People who joke about legos haven't stepped on this bad boy
this post was submitted on 23 Nov 2025
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Mildly Infuriating
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Stick your finger in a 20A outlet, and you'll pull out a burned finger. Stick your finger in a 100A outlet, and you'll lose your hand, or your life. More power will pass through you before the circuit can be interrupted.
The power standards that created the need for UK plugs were developed long before RCD/AFCI/GFCI protections were adopted. Those later protections did not influence the decision to use that plug design.
Our appliance wiring is rated to carry 20A from the receptacle throughout the appliance, or to a secondary current limiter within the appliance. Since the wiring is rated to the 20A the circuit can provide, we don't need the secondary fuse in the plug. This is part of our appliance wiring standards.
If you have a 30A outlet, and you plug a cord rated to 20A into it, that cord will be overloaded before drawing 30A. Which means a fault in the appliance might not be capable of tripping the 30A breaker. For safety, you would need the cord to be rated to 30A to ensure the breaker will trip. The UK doesn't use 30A cords on appliances that only need 2A of protection. They put a 2A fuse in their plug, and use a cord capable of surviving a 2A fault. (In practice, UK cords have about the same rating as US cords; a 20A fuse in the plug would suffice.)
Our breakers are rated at 15 or 20A. We require our cords have to be rated to be able to survive 20A without catching fire for long enough to trip a 20A breaker, even if the device is only expected to draw 2A. We don't need the secondary current limiter, as the circuit breaker is designed and intended to trip before a fault allows the appliance to catch fire.
Different rating. An extension cord rated for carrying 10A continuously will still survive a 20A fault. The voltage drop through that cord will be out of spec, which is why it is only rated to 10A.
Obviously. That has been part of my point the entire time: You use fewer, higher wattage circuits. UK circuits carries more power to pass through your body than a comparable circuit elsewhere in the world. The household wiring standards in the rest of the world are more restrictive than they are in the UK. You are repeating the exact points that I (and others) have been making from the start.
30A @ 240V in the UK. 16A @220V in the EU. 15/20A @ 120V in North America. 20A @ 100V in Japan. Keep those numbers in mind, assume someone is touching a live wire sticking out of their wall, drop the attitude, and re-read my comments from the very start.
Did you just deliberately ignore everything I wrote ? Both 20 and 100amps are several hundred times more current than it needs takes to kill you. And the resistance of your body is way to high to pass more than a few hundred milliamps anyway.
For a given voltage, the outcome of recieving a shock on a 20A fused circuit is literally indistinguishable and fully identical to that of receiving a shock on a 100A fused circuit. Identical. Literally.
No it isn't. I literally just told you you can buy 15A rated extension cords in Japan in the comment you're replying to. 15, is in fact less than 20, just fyi. Are you deliberately ignoring half of what I wrote ?
Wrong. Again. The current limit imposed by the internal resistance of your body at voltages in the range of 100-200 is a few hundred milliamps. Maybe an amp or two if you stick electrodes inside yourself, and anything higher than 100 mA going through your heart is already lethal anyway. You're gonna be dead 200 times over waiting for your 20A fuse to save you. The power that will pass through your body depends exclusively and solely on the voltage. The capacity and fusing of the circuit is utterly irrelevant, unless it's fused at like 40 MILLI amps.
Man I fucking love how you literally just picked out the first line in a comment pointing out another one of the things you said that are objectively untrue (a dead short not blowing a UK ring fuse) and ignore everything else in the comment. You must have seen the comment to quote part of it, and yet you ignore it entirely. You're clearly and demonstrably not arguing in good faith.
That's fucking rich, when I've literally explicitly addressed every single point you made, whilst you seemingly deliberately ignore half the ones I make. Literally repeating falsehoods I disproved in the comment you're replying to, whilst you're replying.
I covered that. Different rating. That 15A cord will survive a 20A fault. Its rated at 15A because the voltage drop will be out of spec at 20A draw, not because it will be a fire hazard at 20A. You will be able to get enough current through that 15A cord to trip the 20A breaker. You might not be able to get 20A through a 5A cord before the cord catches fire.
My point is that UK appliances are specifically not designed to trip UK breakers in a fault. US devices are.
In every jurisdiction where fuses are not required in plugs, appliance standards require the appliance to be able to trip the household breaker. This is a fundamental concept of electrical safety.
That's actually false. You're conflating the resistance of "skin" with the resistance if the "body". Once you burn away that skin, your internal resistance drops substantially.
