| ▲ | gambiting 3 days ago | |||||||||||||||||||||||||
I imagine the chargers you have are not drawing 3kW each though. That's the main problem - your legacy infrastructure is most likely wired for 220V@32amps for the whole garage/street just to run the lamps from it, so 7.2kW. That's one EV charger, or two if you want to split them into 3.6kW feeds. If you want to run a proper 7.2kW charger from every lamp post or next to every parking space, that's a lot of brand new cabling that you need to add. | ||||||||||||||||||||||||||
| ▲ | stetrain 3 days ago | parent | next [-] | |||||||||||||||||||||||||
Yes, but potentially easier than adding 250kW per charger for a bank of DC fast chargers. The grid connection for one fast charger could serve 50+ L2 chargers, potentially even 100 with load-sharing chargers. There are good use cases for both kinds. | ||||||||||||||||||||||||||
| ▲ | alright2565 3 days ago | parent | prev [-] | |||||||||||||||||||||||||
1.6kW is the limit; but no, they aren't. But you don't need 7.2kW all the time! There's no way that every single car would need to charge at every moment, and I know this from walking through parking garages and seeing some cars not move for days at a time. A EVSE could easily serve multiple spots, and fairly (or unfairly, for profit!) distribute power between cars from a limited supply | ||||||||||||||||||||||||||
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