Agreed it is vague and the document said it works with Enphase for grounding but not specifically solaredge.

Yes that is p300 which is very wrong further the bolt in the photo does not look like the ironridge micro inverter kit I linked to.
You should have the p370 optimally, or p400 will work. The p300 and p320 have max operating voltage of 48v the E327 has VMPP of 54.7V.
When you look at the solaredge monitoring you can graph the pv module voltage and see where they were running, I would imagine pretty close to max optimizer voltage of 48v, the optimizers might have been clipping as well ( not sure there as this is way outside solaredge allowed installs)
Have you checked that you got th E327s too

equipment changes are sometimes necessary but should be like or better equipment and sertainly appropriate equipment

I do have the correct E20-327 panels. The racking rails are Unirac. Definitely no star washer, grounding plate, or grounding wire/lug present. Good news is that as they now must come and replace all optimizers I can ensure they ground the system.

I spoke with the installer minutes ago. I did a lot of talking and he did a lot of listening. I'm trying to believe "innocent mistake" but between the wiring/breaker, grounding, and improper equipment I am having increasing difficulty giving them the benefit of the doubt.

The module voltage was in the low 50s until everything died, then shot up to upper 50s as high as 62 for the rest of the day.

OP, would you be willing to post the optimizer data Butch is asking about? I'd love to learn how they behave in a completely mismatched installation. It is hard to say whether this or the AC terminations, or some combination is responsible for your problems, but hopefully a fresh start will get you the system you want. They should be able to fix the physical string vs logical string problem in the portal when the new optimizers go in, too.

Do you have attic access? With the mistakes so far, it wouldn't be surprising if not every lag bolt hit its rafter true. Might be worth a spot check of a few, from the inside.

Green is module voltage. Red is optimizer voltage. System gave up the ghost in ballpark of 1:30-1:45pm, at which point the inverter shows 6.68kw power.

I have metal seam roof and S-5 clamps. No roof penetrations, thankfully.

Kny, Next time you look at the display on your inverter you might want to look for the following when you scroll through the screens.
PWR CTRL: ******

If you have that screen you might want to read what that means in the inverter manual.

Thanks for posting the data! At ~30 V on the optimizer, I guess that is from the 12 panel string. It looks to me like the optimizer has the panel voltage pegged against an upper limit in the low 50's... normal mppt behavior would show something like a U-shape to the curve as the panel warms up during the day and the Vmp drops in response to the shift in temperature. The jump after the error may be the panel's open circuit (or at least, high resistance) voltage... mine did something similar when it had a problem. See below (my colors are opposite yours).

Day in which I crashed the string by incorrectly shutting it down for service: Failure.JPG




Healthy behavior around that same time (I have a 12 panel string, too). The mess at the end of the day is how it reacts to shade from a nearby palm tree. Note the dip in the panel voltage mid-day. healthy.JPG

Just because the responders on this thread have been so helpful and informative to this point, I'll take it one step further.

Why does the SE-6000 inverter use a neutral wire?

And, here's where I'm going with that. I may have an easy solution to my undersized wiring issue. Directly on the other side of the wall of the inverter is a junction box with 8 AWG wiring for an a/c blower. Inverter on exterior of wall, junction box for blower on interior of wall, virtually same location. The blower presumably has 8 AWG wiring because you could add a heating element, which I do not have and will never want. Right now I've got 8 AWG wiring for a blower and condensate pump that together never draw more than 300 watts and could easily be served by 14 AWG let alone 10 AWG. It would be little work to swap the blower and solar wiring and replace the solar 30 amp breaker with a 40 amp breaker. Wham bam, wiring/breaker problem solved. With the new P400 optimizers installed the grounding problem will be solved. If the inverter is toast (still unknown?) the inverter is replaced, and all my system problems are solved. I actually have a proper, fully compliant system, and I could even add some panels to the strings in the future, upgrade to a SE-7600 and still be good on the wiring.

But, the 8 AWG has no neutral wire. It's just 2+1. Again, why does the inverter have a neutral at all? Is it because the internal electronics that draw the piddly 2.5watts run on 120V and thus use one hot leg and the neutral? And, if that is the reason, would it not be acceptable to have the two hot legs be 8 AWG and the neutral be 10 AWG?

My inverters have a neutral so that the voltage from neutral to either hot lead can be monitored; no
significant current flows in this lead. Check code, you may allowed to use smaller wire there. Bruce Roe

705.95(B) is the applicable section of code (2014 NEC).


For EGC sizing:

EGC.JPG

Great. So it seems 8 AWG for the 2 hots and 10 AWG for the ground and neutral would be acceptable. I don't know I'll go through the effort to do this, but it is nice to know the option exists. What I do know is that it's a beautiful, sunny day and that I should be producing about 50kwh on the day, but am producing 0 because my system is down. And that's got to get taken care of pronto!

Yes you can never catch up lost KWH. The simple string system here has only been down a few hours
in 4 years. When the inverters finally blow, spares are standing by. good luck, Bruce Roe

I'm in a battle to keep my net meter below 0. I'm 18 months in and just over 1 MWh to the good. And this is the time of year to be banking serious kwh. I don't even care if the installer were to reimburse me for lost electricity; all that matters is getting that meter spinning backwards again.

It sounds like grounding issue...and of course the conductor size on those runs need to be sufficient. I'm no electrician, but one thing is certain, a string inverter will not perform safely and correctly with the wrong sized wiring...Get that fixed.

Get the damn wiring right now. It's a mistake worth paying for even if it's not your fault. Your safety is worth a few bucks.