each for voltage and sorted into piles of 2.5-3v, 3-3.5v and 3.6-4.2v. Fortunately I have enough of the 3.6-4.2v cells to build the pack. So I have now charged a little over 100 of them, monitored for heat and further discarded any that were abnormal, and then checked their internal resistance. All are 4.12 to 4.18 volts so shouldn't cause any problems as there is less than 0.1v difference. IR is between 45 and 70mOhm. All I can find on these cells so far is IR should be below 100mOhm. My plan was to group them by IR, but now I read it is better to group by capacity. OK, I can do that as my charger/IR tester can also test for capacity. The problem is it can take 5 hours or so to test 4 cells, and I will not charge/discharge cells unatended or overnight so it is going to be a lengthy process. While I am thinking on this I have these cells stored in holders, and will check for self discharge in another 3 or 4 days. The plan is to build a 7S12P pack. I was going to go for 4S10P, but the voltage did't really quite work out (I want 12v) so decided on 7S with a 24-12 regulator. The 12P is purely because that is how many I can fit in the available space. Now the batteries for the drones I have are 3500 mAh 40.42 Wh (3S) and 2250 mAh 17.32 Wh (2S). Their respective car chargers will handle the charging so I don't need to worry about the different voltages, never more than two being charged at a time. Plus I'll be fitting some panel mount PD and QC outlets that can take the voltage down from 26v so I can charge things like phones and tablets if needed. There will also be an XT60 connector to take charge in from a 7S balance charger, and yes I will be fitting an appropriate BMS. Does all of this sound reasonable so far?
As for grouping the cells, do I REALLY need to do a capacity test on a minimum 84 cells for this type of build? I would have thought that IR is a decent indicator of battery health? I'm not fussed about getting the full (almost) 700watts out of it, I'd be happy with somewhere between 400 and 500.
Do any of you experienced members have input or can highlight any failings? Things I should definitely do/not do.
Thanks in advance for any input or thoughts
I fly drones and want a field charger, but they're £500 for the one I want. On another forum I frequent I came accross a guy who made their own battery pack out of reclaimed 18650 cells, great idea as I have a mate in IT who has just done a large roll-out of new laptops in his company. So I have now collected 100's of cells from the old laptop batteries and over the last wee while have been sorting them out into groups. Anything with physical damage or below 2 volts were recycled. The cell type I have the most of are Sanyo R1122, around 300, so it made sense to use these first as they're all the same type, same chemistry, same charge/discharge etc. I have tested each for voltage and sorted into piles of 2.5-3v, 3-3.5v and 3.6-4.2v. Fortunately I have enough of the 3.6-4.2v cells to build the pack. So I have now charged a little over 100 of them, monitored for heat and further discarded any that were abnormal, and then checked their internal resistance. All are 4.12 to 4.18 volts so shouldn't cause any problems as there is less than 0.1v difference. IR is between 45 and 70mOhm. All I can find on these cells so far is IR should be below 100mOhm. My plan was to group them by IR, but now I read it is better to group by capacity. OK, I can do that as my charger/IR tester can also test for capacity. The problem is it can take 5 hours or so to test 4 cells, and I will not charge/discharge cells unatended or overnight so it is going to be a lengthy process. While I am thinking on this I have these cells stored in holders, and will check for self discharge in another 3 or 4 days. The plan is to build a 7S12P pack. I was going to go for 4S10P, but the voltage did't really quite work out (I want 12v) so decided on 7S with a 24-12 regulator. The 12P is purely because that is how many I can fit in the available space. Now the batteries for the drones I have are 3500 mAh 40.42 Wh (3S) and 2250 mAh 17.32 Wh (2S). Their respective car chargers will handle the charging so I don't need to worry about the different voltages, never more than two being charged at a time. Plus I'll be fitting some panel mount PD and QC outlets that can take the voltage down from 26v so I can charge things like phones and tablets if needed. There will also be an XT60 connector to take charge in from a 7S balance charger, and yes I will be fitting an appropriate BMS. Does all of this sound reasonable so far?
As for grouping the cells, do I REALLY need to do a capacity test on a minimum 84 cells for this type of build? I would have thought that IR is a decent indicator of battery health? I'm not fussed about getting the full (almost) 700watts out of it, I'd be happy with somewhere between 400 and 500.
Do any of you experienced members have input or can highlight any failings? Things I should definitely do/not do.
Thanks in advance for any input or thoughts
