Good Sam Community

time2roll wrote:
If the battery is cold and loses 30% of the capacity does the counting of AH still add up? If you know the battery is cold the voltage will still be dropping quick in the last 30%.

What ever system you have is but a guide. Keep your wits about you and all will be fine.

Yes the Ah counting still works even at low temperatures. The Ah used are still the Ah used, and these are not based on voltage. Better Ah counters (eg Victron) with a temperature sensor can adjust the available capacity based on temperature to provide accurate SOC as well.

I just returned from a 4 day turkey hunting camping trip. I had electric at night. My PD4635 convertor charger worked well. PD told me to press in the boost button to get them fully charged, but I did not do that on this trip. When driving the alternator would charge the 2 LiFePo4 batteries. I noticed when the Trimetric reached 14.4 volts the charging stopped. I think that must be from the BMS. The cable from the alternator goes through a battery isolator and then 2 40 amp breakers.

I would never trust the %SOC of a monitor. I do trust the AH count. I don't have the Trimetric set-up to even read %SOC. I do have an idea of the battery bank's AH size as adjusted for temperature. This matters when camping in ambient 35F temps.

I look at the AH countdown from zero and subtract that in my head from my notion of battery bank size in AH to get an idea of SOC. I know my daily usage. Easy to tell if I need to recharge today or if it can wait till tomorrow.

I have the voltage read-out too. I mostly watch that for estimating SOC, which is also easy with "ordinary" batteries. I cross-check the two SOCs to see if they "match". No big deal, no spoiling of quality camping time.

It is easier in the summer with solar, where you can go for weeks without getting down to where you need to haul out the gen. Do have to keep an eye on the weather forecast for overcast predictions. I do watch for when the batts get to "true full" while on solar, and reset the AH counter. If it doesn't get to true full that day, I just leave the AH counter running. ( I have disabled the auto-reset on the Trimetric like they suggest if you are on solar)

If I had LFPs I would not change my ways, except I would miss having the more "accurate" voltage readings.

FWC wrote:
Coulomb counters/Ah meters work very well (when configured properly), and can easily track the battery SOC to 10% or so, which is plenty accurate for RV use. I am not sure why this is causing so much concern.

If you know the temperature of your LiFePO4 batteries, and the loads, you can probably get an estimate within 20% - 40% using voltage, but it is much more complicated than just glancing at your Ah meter.

I know folks like to fuss over their power systems (it is a hobby unto itself), but the point of a well configured system is the you don't need to be constantly thinking about it, it just does it't thing in the background. If you are running a decent size battery system of any chemistry, and Ah meter seems like a no-brainer, you can glance at it every once in while to make sure everything is OK, no need for tables, maths etc.

If the battery is cold and loses 30% of the capacity does the counting of AH still add up? If you know the battery is cold the voltage will still be dropping quick in the last 30%.

What ever system you have is but a guide. Keep your wits about you and all will be fine.

BFL13 wrote:
FWC has shown how temperature changes the LFP voltage so much that you can't really use the voltage/SOC table if I understand him on that. I don't know if you can use a temp/voltage table and allow for the temp so you get "close enough".

The main thing you want to know while camping is whether you need to haul out the gen today or can it wait till tomorrow to do a recharge. You need your SOC now to decide that based on your planned usage between now and tomorrow. Solar is part of that decision of course.

"Close enough" is where the accuracy of the voltage reading matters. An AH counting monitor would be a better guide IMO, with your estimated adjusted for temp, low load, "resting" voltage as a rough cross-check.

So far I have found what StirCrazy said to be fairly accurate on voltage...Going on 9 days running my Engel fridge/freezer set at 35 degree's...And note the accuracy of the dumb voltage meter..LOL

Coulomb counters/Ah meters work very well (when configured properly), and can easily track the battery SOC to 10% or so, which is plenty accurate for RV use. I am not sure why this is causing so much concern.