ANY cable being driven above it's rated load is a fire hazard. There healthy margins in those ratings, so going slightly over is likely not going to have any affect, but those margins are for good reason (namely people like you thinking it's fine to plug a 15A cable into a 20A circuit without external fusing or current limiting), and deliberately overloading any part of an electric circuit is ALWAYS dangerous and stupid. And what about 7A cables you can get in japan ? you can explicitly get 0.75mm² cables, which are only rated to 7Amps. Just as confident of blasting 20A through those ? Almost 9 times the amount of waste heat being generated in the core than at it's max rated load.
Nope, again completely untrue. Breakers are only required to trip if the circuit becomes overloaded.
Your breakers don't, and can't give a shit about what's happening on the other side of the outlet.
Your device could slowly be melting itself into a pile of burning plastic, as long as it's drawing less than 16 Amps to do so, the breakers will not trip. As I've pointed out, repeatedly already, and you have repeatedly ignored, breakers are solely and exclusively for protecting the wire from overheating /overloading.
And in fact, the fused plugs actually make it way MORE likely for something to trip on a device side fault in the UK, because the current only has to be like 3Amps to kill the fuse. In every other place of the world, current needs to be at least 16A before anything trips.
I address that point, quite literally, in a later a paraph where I write
So what happened here ? Did you not read my comment ? Did you not understand it ? Or did you read it understand, and then continue to pretend like I haven't already explicitly addressed this anyway ?
At this point I think calling this behaviour accidental would be an insult to your intelligence, and just have assume that you know exactly what you're doing, and are knowingly and deliberately arguing in bad faith and with intellectually dishonesty, so stop. Just go away. I'm done. You're either fully incapable of, or unwilling too, engage in honest debate, so I'm not linger interested in continuing this.
Breakers are only required to trip if the circuit is overloaded. That part is correct.
The internal resistance of drastically undersized wiring may not be capable of passing sufficient current to overload the household breaker. And yet, pretty much the entire world (except the UK) doesn't require fuses on their plugs. The unfused power cords for those non-UK appliances are either a fire hazard OR those cords are required to be able to carry sufficient current to trip the current limiter without catching fire. The latter is, indeed, the case. This is a big part of UL, CSA, CE, and other electrical certification standards around the world.
That's actually part of NEC code applicable in the US and Canada, and I'm not going to delve too far into it, as it really pisses me off. Basically, there is no functional difference between our 15A and 20A components. The standards needed for a component to carry 15A in North America are the same as the standards needed for it to carry 20A. Effectively, our 15A components have a safety margin 5A greater than that of our 20A components.
The historic and technical distinctions for this are well outside the scope of this discussion, and I think it is, indeed, moronic. But yes, technically, we can indeed use certain 15A-rated components on a circuit protected by a 20A breaker.
Here again, you're demonstrating my exact point, despite claiming that what I am saying is "completely untrue": The rest of the world builds its appliances to tolerate at least that 16A fault. For the UK to use that exact same manner of protection, they would need to build their appliances to tolerate a 30A fault. The same appliance would need a much heavier power cord in the UK than in the EU.
Since no rational person would want to overbuild each and every appliance to be able to tolerate a 30A fault, they included a fuse in their plug. That plug, unneeded in the rest of the world, is an essential component in the UK. That plug is what allows the UK to be able to safely use the world's 16A appliances on UK 30A breakers.
(No, the rest of the world doesn't need 16A before "anything" trips. The rest of the world includes their fuses inside the appliance, immediately after the cord rather than on the plug end.)
Yeah. If you undersized a en entire houses ring circuit at AWG24, then indeed a 30A fuse wouldn't be tripped. Though on the plus side, to even achieve it you would need to undersize the wire to such a massive degree that the wire itself just becomes a fuse.
In a our real world overhere, of fucking course a ring circuit can pass enough current to trip it's breaker, and it's fucking laughable to claim they can't.
No they don't. They can actually use much smaller power cords. Because there's a fuse in the plug itself. If the plug itself has 1A fuse, then no matter what happens, the maximum amount of current the device can ever consume is 1A, so 1A is the highest fault current that device will ever have to handle. The UK system actually makes fault protection on the device side much better and easiest.
Appliance wiring, not household wiring. I clearly specified that. You're reading what you want to read, and not what I actually wrote. You're laughing at yourself, not at what I claimed.
Remember: most of the world safely uses unfused plugs on their appliance power cords. Their 16A household breaker is the only current limiter available to protect those unfused power cables. Those normal sized, unfused cables would be drastically undersized if plugged into a less-restrictive, 30A outlet.
