An mppt charge controller has specificcations as well and they will fry if you connect mor than they are speced for.

if you think you can connect a 2billion watt array to a residential inverter and it will just clip then you are likely a good candidate for purchase of a bridge.
clipping is where an inverter has more input than it can handle but still within the operating range.

The optimizers have an operating range, when yu are outside of that two things happen, your warranty is voided, and the second, you risk failure. The further outside of the iperating range the higher the risk of failure, at some point it becomes certain.

To the OP, are you sure they put them all on one string? The reason I ask is that I have 2 strings (I know there are physically 2 strings wired). However, the installer set them up in the reporting SE tool as a single string. There is no effect on the inverter or optimizers as the single string is only seen in the reporting tool. The reports seem to be correct for the most part. The only thing is the Module Mismatch Analysis report in the SE portal shows a wide range of +20 to -20. I know this is simply a reporting error.

In the monitoring site you can set them up as a single string but usually the system will determine the strings for itself and show up in correct arrangements.

Here is an example of one that I set up with information from the install. The installer did not in this case provide the actual strings just the layout information so I put it in as a single string
But the system determined that the top row was one string and the rest were the second string.
You can tell by the numbering, and the logical layout. The ones where the second number is 1 are string 1, the ones with the second number is 2 are string 2.
Actually the first number is inverter number, then string number, then optimizer/module number; so 1.2.6 is inverter 1, string 2, optimizer 6

Layout1.jpg

Here is the logical layout showing the two strings:
Layout.jpg

Simply not true for current. They will limit their output current to a safe level. Try it; a great many other people have.
It will just clip. Not because of anything that has to do with a bridge, but because of basic switchmode converter design principles. I can explain it in more detail if you like.

In any case, I am surprised that the Solaredge system cannot handle a common mistake like that. It would be simple to design the system to simply not power on, or to power on and then limit. But I agree that you should not implement a system that exceeds the ratings on the Solaredge inverter (or any inverter) and expect it to produce power similar to rated array power.

Yes of course they will but only if the input is within the specification range.


Possibly but I doubt many systems would be able to handle the short circuit load on a GW array. As stated, once you get out of the manufacturers operating range the likelihood of failure increases and eventually gets to the point of certainty.

How would the inverter know that the system is designed incorrectly till the adverse input occurs?
As the OP has pointed out and most know just because the STC DC voltage is over the specified limit, it is not going to hit it in hot weather....

They do what they can, with handling adverse conditions and poor installations. For example it will try to work as best it can with too few or too many optimizers but they will be at their limits during some conditions (usually cold days). I have had installers install 6 modules on a string which the older optimizers do not support. It is minimum recommendation of 8 optimizers in a string but technically 6 will in many conditions barely work as long as the AC line voltage is just right and all the modules are working, but as the AC voltage increases, 6 can not maintain high enough DC voltage to keep up. We had the installers change the wiring to correct the condition almost immediately even though as the installer stated "It is working", I could show how each optimizer what at its limit for DC to DC conversion. SolarEdge wants to maintain some level of safety which is why they recommend 8 and not 7, getting things ore into the middle of the operating range instead of the edge.
For the OPs case of too much wattage, I don't know how much safety SolarEdge has worked into the equipment but like stated as installed now it VOIDS the warranty, and certainly increases the likely hood of a failure to some degree.

100% sure, like ButchDeal showed when you go to the logical view you can see the different strings by the numbering. 1.1.x and 1.2.x

Fortunately there have been some cold days in the past few months before it started cooking and there is some safety built in otherwise there would have been obvious problems already by now I would suspect.

Right. So if that billion watt panel has the right voltage range (right Voc and Vpp) it will work.
Again, switchmode converters have overcurrent protection on their outputs. Keep in mind that the 5 watt switchmode converter in your phone charger can handle a short circuit on its output, despite being fed with a source that is capable of hundreds of amps for a few milliseconds. It does this not by "handling" a dead short across the 120 volt AC input (which could be hundreds of amps) but by limiting its own output power to safe levels.
Each optimizer outputs 1 volt in the de-energized state, right? So if it ever sees 16 volts before turn-on - it doesn't turn on.

And of course there's the usual way - seeing the input go past the rated current or voltage limitations for that inverter. For example, the SE7600 works at 400 volts, but is rated up to 480 volts. So if it ever sees 450 volts, something is definitely wrong, and it initiates a rapid shutdown. This brings the voltage down to n volts (16 volts for the 16 device string) which protects the inverter and optimizers.
Definitely agreed there. If the inverter shuts down due to too many (or too few) panels that would be a good outcome; it would give the installer a chance to correct the problem.

Most have a specification on the Isc of the array (short circuit limit). Some list max wattage but what they are really trying to limit is usually the Isc.
An array of 1GW is going to have a very high Isc even when Voc and Vpp are within range (will also have one hell of a combiner) and arc fault is going to be a problem.

The 5 watt converter in my phone. It is feed from a wall wort which has about 5 watt capacity. But this is a bit different from a large DC voltage source like an array, with arc issues.

1 volte in safe mode yes.
Do my knowledge there is no mode where an optimizer doesn't turn on if it sees 16V. Why would it. It is possible to have strings much larger than 16. Residential string size is max of 25 optimizers single phase, and 50 in 3 phase 480V.


OP has SE6000H not SE7600H, the older inverters tend to operate around 350V depending on the AC voltage it sees, newer around 380V.
They often jump up to higher voltages to handle clipping though. Remember the optimizers have a DC to DC buck/boost so they tend to keep their own modules within MPPT range.
Optimizers to my knowledge don't see a problem if there is 450 V on the DC string and the inverter very well likely would do a shutdown if it sees the voltage getting out of spec.
Voltage isn't the only problem here though amperage is, DC amps can cause arcs. The optimizers are equiped to handle a set amount of amps.

There are many specs on the arrangement of SolarEdge. See the spec sheet for the optimizers again:
In this case the OP has P400s and SE6000H so:
Minimum number of optimizers per string is 8
maximum number of optimizers per string is 25
Maximum STC power installed per string is 5.7kw

Agreed. But that's a problem with array protection, not inverter operation.
Your 5 watt wall wart is connected to a source that can give it 1800 watts continuous and several kilowatts for a few milliseconds. Nor could its electronics handle an internal short that would put full fault current (hundreds of amps) through the switching device. But it works OK.
Right! And thus each inverter can know how many optimizers are connected in series. Can it handle only 8? Then it wouldn't turn on if it sees more than 8 volts. Can it handle 50 in series? Then it would turn on if it sees 49 volts in safe mode - but not if it sees 51.

Now, the Solaredge may indeed not do that; I don't know how it handles faults like that. But given that installers may occasionally make errors (and as exemplified by this thread) it seems like cheap insurance. It's a lot easier to have an installer fix a wiring error than to replace a damaged inverter.

There are different optimizers with different limits. Maybe you should get a jobworking for an installer manufacturer they might benefit from your insight.
maybe enohase could use you. Promisse to let us know which inverters you worked on....

So i got confirmation today that it was wired correctly from the start on this new inverter to two different strings but for some reason the portal showed only a single logical string. They did something in the portal to fix this and now it shows two different logical strings. But here is the connection and its right there are multiple strings.

I thought the portal and inverter would automatically relay this to the servers, guess not? IMG_20180725_174332549_HDR.jpg