I spec’d my 21kw system with IQ8+s for this reason. It’s future proofing distributed generation by being software defined (Enphase’s Ensemble system). Highly recommend them to anyone considering residential solar, and go for as big of a system as you can (and your utility will allow, if they limit based on usage history; tell them you’re buying an EV if necessary).
We ended up with 16kW and solar edge stack. 16kw was about all we could fit on the roof. Was a nightmare getting Xcel to approve it. Took them 2 months. We have 20 kWh of battery to buffer and back us up in the case of extended outages. It is a nice system. Anything over 10k in Colorado requires a lengthier approval process.
We also moved the house entirely to heatpumps. They practically sip energy for cooling.
Consider the peak power of the panel vs the maximum power of the microinverter... My very small p.v. if converted to microinverters from string inverters would be FAR LESS productive due to the maximum power limit of the microinverters, surely they allow "free" panels, mixed with any orientations, many different numbers, even different kind of panels, but they cut much the output to a point they are IMVHO interested only if you can't make chains due do shadows / physical location issues...
No, these days microinverters aren't the bottleneck. The IQ7 can handle up to a 460 W module, with 366 VA output. The IQ8 can handle up to a 540 W module, with 384 VA output. 97.6 efficiency.
Mh, from Enphase catalogue in my country (France) I do not see such data, the IQ8 are not on sale here and IQ7 variants arrive at maximum at 315 VA for the IQ7X-96-2-INT witch is the top performer on sale here. Anyway, it's still less than classic string inverters even if they give "resilience" and "installation freedom"...
Do you have any battery storage? How well do islanded microinverters handle startup surge on electric motors, or is it the case that you need a 20kw+ array to handle a refrigerator cycling on?
No battery storage. 1:1 net metering with my utility. 21kw array is about 30% over what we’d need for annual consumption, but (Q Cell) panels were the smallest component of total system cost and they help keep the attic 5 degrees F cooler. Also, I’m required to carry $1M in liability insurance for anything over 10kw. Even if I have credits forever I want to maximize production to offset utility natural gas generation during daylight hours. Not needed but installed a soft start on the 4 ton AC condensing unit for longevity and to reduce start surge. I will likely add battery storage in the future when it declines in cost for outages.
The system is not yet configured to support solar only utility disconnected operation due to supply chain issues (additional components, rush to PTO), so I cannot speak to surge start capability of the IQ8+ micros in island mode.
Every IQ micro and battery you add adds more ability to deal with current surge requirements. On my 8.5Kw system with 30KwHr of Enphase LFP batteries, I can handle turning on AC when I have full sun and partially charged batteries without going to the grid.
This made me think "What about SMA Solar, they are supposed to be a technology leader?"... and yes, they do have all the grid stabilization features (and an island feature in at least some models, not mentioned there):