You read what you wanted to read, and not what I actually wrote:
The rest of the world relies on their (ostensibly) 16A household circuit breaker, and not on a fuse in their plug. For the UK to rely on the household breaker, their appliances would need to be able to handle a 30A fault.
That fused plug is not necessary in the rest of the world. The rest of the world builds their power cables to handle 16A, and puts their 1A fuse inside the body of the appliance. The UK needs that overbuilt plug, specifically because their household wiring standards are so much less restrictive than those of the rest of the world.
I think you've lost the plot. Every time you argue for a feature provided by the UK plug that isn't needed in global plugs, you're making my point for me: The UK plugs are vastly overengineered. The necessity of that overengineering is due to less-restrictive household wiring standards.
The higher voltage has nothing whatsoever to do with ring circuits. The UK runs on the same 220-240V AC as all of mainland Europe. And Africa. And most of mainland Asia. And South America. And Oceania. And most of the middle east. So not quite "higher than any other country"
Also those two claims are diametrically opposed to each other. Unless UK people use over twice the amount of electricity than Americans, the higher voltage will lead to LOWER total current. That's quite literally the specific and sole motivating factor behind choosing a higher grid voltage.
And the current a conductor can pass has nothing whatsoever to do with it's safety. You could have 50 amps blowing through a circuit, if it's at 12V you can still touch it without getting a shock. Your car battery is capable of peak currents of several HUNDRED amps, and those are considered safe enough to just carry around by random people with bare hands..
The Japanese plugs are basically the same as American. You can literally get an electric shock if you hold them wrong whilst unplugging. There's exposed live contacts from when you start unplugging until the prongs break their connection to the outlet.
Basically everything you said is demonstrably false. I've rarely seen someone be this confident and this incorrect about something.
That is utterly irrelevant. Circuit breakers and fuses are designed for the exclusive and sole purpose of protecting the circuit from being overloaded. A 100 amp circuit with a 100 Amp fuse is exactly as safe as a 20 amp circuit with a 20 amp fuse or a 5 amp circuit with a 5 amp fuse. If the voltage is above ~100-200V, all 3 of these are hundreds of times the amount of current it would take to deliver a fatal electric shock, and none of those fuses would trip from you getting shocked.
And a dead short on a 240V network will literally trip everything. UK ring circuits are fused at 30 Amps. A dead short at 240V with only the internal resistance of copper wiring would pull current in the neighborhood of 1000 amps. 1000, somewhat famously, being slightly larger than 30, making this another lie there.
And even if it weren't a lie, how on earth does the location of the fuse make a difference in safety here ? If it's in the wall or in the plug, as long as it's there and does it's job both would be equally safe.
No it isn't. 110V is still dangerous to a child, and if you think otherwise I hope to god you aren't, or ever become a parent. Also, as I stated, your plugs literally allow for an electric shock to happen whilst unplugging them because they're so terrible. As for whole house GFCI, that is by necessity included in a ring circuit that wants GFCI on any outlet at all.
Also you seem to fundamentally misunderstand the relationship of current and voltage. For a given electrical appliance, with a given wattage, a lower voltage means it needs to draw more current, not less. That's why the US Japan need to have 20A household breakers, whereas in the EU 16A branches are more than enough, whilst still providing a higher load handling capability than a 20A Japanese fuse. A 1000 Watt microwave plugged into a Japanese socket will draw over twice as much current as a 1000 Watt microwave plugged into an EU or UK socket (which also means it produces 4 times the amount of electrical waste energy as heat, though that is generally negligible for short household cable runs either way. Can make a difference on the scale of a country though).
For a given voltage, the outcome of recieving a shock on a 20A fused circuit is literally indistinguishable and fully identical to that of receiving a shock on a 100A fused circuit. Identical. Literally.
No it isn't. I literally just told you you can buy 15A rated extension cords in Japan in the comment you're replying to. 15, is in fact less than 20, just fyi.
Wrong. Again. The current limit imposed by the internal resistance of your body at voltages in the range of 100-200 is a few hundred milliamps. Maybe an amp or two if you stick electrodes inside yourself, and anything higher than 100 mA going through your heart is already lethal anyway. You're gonna be dead 200 times over waiting for your 20A fuse to save you. The power that will pass through your body depends exclusively and solely on the voltage. The capacity and fusing of the circuit is utterly irrelevant, unless it's fused at like 40 MILLI amps.
