One of these days I'll tidy up that wire... A minor note; the thing about 208 being 86.7% isn't right for simple resistive loads like heating elements. You'll actually only get 75% the heat on 208! Power (watts) goes up with the square of the voltage. But, if something is designed specifically for 208, you can pull up to 86.7% what you could on 240 with the same amperage.
Your neutral and ground wires are not looking to (current) code: 1. There are spots where two wires are under one screw. 2. The neutral and ground are not separated (yeah, I know, they are the same potential, but the code says they need to be separated... for reasons.). But the panel probably predates those changes. PS: Wear your electricians gloves when working on a live panel... including just poking at it with a meter.
The two wires under one screw is a definite no-no. In my area, however, both neutral and ground must be bonded to the box. It is ridiculous, but that is what the inspector demands.
@@richkurtz6053 or an electric powered instant hot tap by the kitchen sink. A tiny electric water heater lives under my sink and keep the water just below boiling. Holds enough for 5 or 6 cups of hot water. All on 120v
I've occasionally wondered what a national power grid would look like if you could start again from scratch using current technology. No backwards compatibility, no infrastructure limitations, no analog TVs to sync.
It used to be that you'd want higher frequency mains allowing smaller transformers etc, but now that switch mode supplies are the norm, that doesn't matter. Still, I'd probably go to 100Hz. Why three phase, why not four? --edit, fixed weird autocorrect
As an American commercial electrician 15 years I usually steer very clear of videos like this for fear of yelling expletives at my screen because so many people just get so much wrong. BUT you sir have nailed it this is the best starting explanation video for basic electricity you never let me down keep up the good work also I’ll try not to be so pedantic about the 110-120 thing but it does drive me nuts especially seeing as how I’m most homes a voltage of 110 puts you above the range for allowable voltage drop (read inefficiency/dangerous)
One of the reasons i like this channel so much - he tries to be as close to the truth as possible and do that while being as clear as possible and in most easy to digest way possible.
Tell that to europe, we have real 230 v here in the outlets... and no it is not dangerous and inefficient! Well current always is dangerous even at 110 but also there are security measures in place every installation needs to have to keep people alive!
What do you think has been nailed. ? . . . Not the energy down wires being carried int he E & M Fields.. . Derek is very wrong there.. . The Energy is in the moving ?Electrons INSIDE the wires.
You know this is really just a great example of engineers solving safety hazards through different methods. When analyzing hazards you got two scales, likelyhood of injury, and severity of injury. In america, we decided to tackle the severity part, dropping the voltage and making it less likely to kill you as easily. In britian they tackled the likelyhood part, designing better plugs, leakage current detectors, ect. In both places they felt that these considerations brough the hazard level down to a point that was acceptable and moved on with their lives, not thinking about it much more after that.
Then you have Brazil: even in the 220V parts of the country, electric showers are mostly ungrounded, and we use exactly the same plug both for 127V and 220V.
Not necessarily true. In Europe you have 230V on one phase yes, but pretty much any house has 3 phases coming in, so you can use 380V for higher power devices or for devices like a motor which needs it to function anyway. So using the US system is not really applicable for Europe anyway. Those 3 Phases have the same safety advantages the split phase system has. Besides I would argue that the severity of injury is not that highly reduced by 120AC, since the things that make AC dangerous are the frequency which the heart still can react to and the body having a lower impedance than ohmic resistance, which means AC can more easily pass through it than DC. So decreasing the likelyhood of injury is the only sensible way to go here.
@@lal12 In the UK and Ireland it's not really common to have 3-phase in a household. Neither is it in Australia or NZ (230V@50Hz, just like Europe). I hear the same happens in France and the Netherlands, though I may be wrong. Also, they get far less amps, which means that even in Germany, where 3-phase supply is commonplace in households, the maximum power is lower than in America. That, of course, comes at the expense of having to spend a little more on wires, but the cost is marginal relative to the cost of a house. Having three-phase for households has many advantages though, but they are related more to the possibility of running more efficient motors (3-Phase Air Conditioners, for example, are becoming very common here in Brazil for residential use, where three-phase supply is quite common for homes, though not ubiquitous as in Germany). Now, 120VAC is unquestionably safer than 230VAC. Your resistance doesn't change when you are closer to a 230V outlet. U = RI. Hence, the current going through your body IS nearly twice, which means a much worse shock. The higher the current, the higher the risk.
I am a retired electrical engineer and I will tell you this: Your explanations are very clear and concise. Thank you. I am glad I found. Your channel and have subscribed 😊
That ending fun rant was hilarious (I'm a Brit). Maybe one day we can all get together internationally and produce an IEEE standard for electricity distribution. Based on the age old model of identifying all the best bits given by the available systems, and then implementing the worst bits instead...
When I was a kid in Iran (1960) we had a kerosene powered refrigerator. Dad had to relight the flame occasionally. I learned the refrigerator used an ammonia absorption cycle... a bit beyond my 8 year old brain.
When I heard that 60HZ hum, I thought, "Wow! Does this guy have a sub-station in his basement or are all of those breakers in desperate need of replacement?".
i lived down the road from a substation...that was right next to a park and YMCA. always a constant hum even half a mile way. now that i dont live anywhere near one i find the quiet of night to be unsettling.
Actually in Germany we typically have 3 phase power to our home. This means you have 3 powelines, 120° appart and one ground. Depending on how you connect these between eachother or to ground you get either 380V or three times 240V. Bigger machines like washing machines, driers, ovens etc. use the 380V three phase power. Other smaller machines, connected to the normal outlets, use the 240V single phase power. Usually the fuses for the main lines are 63A for each phase. There are other breakers like 125A, but these are not so common in normal households. Hosehold machines thypically have lines with 16A breakers. Bigger industrial machines use 32A lines ore less commonly 63A.
Yeah that's true for the most part but the voltages are 230V and 230VxSQR(3)=400V Fun fact the "normal" 230V plug is only rated for 10A consistently but u can still pull 16A for a short periode Greetings from an electrical engineer from Germany
In Germany, the 3-phase is 400V. . . . Which naturally gives 230V Single-phase. . . ( For Americans, Single-phase is a SINGLE live line and Neutral. ) . . Not like their 2- phase 120/240V which is TWO Live lines and Neutral.
The US 3-phase electrical wires carry 480V at 60HZ but usually only commercial and industrial uses get that much. But none of this matters. Everyone gets what they need which is the point of his video.
@@tawnyforest7932 No they don't in America, that is what I am getting at . .. You cant get 120/240V directly from a 3-phase supply. . . From 3-phase, you can get 240/140V nasty for 120V loads. . . Or you can get 208/120V nasty for 240V loads.
Do you really use 3 phase power for washing machines in Germany? Most run just fine on 10A / 240V single phase. Your fuses are also pretty big at 63A. In the Netherlands we usually get 3 x 25A. More amps are possible, but at much higher monthly network charges.
There's some outlets in the United States where it's like that it's just the power switches are usually next to light switches intend to get confused with them all the time because they are normal Power switches that are wired in between the breaker and the outlet. I knew somebody who had their Wi-Fi router on one and somebody turned off the light switch knocked out the internet for everyone in the house.
@@stonedsavage7814 It was when they were first designed. They've been kept because that's what people expect. Australia has automatically shuttered outlets (eref.se.com/au/en/clipsal/product-pdf/2025S-WE) as well, but not many houses use them. They'd be seen more frequently in child care centres. They're also a pain in the arse if you're using double insulated appliances in them, as they need an earth pin in order to actuate the shutter.
The whole "it's not the volts that kill you etc. etc." always annoyed me. That's like saying it's not the fall that kills you, it's the sudden stop at the end. The higher the fall, the more likely the stop is to kill you. They're kinda dependent on each other.
@@Snix121 You could certainly break the velocity of the falling mass down by running it through a fourier transform. In which case, higher frequencies would (roughly) represent greater accelerations. In which case, the higher frequencies would be worse for you.
@@bobthebuilder609 I think he is trying to say that at least the 10-story fall will kill you instantly and not leave you alive but mangled and most likely suffering from the resulting damage the rest of your life like the 3-story fall would.
Note how he does the voltage measurements with only one hand. Standard smart move to prevent his heart from being part of the circuit if he makes a mistake. (I'm sure someone else said this somewhere in the other 12000+ comments, but worth repeating...)
@@r.h.8754 That's why you always put a warning sign on a breaker and/or controls. A simple and effective safety measure your co-worker ignored. Another safety rule: you don't remove a sign if it's not placed by you.
Greetings, fellow Aussie! I recently had a sparkie install a new oven in my kitchen. He also fitted an isolator switch in-line with the conduit which is required by law. However, with the oven installed in its recess in the kitchen cabinet, the switch ends up being concealed behind everything and is completely out of sight / reach. I suggested that he fit the switch to the wall outside of the cabinet where it would be accessible so that it can be turned off if necessary. But no, apparently he wasn't allowed to do that... The switch 'had' to be behind the oven specifically. Gotta love the nanny state. :o)
@@razeezar Im sorry mate but that is total bullshit and he needs to fix it as he has not followed the standards. The cooking appliance isolator needs to be within 2 meters but also easly accessable without reaching across the cooking surface. If you need to you can tell him to double check AS3000:2018 Section 4.7.1 If you have any issues with getting it resolved I suggest you call your state licencing registrar. I hope it is sorted for you. Peace.
It looks like section 4.7.1 pertains to open stove tops. I haven't found any specific info regarding an isolator required for built in ovens, but cursory reading of discussions on whirlpool indicate that an isolator is required for a stovetop but, confusingly, not for an oven. It'd be nice if the standards code stated this specifically either way!
Just a minor addendum because you stressed the "see, we have 240V too" point a few times in your video. In Europe we have 400V just like you have 208V, with the same 3 phases and stuff. And many residential homes are supplied that way, not only large buildings. I wrote this comment not because "nanana, Europe is still one ahead of you" (who even makes that point ugh), but because I missed that parallel between the two electrical systems in the video, which at least makes them a bit more alike.
Not only pretty much all houses have 3 phase power, but, if there's no gas supplied, flats also typically have 3 phases used mainly by electric/induction cookers.
@@BenjaminSahlstrom you know that 400V is the effective voltage, while peak Voltage is 530V on European 3 phase? AC voltages are weird, European AC voltage (single-phase) actually peaks around 330V, IIRC.
As an electrician, I appreciate you and your humor. Found your channel a bit ago, and im going through your old videos. Its a gold mine of terrible jokes and education. Thank you for your service:)
That rant at the end had me in stitches, and the info about the US electrical system was really interesting. Your videos never fail to educate and entertain.
I'm trying to remember the last time I turned a power switch (Australia) on or off... it was probably when I moved into the house and plugged everything in. I never really thought about it, but maybe they are kinda pointless.
@@matthewjohnson3610 I'm wondering if they're there for child safety, or maybe if an outlet needs to be cleaned or worked on? (Just a layperson's guess, obviously.)
@@shibolinemress8913 I (Australian) turn off the switches if I'm leaving the house for more than about 5 days or if the socket is empty, a lot of electronics like TVs have standby modes that draw 1 or more watts, overall it's an unnoticeable difference but if say 1 million people are doing the same thing then it adds up. The main reason though is safety, given how cheaply made electronics are these days I don't want to risk going on holiday and have my phone charger shit the bed then burn the house down. Also on safety is like the US many of our wall plugs still have fully exposed pins that can shock you if the plug is only partially inserted.
My home has two outlets wired to a double switch panel next to the room's overhead light switch. You can just power on or off whatever's plugged into that outlet without having to reach down for it. It's way better, and I don't even think that was done for luxury's sake.
