• USGBC requires that electrical connectors must adhere to SAE Surface Vehicle Recommended Practice J1772, SAE Electric Vehicle Conductive Charge Coupler or an equivalent regional or local standard and be capable of dynamic interaction with the utility grid.

I investigated one very common vendor, Chargepoint, and their "power management" system sort of and sort of does not comply with the requirement to interact dynamically with the utility grid.  If there are several stations, the software can limit the total power available to the stations, for example one connection can have full power, if there are ten connections charging then each gets 80% of full power, twenty connections each gets 40% of full power and so on.  The system does not actually interact with utility grid peak alerts in any way. Nor does my utility have any kind of peak alert mechanism that could even be used.   Does such a system comply with this requirement?  Other than that, the only way I can imagine to implement this is to have a building automation system chop off the power to the chargers with a crude contactor if it gets a peak alert.  Either way, Chargepoint strongly cautions against using such systems on public charging stations.  People charge at a public station expecting to drive away after a certain period of time.  If they show up and the station is dead, or plugged in but not charging, they'll be upset.  Chargepoint only recommends such demand limiting on fleet vehicles, or other situations where the electric vehicle is plugged in for a long period, such as overnight residential situations. They say a better option is time-of-use pricing to discourage use at peak times, which doesn't really implement this USGBC rule.  Has anyone wrestled with this?  Are reviewers enforcing this demand limiting rule?  Is it enough that a charging station's software is "capable" i.e. could theoretically implement this demand limiting software if it was turned on at a future time?