Ok, you test the balance system when it is almost fully charged between each sense wire. the LiFePo4 GM
BMS limits each cell to 3.65v. If one sensor wire comes loose, this impedes all cell voltages except one, the cell disconnected from
BMS can go too high destroying it overnight.
My charger has an adjustor resistor inside it. It is very agressive at default setting 60v. This makes the process efficient. I can reduce the charger voltage to 56v for a 16s LiFePo4 system. The actuall voltage behind the charger-off-latch is up to 65v, I think, its been a while. :-|.... But I can not see this at the plug and this voltage only engages when an uncharged pack is connected. So the charger has a lot of potential to the pack in bulk mode..
If you watch cells charging they can sit for hours at 3.35v for the bulk of the charge, and then it will moved up to 3.5 - 3.55v in about 30-40 minutes. When they reach 3.5v they are pretty much charged and then you will witness the cell voltage race up to 3.65v much faster over about five minutes.
You have hours of charge time at 3.35v, 30 mins betweem 3.35v and 3.5 and about 5 mins between 3.55v and about 5 minutes between 3.55v 3.65v and a minute between 3.65 to over 4v cell failure time.. You latch off in that 30 minute window. Say 10 minutes charge can be absorbed at 3.5v withn another 30 minutes with the charger just holding all the cells at 3.5v in float.
You could put a 60v charger on the cells with no balancer after charging at 56v and all the cells will go out crazy, any where between over 4 volts and 3.5v, it is not a reliable thing over 3.5v with no
BMS.
The only reason
BMS's are set at 3.65v and some even 3.75v and higher is so there is plenty of head room between full charge cells and one which maybe low.
.25v is a pretty high resolution circuit under 7% tollerance, if you wanted a
BMS to work at .01v, this is .3% tollerance, thats getting a very expensive
BMS, you would have a lot more trouble getting them to balance at all and the charge may take forever. As the
BMS works to disconnect the charger to the battery if one cell gets too high to give the
BMS chance to burn off the excess voltage..
All my cells stay with in 0.01 balance for weeks by themselves. I pull my resolution from the time factor and internal resistance of the cells being so low, And over a month are lucky to go out by .1v. You can not fool a series charge on lifepo4. Every cell get equal watts. The only difference between cells usually is their internal resistance and this is soooo small, unless you have a bad cell. They self discharge while resting and more so if you use or charge them hard. So it is a good idea to also lower your current and charge more slow. This happen anyway if you reduce your voltage.
By adjusting to a 3.5v per cell you don't need a
BMS but you do have to occasionally balance the cells with a single cell charger.. If one cell gets low and doesnt get up past that 3.35 mark Most of the other cells will take on that single cells lack of voltage readily, so really .15v over 16 cells is nothing. If you don't adjust the voltage down with no
BMS the fast rise to 3.65v is unpredictable and one cell could rise .