If you know the temperature of your LiFePO4 batteries, and the loads, you can probably get an estimate within 20% - 40% using voltage, but it is much more complicated than just glancing at your Ah meter.

I know folks like to fuss over their power systems (it is a hobby unto itself), but the point of a well configured system is the you don't need to be constantly thinking about it, it just does it't thing in the background. If you are running a decent size battery system of any chemistry, and Ah meter seems like a no-brainer, you can glance at it every once in while to make sure everything is OK, no need for tables, maths etc.

FWC has shown how temperature changes the LFP voltage so much that you can't really use the voltage/SOC table if I understand him on that. I don't know if you can use a temp/voltage table and allow for the temp so you get "close enough".

The main thing you want to know while camping is whether you need to haul out the gen today or can it wait till tomorrow to do a recharge. You need your SOC now to decide that based on your planned usage between now and tomorrow. Solar is part of that decision of course.

"Close enough" is where the accuracy of the voltage reading matters. An AH counting monitor would be a better guide IMO, with your estimated adjusted for temp, low load, "resting" voltage as a rough cross-check.

StirCrazy wrote:

pianotuna wrote:
Why not just write the seller/maker?

Who is the most 'senior' user of Li here? (i.e. longest use)

I have had a cell phone for 30 years 😉

probably not me, I have been playing with small 30AH batteries for about 2 years now but thats it.

Steve

You certainly enjoy obfuscation. And your cell phone from 30 years ago was NOT Li but more likely nickle metal hydride or perhaps ni cad.

Who has had a house bank that consists of Li formulation for the longest period of time?

hold up therebig guy, yes you can use voltage in 10% aproximations

I believe this although my smart shunt voltage is slightly off because of any load I may have but the voltage meter that came on my battery box has been spot on voltage wise..So far I could actually come pretty close to actual voltage if I only used the voltage meter on my smart battery box,I have to let the smart shunt rest without a load to get a good reading even with just the Engel fridge/freezer cycling the voltage is lower...

pianotuna wrote:
Why not just write the seller/maker?

Who is the most 'senior' user of Li here? (i.e. longest use)

I have had a cell phone for 30 years 😉

probably not me, I have been playing with small 30AH batteries for about 2 years now but thats it.

Steve

BFL13 wrote:


With LFPs it seems you can't believe the Wh or the AH ratings to use with your monitor and you can't really match the voltage with the AH count to do cross checks.

Apparently all you have is your AH counter to go by. So my new plan is to use your "allowance" (as described earlier) and use that as your "capacity" never mind what the real capacity might be in the strange LFP wonder-world of inconsistent numbers. YMMV (and no doubt does! 🙂 )

hold up therebig guy, yes you can use voltage in 10% aproximations. the LFP voltage is fairly flat but it is still on enough of a slope to tell when your at 10%, 20%, 30% and so on. they do make basick idiot % meters that are LI compatable. the victron clone I have in my camper will show AH, Voltage or % and current flowing in or out... so you can get the same simple monitoring on LFP for just as cheep.

Steve

time2roll wrote:
I read some inverters have 2 stage charging. Bulk, absorption and off. At the set point, 12 to 13 volts, the charger repeats the 2 stage.

Behind me here in the apartment is a fairly inexpensive 2000 watt Inverter Charger (Xantrex freedom)

3-stage plus charging with some programmability (not sure how much without reading the manual) Back when I had the motor home I had a Prosine 2.0 (more expensive more adjustable)

Both have 3 stage + charging Bulk, absorption, Float and at the request of the human operator Equalization...

Now.. I recommend either a fully programmable converter/charger for other than Lead Acid or one that is made SPECIFIC for that battery.

I recently purchased an LI-something (LiFePO4) 25AH for portable HF radio use. and the proper (4 amp in this case) charger.

Why not just write the seller/maker?

Who is the most 'senior' user of Li here? (i.e. longest use)