@@matthewjohnson3610 Yeah it is really the appliances that needs to be efficient not the user and this is how it is today. Sure your phone charger uses a little over time but most things like screens, audio gear, kitchen appliances they all nicely conserve power when not in use. This is a more recent change though, I am guessing like since the year 2000 or so.
I went to tech school for HVAC, and I was never really taught the difference between 208/240. Even my super awesome, smart, one-of-a-kind electrical instructor never really mentioned it(I learned a lot of other really valuable stuff from him though, and particularly have a better working knowledge of how motors work than most of the HVAC techs I work with, thanks to him) I had no idea that 208v was from 120v-3 phase. In my (limited) experience I've pretty much only worked with 240v-3 phase or split-phase120/240v and only ran across 208v once or twice, and had no clue why it was different. Thank you sir, I've learned something new today! Been watching your videos for a long time.
What he doesn’t mention is that 120/208 is usually produced by stepping down a 277/480 utility feed. Commercial/industrial customers often use 480 for motors and 277 for lighting.
That is just one thing about the square pin plug i wish we had, the ability to switch an outlet at the outlet itself. But i think what people forget is that the american BI plug is older. A lot of other plug standards had the ability to learn from previous plug failings. We didnt really have that chance and since compatibility is a thing we just kinda got stuck with it only modernizing little bits like polarizing the plug with the neutral being bigger and adding the circular ground pin, as an option wheras the square pin a ground lug is required to operate the safety shutters in the plug even if its just a fake pin of plastic, and really the bi pin could be made better by shoving a bit of plastic on the end of the pins and making the recepticle make contact on the tip of the pins, that way compatibility is kept for older plugs but newer plugs are safer, the fact that our pins are to close your fingers could also be negated by making the plug a bit bigger with a more pronounced shield, but like I said its a standard weve had for a while and since japan and china also use the bi pin for residential appliances its not gonna change anytime soon.
Our UK plugs and sockets are designed to last for millions of connection/disconnection cycles and still have a switch to discourage wear. Every US hotel I've stayed in, the plug falls out if you walk past too quickly. But for non-UK (or Ireland, Oman, or any of the other 50+ countries using IEC type G) imagine standing on Lego. We're immune to that as the plug is much, much worse.
@@JorgTheElder We rarely buy portable fans as it's just not that warm here to warrant them, and anybody who does buy one realises that they're probably only useful in June and then that's when it's not drastically cool outside due to freak rain storms. After then our small houses are just cluttered by useless appliances and get thrown up in the attic and forgotten about.
@@georgeprout42 I've never had an issue with plugs not holding unless it was a cheap plug the sockets tend to stay fine as long as you have a modern high quality plug.
For anyone commenting on how “bad” his panel is, I’ve seen WAY worse when old buildings upgrade the circuits without upgrading the panels. My parents 97 year old home had so many wires in in before upgrading to a full 200 amp panel it was literally dangerous. Dual circuit breakers (yes they are real) WITH two wires in each circuit because there was just no room for more breakers being a 100 amp panel. Oh and nob and tube wiring which often was wired incorrectly and electrified the device instead of grounding it! In the US older homes can be an electrical fire waiting to happen.
Yeah I would consider his panel damn near pristine compared to.... well almost any house I've ever lived in. I mean, you can tell what runs where, it's labelled, wires run in logical lines! Mostly all installed in the last 50 years! No immediately obvious fire hazards! I would be downright pleased to have a panel that clean. I've lived in a house with 3 distinct generations of wiring systems - the original knob & tube with cotton sheathing, then some rubber-sheathed/cotton wrapped, then some 90's rubber sheathed/rubber wrapped, all fed haphazardly into a semi-recent 100A panel. You can tell that the skill of the person doing the wiring went down with each generation of wiring too - the original stuff was actually installed decently. The later stuff was a bloody nightmare. It's really common to see houses with a mix of Aluminum and Copper wiring, or with the original knob & tube running into the original fuse panel, which was unhooked and then fed from a 60A breaker on a new panel - leaving the old stuff as is and just installing anything new into the new main panel.
Yeah it honestly looks like a pretty normal 200 amp panel, just with more circuits than most single family homes have. I've seen MUCH worse wiring jobs. And honestly, how much does it even matter if the wiring in the panel is kinda messy? It's covered for a reason, and you shouldn't be messing with that shit unless you really know what you're doing anyway. In which case you'd probably know enough to kill the main before digging around in there.
Interesting point regarding the UK plug switches: Yeah, a lot of our stuff that's not pure electrical does not have an off switch (generally electronics just.. don't) as you're expected to interrupt the circuit at the wall.. however: We have the switches for a different reason. Our plugs are so big and over-engineered for safety that insertion cycles becomes a problem so they're actually there to save a pile of plugging in and removal causing work hardening/loosening of the contacts in the socket - flick the switch rather than break the receptical by having to over-use it..
I will still never get over Tom Scott's video on British plugs where he explains that in the olden days, British appliance manufacturers weren't required to put plugs on their products, so most appliances came with a bare wire that the customer had to attach a plug to themselves.
Sammie1053 Ironicly in the US, you can still buy an appliance without a cord, so you have to buy the cord and wire it up. I think it is mostly on stuff like refrigerators and washing machines, tho. Edit: What I meant to say was ovens and dryers. Sorry about that.
@@Sammie1053 We still commonly teach students how to wire plugs in physics lessons in school - incidentally it's quite useful because it means plugs can be removed and added to cables so we can change cable lengths etc ourselves without wasting perfectly good plugs 👍
Mentioned the one hand rule to a dude a while back and it turned into a whole thing about how much of an idiot I was for believing that, I grew up in an electronics classroom, my stepdad used to do TV repair on CRTs, one hand rule saves lives, sucks for my stepdad though he's left handed, the proper hand is the right to lessen the chance that it goes through your heart.
I'm glad I checked for similar comments prior to posting mine. I had the same two observations. Covering WHY we do a one handed voltage check would be nice for another video!
At first, I thought using one hand was more dangerous, too. If your dexterity isn't too good, you could cross the probes. But then I realized that if both hands came in contact with the contacts, you would have 240V, 120V, going from one had to the other, with your heart in the middle. With one hand the current flow would just be from one finger to the other. When I was young I grabbed both leads of a 120 circuit with both hands. It felt like somebody kicked me in the chest. I jumped back about six feet.
I find myself clicking on your videos - even if I have no real interest in the topic. I find your energy, your presentation, your tone, your research and opinions SO refreshing and entertaining - that I sit and smirk through the whole thing. What I learn - - and I always learn from your videos, is just a bonus. Great work. Thanks from BC Canada.
@@lilclip6134 why not I mean they tell me that my power line will wear out from charging my ev on 110 volt in 5 years 10 for 220 volt and if the lines not replaced it will be a fire hazard but then a certified electrician says that oh electrical lines do not wear out you can pull an infinite amount of power through the line so long as your not overloading the line and there will never be a fire issue ever
New Brunswick Canada here. Same,same I laugh out loud because of your presentation and winks to the Europeans and knowledge about how they will think about this; hailing from Europe, I recognize it, even though I now NOTHING about electricity.
Personally I love that we in (mainland) Europe use E/F plugs. While technically F is the Shuko-plug, you'll find that many electrical devices and powercubes and -bricks accept both E (found as (older) French, Belgian, Tunesian and somehow Slovakian outlets) and F. The diffence is in grounding:: E adds a third plug, F has the grounding on the side. Both sides, so you can put the plug in upside down or not. And two plugs is simpler to plug in than three. All in all, I love our Schuko-system. And that also means we use Type C if grounding is not needed. Handy for, well, you find these still on 'boomboxes'.Or gameconsoles. Audioequipment. And your tv. But your computer is connected via Schuko, aka F. Thanks for the video! Now I know how good it is! ❤
@@plazmaguy13yago9 is it? I'm from Hungary, and the two main types of plugs I see and use are Europlugs and Schuko/Type F (or lately CEE 7/7). The sockets are all type F / Schuko, except in old houses where there are still some ungrounded type C sockets.
Graduated mechanical engineering, which entails a good bit of electrical classes. Went into construction management and i have learned more in the first 10 minutes of this video than i did in 4 years at college and 2 years in the field. Awesome videos btw, ive been binge watching
The education system these days is just a business. You learn more while working hands on and hunting for amazing tutorials, presentations such as this video
I just found out that while most of modern Belgium has three phase with 400V between the phases and 240 between phase and neutral (as most of Europe has), some older installations have 240V between phases. And this can sometimes differ per house in a street.
Yes, here in Sweden we have 400 volts phase to phase and 230 volts phase to ground. We also have all 3 phases in our homes instead of the split phase system.
I'm proud to say I've been shocked by 240UK and 120US. 240 hurt more. I have also stood on a UK plug. Being shocked by 120V hurts less than stepping on a UK plug (in the common case)... I don't think anyone has died from stepping on a plug, they just wish they had.
Say no more, I've been shocked by 120AC, 240AC, 400AC and 570DC... Nothing in the whole world compares to stepping on a UK plug!! It's a horrible sensation!!
Avoiding electrical shocks is much easier and less costly than avoiding using more copper or aluminium to make thicker wires to carry more current in low voltage.
Came home from a day of low voltage distribution design, saw the title here (working on a primary voltage conversion job, swapping out 50 odd transformers with all the end-user voltages you can make) and just wanted to see where you were going with that. Love the video, man. Keep it up!
@@SupremeRuleroftheWorld my studio flat in the UK only had 2 phase power. But I'm sure the building as a whole had 3 phase. (since the usual approach is to split different pairs of 2 out of 3 phases to multiple buildings/units to balance the load on the 3 phase supply system.) Not sure what Australia is using, but I'd be surprised if it isn't also either 3 or 2 phase power to most homes...
Here's a snark for you; Where the US uses 240v to run their boilers, stoves, welding equipment. we ( us civilised Europeans with a standard 240 v system ) use 380v to run our stoves, welding equipment and what not.
@@TheDutchShepherd Where I work, we use 480/277 for large loads that are constantly on as a way to save on the cost. So lighting and very heavy draws like welders. But that is for 3 phase systems. :P
@@MoparDan Top-hinged slates/tiles/shingles maybe? So they can lift and let the pressure out during the experiments ..? This would prevent the roof from blowing away due to too much positive internal pressure.
@@robertcuminale1212 Not necessarily. Newer code requires a lot more dedicated circuits than older code, and if he's got a bunch of 240v stuff (furnace, dryer, stove, water heater, car charger) it'll fill up fast.
I’m glad to have seen your speech. For 32 years my dad worked for Hydro-Quebec The electric company in our province. I loved your simple explanations on voltage amp Wattage,transformers. In Quebec we also have 120-240 voltage and are still naming that 110-220.
For me as a German this video was really interesting and enlightening! I was 100% sure the US voltage is 120V AC only. Different countries, different approach. Many thanks!
Hello Henry, remember that we here in germany has a three phase system instead a two phase system in US. So we have 400V between two phases and 240V between each phase and the netral wire or ground. This three-phase current is called "Drehstrom" in germany and has the same geometry as he explains at 19:12 in the video.
@@Domimi78 yeah, exactly. Saying it's 120V is a stretch as in Europe you can ask electrical company to attach a second or third phase to your house if you need it. It's simply that in US everyone gets second as a norm.
@@resphantom Some people use 400V for something like a big circular saw or their lathe. They have their own plug It's called "CEE-Stecker". For normal appliances like a mixer they use one phase and neutral with a difference of 240 V between them.
