In that case, if you count/calculate like that, we even have 400V AC for our homes, here in Europe...
3 "hot" wires, 240V, 120ยฐ phase difference, each. Circular current. Usually coloured black, brown, grey.
One neutral wire. Usually coloured blue.
One PE "protective earth". Usually bi-coloured in yellow and green (green with a yellow stripe).
All five come directly from the power network supplier.
There is absolutely no risk of non-self-extinguishing arcs with 400V/480V circular AC.
GB, Europe and Australia prove this. Every Day. For Decades, now...
And it is a lot(!) more secure to accidently touch Europe's and Australia's live wire with 240V than US' 120V. Ever heard of RCDs?
@jmorris In the UK we're also 240v, it's very rare to see 3 phase inside a normal house/garage. US 3-phase is much weirder, they have wildly different 3 phase voltages in different places.
@jmorris
I see you swapped out the connector on the panelpole. I had to do that, too, for my setup. Getting the pin out (and then back in again!) was a pain. Bench vise to the rescue.
West Mountain Radio uses violet+black for 48v on their rigrunner.
https://www.westmountainradio.com/product_info.php?products_id=rr_4008hv_p48
I've seen orange+black or yellow+black for 24v/28v.
@jmorris 240V is not quite as dramatic as that. I've had a few shocks and it's not pleasant but it's not necessarily certain death in a lot of circumstances if you can break the connection between it and you.
@jmorris
I used a drill press with a drill bit mounted backward to push it out enough to grab onto it, and the bench vise to press it back in.
This only can happen, if you have no (or virtually no --> US) security devices in the installation.
Every time I see US electrical house installations I am scared to my bones...
The difference is:
We do not only have RCDs on lines "near water" or outside, but on every(!) line. Directly in the house's distribution box, not only for "chosen" outlets.
We also have multiple arc-breakers, line-breakers, over-voltage protectors in the distribution box... for redundancy.
Shorting all three phases (or just two of them), it's likely, that you just would see a little spark for about 20ms max (if at all) before at least one of four redundant breakers chimes in.
Hundreds of Dollars? For a single RCD? Wow... We're talking about maybe โฌ20 here.
In old installations there is only one RCD for the complete installation. That is: if anywhere in the house, on any line, there is a fault-current of 25mA max (which is painful but non-fatal) the complete house is shut down. In modern installations there are 2, 3, n of them.
Just because it's not that cool if you don't have no light anymore, just because your garden outlet was accidentally "drained".