this post was submitted on 26 Aug 2024
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I mean, you need a lot of voltage to make voltage drop irrelevant. Like, 120 or 240 volts. If distribution is voltage is the same dc/ac, we could use the same wiring (but different breakers, and everything else).
So the wiring argument doesn't really hold up - the question is more about efficient converters to reduce voltage once it's at the house.
I.e., for typical American distribution, it's 240 in the neighborhood and drops to 120 in the house. If the dc does the same, the same amount of power can be drawn along existing wires.
Yea have fun transmitting a decent amount of power with 240v over a meaningfull distance. Also most generators produce ac anyways so why would you recitify it at the generator instead of your device after a transformer? You still need all kinds of different voltages everywhere in your electronics and this means you still need to regulate it.
I am not shure how the american wirering worls out but to get from 240 to 120 you still need a transformer... or is it 240v between the different phases and then 120 from phase to neutral?
240 in the neighborhood - i.e., that's enough to distribute from the pole to a few houses. Of course you have higher voltages to go longer distances. This is equally true for AC vs DC. Thus, the idea that it takes a looot of copper for DC is erroneous.
In fact, where conductor size is relevant is that you can use smaller conductors for DC, because of the skin effect.
Wiring: Split phase, that is also usable as 240 for large appliances. So, the latter.
Skin effect with 50hz yea, no not much.
Ok so every time you change the voltage level you still need a transformer and a inverter to create ac, so no it doesnt make any sense.