(B) Load Side. The output of a utility-interactive inverted shall be permitted to be connected to the load side of the service disconnecting means of the other source(s)
if the connection point is allowed to a main lug ("service disconnect") distribution panel and you are defining that as a load side connection point. than you would have to consider any breakers disconnecting the service equipment from the utility as service disconnects in that panel.
I'm certainly not defining the solar connections as load side in the OP's picture. I've said exactly the opposite. Your last sentence is correct in my opinion, although some would debate whether the solar breakers count as 'service disconnects'. They are, at any rate, not on the load side of a service disconnecting means, so none of the load side rules apply, including the 120% rule.
The distribution equipment, panelboard is fed simultaneously by a primary source(s) of electricity and one or more utility-interactive inverters in this thread two utility-interactive inverters
This distribution equipment is capable of supplying multiple branch circuits or feeders, or both
Buss rating consideration 120%
100 amp plus 20 amp plus 20 amp 140 amps toward the buss rating for consideration.
All of that applies
only to the load side of the service disconnecting means. It does NOT apply to a busbar that is on the utility side of all disconnecting means.
I’m having difficulty agreeing with you that this can be defined as a connection point ahead of a service disconnect when the panel is a service disconnect at least up to six breakers in that panel would have to be defined that way. Second if your connected ahead of a service disconnect you would be connected ahead of any distribution panels that distributes the load throughout a facility
The code does not say 'ahead of'. It refers to the 'supply side' or 'load side'. That it no way implies that a supply side connection can't be in the same enclosure as the normal service disconnecting means. It's not about location.
I'm not a PV expert but would never have done the installation this way. The idea works but it creates so many other issues.
My first suggestion would have been to replace the service panel. Without seeing the job and knowing the AHJ requirements there may be a really good reason this was avoided.
The other thought I had is what about installing a 200 or 225 amp panel next to the existing service as they did.
...
As I said above I'm not very strong on PV requirements but the suggestion above should work correct?
Replacing the original service panel on the left would have been the way to go, and still is. All they need is a meter/main combo panel with a
125A busbar and 100A breaker. Then the load-side 120% rule would allow 50amps of solar.
There's no need to upgrade the amperage of the service conductors or service here. It can remain a 100A service if that's all the customer wants or needs.
...With two backfed breakers they cannot both be at the opposite end from the main.
Sure they can. A residential load center busbar typically has two stabs at the opposite end. Many panelboards can accept up to
four two pole circuits on those stabs, using quad breakers on both sides. There's no sense in which the connections to those stabs for all four circuits aren't at the opposite end; they are all paralleled to the same point on the busbar.
With single column panels or a double-sided 3-phase panel you'd be limited to 2. With connections above 50A your contention is more likely to be correct.