RE: the "Don't try this at home" part: This was my favorite lecture that one of my professors gave back when I was in college. It was famous for anyone who had taken his class. He called it the "How Not To Die" lecture and covered pretty much what was in this video! One other useful thing he also mentioned: In a lot of the newer hostpitals and care facilities, they install the 3-prong outlets upside down so that if a metal object like an IV stand falls down onto a partially inserted plug it lands on the neutral phase.
*laughs in 3 phase, 30A × ?, 240V electricity* In all seriousness tho, this is quite informative and has cleared up a lot of things I was wondering about when it comes to US electrical systems
@@arienh4 AT my country most houses have 20A inlet which then is only split intro "lights" and "sockets" lol At least we got current leak protection onto the system. Chile btw 220v
Most houses in Germany have 3 phase 240V 50A or 63A . 100A is not as common but gets used too. It is common to have a "400V" 32A (5p CEE) outlet in the garage/workshop, the bigger garages/workshops will also have a "400V" 63A outlet. Gets used mostly for: air compressors,, grinding wheels, saws and welders I work in electric wholesale.
When I was a kid, my little brother decided to drop a penny behind the outlet cover in his room. It was an old 120 2-prong receptacle and that penny fell in just the right way to bridge the gap, my family was all surprised when we screamed. I'm not sure why, but I was the one who ran out, through the living room and kitchen to get to the breaker box. Being 10, I just turned everything off as quickly as I could. Needless to say, my dad pulled out the remains of the penny while replacing the outlet and it proved to be a good lesson to all of us. My dad doesn't neglect electrical repairs these days. Though I don't know why he never did anything about the one power switch in a place we lived in for a year that almost always shocked us. Well, actually I do. My dad was in terrible mental health during that time, so it took a lot out of him just to provide for us. He and my mom had split because of it, which honestly just made things worse, but that's all a different story. The electrical system in the US isn't something you should play around with. Thankfully I know some electricians, so I know who to call to help me. Also, I checked my panel. 100amp @ 240v. I figured, being a manufactured, single wide home. I think I'll save up and get my electrical system reworked, though. The place is about 30 years old and I would like to make sure it's all up to code.
@silversonic1 what did you find out? I'd be very surprised to learn that even a manufactured home from the 90s doesn't meet all the code that applied to it when built and even 95% or more of the most current electrical code.
@@GurtTheHurt I sadly haven't been able to do anything yet. Well, anything beyond learning that my living room and middle bedroom have been all wired through one breaker.
There is no single European standard. Some countries deliver three phase to domestic properties, some do not. Some countries have mandatory earthing, some do not. Some countries have mandatory polarisation, some do not. Even when the plug/sockets are apparently compatible using variations on the Schuko system, then that is also an area rife with issues as it can allow grounded plugs to be inserted into ungrounded sockets from other countries. Schuko sockets aren't polarised (for historic reasons - it's not a great feature), whilst the nominally compatible French variety are (which are also used in Belgium, Poland, the Czech Republic and Slovakia. Then there are completely different plug/sockets in Denmark, Switzerland, UK, Ireland, Cyprus and Malta with Italy having a combination of its own system and Schuko. In some areas in Norway they don't even have the ground-reference neutral systems, but have the highly unusual IT distribution systems. In short, it's a confused mess and anything but standard.
@@artcamera5514 True. I travel the world for work, and using plugs all over the place, I can appreciate the smaller form factor of North American style plugs. The UK bricks, forget about trying to plug in more than one or two chargers in most cases. Australia, same thing. And the massive size of those plugs, you damn near need another suitcase to carry them around. EU two pronged- never know if any given combination of plug and outlet will fit together to make a connection, and they always just flop around loosely and fall out, usually have to get a stack of books or something to support the adapters or plug ends. And the switches on outlets.. no labels usually so it's a guessing game of flipping everything on and off to try to figure it out, let alone accidentally bumping them or setting something on them and shutting off the power.
I was a home products service (Major Appliance) repairman for 27 years and have been shocked hundreds of times. One day while repairing a Microwave oven the charge in the capacitor stopped my heart. The room went dark. Fortunately the sudden fall to the floor re-started my heart. Rubber gloves is always a good idea around electrical circuits...Great video!
I see stuff like this in Techmoan videos as well. Why not just get over the fact some of his viewers are retards? Someone will _always_ complain. Both Alec and Matt would make it more pleasant for sane viewers to just ignore the vocal minority. The funny thing is, I never saw the complaints they refer to.
Retired American EE living in SE Asia. It's 240/380 here, like Europe. 3-phase transformers are standard in most neighborhoods. This makes residential electrical installations much easier and cheaper than in the US. No need for costly extra transformers if you need 3-phase. It's also easier and cheaper to wire a kitchen to obtain adequate power for an oven or a big induction cooker when you only need 2.5 mm wire (14AWG) to provide over 3KW. Edison died nearly a century ago so it's time for the US to upgrade to a better secondary distribution topology. 240/380 V is not scary and no big deal when done properly with modern components. Korea already did this a few decades ago
As an professional electrician in germany, I find this video very interesting and informative. Also an example for “other countries other manners“. Thank you.
Fun story, I once accidentally dropped a nickel off the end of my bed and it fell on the two plug posts in that tiny gap between the plug and the outlet. I saw a huge flash of blue light a flame and puff of smoke. Luckily it tripped the breaker but when I found the nickel it was black had two slots melted into it about halfway down. The plug posts were melted pretty bad too. Kind of terrifying really. All because that plug just happened to be a couple millimeters away from the wall and that nickel just happened to perform a one in a million shot. I'm glad my apartment didn't burn down.
That's one reason power outlets are often installed with the ground pin on top. But if your plug has no ground pin, it has no effect. I suppose power outlets could be installed landscape-style.
@@Johnny.Fedora First, UK live pins can not be touched even by a nickel or knife blade, when they are in the Outlet far enough to actually be live, and that is without the Earth pin at the top further protecting, , , I believe all American installations since about 20 years ago, had to be 3-pin Outlets, OK, there are many 2-pin plugs still in use in America.. . . Actually I have always installed American double Outlets in landscape-style.
@@hughleyton693, you are correct -- my post was U.S.-centric (and the electrical code has required AC sockets with ground (earth) pins for a lot more than 20 years).
Welp, that image is going to stick with me forever, any time I see a plug which is even slightly loose. I now have a newfound appreciation for "upside-down" grounded outlets with ground at the top.
In Sweden we have 400 V phase voltage which in our 3 phase system gives 230 V vs ground on each phase. So we have normally 1.5 mm2 wires when 10 A fuses are used. Cheaper and more flexible.
I'm so glad the 60hz noise was just sfx, my immediate thought was "oh no anything making that buzz in a residential installation is in desperate need of maintenance/replacement😬" Lots of data packed into an enjoyable video 🦊💜
Can't watch your videos when I'm tired as they're too calm, but when I'm wide awake and interested, I love finding a new one of them to enjoy and learn! :D
@@vezokpiraka Only if you're fiddle-farting around in the service panel with the cover off. Something he explicitly said *not* to do. Try to keep up, pal.
@hawkturkey I mean. Our wires rlly aren't that thin tho? I'm not entirely sure where you'd have gotten that idea? And even then our actual breaker panels are way better designed
1: as soon as I heard that hum on the circuit panel I was worried that there was something really wrong with your house, glad it was a gag. 2: Thank you so much for explaining that voltage matters! Yes, it is the current that does the damage, but I hate it when people act like the voltage is irrelevant to that.
Current doesn't cause damage any more than voltage does. It's meaningless to say that about either of them. Put megaamps through a 0 ohm load and nothing will happen (to the load!). You could reasonably argue that the power, which is a resultant of both V and I, is the culprit. Of course that's a resultant of voltage and impedance really. Or current and impedance. Or...
If in America you have 240V, then in Europe we have 380V. Electrical connections receive three phases (380V), although in most homes, only one phase is connected (240V). In elevator motors and industrial installations, the three phases are used to their advantage.
"There isn't some magical point at which voltage suddenly becomes dangerous" 60V. But even at lower voltages such as 120V, skin doesn't follow the linear Ohm's law formula you showed - its I-V curve is nonlinear, changes over time (since skin acts more as a capacitor than a resistor), and its resistance (impedance) varies with both voltage and frequency - for a DC source, current through your skin increases at about I = V^3.8 around 120V. [2] (
Yeah, okay, we can argue that it suddenly becomes *more* dangerous -- but the number of people who die from 120V shocks every year shows that it was already dangerous, even if less so, before that 500V point.
@@emolatur yeah with most voltage and current scenarios it's actually pretty safe to touch it as long as it doesn't pass through your heart lol. You don't want angry pixies near that.
I remember being a Kid having lessons about how electricity is dangerous and stuff... Here in Minas Gerais we still have TV ads from our electricity company warning about that kind of stuff... And maybe because of that I studied and got a Electronics Engineering degree today :) (Not that I have any use for it these days lol )
Well, when we combine two phases we have 400 V ;) And since we get three phases into our house (in Germany), this is quite common to have a 400 V outlet somewhere. And in case you wonder, usually you get 63 A on each phase.
I'm from Germany and I still know many places without 400V outlets, but mostly, those houses are older than 30 years. And by the way, the showed service panel looks quite messy, compared to a new panel here in Germany and other countries in Europe.
You can also get 400v in the USA if you need it. Usually most houses have natural gas so they don't need anymore than 240v my heating is natural gas so it s very cheap I pay like $45 in winter -10c to heat my house super super cheap. So I don't need to waste money for 400v panel.
@@Skyliner04s In Spain we had 127 (1-phase) and 220V (3-phase), then we changed to the European 220/380 (so we could still use 220V-rated appliances), which with time was finally raised up to 230/400.
@@Froggability I beg your pardon, Transformers are as cool today as they were 35 years ago, and I'm not desperately trying to hold on to my childhood at all.
I will finish watching this later but note: Most large loads in the US are served with 480/277 VAC three phase. 240/120 VAC split phase is mostly just single family home residential power, and even large apartment buildings are served with 208/120 VAC three phase. Most energy is delivered at 480/277. Basically anything above a 1 megawatt transformer. Most ceiling lighting in large buildings is 277 VAC.
15:10 “magical point at which voltage...becomes dangerous”. When the telecoms industry in Australia was deregulated (back in '80s), the new cross-industry regulator needed to get data on just who could be authorised to work on telephone circuits, which operate at 50V DC with superimposed 80V AC ringtone. An employee named Ed Bondarenko, known colloquially as Dr Lightning, and who worked in the high voltage lab of the research facility attached to the original government telecoms authority, volunteered to be hooked up to increasingly strong power sources (voltage and current) until physiological trauma was detected. This was done at a major city hospital with resusc gear on standby. The outcome was that telecoms circuits required similar licenses as any other electrical work.
I wouldn't call the licence similar to any other electrical work,the course to acquire a open cabling licence(phones) can be done in 2 weeks. Add maybe 1 week for some endorsements like structured cabling(data), overheads and undergrounds. The course to acquire an A grade Electrical licence is 4 years.
He is deliberately incorrect to make it intelligible to people. I think he's being stupid about the sarcasm about plugs. US plugs are actually fecking LETHAL And he's wrong about the 240 vs 120 shocks. Both are equally lethal.
Just wanted to say thanks for explaining the difference between 3 phase and split phase service. I’ve watched a number of videos and your 30 seconds of this video summed it up for me quickly. Thanks!
