Consistent drops in SOC every time vehicle is turned off and on.

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A.K.

Member
Joined
Nov 23, 2024
Messages
6
Hello,

I'm looking for advice on strange behavior I was able to observe on my Kia Soul EV 2018 (30kWh, 80Ah battery). Every time I turn it off and on again the SOC drops around 2.5%. It looks like it must stay in off state at least for some time for this to happen, but I have not determined minimal duration yet. The drop is more or less the same value irrespective either it was due to quick visit to supermarket, overnight stay at home or whole day parking at office. I checked it with Soul EV Spy and could see corresponding increase of around 0.8kWh in accumulative discharge power. The accumulative operation time also increases. I could see it going up by value starting from time car was off till about 2 hours.
So it all looks like car is having some kind of secret life by itself. I wonder if that is known behavior and part of normal behavior or should I worry?
 
You don't give us enough info to make a guess.

Examples
Do you live in Northern Canada or Alaska? My guess - battery heater.
Do you live in Dubai? My guess - battery fan.

At what SOC was the car when this happened?
Do you live on top of a hill?
Have you looked at the data for the 12V battery? Is it being charged?
Have you looked at the cell voltages of the main battery. is re-balancing occurring.
 
Thanks a lot for answer. Here comes more context:
I live in Europe. Car came from official dealer, so most probably designed for this reqion (54 deg. latitude). Neither south nor north, moderate climate. So far the effect was noticed at temperatures around 0-10 centigrade. I have no results for other temperature range yet.
Landscape is mostly flat, no significant altitude variations all the places I go during the day.
I do not yet know how to collect information about 12V battery. Any tool for that (Soul EV Spy seems to have a lot of information but it is not always clear what each parameter means)? Anyway 800Wh would literally blow 12V battery apart.
Cell voltages are balanced well. At stationary I never saw the delta bigger than 0.02V and that seems to be just the resolution at which BMS is reporting.
I typically keep battery between 25% and 83%, occasionally letting it to charge for unlimited time to give BMS a chance to re-balance cells.
I do not know how to check if BMS is doing any re-balancing at particular moment. Any suggestion?
 
Okay. there is something strange going on.
The main battery is normally 'disconnected' while the car is off. Only the 12V system stays on.
So my suggestions for recharging the 12V system or re-balancing cells are not normal.
To recharge the 12V system the car needs to be on and have some load eg headlights.
Calibration or re-balancing occurs at the end of a charging session.

For your car something unusual is waking up the car and keeping it awake for two hours.
My guess today is that you have the climate timer set to turn on the car and warm it up.
 
Thanks for suggestions. Unfortunately it does not look like climate control is involved as there is no preheating schedule active. And it happens irrespective of time of the day. But maybe charging schedule could cause such behavior, I dunno, will try to check.
Currently I have 2 hypotheses:
1. After idle time BMS performs some kind of remaining charge recalibration by cell voltages.
2. BMS reports consumed energy (or part of it) with significant delay so it takes some idle time for those number to settle in BMS and reach display.

I wonder if pulling the safety plug for a night would be safe enough procedure? That would allow to narrow down this behavior to battery or other electronics of the car.
 
I own this car for less than a year and have not been at local dealer for maintenance yet. Online check at https://www.kia.com/eu/service/kia-overview/service-and-maintenance/kia-recalls/ shows no pending recalls for this car. So chances are it has upgraded BMS. Is there any way to check BMS firmware/hardware version?

I read that thread (very interesting) and found no similarities to my case. Maybe I missed something.

Your suggestion that car may be performing scheduled heating gave my an idea to check for possible software glitches related to that feature. Originally both climate scheduling slots were empty. I filled both with arbitrary data and marked both as OFF. I also turned OFF charging scheduling and manually turned heating off before leaving the car. After more than 2 hours SOC stayed the same 32.5% according to Soul EV Spy. Interestingly cumulative discharge power still went up by 0.2kWh. But cumulative charge power ALSO WENT UP - by 0.1kWh. So some BMS tricks are definitely involved here. As overall battery voltage also went up by 1.7V, so maybe BMS applies some corrections and recomputes kWh and Ah values a bit. Guess I will have to collect more statistics at different settings and surprise dealer with few tough questions.
 
We have no way of simply reading the ROMID of the BMS.
Obviously there is a PID for this because the KIA software does read it.
If some hacker groups have found it they have never shared it openly.

Kia has changed the BMS software progressively with each update.
None of the DIY OBD tools used are able to keep track of this.

I used to analyse OBD data but gave up once I realised the data could no longer be reliably compared with any other car. I have two 21015 Soul EVs. If one performs differently I have no way of knowing if that is a glitch or a feature of a different BMS.

Examples :-

From :- Analysis of a replacement battery. Note the glitch at the top of the SOC
1732623628112.png

From :- Comparing BMS data on the Soul EV with the Ray EV

Just like in my previous test SOC (BMS) did not increase in a straight line. Why the change between 38% and 44% where it goes up faster?
This time I do not believe it is badly calibrated, given that I have already done a calibration test a week before.
1732624125623.png

Also the Cumulative Energy counter shows the same anomaly. This explains why the Energy Counter cannot be used to measure the capacity of the battery
1732624145776.png

The Cumulative Current is the same.
1732624160041.png

To show this is not real. The Energy Draw does not show this effect.
1732624177476.png
 
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If they have any sensible answers, they will be an amazing exception. Generally, such questions yield either blank incomprehension, or clearly invented nonsense.
I misread this as cleverly invented nonsense and assumed you were making a dig at how nowadays people rely on AI generated text. It superficially looks good but is actually stupid.
 
Just wanted to share some ideas I came with after collecting more data (must praise Soul EV Spy here) and throwing away few theories. The interesting thing I noticed was that despite SoC dropping slightly almost every time I turn car off and on the cell voltages never dropped (reported resolution is not good enough, so there is still some probability that my observation is not correct). Except one case, but that coincided with significant drop of ambient temperature. And strangely enough few times I even noticed power counter representing energy flowing INTO battery to increase after car was turned off and on (not enough to affect SoC, but number definitely changed). Taking all that into account so far most prevailing theory (from my point of view) is that every time car is started BMS (or other module) recomputes SoC by using cell voltages and adjusts reported power flow counters and SoC value accordingly.
 
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