With SolarEdge it make little difference. You generally string for wiring convenience as long as you meet the requirements for the strings.
If you only have 4 modules on a face, you will have to add them to modules on another face to get the string length up.
However with say 9 on one face and 8 on another you can do them as a single string of 17 or two strings of 8 and 9 in parallel.

Any recommendations on how to group panels as a string? Would it be better to try to group all the panels that get early morning sun together and have another string that gets more later day sun maximizing output on one at the cost of the other string or try to split the two groups evenly so both strings would be outputting throughout the entire day?

Like I said -
"I think off-grid solutions are going to be better for any off-grid situation."

If you want to use mismatched panels or have to deal with shade, maybe Tigo maximizers would be part of the solution
Or maybe the Magnum/Sensata solution you mention.

I think the secure power supply feature is a great feature for a GTI situation. I would have paid extra to have one.
But it's not meant for off-grid and the solutions that were designed for off-grid situations are going to be better/cheaper.

correct

The limitations with matching panel voltage with even MPPT charge controllers in not elegant, and the same charge controller has to be able to provide the proper battery charging profile and the proper low/battery voltage. Then an inverter with a fixed input voltage has to be used.

I like the idea of using any voltage solar panel, odd numbers of solar panels, unmatched wattage solar panels, expandable quantities of solar panels, and higher voltages. I'd much rather do this and pair couple with a 120VAC or 240VAC coupled battery through a bidirectional rectifier/inverter whose function is just to manage battery power. Without the battery this is definitely limited - especially without some type of load controller directing how much generation is available from the secure power output. But the status quo in offgrid power is not elegant in my opinion and I'd like to work toward the next generation of solutions.

Magnum/Sensata has a new architecture that might be considered similar to this, though one has to be fully committed to having battery and using Magnum's bidirectional rectifier/inverter. I'm not sure how committed they are to the microinverter, whereas SolarEdge hardware is much more mainstream.

Right - but if you can't have grid available, then you wouldn't have a GTI system.

adoublee is looking at using a solaredge w/ secure-power-supply instead of an offgrid system for an off-grid application.
And I think off-grid solutions are going to be better for any off-grid situation.

But a Secure Power Supply or equivalent is a lot cheaper to add to a pure GTI system for grid outages than an additional off grid system or use of a hybrid system in the first place.

A normal off-grid system would be a better choice in basically any scenario I'm thinking of where you can't have grid available.

Agree in the typical use - it's a daytime circuit available if utility power is out. I'm referring to using completely off-grid versus other methods of off-grid, but would be niche application for sure.

ok I though you were thinking of solaredge optimizers on an SMA. I am with you now.
But I don't know the answers as we don't have any HD waves installed yet.

1500W across 8 modules is only 190W/module.
190W is what I am getting for a peak on my 280W modules today. (less on the ones that are more east or more west oriented)
So you need at least 8 modules if you're going to be close to that 1500W max.
And even then there's not enough power in the morning/evening.
And there's the question of what the efficiency is (ie. will 1600W of DC power in give you 1500W of AC power out? Or do you need 3kW+ of DC power?)

I think in the end what you wind up doing is sizing the DC side based on your grid-tie, and the secure-power-supply feature is a rarely used "nice-to-have-just-in-case" thing.

New HDWave spec sheet indicates an optional "self-sustaining power outlet" indicated to be 120V and 1500W. I thought you posted a link about this previously but maybe not. Don't know what else it could be but a SMA Secure Power Supply equal, which is why I brought up SMA...

you seem to be confusing SMA and SolarEdge.
SolarEdge does not have Secure power feature.
You have a StorEdge option which requires a battery for backup
The 350V DC will drop if the line voltage is lower than 240V AC but the solaredge inverters do not do 120V. With StorEdge they get 120V with an autotransformer add on for backup capabilities.

Note that even at 240V AC I have seen the DC much higher than 400V.

Well I've thought about using the secure power supply like feature to regularly produce daytime power without battery (overspending on inverter capacity). 1500W is the max, so I may or may not want a full out panels serving this. Inverter spec sheets list minimum of 8. It looks like their 60V max optimizer output and 350Vish minimum input voltage drive the 6 number, which in theory could be even lower if the 350V could be lower for 120VAC secure power only.

well optimizers can output as little as 1V and I have heard from techs that the high is 60V.

you are looking at ONE panel voltage dropping. It was dropping as the others were getting sunlight over the roof line before it. Thats why the one optimizers output voltage dropped but the same panels increased.
As they all started locking in at higher voltage and current levels the inverters output increased.

You can see voltage boost on the optimizer at 10:30 for this optimizer the input (panel output) dropped to about 5V but the optimizer output was 35V and climbing.


It doesn't matter what HDWave or standard SE inverter you have the absolute minimum is 6 optimizers. The recommended minimum is 8 though.

I don't understand your relation to SMAs secure power supply though.