Not a lot of microinverter fans here, eh? 
I've got some modest shade issues in my situation (neighbors trees) that may get marginally worse or better, depending on what they do w/ one off the trees. But for the sake of comparison, lets assume that I would use optimizers if I went w/ a string inverter. Its worth noting that a legit installer (Technicians for Sustainability here in Tucson) included optimizers on both their string inverter proposals.
Is the "microinverters cost more" mantra really true on smaller systems? The optimizers I've seen run $70-ish while an Enphase IQ7 is $125-ish. Assuming my system is 12 panels, that's a $660 delta in those components, I can't buy a 3000W inverter for $660. I'm ignoring lots of details in cabling, monitoring, etc which could add up. But on the primary components, it seems like micros can be competive.
And yes, they are easier to design with. Despite @bcroe's passive-aggressive insult to my intelligence, ease of design and install is a benefit regardless of your capabiities. I can TIG weld a bike frame reasonably well, but does that mean I'm stupid to buy a mass produced one that cost more than raw tubes?
I've got some modest shade issues in my situation (neighbors trees) that may get marginally worse or better, depending on what they do w/ one off the trees. But for the sake of comparison, lets assume that I would use optimizers if I went w/ a string inverter. Its worth noting that a legit installer (Technicians for Sustainability here in Tucson) included optimizers on both their string inverter proposals.
Is the "microinverters cost more" mantra really true on smaller systems? The optimizers I've seen run $70-ish while an Enphase IQ7 is $125-ish. Assuming my system is 12 panels, that's a $660 delta in those components, I can't buy a 3000W inverter for $660. I'm ignoring lots of details in cabling, monitoring, etc which could add up. But on the primary components, it seems like micros can be competive.
And yes, they are easier to design with. Despite @bcroe's passive-aggressive insult to my intelligence, ease of design and install is a benefit regardless of your capabiities. I can TIG weld a bike frame reasonably well, but does that mean I'm stupid to buy a mass produced one that cost more than raw tubes?
Additionally, string inverters can usually be located in cooler places, like a garage. that not only makes things better for the electronics but makes them easier to get at.
Being on a roof, attached to a dark colored colored object sitting in the sun is not the best environment to expect a long service life for stuff that doesn't usually like heat. Id expect that to be particularly true in Tucson.
BTW, be sure to leave room in the design layout or at least a way to get at all the micros if/when they begin to fail.
I can't speak for Bruce, but it looks (reads) to me like he wasn't insulting your intelligence as much as trying to reduce your ignorance and increase your awareness about some of the potential drawbacks of micros that a lot of the smart money and experience knows about and that the peddlers and advert hype seems to leave out.
Micros may seem easier to design with to you. I'd suggest they have some inherent limitations that make it more difficult to design a better and more fit for purpose system with them. About the only real advantage they seem to have is they handle shade better than string inverters. If I had an application with that much shade, I'd wonder about and research the economic viability of the project before I spent much time and money on it.
I used to design weldments and write welding WPS's and PQR's and before that I used to be qualified on various weld procedures, but I'm not sure that does much to influence my opinions about microinverters or other heat sensitive electronics in mostly hot and often inaccessible places and in unnecessary designed-in redundance.
You wrote that you wanted advice.
Welcome to the neighborhood and the forum of few(er) illusions.
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