Why Don't Parallel Battery Banks Balance?

I've got equal lengths of 2/0 awg cable from each battery bank to oversized copper buss bars (10" wide, 1/2" thick, 1-1/4" wide) and the inverter load terminal is in the center of each buss bar, with the batteries connecting to points an inch apart on the buss, on either side of the load. The charging current and load currents are pretty low as I'm not using any large appliances when I'm observing this anomaly. 

Is it possible that Bank 3 has the lowest resistance from battery to buss bar? Or is it the other way around?

This is how each battery bank is wired. Buss bars connecting each group of cells. Then at the bottom, the pos is connected to 2/0 cable and neg are connected to BMS and 2/0 cable and those cables go to the buss bars. I do have 200A breakers in each of the pos cable connections so there's a jump between the pos cable and the buss from each battery bank.

The wire at the far left comes from solar array. Then the next in sequence are: bank 1 batt, inverter, bank 2 batt, bank 3 batt, meter power. Hard to imagine that 1/2" of buss bar to bank 3 would have much of an effect.

BTW, I'm using method 3 from your article.

mahendra said:

Just a point to note .
Had the same issue with four overkill solar bms packs in parallel.
If the jk has a reset soc  button try that then see what happens.

Trouble is, now that the system's installed, I can't access the BMS modules--they're in the back of the cabinet, due to cable length limitations.

Yeah, I understand that's not a good way to connect. I just need to shave off 1mm on each side of lug to get it to fit between the other lugs.
What I did this morning was move the pos inverter cable to the opposite side of the bar (unused hole at right) and leave the neg on the left on its buss bar. That makes a more balanced current flow.

Last night, I had bank 3 down to 20%, bank 2 was 30% and bank 1 was 32% at 1am. Going down about 1% per 30 minutes. Figured that would be more than enough to last til morning sun, but wife woke me at 4am to tell me there was no power. Went down and checked and all three BMS report 0%! So the last 20% is not linear in terms of time. It's like 1% of run time left.

So I left the inverter off and switched to grid power. This morning with no load, I see all three batteries are at 11%, so it is probably that funky lug setup causing the imbalance.

That's a good idea. I think I need to treat this like I would and RF VHF circuit where even copper ground trace has impedance. I will measure voltage differences between buss bar and each connector terminal and then terminal to terminal and that will probably reveal some differences.

Today, I'm charging the batteries with the inverter off, no load.
The thing that doesn't make sense to me is why does the battery with 95% charge level take 25 amps from the batteries with 93% charge level in the other two banks? If it has a higher charge, it should be sending current to the lower charge batteries, not the other way around.