FlasherZ
Well-known member
- Joined
- Mar 10, 2022
- Threads
- 9
- Messages
- 915
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- Location
- St. Louis Metro
- Vehicles
- F-150 Lightning, Tesla Model X, F250 SD diesel 6.0
I've talked to a few inspectors and power company folks about these devices. Bottom line is that they don't quite know what to think of them yet. I think their conclusion is that the company making them is doing all kinds of great marketing, but the codes and power company regulations aren't ready for them (yet).
In particular, NEC 230.70 requires that "means shall be provided to disconnect ALL ungrounded conductors in a building or other structure from the service conductors", NEC 230.71(B) requires a disconnect to be in an enclosure, panelboard, switchboard, or switchgear, and NEC 230.72(A) requires that all disconnects must be co-located. So to use this collar, you are going to have to run the conductors into the building and co-locate a disconnect with all your other panels.
In talking with my co-op and a few engineers from the local investor-owned utility, they are concerned about them because it adds another potential problem to the meter interface. They already deal with all sorts of things related to meters and would prefer for that to remain simple.
The collar doesn't get around the biggest challenges associated with installing EV charging, which are 1) undersized transformers, such as the 10 kVA transformer that serves my parents' home plus two others; 2) undersized service conductors; and 3) older meter pans that already have the maximum rated panel load attached.
(For my second 100A charger, I took a third set of service conductors from my 320/400A meter to a 100A disconnect co-located in the basement, and then a run out to the garage where the disconnect is located for my FCSP.)
In particular, NEC 230.70 requires that "means shall be provided to disconnect ALL ungrounded conductors in a building or other structure from the service conductors", NEC 230.71(B) requires a disconnect to be in an enclosure, panelboard, switchboard, or switchgear, and NEC 230.72(A) requires that all disconnects must be co-located. So to use this collar, you are going to have to run the conductors into the building and co-locate a disconnect with all your other panels.
In talking with my co-op and a few engineers from the local investor-owned utility, they are concerned about them because it adds another potential problem to the meter interface. They already deal with all sorts of things related to meters and would prefer for that to remain simple.
The collar doesn't get around the biggest challenges associated with installing EV charging, which are 1) undersized transformers, such as the 10 kVA transformer that serves my parents' home plus two others; 2) undersized service conductors; and 3) older meter pans that already have the maximum rated panel load attached.
(For my second 100A charger, I took a third set of service conductors from my 320/400A meter to a 100A disconnect co-located in the basement, and then a run out to the garage where the disconnect is located for my FCSP.)
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