ANY cable being driven above it's rated load is a fire hazard. There are healthy margins in those ratings, so going slightly over is likely not going to have any affect, but those margins are for good reason (namely people like you thinking it's fine to plug a 15A cable into a 20A circuit without external fusing or current limiting), and deliberately overloading any part of an electric circuit is ALWAYS dangerous and stupid.
And what about 7A cables you can get in japan ? you can explicitly get 0.75mm² cables, which are only rated to 7Amps. Just as confident of blasting 20A through those ? Almost 9 times the amount of waste heat being generated in the core than at it's max rated load.
Your device could slowly be melting itself into a pile of burning plastic, as long as it's drawing less than 16 Amps to do so, the breakers will not trip. As I've pointed outñ
And in fact, the fused plugs actually make it way MORE likely for something to trip on a device side fault in the UK, because the current only has to be like 3Amps to kill the fuse. In every other place of the world, current needs to be at least 16A before anything trips.
I address that point, quite literally, in a later a paraph where I write
So what happened here ? Did you not read my comment ? Did you not understand it ? Or did you read it understand, and then continue to pretend like I haven't already explicitly addressed this anyway ?
Here's a list of prior arguments I've made, that you fully ignored. Until.you give me s good faith really to THE ENTIRETY of each argument,. I'm ignoring you.
240V @ 30A is the highest on the planet. You consistently ignored current rating, despite recognizing that without the special, overengineered fused plugs, appliances would be exposed to them. Your inclusion of this is dishonest.
The claim you're rebutting is not the claim that was made. The claim that was made was that each UK circuit has higher current than a comparable North American circuit. Which is true. A UK household circuit is at 30A, while Canadian/US/Mexican is at 15/20A. American and UK homes use roughly the same amount of total power, but the American home typically distributes that power with roughly 4 times as many, lower-current circuits.
Both of us have rebutted that several times already, in recognizing that a low-current wire is a fire hazard when connected to a high-current household circuit. You make that argument yourself, below.
Conceded. The insulated prongs on the UK sockets are not "overengineering". Such prongs are used on Europlugs as well. That leaves the extremely large size of the contacts, necessitating the shutters.
Everything? Really? My "rebuttal" is to ignore this ad hom.
The rest of the world safely uses unfused plugs. Every argument you make that requires fuses supports my contention.
You're assuming the internal resistance of a wire of sufficient gauge. An undersized wire - such as a power cord intended to be used on a 16A EU appliance - may not be capable of drawing 30A, let alone 1000, without catching fire. It may only draw 28A while it is glowing red hot. That same unfused power cable is perfectly acceptable and perfectly safe on a 16A EU circuit, but is unsafe on a UK household circuit without that special UK plug.
You're ignoring the original point and arguing something tangential and irrelevant. The rest of the world safely uses unfused plugs. Which means that their power cables are simpler in design and construction, but necessitates that their power cable must be able to survive the full rated household current. The UK does not use this "unfused plug" design philosophy. The reason they don't use it is because it would necessitate that their power cables be capable of surviving 30A faults, rather than the 16A in the EU.
The UK does not restrict their household supply circuits to 16A. They allow their household circuits to carry 30A. That standardization decision necessitates the fused plug that the rest of the world simply doesn't need.
Again, conceded: The sleeved contacts are not part of the "overengineering" of the plug. The EU plug uses a similar design. American and Japanese plugs are deficient in this aspect.
Not an accurate observation of my understanding at all, and not particularly relevant to the discussion. The topic of discussion is the relationship of plugs to household wiring.
Conceded, with the caveat that the RCD/AFCI/GFCI device for the 20A circuit will be more sensitive and allow lower current to pass than the equivalent RCD/AFCI/GFCI device on the 100A circuit.
The 15A extension cord in Japan is designed to be plugged into a Japanese outlet. This is the same bullshit historical and technical issue that we have in our NEC code, where identical components often have different nameplate ratings. That 15A extension cord is specifically designed for use on circuits protected by 20A breakers.
Conceded, and irrelevant to the issue at hand.
I addressed this with my diatribe against the NEC's position on 15A vs 20A components. The 15A extension cord is specifically designed for use in a circuit protected by a 20A breaker. It's an asinine provision, but it is there.
I suspect that those cables actually do have a fuse in them, much like the fused plugs used on North American Christmas decorations.
Yes, exactly. Which is why the unfused portions of that device have to be designed to handle at least 16A.
Agreed. I've repeatedly made that exact argument in support of my point.
I confess, I didn't read it. As It wasn't and isn't particularly relevant to the core issue, I'm happy to concede the point.
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