how to decipher data on GNB 3-90A25?

Re: how to decipher data on GNB 3-90A25?

Well gents, I finally have some information to share, just dont know if it moves us down the road much... here we go..

""The 50% DOD is 2.01 volts per cell at the 24 hour rate of discharge measured under load.""

""A load of 51 amps at 12 volts(nominal) will bring your battery down to 10.50 volts after 24 hours""

The local rep does not have the 10 to 40% DoD values nor the approx time in which a 'new' battery would achive the 50% mark. Have written to Exide in the US to see if they can deliver...


Quote from my emails

"" Next, using section 26.10 of the Absolyte manual, I find that there are a variety of ' end voltages ' / cell, (1.75 v to 1.94 v.) all of which are well below the 50 % DoD value (2.01 v) you indicated , Would not achievement of ANY of these end voltages produce a 'dead battery' ie not rechargeable???

Answer
No. These are typical end voltages for applications that do not discharge the battery on a regular basis (the battery may only be discharged 2 or 3 times a year) and when the battery is discharged the charger is large enough to bring the battery back to 100%
state of charge in a short period of time. If you did this you could not recharge the battery properly.""

New Question: As this is a 1055 amphr battery what type / size / brand of charger is recommended for this size unit if taken to 50% DoD ? I estimate my 15 amp charger would take about 35 hrs to recharge ( [1055 / 2] / 15 )... does this seem a bit long?

Alternatively, using PV to charge, it would need ??? amps to adequately recharge?? I guess what I am looking for is a recommended target recharge rate and time that takes into account the present 'light ' use the battery gets now and the extended non-use periods. (2 panels at 7 amps, Mppt CC)

PS just digging into the graphs at the bottom of the link I posted at the start of this thread pages 16 and 18 for the 90A series especially the last one seems to be quite useful and may allow extrapolation to the 10 , 20 , 30 and 40 % values, will see.

TTFN
Eric

Re: how to decipher data on GNB 3-90A25?

Jim, I have a 12 v arrangement, 2 of the 6 v units in series to make one 12 v 'battery'.

Eric

Re: how to decipher data on GNB 3-90A25?

Thanks Jim, more than I needed (wanted) to know. This may require a total rethink on my part as to additional equipment needed and configuration... I am going into 'absorb mode' to let this info digest fully. I now see where the PV input = 3%, 5% and 10% values come from and, now, what they are for my battery. I knew I would have to increase the PV input but ~40 amps (min.) is a lot more than I expected. I hve been waiting for boB to announce the release of the 'Classic' (time ticks on)

As I have not reached 50% DoD and do not expect to with the loads I apply at this time, plus the PV recharge capability I presently have, I am trying to determine the state (health) of my setup, ie is the load I apply reflected by the battery voltage while discharging or after rest? I have the observed values but unable to compare them to anything.

I have been mulling over the shape of the line between 100 and 50% SOC and the graphs in the document... I am thinking that it would be a curve rather than linear (straight)? comments?

Eric