American here.
I may be in the minority, but I think this plug design is absolutely stupid. I get that it has safety features, that you can put a fuse in the plug, that the outlets have switches, etc etc etc. But it is absolutely fucking huge. Ridiculously huge. And anywhere that you have multiple devices you want to plug in, it is totally impractical because it is so fucking huge.
The fact is, very very few devices need 240v 13A. Yes I get that it is useful to have this ridiculous amount of power so you can boil your tea kettle in 35 seconds, but other than that very few household appliances need anywhere near that amount of power.
So the result is a cell phone charger, which at the very outside is pulling 20 or 30 watts, is plugged into this giant ridiculous monstrosity capable of supplying 3000+ watts. And in reality the only appliances that use anywhere near that much are cooking appliances and space heaters.
Meanwhile the US NEMA 5-15 is good for 1800 watts, plenty to run almost every household appliance, with the longer ground pin and an appropriate outlet it supports tamper resistance shutters, the thin flat pins resist the insertion of foreign objects into the outlet, and you can fit many outlets in a small space.
And it doesn’t destroy your foot when you step on it, as a nice bonus.
Your understanding is correct. It’s actually a very simple calculation: volts x amps = watts. Watts is the amount of total work done.
So to use a water pipe analogy, imagine you have a pressure washer. Volts is the pressure in PSI. Amps in the flow rate in gallons per minute. Watts is how quickly it cleans your sidewalk. Thus, the 500 PSI pressure washer that can put out 2 gallons per minute does about the same amount of cleaning as the 1,000 PSI pressure washer that puts out one gallon per minute. However, as long as the hose can withstand the pressure, pushing out 2 gallons per minute requires a larger diameter hose.
It’s the same way with wiring. The capacity of a wire is measured in amps. So if a device needs say 1200 watts, feeding it was 240v instead of 120v means you can use thinner wires everywhere. Including in the transformer that powers it.
However, this type of gain only really makes a big difference when you get into very high power consumption devices. An electric kettle that takes 1500 w, in the US you are almost maxing out a single 15 amp outlet. In the UK the same kettle is using less than half of the outlets capacity. (Of course they just make a kettle that has twice as much output, because the Brits don’t want to wait for their tea). Amusingly, that 3 kilowatt tea kettle is one of the only places where you get a real perceptible advantage from a 240v system.
Okay but that’s more talking about the benefit of a 240v system. The question here was the benefit of the giant UK plug.
Personally I would argue that 240v to every receptacle is not a major benefit, because very few devices require 3kw+. And in exchange you get a somewhat more hazardous system.
I am curious if homeowners in NZ are allowed to work on their own wiring? Here in the US you are…
Us extension cords (or power strips or whatever you want to call them) practically catch fire if you look at them wrong. Over here, there’s much more leeway for plugging multiple loads into a single socket.
… How is that the case? You’re multiple loads end up with a cubic foot of plugs and receptacles.
Like imagine I want to plug in a computer, two monitors, a printer, a desk lamp, a cell phone charger, and a laptop plug. None of these devices use more than 100 watts. In UK you need seven of those ridiculous giant plugs for all this. Even with a power strip it would be physically huge.
In the US the power strip that would run all that stuff is barely a foot long.
I have used power strips all my life and never once has one caught fire.
American here. I may be in the minority, but I think this plug design is absolutely stupid. I get that it has safety features, that you can put a fuse in the plug, that the outlets have switches, etc etc etc. But it is absolutely fucking huge. Ridiculously huge. And anywhere that you have multiple devices you want to plug in, it is totally impractical because it is so fucking huge.
The fact is, very very few devices need 240v 13A. Yes I get that it is useful to have this ridiculous amount of power so you can boil your tea kettle in 35 seconds, but other than that very few household appliances need anywhere near that amount of power.
So the result is a cell phone charger, which at the very outside is pulling 20 or 30 watts, is plugged into this giant ridiculous monstrosity capable of supplying 3000+ watts. And in reality the only appliances that use anywhere near that much are cooking appliances and space heaters.
Meanwhile the US NEMA 5-15 is good for 1800 watts, plenty to run almost every household appliance, with the longer ground pin and an appropriate outlet it supports tamper resistance shutters, the thin flat pins resist the insertion of foreign objects into the outlet, and you can fit many outlets in a small space.
And it doesn’t destroy your foot when you step on it, as a nice bonus.
My understanding is that higher voltages mean that amperage can be lower. There are also gains in transformer efficiency.
Your understanding is correct. It’s actually a very simple calculation: volts x amps = watts. Watts is the amount of total work done. So to use a water pipe analogy, imagine you have a pressure washer. Volts is the pressure in PSI. Amps in the flow rate in gallons per minute. Watts is how quickly it cleans your sidewalk. Thus, the 500 PSI pressure washer that can put out 2 gallons per minute does about the same amount of cleaning as the 1,000 PSI pressure washer that puts out one gallon per minute. However, as long as the hose can withstand the pressure, pushing out 2 gallons per minute requires a larger diameter hose.
It’s the same way with wiring. The capacity of a wire is measured in amps. So if a device needs say 1200 watts, feeding it was 240v instead of 120v means you can use thinner wires everywhere. Including in the transformer that powers it.
However, this type of gain only really makes a big difference when you get into very high power consumption devices. An electric kettle that takes 1500 w, in the US you are almost maxing out a single 15 amp outlet. In the UK the same kettle is using less than half of the outlets capacity. (Of course they just make a kettle that has twice as much output, because the Brits don’t want to wait for their tea). Amusingly, that 3 kilowatt tea kettle is one of the only places where you get a real perceptible advantage from a 240v system.
AS/NZS 3112
I can charge my electric car from a standard outlet. Can add 20kWh overnight, which is plenty for 3 days round town driving.
230V at 15A on a standard outlet, plug only slightly larger than the American one.
Okay but that’s more talking about the benefit of a 240v system. The question here was the benefit of the giant UK plug. Personally I would argue that 240v to every receptacle is not a major benefit, because very few devices require 3kw+. And in exchange you get a somewhat more hazardous system.
I am curious if homeowners in NZ are allowed to work on their own wiring? Here in the US you are…
We used to be. The rules changed about 10 years ago.
A lot of big appliances require higher power. Dishwashers, clothes dryers, fridges.
Some powers tools, drill press, plainer.
I never worry about load splitting,.
The benefit of the AS/NSZ plug, is that it isn’t much bigger than the US plug, but has a higher power density.
Two words: Extension cords
Us extension cords (or power strips or whatever you want to call them) practically catch fire if you look at them wrong. Over here, there’s much more leeway for plugging multiple loads into a single socket.
… How is that the case? You’re multiple loads end up with a cubic foot of plugs and receptacles. Like imagine I want to plug in a computer, two monitors, a printer, a desk lamp, a cell phone charger, and a laptop plug. None of these devices use more than 100 watts. In UK you need seven of those ridiculous giant plugs for all this. Even with a power strip it would be physically huge.
In the US the power strip that would run all that stuff is barely a foot long.
I have used power strips all my life and never once has one caught fire.