The thing is about the switches on sockets: wall warts, phone chargers, laptop chargers, etc. consume a not insignificant amount of power even when not charging/powering anything, and yer just unplug it, but wasn’t already covered that plugging in/unplugging can be a danger (before you get to wear and tear)? Yer I know the standard was created before wall warts were a thing (and actually you can buy sockets without switches here too).
Not a roast. Envy and jealousy at our clearly superior electrical system. Enjoy those sparking cables in the street too when the storm blows over the poles that carry it to your home. Ours; underground unless on pylons for long distance.
I was genuinely concerned when I heard that buzz. Wired a few houses and I've never heard anything like that from a properly functioning panel. Closest thing I've heard to it in a residence is a stuck fan relay
We’re getting there. We have AFCI breakers required on pretty much every 120v circuits in the house now, as well as GFIs required on more circuits every time the code gets updated. Seems like soon many 240v devices will be getting GFI protection added in the next couple years. Only issues I have with it is the cost of building a house has gone up quite a bit. I mean a standard breaker costs like $6. An afci or gfi (or dual function) breaker costs $45-60. Not exactly budget friendly...
I'm not understanding the pissing contest about 400V stove power, when we (the US) have natural gas for our heating. The 120V power source is only the ignition, and powers the electronics.
Wait, you forgot the line that every comment from a German leaves on UA-cam videos... "That is forbidden in Germany." It's always that same line. "Forbidden."
@@1mrhamel the video was about "we haz big voltage too" so ppl are just havin fun :) Afaik most electrical stoves don't even use the 400V but 3x 230V for seperate areas. For me the 400V are mostly about powerful tools or car-charging.
Dude. I've been going to school for electrical engineering for some time and you've condensed all that information so well! You're doing God's work sir.
@@User0000000000000004 It's an expression. A colloquialism, an exaggeration. The inclusion of God into such a technical topic may have clued you to the use of sarcasm. Now, I know that making out with your mother isn't technically in-breeding, but I'll be damned if that, along with your comment, doesn't point to the challenges faced by the inbred mind.... Marty McFly. Why don't you just go ahead and keep leaving the science to the Doc's of the world.
First off your presentation is informing and entertaining. It did cover a lot I missed or forgot. We are not only coping, but improving in the plug/socket area. Plugs now have that rim to keep the fingers away from the prongs. Appliances are double-insulated and wall adapters by design won't let you anywhere near the prongs. Then again accidentally coming in contact with 120V is the best safety teacher if you live through it.😊
120V best teacher? I had them at home and a few times they hooked me up as a receiver and I didn't feel any respect. now I have 230v (because I live in Poland) and after nothing else I started to care about not becoming a consumer
The switches on our UK outlets goes back to before we had shielded conductors on the plugs. By switching the switch off the conductors were disconnected from the supply in order to prevent fingers from contacting the unshielded conductors of the plug. Unshielded conductors were outlawed a few years ago and the switch is in reality no longer really necessary. The design of the 3 pin UK plug ensures that the "HOT" wire is always "on the right terminal" so that the switching occurs on the "HOT" side . Most homes in UK are supplied by a single phase from a 3 phase supply at the local substation. The voltage between phases on a UK 3 phase system measures a nominal 415 v.
The same methodology applies in Australia and New Zealand except our type J plugs are pathetic. The British Plugs Type G (of which I have some) and used in quite a few countries, for example, Some African countries, Jordan, Iran and Hong Kong among others are the best-designed Plugs and sockets in the world. The German version of the European design comes second. (China uses the AU/NZ type I as does Argentina and a few others. It can barely handle 10 amps 2300 Watts . I have seen them heat-stressed and starting to melt. Really dreadful design. U.S. plugs and sockets are just as bad and perhaps worse than AU/NZ
The switch is very handy when you have something like a phone charger and it means flipping the switch stops it charging, so you don't have to keep unpluging it. Also when dealing with a high current inductive load - fan heater - to turn it off in case of a malfunction and avoid the blue/green flash of the back EMF across the plug pins. Every UK socket should be switched, then it could save the country a fortune with devices that are never really OFF and only go into STANDBY, that way we might have a cat-in-Hell's chance in meeting the carbon reduction promise that idiot PM Blair signed us up for...
@@jonathanpalmer155 Wait, am I understanding the order of operations here? You (charging phone): 1) Plug phone into charging cable. 2) Turn on outlet so that phone starts charging. You (stopping phone charging): 1) Turn off outlet. 2) Unplug phone from charging cable. Me (US; charging phone): 1) Plug phone into charging cable so that phone starts charging. Me (US; stopping phone charging): 1) Unplug phone from charging cable. -the purring dork
We'd have to crowdfund a trip to Britain/Europe, and find two Brits/Europeans willing to let an American into their homes to disassemble their service panels and rant to camera about how weird they are, but that's far from impossible
Awesome video, I knew about the 240v service and how you wire a 240v circuit but it never dawned on me that the two busses were 180 degrees apart, thus 240v potential.
The system is single phase. The 120V is both on the same phase since it’s on the same coil. It’s jist a center tap off one side. Think of it like stacking 2 batteries of 120V each and using the center point as the neutral. There is no phase shift like a 3 phase system in which the hot lines are on separate coils. If you measure on an oscilloscope, you will see they are on the same phase. The amplitude on the sine wave just adds up when you measure from hot to hot. It’s similar to a potentiometer with a center tap, the resistance changes from 0 to max resistance depending where the center is adjusted.
''Damn, that's fascinating thing, which is quite true and has a high probability of being feasible, bro.'' Ok.. maybe not the variant you're looking for...
In EU we have 400V 3-phase at our homes..phases are split into several 230V circuits to balance overall load. Btw AC rating voltage is in RMS so, 230V peak to peak is 325V! ;p
In the UK most properties are single phase, with a third of the properties on each phase. Blocks of flats (apartments) have 3 phase running up the stair.
Modern German Single family houses have 400V 3phase 63A. But as most houses se are heated with Oil or Gas this is often not used and the Main Circuit breakers are rated at 25A per phase
He is so smug about the 240V in US households^^ cute In all german houses we have 400V in 3 phases plus neutral. They are used for things like boilers, electric heaters and the stove. The normal outlets have one of the 3 phases and neutral (plus ground sometimes) at 400V/sqrt(3)=230V We usually also have a 3 phase 400V outlet somewhere in the cellar or garage which can be used for industrial tools but not many people use them. But it's quite cool that we can just buy any industrial machine and plug them in. Often people get old stuff from work like big robot arms, welders, CNC machines and they can just plug them in in their garage.
I'd like to say how much I appreciate your humor. Seriously. Do you know how hard it is to talk about electricity w/o putting to people to sleep? Yes! So my hat's off to you for explaining anything & everything electric so simply and FUN! Well, maybe not as much fun as mini golf, but it ranks right up there! /cheer
Since he doesn't know what he's talking about maybe he should take his comedy show on the road? People who seek an engineering degree find electricity fascinating. I was never bored.
"Stop being pedantic about it," he says, pedantically. In seriousness though, great video! Learned a lot I didn't know. The whole "it's the current that kills you not voltage" thing is really only applicable to high voltages built on small capacitors (e.g. static discharge from shaking hands won't kill you despite the high voltages involved) but people misapply it to everything.
I went radio and tv repair school ,some body would always charge up a capacitor and leave it laying around waiting for some dummy to pick it up and get zapped. Not funny
We have 3-phase at work and 208 on most of our equipment but there's a few that distinctly don't like it. They are large capacitor-start motors that will occasionally trip their internal breaker if the motor fails to rotate properly at startup.
@@amadeo262 Perhaps. We actually do have 480v transformer in the facility with extra capacity on it, it's just on the other side of the building and would take a lot of wire to re-route. However it's on the list of things we're going to do when we have down time.
My question is why is that electric motor not a 3-phase motor. If you have a 3-phase supply and you're not using 3-phase motors than then you're just being incredibly dumb (when I say you on talking to whoever decided that two-faced motors are the best for that application)
One of these days I'll tidy up that wire...
A minor note; the thing about 208 being 86.7% isn't right for simple resistive loads like heating elements. You'll actually only get 75% the heat on 208! Power (watts) goes up with the square of the voltage. But, if something is designed specifically for 208, you can pull up to 86.7% what you could on 240 with the same amperage.
One day or day one.
Me to my DIY outdoor sensor wiring too.
Your neutral and ground wires are not looking to (current) code: 1. There are spots where two wires are under one screw. 2. The neutral and ground are not separated (yeah, I know, they are the same potential, but the code says they need to be separated... for reasons.).
But the panel probably predates those changes.
PS: Wear your electricians gloves when working on a live panel... including just poking at it with a meter.
The two wires under one screw is a definite no-no. In my area, however, both neutral and ground must be bonded to the box. It is ridiculous, but that is what the inspector demands.
One day? Shocking.
Technology Connections is the only place I go to learn about current events
Well, depending your age you can go to the university next
👉🏾🚪
Lmao
How does it feel to be the worst person alive?
Dad award 🥇
Sometimes when I watch these videos I feel like you’re attacking me personally.
Only with the kettles :)
Technology Connections 😂
Shhh... You're one of us now.
@@richkurtz6053 no good for tea.
@@richkurtz6053 or an electric powered instant hot tap by the kitchen sink. A tiny electric water heater lives under my sink and keep the water just below boiling. Holds enough for 5 or 6 cups of hot water. All on 120v
I've occasionally wondered what a national power grid would look like if you could start again from scratch using current technology. No backwards compatibility, no infrastructure limitations, no analog TVs to sync.
It would be heaven
400v /230v three phase seems to be pretty good. Decent L-N voltage, high three phase voltage.
Oh, it would be so worth it to resurrect Tesla right now, somebody get on that.
DC everything, please.
It used to be that you'd want higher frequency mains allowing smaller transformers etc, but now that switch mode supplies are the norm, that doesn't matter. Still, I'd probably go to 100Hz.
Why three phase, why not four?
--edit, fixed weird autocorrect
As an American commercial electrician 15 years I usually steer very clear of videos like this for fear of yelling expletives at my screen because so many people just get so much wrong. BUT you sir have nailed it this is the best starting explanation video for basic electricity you never let me down keep up the good work also I’ll try not to be so pedantic about the 110-120 thing but it does drive me nuts especially seeing as how I’m most homes a voltage of 110 puts you above the range for allowable voltage drop (read inefficiency/dangerous)
One of the reasons i like this channel so much - he tries to be as close to the truth as possible and do that while being as clear as possible and in most easy to digest way possible.
Tell that to europe, we have real 230 v here in the outlets... and no it is not dangerous and inefficient! Well current always is dangerous even at 110 but also there are security measures in place every installation needs to have to keep people alive!
What do you think has been nailed. ? . . . Not the energy down wires being carried int he E & M Fields.. . Derek is very wrong there.. . The Energy is in the moving ?Electrons INSIDE the wires.
@@hughleyton693 what? Can you try that again?
@@hughleyton693 You're thinking of Veritasium, go yell at him instead 😅
As a veteran US Navy Electronics Technician, your presentation, disclaimers and warnings are so ACCURATE!! Great JOB!! Thank you.
Orlando boot and BE&E school in San Diego. Came out of boot in 87.
His British wiring knowledge is spot on too. 👍👍👍
That's among the coolest titles I've ever heard
@@Lambda_Ovine LOL!! Not sure if you're joking.. but yeah the Navy does have cool titles to brag about amongs ourselves ;)
@Kevin Tewey Kindly illuminate your opinion for the world, Sir!
That rant at the end is perfect.
I've got several Aussie friends and we get into that pretty often.
