Thank you!
My question is more: if I'm deleting the manual transfer switch, aren't the wires going to the inverter grid ports and coming from the inverter load ports originating in the same place? From the "Feeder Taps" area in my diagram below?
Not sure if I'm fundamentally misunderstanding something
View attachment 249194
I've been thinking about this picture some more. Just don't do this, for several reasons...
1. I already mentioned the ATS above. If you short/bypass the ATS, then during a power outage the inverter output is going to energize the line conductors unless you manually throw the main service disconnect during each outage. This is a common mistake of people operating a backup generator by back-feeding their main panel with the generator. It puts line workers at risk during the outage, and they may try to track you down in order to locate the rogue power source.
2. Tying the inverter output to the grid input will bypass the sell-back settings of the unit. During normal operation the inverter will backfeed the grid regardless of the sell-back settings, presumably up to the limit of its power output, and it will drain the battery bank in the process.
3. Doing this will also cause the inverter to attempt to charge the battery bank using AC output from the inverter. Creating this battery charging loop is a common problem in RV systems when people power their RV by connecting their inverter output to the NEMA30 or NEMA50 input to the camper without remembering to disable the converter.
Also, I believe now that if you omit the disconnect switches (the transfer switch and the PV fused disconnect) you will be violating NEC code. These physical disconnect means are required by NEC. If you install the 18Kpv outside, then the grid and load circuit breakers in the inverter may serve this purpose. But they will need to be clearly labeled as emergency disconnect, and you need to ensure the inverter cable box cover can never be locked. If the inverter is installed indoors, then the outdoor physical switches are required. The RSD button alone will not suffice. The RSD operation is a software function, and as a software engineer I can assure you that no software is 100% failsafe, including NASA and utility-grade software. If the RSD fails, then the physical disconnect is needed. Note that the NEC requires both the RSD function AND the physical disconnect switches.
FYI for everyone, the manual for the 12Kpv has some improvements over the 18Kpv manual and it is useful to refer to it even if you are installing the 18Kpv. They are virtually the same device and the manuals and diagrams are similar. The 12Kpv wiring diagram improvements include better annotations and, more importantly, they include citations to the relevant NEC code sections for each component on the diagram. Also, in case you're unaware you can access the NEC online for free - you don't need to buy a copy.