Thats about the best now ... much of the info earlier is as per recc'd previous by DJI ... with a few 'personal' modifications I noticed
by some.
To satisfy my own curiosity and also various PM's / emails I rec'd - I actually tested cut-offs and voltages on my P3 batterys back last year. I've been using LiPo's for many years and felt reasonably safe that I would not damage any.
I do NOT recc'd people to repeat what I did though. It can prove an expensive mistake !
These were conducted on each of the 3 batterys I have ... I did partial tests on a 4th - but that was lost after my P3S went for a swim ! All my batterys were in the 30 - 40 cycle well maintained life then ...
Note a DJI P3 battery is a 4S LiHV pack - full charge cell voltage is 4.35V each.
I charged up by usual method -> just plug battery in without switching on first. LED's did their thing ... battery charged up and board terminated charge. Voltage readings taken ... 4.3V average across cells ... and not very well balanced IMHO, Total variance lowest to highest ~0.05v. Board had terminated in my opinion safely - but early. Go reported battery as average 93 - 95%.
I discharged to reasonable level ... average about the 30% mark ... by flying. Test of cells indicated a slight increase in unbalanced voltages once rested ... but similar to what I would expect in most LiPo's use. Total variance ~0.07V. This would be due to the slight differences in Internal Resistance of the cells.
I then charged up using my normal method of switching on batterys regardless of initial charge state. This has effect of over-riding a FW code that stops you 'topping up' charge when over about 90-93%.
Full charge again as expected was terminated by the board - but this time as I usually see - the average voltage was slightly higher and in fact Go reported battery as 100% ... with better cells - but still ~0.02V total variance lowest to highest.
I then manually discharged the packs till they shut down ... DJI has set the board to do this at 3.0V per cell. but in fact the inbalance INCREASED and I had cells down to 2.85V while others were above 3.0V ... this meant that board was shutting of based on TOTAL voltage - which I had ... 12V.
Note that 3.0V is the recc'd lowest ever voltage to go to to avoid damaging cells ... but 2.85V is the actual limit with only slight damage if any between 3.0 and 2.85V. To reduce risks of damage - the batterys were used in this one by one - so I could put back on charge as quickly as possible. At 3.0V per cell - I found that the pack was difficult to read as it refused to stay powered on without repeated pressing. Once charge was with all cells at 3.0v or slightly over - the pack returned to normal.
PLEASE DO NOT REPEAT THIS EXPERIMENT !!
I then charged at the usual method of battery not switched on and found similar results as previous. Balance was still not sorted.
I discharged again but this time monitored and stopped it as near 3.0V each cell as I could. I then charged up again with battery switched on .... similar results as before.
I do not say that everyone will experience same as I did back last year ... it was older battery FW but I don't think there is any difference today ... My main point is that I was disappointed to see the board work more on total voltage than individual cells. The termination before balance cycle is completed is not good in my honest opinion. There is too much reliance on a circuit board bolted onto front of the battery.
But it is good that the board goes some way toward to reducing hazards for less experienced LiPo users and also prevents excessively deep discharge ...
As to Life of the batterys - the cycle number is based on FULL cycle not partial and DJI Tech when I asked said that the 200 cycle limit was not fixed and battery could work past that if maintained in good order. So far I have not reached 200 ... so cannot verify !
Final point :
LiPo cells regardless of High Voltage as here or regular - storage is recc'd at 3.75 - 3.9V per cell. Put it another way ... that is same as the quoted nominal total voltage the packs are sold by : ~15V
Under load a LiPo can go to as low as 3.3V per cell and once rested will recover to slightly higher. It is recc'd to restrict depletion to 3.4 - 3.5V per cell as lowest ... that way most will once rested 'bounce back' to near or 3.7V per cell.
Tip : Check and clean your contacts - both sets on the battery and on the drone ... I believe that more problems occur because of grubby contacts than anything else ...
Look after your batterys - they will look after you !
Nigel
