The graphic and link only consider a feeder tap. It does not incorporate interconnected sources (705 requirements) into the discussion.
IMO the 120% rule, or the "sum of" rule(s) apply between PV system disconnect and the service disconnecting means... the part in red below.
I'm simply unclear as to where the 80A PV breaker is relative to the 200A and 100A breakers.
If we're talking 2(1) or 2(2) in bold, then a 200A rated barn panel won't do.
If we're talking 3(b), then the 200A panel is ok.
I think?
The 100A breaker is "in the red" because it is "before" the 80A breaker, if it was "after"(under) the 80A, the 200A would be "in the red".
200A service breaker
|
|<-- conductors between 200A and 100A breakers
|
100A "barn" breaker
|
|
<-- 80A PV breaker
705.12
(D) Utility-Interactive Inverters.
The output of a utilityinteractive inverter shall be permitted to be connected to
the load side of the service disconnecting means of the
other source(s) at
any distribution equipment on the premises. (the barn panel, BP)
Where distribution equipment, including switchgear,
switchboards, or panelboards,
or BP is fed simultaneously by a
primary source(s) of electricity and one or more utility interactive
inverters, and where this distribution equipment
is capable of supplying multiple branch circuits or feeders,
or both, the interconnecting provisions for the utility interactive
inverter(s) shall comply with 705.12(D)(l) through (D)(6).
(1) Dedicated Overcurrent and Disconnect. The source
interconnection of one or more inverters installed in one
system shall be made at a dedicated circuit breaker or fusible
disconnecting means.
(the 80A PV breaker)
(2) Bus or Conductor Ampere Rating. One hundred
twenty-five percent of the inverter output circuit current (80A)
shall be used in ampacity calculations for the folIowing:
(1) Feeders.
Where the inverter output connection is made
to a feeder at a location other than the opposite end of
the feeder from the primary source overcurrent device,
(would be: 200A --> 80A --> 100A)
that portion of the feeder on the load side of the inverter
output connection shall be protected by one of
the following:
(a) The feeder ampacity shall be not less than the sum
of the primary source overcurrent device and
125 percent of the inverter output circuit current.
(b) An overcurrent device on the load side of the inverter
connection shall be rated not greater than the
ampacity of the feeder.???
(2) Taps.ln systems where
inverter output connections are
made at feeders, any taps shall be sized based on the
sum of 125 percent of the inverter(s) output circuit
current and the rating of the overcurrent device protecting
the feeder conductors as calculated in 240.21 (B).
(would be same as above)
(3) Busbars. One of the methods that follows shall be used
to determine the ratings of busbars in panelboards.
(a) The sum of 125 percent of the inverter(s) output
circuit current and the rating of the overcurrent device protecting
the busbar shall not exceed the ampacity of the
busbar.
Informational Note: This general rule assumes no limitation
in the number of the loads or sources applied to busbars
or their locations.
(b)
Where two sources, one a utility and the other an
inverter. are located at opposite ends of a busbar that contains loads,
the sum of 125 percent of the inverter(s) output
circuit current and the rating of the overcurrent device protecting
the busbar
(would be: 200A --> 100A --> 80A)
shall not exceed 120 percent of the ampacity
of the bus bar. The busbar shal1 be sized for the loads
connected in accordance with Article 220.
:lol: