Isn’t the added cable resistance small enough to not cause issues so soon? In case you just chain a few ( < 10 ) together.
Kolanaki@yiffit.net 2 weeks ago
It increases the risk of electrical overload and overheating as it adds more resistance to the circuit.
Zacryon@feddit.org 2 weeks ago
Cort@lemmy.world 2 weeks ago
It’s not the cable resistance but the added resistance at each connection point. Since the plugs aren’t the same piece of metal, just touching.
Baku@aussie.zone 2 weeks ago
Thanks for the response! Would you mind going a bit more in depth about that please? I could understand increasing the risk of overload if you were to daisychain power boards, as they add more power points to the circuit than it was designed for. But extension cords (at least in my experience) only have 2 ends - one with a single plug receptacle, and the other that plugs into a power point
Is it the actual connection between the two that adds more resistance to it? If it were the wiring, then wouldn’t that also pose a problem for longer extension cords?
In either case, what sort of resistance add are we talking about (feel free to pick random lengths of examples make it easier to explain)?
FourPacketsOfPeanuts@lemmy.world 2 weeks ago
I don’t think what they said is actually a problem, it’s just a back-justification for the original trope. Daisy chaining them and strictly sticking to only the few appliances that would fit in one extension strip is fine. But that’s complicated to explain, it’s better to just tell people not to do it rather than expect them to understand what’s going on
A couple things that can happen…
plugging in too many appliances over several daisy chained power strips trips the circuit breaker because too much current is being drawn
if the country you live in has lax electrical safety standards then, yes, perhaps you can overload the daisy chain without tripping the main circuit which would lead to overheating
Eheran@lemmy.world 2 weeks ago
When the breaker trips then the fundamental issue is unlikely to be present. But to be able to push enough current to cause it to break the connection needs to have a sufficiently low resistance. If that gets too high it will never break, even if you short the cables. And that will result in a fire, because the protection does not work anymore. That is the dangerous part.