You know this is really just a great example of engineers solving safety hazards through different methods. When analyzing hazards you got two scales, likelyhood of injury, and severity of injury. In america, we decided to tackle the severity part, dropping the voltage and making it less likely to kill you as easily. In britian they tackled the likelyhood part, designing better plugs, leakage current detectors, ect. In both places they felt that these considerations brough the hazard level down to a point that was acceptable and moved on with their lives, not thinking about it much more after that.
Then you have Brazil: even in the 220V parts of the country, electric showers are mostly ungrounded, and we use exactly the same plug both for 127V and 220V.
Not necessarily true. In Europe you have 230V on one phase yes, but pretty much any house has 3 phases coming in, so you can use 380V for higher power devices or for devices like a motor which needs it to function anyway. So using the US system is not really applicable for Europe anyway. Those 3 Phases have the same safety advantages the split phase system has.
Besides I would argue that the severity of injury is not that highly reduced by 120AC, since the things that make AC dangerous are the frequency which the heart still can react to and the body having a lower impedance than ohmic resistance, which means AC can more easily pass through it than DC. So decreasing the likelyhood of injury is the only sensible way to go here.
@@lal12 In the UK and Ireland it's not really common to have 3-phase in a household. Neither is it in Australia or NZ (230V@50Hz, just like Europe). I hear the same happens in France and the Netherlands, though I may be wrong. Also, they get far less amps, which means that even in Germany, where 3-phase supply is commonplace in households, the maximum power is lower than in America. That, of course, comes at the expense of having to spend a little more on wires, but the cost is marginal relative to the cost of a house. Having three-phase for households has many advantages though, but they are related more to the possibility of running more efficient motors (3-Phase Air Conditioners, for example, are becoming very common here in Brazil for residential use, where three-phase supply is quite common for homes, though not ubiquitous as in Germany).
Now, 120VAC is unquestionably safer than 230VAC. Your resistance doesn't change when you are closer to a 230V outlet. U = RI. Hence, the current going through
your body IS nearly twice, which means a much worse shock. The higher the current, the higher the risk.
💯
You deserve an upvote bro. Very great amicable summary of the situation here (compared to whatever argument to which is better)
I am a retired electrical engineer and I will tell you this: Your explanations are very clear and concise. Thank you. I am glad I found. Your channel and have subscribed 😊
I take it you graduated last in your class.
must be a title, not a degree.
@@larrymaloney877he’s retired
@@larrymaloney877wtf? Why the hostilities?
As a retired [wizard]. Fixed it for you. Electrical stuff has always been confusing to me for some reason.
That ending fun rant was hilarious (I'm a Brit). Maybe one day we can all get together internationally and produce an IEEE standard for electricity distribution. Based on the age old model of identifying all the best bits given by the available systems, and then implementing the worst bits instead...
Not gonna lie. You had me in the first half
UK has those big ass plugs
The best standard would be a compact version of the UK plug, ditching the switch, keeping the rcd and fuse in plug, keeping 230v, etc
50 or 60hz, one will've to die
you can't throw a pair of dime at the american plug
If people were confused by gas clothes dryers you should do a video on gas powered refrigerators. That'll blow some minds.
That involves finding some place out in the middle of nowhere or perhaps having access to an RV motor-home.
When I was a kid in Iran (1960) we had a kerosene powered refrigerator. Dad had to relight the flame occasionally. I learned the refrigerator used an ammonia absorption cycle... a bit beyond my 8 year old brain.
But.... gas make things hot.......
yeah that took me a while to understand how an absorber fridge works, it blew my mind a little bit
Mmmm. I love the smell of Freon in the morning.
When I heard that 60HZ hum, I thought, "Wow! Does this guy have a sub-station in his basement or are all of those breakers in desperate need of replacement?".
i lived down the road from a substation...that was right next to a park and YMCA. always a constant hum even half a mile way. now that i dont live anywhere near one i find the quiet of night to be unsettling.
He fucked up and they're both in phase, so the hum is doubled.
@@pulsefel9210 I've got high voltage power lines near my house. You can hear them when you go outside.
@@masheroz yes, same
@@pulsefel9210 okay, so... Does this town happen to love Halloween?
Actually in Germany we typically have 3 phase power to our home. This means you have 3 powelines, 120° appart and one ground. Depending on how you connect these between eachother or to ground you get either 380V or three times 240V. Bigger machines like washing machines, driers, ovens etc. use the 380V three phase power. Other smaller machines, connected to the normal outlets, use the 240V single phase power.
Usually the fuses for the main lines are 63A for each phase. There are other breakers like 125A, but these are not so common in normal households. Hosehold machines thypically have lines with 16A breakers. Bigger industrial machines use 32A lines ore less commonly 63A.
Yeah that's true for the most part but the voltages are 230V and 230VxSQR(3)=400V
Fun fact the "normal" 230V plug is only rated for 10A consistently but u can still pull 16A for a short periode
Greetings from an electrical engineer from Germany
In Germany, the 3-phase is 400V. . . . Which naturally gives 230V Single-phase. . . ( For Americans, Single-phase is a SINGLE live line and Neutral. ) . . Not like their 2- phase 120/240V which is TWO Live lines and Neutral.
The US 3-phase electrical wires carry 480V at 60HZ but usually only commercial and industrial uses get that much. But none of this matters. Everyone gets what they need which is the point of his video.
@@tawnyforest7932 No they don't in America, that is what I am getting at . .. You cant get 120/240V directly from a 3-phase supply. . . From 3-phase, you can get 240/140V nasty for 120V loads. . . Or you can get 208/120V nasty for 240V loads.
Do you really use 3 phase power for washing machines in Germany? Most run just fine on 10A / 240V single phase. Your fuses are also pretty big at 63A. In the Netherlands we usually get 3 x 25A. More amps are possible, but at much higher monthly network charges.
The switches on UK wall outlets are for people to turn things off at the wall in order to mildly annoy other members of the household.
There's some outlets in the United States where it's like that it's just the power switches are usually next to light switches intend to get confused with them all the time because they are normal Power switches that are wired in between the breaker and the outlet. I knew somebody who had their Wi-Fi router on one and somebody turned off the light switch knocked out the internet for everyone in the house.
@WindowsLogic Productions the UK has flaps covering the neutral and live terminals so no its not for safety.
@@stonedsavage7814 It was when they were first designed. They've been kept because that's what people expect. Australia has automatically shuttered outlets (eref.se.com/au/en/clipsal/product-pdf/2025S-WE) as well, but not many houses use them. They'd be seen more frequently in child care centres. They're also a pain in the arse if you're using double insulated appliances in them, as they need an earth pin in order to actuate the shutter.
& for those with timer adapters plugged in, to annoy me after I've set them correctly!
The whole "it's not the volts that kill you etc. etc." always annoyed me. That's like saying it's not the fall that kills you, it's the sudden stop at the end. The higher the fall, the more likely the stop is to kill you. They're kinda dependent on each other.
Really that's not true. Is worst a fall from a 3rd floor than the 10th floor!!!!
it's actually the frequency that kills you
qflux the frequency of how many times you fall off a building
@@Snix121 You could certainly break the velocity of the falling mass down by running it through a fourier transform. In which case, higher frequencies would (roughly) represent greater accelerations. In which case, the higher frequencies would be worse for you.
@@bobthebuilder609 I think he is trying to say that at least the 10-story fall will kill you instantly and not leave you alive but mangled and most likely suffering from the resulting damage the rest of your life like the 3-story fall would.
Note how he does the voltage measurements with only one hand. Standard smart move to prevent his heart from being part of the circuit if he makes a mistake. (I'm sure someone else said this somewhere in the other 12000+ comments, but worth repeating...)
Thats very smart and safe in case there's a shock and avoids placing the heart and internal organs in the circuit.
Also always put right hand to danger. If you use left hand then a leak to earth via your feet will go near heart
I noticed that too. At first I wondered why he was making it harder but then realized it contain the potential shock to just his had.
i actually never though about that, i thought he just didn't want to be blocking the camera too much.
@@r.h.8754 That's why you always put a warning sign on a breaker and/or controls. A simple and effective safety measure your co-worker ignored. Another safety rule: you don't remove a sign if it's not placed by you.
I like the way that you talk to the viewer like they're 3-year-old kids. And lots of great, on topic information without being condescending.
I'm an electrician from Australia and I thoroughly enjoyed this video haha cheers mate
Greetings, fellow Aussie! I recently had a sparkie install a new oven in my kitchen. He also fitted an isolator switch in-line with the conduit which is required by law. However, with the oven installed in its recess in the kitchen cabinet, the switch ends up being concealed behind everything and is completely out of sight / reach.
I suggested that he fit the switch to the wall outside of the cabinet where it would be accessible so that it can be turned off if necessary. But no, apparently he wasn't allowed to do that... The switch 'had' to be behind the oven specifically. Gotta love the nanny state. :o)
@@razeezar Im sorry mate but that is total bullshit and he needs to fix it as he has not followed the standards.
The cooking appliance isolator needs to be within 2 meters but also easly accessable without reaching across the cooking surface. If you need to you can tell him to double check AS3000:2018 Section 4.7.1
If you have any issues with getting it resolved I suggest you call your state licencing registrar.
I hope it is sorted for you. Peace.
@@dcaonoek Cheers Dane, I'll check that out.
razeezar Australia honestly seems like regulations gone mad.
It looks like section 4.7.1 pertains to open stove tops. I haven't found any specific info regarding an isolator required for built in ovens, but cursory reading of discussions on whirlpool indicate that an isolator is required for a stovetop but, confusingly, not for an oven. It'd be nice if the standards code stated this specifically either way!
The snark level of this video increased exponentially at the end....I love it.
Of all the people, I did not expect HIM to go "full American." I'm dying 🤣
@@bm1747 Sometimes you need to go full American to explain why nannystater comments are dumb.
Just a minor addendum because you stressed the "see, we have 240V too" point a few times in your video.
In Europe we have 400V just like you have 208V, with the same 3 phases and stuff. And many residential homes are supplied that way, not only large buildings.
I wrote this comment not because "nanana, Europe is still one ahead of you" (who even makes that point ugh), but because I missed that parallel between the two electrical systems in the video, which at least makes them a bit more alike.
Exactly!
480v 3 phase systems are also fairly common in the US. So we've got 80 more volts. ;)
I came here to write that comment
Not only pretty much all houses have 3 phase power, but, if there's no gas supplied, flats also typically have 3 phases used mainly by electric/induction cookers.
@@BenjaminSahlstrom you know that 400V is the effective voltage, while peak Voltage is 530V on European 3 phase?
AC voltages are weird, European AC voltage (single-phase) actually peaks around 330V, IIRC.
As an electrician, I appreciate you and your humor.
Found your channel a bit ago, and im going through your old videos. Its a gold mine of terrible jokes and education. Thank you for your service:)
That rant at the end had me in stitches, and the info about the US electrical system was really interesting.
Your videos never fail to educate and entertain.
I'm trying to remember the last time I turned a power switch (Australia) on or off... it was probably when I moved into the house and plugged everything in. I never really thought about it, but maybe they are kinda pointless.
@@matthewjohnson3610 I'm wondering if they're there for child safety, or maybe if an outlet needs to be cleaned or worked on? (Just a layperson's guess, obviously.)
@@shibolinemress8913 I (Australian) turn off the switches if I'm leaving the house for more than about 5 days or if the socket is empty, a lot of electronics like TVs have standby modes that draw 1 or more watts, overall it's an unnoticeable difference but if say 1 million people are doing the same thing then it adds up.
The main reason though is safety, given how cheaply made electronics are these days I don't want to risk going on holiday and have my phone charger shit the bed then burn the house down. Also on safety is like the US many of our wall plugs still have fully exposed pins that can shock you if the plug is only partially inserted.
