Probably would be now very close to NiCd ability, but with a very steep cutoff at low voltage, unlike a NiCd which will deliver power until it dies. If you have an oops moment in the air and need battery power I hope there is a "break tab and operate but will mean battery replacement needed" guarded switch that overrides the low voltage cutout for use when the fertiliser hits the ventilator and the battery is the only thing keeping the wings from becoming ground augers. No good going in Valuejet style with a battery that is still good but which says no more power.
Current provided for airplane startup: Li 150A, NiCad 16A
weight: Li 28.6kg, NiCad 48.5kg
It was mentioned on PPrune that they balanced the cells in groups of 3. If that's the case, there's your problem. One cell goes low, damages, then they try to recharge, the 2 other cells go too high and damage, and with repeated use the battery goes critical from increased internal resistance.
edit: Above seems to be erroneous information. The battery consist of 8x LVP65 in series. The cells are folded in 3 layers inside each LVP65, but that's one cell. (There's no 3 cells in parallel as mentioned in PPrune.) So balance, temperature, voltage min/max, charging monitoring should be done to each 8 cells in the battery. Monitoring should shut down the battery before becoming problematic.
Also, the cells can damage from heat, and now they've insulated the cells even further to heat up even more than before. They should not have stacked the cells the way they have, with the additional insulation, they will just heat up more. They worry about one cell damaging the next, but let each cell damage more easily. The cells should be configured side by side along the walls of a box with a center courtyard of emptiness (a square doughnut) so that each cell is not adjacent to another. Right now the center ones are chocking. There's no confidence in their fix.
When I charge my LiPo batteries, the charger monitors voltage and impedance on each cell showing if there is a damaged cell to be replaced immediately.
One of my batteries had a cell too low that the balance charger could not deal with. So I discharged the other two to be at the same voltage as the low one and recharged. Have used for 4 or 5 cycles and the battery remains balanced. (there is a difference in impedance between the former low cell and the former two high cells that still remains, 3S 12V 8000mAh 30C; 9m?, 9m?, 5m? impedance; the same battery but 2S 12V 8000mAh 30C and healthy has 4m?, 4m? impedance). If I did not have a balance charger letting me know the condition of the cells, but just a wall wart, charging or using that battery might have resulted in a fire.
Boeing should have hired a 15 year old RC hobbyist to design those batteries in the first place.
They better be balancing each cell, monitoring each cell, not in groups of 3.
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