My home has two outlets wired to a double switch panel next to the room's overhead light switch. You can just power on or off whatever's plugged into that outlet without having to reach down for it. It's way better, and I don't even think that was done for luxury's sake.
@@matthewjohnson3610 Yeah it is really the appliances that needs to be efficient not the user and this is how it is today. Sure your phone charger uses a little over time but most things like screens, audio gear, kitchen appliances they all nicely conserve power when not in use. This is a more recent change though, I am guessing like since the year 2000 or so.
On the subject of weird gas dryers, I'd love to see you cover gas fridges.
or gas air conditioners
My RV has one. No clue how it works lol
Those are really niche and normal [electric] fridges are much cheaper to operate.
or gassy people
@@kabj06 en.wikipedia.org/wiki/Absorption_refrigerator
I went to tech school for HVAC, and I was never really taught the difference between 208/240. Even my super awesome, smart, one-of-a-kind electrical instructor never really mentioned it(I learned a lot of other really valuable stuff from him though, and particularly have a better working knowledge of how motors work than most of the HVAC techs I work with, thanks to him)
I had no idea that 208v was from 120v-3 phase. In my (limited) experience I've pretty much only worked with 240v-3 phase or split-phase120/240v and only ran across 208v once or twice, and had no clue why it was different.
Thank you sir, I've learned something new today! Been watching your videos for a long time.
What he doesn’t mention is that 120/208 is usually produced by stepping down a 277/480 utility feed.
Commercial/industrial customers often use 480 for motors and 277 for lighting.
@@k5sss What he doesn’t mention is an infinitely large set
@@MegaZeta I would argue it's actually a very large finite set, given that the human mouth can produce a finite range of frequencies
UK residents have learned after stepping on plugs to leave them in their respective sockets and just flick the switch.
That is just one thing about the square pin plug i wish we had, the ability to switch an outlet at the outlet itself. But i think what people forget is that the american BI plug is older. A lot of other plug standards had the ability to learn from previous plug failings. We didnt really have that chance and since compatibility is a thing we just kinda got stuck with it only modernizing little bits like polarizing the plug with the neutral being bigger and adding the circular ground pin, as an option wheras the square pin a ground lug is required to operate the safety shutters in the plug even if its just a fake pin of plastic, and really the bi pin could be made better by shoving a bit of plastic on the end of the pins and making the recepticle make contact on the tip of the pins, that way compatibility is kept for older plugs but newer plugs are safer, the fact that our pins are to close your fingers could also be negated by making the plug a bit bigger with a more pronounced shield, but like I said its a standard weve had for a while and since japan and china also use the bi pin for residential appliances its not gonna change anytime soon.
Our UK plugs and sockets are designed to last for millions of connection/disconnection cycles and still have a switch to discourage wear.
Every US hotel I've stayed in, the plug falls out if you walk past too quickly.
But for non-UK (or Ireland, Oman, or any of the other 50+ countries using IEC type G) imagine standing on Lego. We're immune to that as the plug is much, much worse.
@@JorgTheElder We rarely buy portable fans as it's just not that warm here to warrant them, and anybody who does buy one realises that they're probably only useful in June and then that's when it's not drastically cool outside due to freak rain storms. After then our small houses are just cluttered by useless appliances and get thrown up in the attic and forgotten about.
@@georgeprout42 I've never had an issue with plugs not holding unless it was a cheap plug the sockets tend to stay fine as long as you have a modern high quality plug.
Meanwhile, there's basically no such thing as a UK plug that is loose. There are simply none made that badly.
"But first, a quick reminder of what transformers do: they're more than meets the eye."
Well memed, sir.
Don't be dumb it's not a meme it's a real day video
@@stephensnell1379 Are you a transformer??
@@stephensnell1379 Star Scream thinks so too..
Good meme
@Jeff Desert Mountains 250KV goes wherever it wants. :)
For anyone commenting on how “bad” his panel is, I’ve seen WAY worse when old buildings upgrade the circuits without upgrading the panels. My parents 97 year old home had so many wires in in before upgrading to a full 200 amp panel it was literally dangerous.
Dual circuit breakers (yes they are real) WITH two wires in each circuit because there was just no room for more breakers being a 100 amp panel.
Oh and nob and tube wiring which often was wired incorrectly and electrified the device instead of grounding it! In the US older homes can be an electrical fire waiting to happen.
Yeah I would consider his panel damn near pristine compared to.... well almost any house I've ever lived in. I mean, you can tell what runs where, it's labelled, wires run in logical lines! Mostly all installed in the last 50 years! No immediately obvious fire hazards! I would be downright pleased to have a panel that clean.
I've lived in a house with 3 distinct generations of wiring systems - the original knob & tube with cotton sheathing, then some rubber-sheathed/cotton wrapped, then some 90's rubber sheathed/rubber wrapped, all fed haphazardly into a semi-recent 100A panel. You can tell that the skill of the person doing the wiring went down with each generation of wiring too - the original stuff was actually installed decently. The later stuff was a bloody nightmare.
It's really common to see houses with a mix of Aluminum and Copper wiring, or with the original knob & tube running into the original fuse panel, which was unhooked and then fed from a 60A breaker on a new panel - leaving the old stuff as is and just installing anything new into the new main panel.
Yeah it honestly looks like a pretty normal 200 amp panel, just with more circuits than most single family homes have. I've seen MUCH worse wiring jobs. And honestly, how much does it even matter if the wiring in the panel is kinda messy? It's covered for a reason, and you shouldn't be messing with that shit unless you really know what you're doing anyway. In which case you'd probably know enough to kill the main before digging around in there.
Oh yeah, because folks love to get electrocuted in the morning by touching their toaster.
@Joshua I'm very glad that according to NEN (Dutch DIN) the entire fuse box must be replaced to be up to code on any significant change.
In my panel everything is ground to the neutral lead, the house doesn't have a grounding rod. Yay 1920s electrical code (or lack thereof)!
This is a great video, but saying the US has 240V is like saying the EU has 400V, i mean.... Why?
Interesting point regarding the UK plug switches: Yeah, a lot of our stuff that's not pure electrical does not have an off switch (generally electronics just.. don't) as you're expected to interrupt the circuit at the wall.. however: We have the switches for a different reason.
Our plugs are so big and over-engineered for safety that insertion cycles becomes a problem so they're actually there to save a pile of plugging in and removal causing work hardening/loosening of the contacts in the socket - flick the switch rather than break the receptical by having to over-use it..
Yeah, here in the US we don't worry about stuff like that. Our plugs come pre loosened.
I will still never get over Tom Scott's video on British plugs where he explains that in the olden days, British appliance manufacturers weren't required to put plugs on their products, so most appliances came with a bare wire that the customer had to attach a plug to themselves.
Also it means we can remove the foot hazard caused by having dangly plugs everywhere 😎
Sammie1053 Ironicly in the US, you can still buy an appliance without a cord, so you have to buy the cord and wire it up. I think it is mostly on stuff like refrigerators and washing machines, tho.
Edit: What I meant to say was ovens and dryers. Sorry about that.
@@Sammie1053 We still commonly teach students how to wire plugs in physics lessons in school - incidentally it's quite useful because it means plugs can be removed and added to cables so we can change cable lengths etc ourselves without wasting perfectly good plugs 👍
"Transformers are more than meets the eye". Solid. Also, props for using only one hand when measuring across the 240V at the top of the panel. SMART!
Mentioned the one hand rule to a dude a while back and it turned into a whole thing about how much of an idiot I was for believing that, I grew up in an electronics classroom, my stepdad used to do TV repair on CRTs, one hand rule saves lives, sucks for my stepdad though he's left handed, the proper hand is the right to lessen the chance that it goes through your heart.
@@travismason2811 Pardon my ignorance: who is the real idiot then? Is the one hand rule false?
I'm glad I checked for similar comments prior to posting mine. I had the same two observations. Covering WHY we do a one handed voltage check would be nice for another video!
At first, I thought using one hand was more dangerous, too. If your dexterity isn't too good, you could cross the probes. But then I realized that if both hands came in contact with the contacts, you would have 240V, 120V, going from one had to the other, with your heart in the middle. With one hand the current flow would just be from one finger to the other.
When I was young I grabbed both leads of a 120 circuit with both hands. It felt like somebody kicked me in the chest. I jumped back about six feet.
@@travismason2811 Why would that lessen the chance it goes through your heart? I'm pretty sure that's not actually true.
I find myself clicking on your videos - even if I have no real interest in the topic. I find your energy, your presentation, your tone, your research and opinions SO refreshing and entertaining - that I sit and smirk through the whole thing. What I learn - - and I always learn from your videos, is just a bonus.
Great work. Thanks from BC Canada.
Lies
@@raven4k998 why?
@@lilclip6134 why not I mean they tell me that my power line will wear out from charging my ev on 110 volt in 5 years 10 for 220 volt and if the lines not replaced it will be a fire hazard but then a certified electrician says that oh electrical lines do not wear out you can pull an infinite amount of power through the line so long as your not overloading the line and there will never be a fire issue ever
New Brunswick Canada here. Same,same I laugh out loud because of your presentation and winks to the Europeans and knowledge about how they will think about this; hailing from Europe, I recognize it, even though I now NOTHING about electricity.
Personally I love that we in (mainland) Europe use E/F plugs. While technically F is the Shuko-plug, you'll find that many electrical devices and powercubes and -bricks accept both E (found as (older) French, Belgian, Tunesian and somehow Slovakian outlets) and F. The diffence is in grounding:: E adds a third plug, F has the grounding on the side. Both sides, so you can put the plug in upside down or not. And two plugs is simpler to plug in than three. All in all, I love our Schuko-system. And that also means we use Type C if grounding is not needed. Handy for, well, you find these still on 'boomboxes'.Or gameconsoles. Audioequipment. And your tv. But your computer is connected via Schuko, aka F. Thanks for the video! Now I know how good it is! ❤
ahh yes the type f plug most notably known for being cut out and replaced by type h plug
@@plazmaguy13yago9 is it? I'm from Hungary, and the two main types of plugs I see and use are Europlugs and Schuko/Type F (or lately CEE 7/7). The sockets are all type F / Schuko, except in old houses where there are still some ungrounded type C sockets.
Guess the type E in Slovakia is from when Czechoslovakia was still a thing, because it's a standard in Czechia as well
Graduated mechanical engineering, which entails a good bit of electrical classes. Went into construction management and i have learned more in the first 10 minutes of this video than i did in 4 years at college and 2 years in the field.
Awesome videos btw, ive been binge watching
The education system these days is just a business. You learn more while working hands on and hunting for amazing tutorials, presentations such as this video
You probably weren't given lectures by a professor from the electrical engineering department!
With this logic almost all European installations are "400" volts as phase to phase is 380-420 and phase to ground 220-240 volts.
That's actually true and acknoledged, here in Australia all live electrical hazards are labelled as "danger 415 Volts"
Yeah, it's called '3-wire' power and is good for 400V.
I just found out that while most of modern Belgium has three phase with 400V between the phases and 240 between phase and neutral (as most of Europe has), some older installations have 240V between phases. And this can sometimes differ per house in a street.
Yes, here in Sweden we have 400 volts phase to phase and 230 volts phase to ground. We also have all 3 phases in our homes instead of the split phase system.
I just wanted to say the same thing :)
I'm proud to say I've been shocked by 240UK and 120US. 240 hurt more. I have also stood on a UK plug. Being shocked by 120V hurts less than stepping on a UK plug (in the common case)... I don't think anyone has died from stepping on a plug, they just wish they had.
Say no more, I've been shocked by 120AC, 240AC, 400AC and 570DC... Nothing in the whole world compares to stepping on a UK plug!! It's a horrible sensation!!
@@TiagoAlmeidalive
I have never stepped on a UK plug ever. I know no one who has. I have had these around me all my life.
@@johnburns4017 so?
Avoiding electrical shocks is much easier and less costly than avoiding using more copper or aluminium to make thicker wires to carry more current in low voltage.
@@iamnormal8648
Also, fitting RCBOs and RCDs keeps people alive.
Came home from a day of low voltage distribution design, saw the title here (working on a primary voltage conversion job, swapping out 50 odd transformers with all the end-user voltages you can make) and just wanted to see where you were going with that. Love the video, man. Keep it up!
"We're just going to ignore three-phase for right now" *Angry entertainment electrician noises*
Right?! XD
3 phase is best!!
more like all europeans. my entire country has 25A 240v 3 phase in the home.
@@SupremeRuleroftheWorld my studio flat in the UK only had 2 phase power.
But I'm sure the building as a whole had 3 phase. (since the usual approach is to split different pairs of 2 out of 3 phases to multiple buildings/units to balance the load on the 3 phase supply system.)
Not sure what Australia is using, but I'd be surprised if it isn't also either 3 or 2 phase power to most homes...
@@SupremeRuleroftheWorld yep even when individual houses are single phase as in the uk. We usually have one large 3 phase transformer per street.
As an electrician of 15 years, It brings a new sense of appreciation to see you take such care to provide good information.
Love the snark.
Here's a snark for you;
Where the US uses 240v to run their boilers, stoves, welding equipment. we ( us civilised Europeans with a standard 240 v system ) use 380v to run our stoves, welding equipment and what not.
@@TheDutchShepherd Where I work, we use 480/277 for large loads that are constantly on as a way to save on the cost. So lighting and very heavy draws like welders. But that is for 3 phase systems. :P
@@TheDutchShepherd 380 is weak sauce, we use 480 in the US. Step it up.
@@joemilton7552 We also have 400/690V 50Hz 3 phase for large industries in Europe. and also 575/1000V.
@@TheDutchShepherd "civilized" lol...the continent that started both world wars is "civilized"...kay.
the amount of shade in this video is incredible
Given the amount your average American gets from nannystaters a day, it does not even come close to balancing out.
I've been in the electrical distribution business for about 15 years and this video taught me more than any work training.
I could listen to Alec ranting about electricity for hours on end.
I was waiting for when he would say "Where did you get that dress? And those shoes and that coat..."
Same. Haha!!
obsoleteUbiquity or the perfect toaster! 😂
same
Steets, your thumbnail animates, but as far as I can tell UA-cam doesn't support animated thumbnails. Is that visible anywhere?
why is the house angry
The house is angry because it desperately needs a new roof.
@@MoparDan Top-hinged slates/tiles/shingles maybe? So they can lift and let the pressure out during the experiments ..? This would prevent the roof from blowing away due to too much positive internal pressure.
First thing that came to my mind, too. The house looks fierce...
Nobody likes you
If someone connect you to grid you will be angry too or even shocked
"This building is a single family home..."
"Honey, did you hear that? Is someone downstairs?"
:D LOL
That's a Tim and Eric skit in the making
oh he's the guy who took our laserdisk, our beta vcr and the old microwaves oven.
It must be a huge house according to that circuit panel and the number of breakers.
@@robertcuminale1212 Not necessarily. Newer code requires a lot more dedicated circuits than older code, and if he's got a bunch of 240v stuff (furnace, dryer, stove, water heater, car charger) it'll fill up fast.
I’m glad to have seen your speech. For 32 years my dad worked for Hydro-Quebec The electric company in our province. I loved your simple explanations on voltage amp Wattage,transformers. In Quebec we also have 120-240 voltage and are still naming that 110-220.
For me as a German this video was really interesting and enlightening! I was 100% sure the US voltage is 120V AC only.
Different countries, different approach.
Many thanks!
Hello Henry,
remember that we here in germany has a three phase system instead a two phase system in US. So we have 400V between two phases and 240V between each phase and the netral wire or ground. This three-phase current is called "Drehstrom" in germany and has the same geometry as he explains at 19:12 in the video.
@@Domimi78 yeah, exactly. Saying it's 120V is a stretch as in Europe you can ask electrical company to attach a second or third phase to your house if you need it. It's simply that in US everyone gets second as a norm.
@@Domimi78 Bruh, who the hell needs 400V of power directly to their outlets. Are some Germans running their own mini-sern projects at home?
@@resphantom Some people use 400V for something like a big circular saw or their lathe. They have their own plug It's called "CEE-Stecker". For normal appliances like a mixer they use one phase and neutral with a difference of 240 V between them.
@@BlueMokke I just saw that my country also run on 400 - 415V 3 phase power. Turns out stuff like electric ovens and geysers use a lot of power.
RE: the "Don't try this at home" part: This was my favorite lecture that one of my professors gave back when I was in college. It was famous for anyone who had taken his class. He called it the "How Not To Die" lecture and covered pretty much what was in this video! One other useful thing he also mentioned: In a lot of the newer hostpitals and care facilities, they install the 3-prong outlets upside down so that if a metal object like an IV stand falls down onto a partially inserted plug it lands on the neutral phase.
i.e. the right way up.
/brit
@@tyteen4a03 But then it doesn't make the little face. 😮
NEC, trying to protect you from yourself since 1897.
"Don't try this at home"
** Me as a electrical engineer who works on up to 380kV substations **
"Why?"
@@taylorwest6986 It's quite the conundrum. On the one hand, we don't want people to electrocute themselves and die.
On the other hand, 😮.
*laughs in 3 phase, 30A × ?, 240V electricity*
In all seriousness tho, this is quite informative and has cleared up a lot of things I was wondering about when it comes to US electrical systems
We laugh in minimum 380V 3PH 16A in our houses. Most often in 25A.
@@Pentti_Hilkuri 16A is actually really low… in order to be selective that means you can only run 10A circuit breakers. I'd hope you get 25A minimum.
@@arienh4 AT my country most houses have 20A inlet which then is only split intro "lights" and "sockets" lol At least we got current leak protection onto the system. Chile btw 220v
@Cr0Lar I mean we can get three phase installed. A lot of people have 3 phase in thier sheds or garages for things like mills and lathes
Most houses in Germany have 3 phase 240V 50A or 63A .
100A is not as common but gets used too.
It is common to have a "400V" 32A (5p CEE) outlet in the garage/workshop,
the bigger garages/workshops will also have a "400V" 63A outlet.
Gets used mostly for: air compressors,, grinding wheels, saws and welders
I work in electric wholesale.
When I was a kid, my little brother decided to drop a penny behind the outlet cover in his room. It was an old 120 2-prong receptacle and that penny fell in just the right way to bridge the gap, my family was all surprised when we screamed. I'm not sure why, but I was the one who ran out, through the living room and kitchen to get to the breaker box. Being 10, I just turned everything off as quickly as I could. Needless to say, my dad pulled out the remains of the penny while replacing the outlet and it proved to be a good lesson to all of us. My dad doesn't neglect electrical repairs these days. Though I don't know why he never did anything about the one power switch in a place we lived in for a year that almost always shocked us.
Well, actually I do. My dad was in terrible mental health during that time, so it took a lot out of him just to provide for us. He and my mom had split because of it, which honestly just made things worse, but that's all a different story.
The electrical system in the US isn't something you should play around with. Thankfully I know some electricians, so I know who to call to help me.
Also, I checked my panel. 100amp @ 240v. I figured, being a manufactured, single wide home. I think I'll save up and get my electrical system reworked, though. The place is about 30 years old and I would like to make sure it's all up to code.
@silversonic1 what did you find out? I'd be very surprised to learn that even a manufactured home from the 90s doesn't meet all the code that applied to it when built and even 95% or more of the most current electrical code.
@@GurtTheHurt I sadly haven't been able to do anything yet. Well, anything beyond learning that my living room and middle bedroom have been all wired through one breaker.
I'd love to have you over here in Scandinavia to look at the Euro standard and make a video on that! ^_^
Anders is a TC sub? Cool
The Discovision man is here!
There is no single European standard. Some countries deliver three phase to domestic properties, some do not. Some countries have mandatory earthing, some do not. Some countries have mandatory polarisation, some do not. Even when the plug/sockets are apparently compatible using variations on the Schuko system, then that is also an area rife with issues as it can allow grounded plugs to be inserted into ungrounded sockets from other countries. Schuko sockets aren't polarised (for historic reasons - it's not a great feature), whilst the nominally compatible French variety are (which are also used in Belgium, Poland, the Czech Republic and Slovakia. Then there are completely different plug/sockets in Denmark, Switzerland, UK, Ireland, Cyprus and Malta with Italy having a combination of its own system and Schuko.
In some areas in Norway they don't even have the ground-reference neutral systems, but have the highly unusual IT distribution systems.
In short, it's a confused mess and anything but standard.
Lineman here: very proud of his description, he clearly knows his stuff.
Please say you are from Kansas.
@@JasonWD nope, Pennsylvania
Shouldn't your name be AC? DC lines? nonsense
Lineman, that's my goal. Congrats.
@@garcjr good luck, get your cdl class a and apply to the ibew
lmao the last couple minutes where you're just going off is 10/10
That was spot on. Those uppity foreigners need to shut up and stay in their lane. We don't give a rat's ass what they think.
I laughed so loud just now finishing the video. Like some sort of crackhead at 3:30 in the morning.
@@artcamera5514 True. I travel the world for work, and using plugs all over the place, I can appreciate the smaller form factor of North American style plugs. The UK bricks, forget about trying to plug in more than one or two chargers in most cases. Australia, same thing. And the massive size of those plugs, you damn near need another suitcase to carry them around. EU two pronged- never know if any given combination of plug and outlet will fit together to make a connection, and they always just flop around loosely and fall out, usually have to get a stack of books or something to support the adapters or plug ends. And the switches on outlets.. no labels usually so it's a guessing game of flipping everything on and off to try to figure it out, let alone accidentally bumping them or setting something on them and shutting off the power.
I was a home products service (Major Appliance) repairman for 27 years and have been shocked hundreds of times. One day while repairing a Microwave oven the charge in the capacitor stopped my heart. The room went dark. Fortunately the sudden fall to the floor re-started my heart. Rubber gloves is always a good idea around electrical circuits...Great video!
@@Spindrift_Productions these capacitors are rated up to 3000 volts, much higher voltage
"Like a lil' furnace. But tumbly" is a brilliant phrase
Yep, it is still weird though
@@jamesc4999 We have homes that are still heated with oil (kerosene) fueled furnaces as well. Which to me is even more strange.
@@jamesc4999 I dont see how an appliance consuming power AND gas is weird. That's how water heaters work!
And gas stoves!
What could possibly go wrong?
@@PosranaRegistrace Surprisingly little with all the flame sensors and other safeties.
I can feel his frustration at having to explain the difference between "safer" and "safe." LOL
I think "less dangerous" would've been more accurate.
It's almost as if he's deflecting a veritable library of comments on that topic. ;)
@@vibingwithvinyl it certainly does sound better in a sentence relating to high voltage current
I see stuff like this in Techmoan videos as well. Why not just get over the fact some of his viewers are retards? Someone will _always_ complain. Both Alec and Matt would make it more pleasant for sane viewers to just ignore the vocal minority.
The funny thing is, I never saw the complaints they refer to.
@@RicoElectrico I'm not sure I agree. His moans about stupid complaints are themselves entertaining to watch.
"I'm showing you mine, so you don't need to see yours."
- Technology Connections 2020
so you can be fat and don't need mirror to see it
That should be on a shirt of sticker.
Dirty... I like it
My dad said this to me when I was young
@@y0uCantHandle I'm 24 and he stills says it to me 😳
Retired American EE living in SE Asia. It's 240/380 here, like Europe. 3-phase transformers are standard in most neighborhoods. This makes residential electrical installations much easier and cheaper than in the US. No need for costly extra transformers if you need 3-phase. It's also easier and cheaper to wire a kitchen to obtain adequate power for an oven or a big induction cooker when you only need 2.5 mm wire (14AWG) to provide over 3KW. Edison died nearly a century ago so it's time for the US to upgrade to a better secondary distribution topology. 240/380 V is not scary and no big deal when done properly with modern components. Korea already did this a few decades ago
As an professional electrician in germany, I find this video very interesting and informative.
Also an example for “other countries other manners“.
Thank you.
"other countries other manners"? I'm not sure I'm understanding this... perhaps an idiom isn't translating well? Wie sagt man auf Deutsch?
@@DavidLindes Andere Länder andere Sitten
@@DavidLindes "Different countries, different customs" should be closer to the german "Andere Länder andere Sitten"
@@DavidLindes Soon goes it loose.
Fun story, I once accidentally dropped a nickel off the end of my bed and it fell on the two plug posts in that tiny gap between the plug and the outlet. I saw a huge flash of blue light a flame and puff of smoke. Luckily it tripped the breaker but when I found the nickel it was black had two slots melted into it about halfway down. The plug posts were melted pretty bad too. Kind of terrifying really. All because that plug just happened to be a couple millimeters away from the wall and that nickel just happened to perform a one in a million shot. I'm glad my apartment didn't burn down.
That can't happen with UK Plugs, the pins are protected from such a short condition.
That's one reason power outlets are often installed with the ground pin on top. But if your plug has no ground pin, it has no effect. I suppose power outlets could be installed landscape-style.
@@Johnny.Fedora First, UK live pins can not be touched even by a nickel or knife blade, when they are in the Outlet far enough to actually be live, and that is without the Earth pin at the top further protecting, , , I believe all American installations since about 20 years ago, had to be 3-pin Outlets, OK, there are many 2-pin plugs still in use in America.. . . Actually I have always installed American double Outlets in landscape-style.
@@hughleyton693, you are correct -- my post was U.S.-centric (and the electrical code has required AC sockets with ground (earth) pins for a lot more than 20 years).
Welp, that image is going to stick with me forever, any time I see a plug which is even slightly loose. I now have a newfound appreciation for "upside-down" grounded outlets with ground at the top.
When you mentioned gas powered dryer I imaged a 2 stroke engine attached to the drum of the dryer
At one time you could get washing machines like that, but they have no means of heating the water!
Not even the East Germans fitted Trabant engines into dryers :-)
you could'nt lubricate a two stroke engine when running on (natural) gas
@@becconvideo they were too weak
Never seen a clothes washer that heats its own water.
This was one of the best explanations I've ever heard of the standard US breaker box.
Bravo sir!
In Sweden we have 400 V phase voltage which in our 3 phase system gives 230 V vs ground on each phase. So we have normally 1.5 mm2 wires when 10 A fuses are used. Cheaper and more flexible.
Same in Russia, Ukrainian, etc. (exUSSR)
But 380/220V
@@FedorKomov as far as i know we also use 230v for some time
@@alexandr_guluta most likely. In czech republic we also used to use 380/220 but switched to 400/230
As in Norway. And Denmark.
@@michal_king478 Same in Poland (and whole Europe I guess)
I'm so glad the 60hz noise was just sfx, my immediate thought was "oh no anything making that buzz in a residential installation is in desperate need of maintenance/replacement😬"
Lots of data packed into an enjoyable video 🦊💜
Mine has a very slight hum but I don't think there was any harm in it and my electric bill seemed pretty good for upstate New York's standards.
Insert the Fluorescent light commonly found in The Backrooms and the one we have in our house.
Or a single coil pickup.
@@Sheehy223 aw snap that too.
I run active humbuckers in my mockingbird and run it through a direct box but yes that too 🦊🤘💜
In that case Europe is 400V, because many households (including mine) in the Europe have 3 phase power at ~240V for each phase.
You also have 3 phase + neutral + ground.
380V in Continental Europe and 415V in the UK to be precise
what in the world do you need 380V and 415V for
3x240 = 400?
@@JFK_Speedwagon to drive asynchronous engine mostly
Can't watch your videos when I'm tired as they're too calm, but when I'm wide awake and interested, I love finding a new one of them to enjoy and learn! :D
"To Europeans this looks horribly dangerous. That's OK, we're coping."
You have the best lines.
Having seen into his fuse box, I would say that his lines are actually pretty bad...
Holy fuck, he wasn't kidding. That looks more than horribly dangerous.
@@vezokpiraka Only if you're fiddle-farting around in the service panel with the cover off. Something he explicitly said *not* to do. Try to keep up, pal.
@@vezokpiraka OK, the neutrals look like a rat's nest, but those are neutrals :P
@hawkturkey I mean. Our wires rlly aren't that thin tho? I'm not entirely sure where you'd have gotten that idea?
And even then our actual breaker panels are way better designed
My grandfather died in the AC/DC Wars; he was Thunderstruck.
That joke was a touch too much.....
LOL
such a shocking sense of humor
On the Highway to Hell?
@@sujimtangerines no, shockingly it was on electric avenue...
1: as soon as I heard that hum on the circuit panel I was worried that there was something really wrong with your house, glad it was a gag.
2: Thank you so much for explaining that voltage matters! Yes, it is the current that does the damage, but I hate it when people act like the voltage is irrelevant to that.
Hmm. My circuit breaker hums like that. I should hire someone to look into it.
@@simonmacomber7466 The hum is caused by sightly loose wire. Not a big deal, but you can pay somebody to improve that.
Well actually it's the wattage and to be fair, the time does matters as well. (and other crazy stuff like frequency too to be honest.
@@PermireFabrica just don't touch the dang thing
Current doesn't cause damage any more than voltage does. It's meaningless to say that about either of them. Put megaamps through a 0 ohm load and nothing will happen (to the load!).
You could reasonably argue that the power, which is a resultant of both V and I, is the culprit. Of course that's a resultant of voltage and impedance really. Or current and impedance. Or...
If in America you have 240V, then in Europe we have 380V. Electrical connections receive three phases (380V), although in most homes, only one phase is connected (240V). In elevator motors and industrial installations, the three phases are used to their advantage.
"There isn't some magical point at which voltage suddenly becomes dangerous" 60V. But even at lower voltages such as 120V, skin doesn't follow the linear Ohm's law formula you showed - its I-V curve is nonlinear, changes over time (since skin acts more as a capacitor than a resistor), and its resistance (impedance) varies with both voltage and frequency - for a DC source, current through your skin increases at about I = V^3.8 around 120V. [2] (
Thumbs up only because there's references 😂
Yeah, okay, we can argue that it suddenly becomes *more* dangerous -- but the number of people who die from 120V shocks every year shows that it was already dangerous, even if less so, before that 500V point.
Also the higher the voltage the more likely you are to have an arc blast. More dangerous than getting shocked.
@@emolatur yeah with most voltage and current scenarios it's actually pretty safe to touch it as long as it doesn't pass through your heart lol. You don't want angry pixies near that.
I would say that's the point it becomes "drastically" dangerous. It's not like it isn't dangerous below that point.
I really liked this video right up until the rant during the credits. Then I loved it. Thank you.
I must concur. I was rolling!
"To those of you in europe this looks horribly gross and terribly unsafe"
Laughs in brazilian
I remember being a Kid having lessons about how electricity is dangerous and stuff... Here in Minas Gerais we still have TV ads from our electricity company warning about that kind of stuff... And maybe because of that I studied and got a Electronics Engineering degree today :) (Not that I have any use for it these days lol )
Do yall just do the jumper cables off the pole? That's how it goes in Panama
And our president still wants to Go back to the old plugs that are even worse. Like, for fucks sake Bolsonaro, dont you have better things to do?
Laughs in 50A electric shower
"Hue hue hue hue hue"
Great video. RCD or MCBO are now mandatory on every single circuit in Australia. I’ll never be convinced electricity isn’t a big deal.
why would some person suggest to you that " electricity isn’t a big deal.". i am utterly baffled? does this happen a lot in Australia?
6:35 yes im kinda shocked, greetings from 3 phase 400V EU
415V UK.
@@paulsengupta971 before 1987: 415V±10% thereafter til 2003: 400+10% -6% , after 2003: 400V±10%
@Taraniis correct, the new numbers are the specification, but not in practice
Yes, nothing has changed apart from the "standardisation", allowing a suitable tolerance so that no electrical systems had to be changed in practice.
Well, when we combine two phases we have 400 V ;)
And since we get three phases into our house (in Germany), this is quite common to have a 400 V outlet somewhere.
And in case you wonder, usually you get 63 A on each phase.
I'm from Germany and I still know many places without 400V outlets, but mostly, those houses are older than 30 years.
And by the way, the showed service panel looks quite messy, compared to a new panel here in Germany and other countries in Europe.
Russia, the same. Rural areas have 400v too. Switched from 220/380 to 230/400 some years ago.
@@kokokoshka-s7c Probably that changed with the fall of Soviet Russia. I think the GDR had 220/380 too.
You can also get 400v in the USA if you need it. Usually most houses have natural gas so they don't need anymore than 240v my heating is natural gas so it s very cheap I pay like $45 in winter -10c to heat my house super super cheap. So I don't need to waste money for 400v panel.
@@Skyliner04s In Spain we had 127 (1-phase) and 220V (3-phase), then we changed to the European 220/380 (so we could still use 220V-rated appliances), which with time was finally raised up to 230/400.
"A quick reminder of what transformers do. They're more than meets the eye!" ******GROAN
This made me really happy
Took a moment for the joke to process
But that's not important right now 😂
80s joke.. Wahoo!
@@Froggability I beg your pardon, Transformers are as cool today as they were 35 years ago, and I'm not desperately trying to hold on to my childhood at all.
I will finish watching this later but note: Most large loads in the US are served with 480/277 VAC three phase. 240/120 VAC split phase is mostly just single family home residential power, and even large apartment buildings are served with 208/120 VAC three phase. Most energy is delivered at 480/277. Basically anything above a 1 megawatt transformer. Most ceiling lighting in large buildings is 277 VAC.
in europe almost everything is 230/400v 3 phase
That ending rant was a thing of beauty.
15:10 “magical point at which voltage...becomes dangerous”. When the telecoms industry in Australia was deregulated (back in '80s), the new cross-industry regulator needed to get data on just who could be authorised to work on telephone circuits, which operate at 50V DC with superimposed 80V AC ringtone. An employee named Ed Bondarenko, known colloquially as Dr Lightning, and who worked in the high voltage lab of the research facility attached to the original government telecoms authority, volunteered to be hooked up to increasingly strong power sources (voltage and current) until physiological trauma was detected. This was done at a major city hospital with resusc gear on standby. The outcome was that telecoms circuits required similar licenses as any other electrical work.
Why am I laughing while reading this? Especially the part "...until physiological trauma was detected." Who did the detecting?
I think you got the name wrong I think it's supposed to be electrboom or big Clive?
@@michaelwarren2391 thats the polite way of saying "shitting your pants... and maybe dying"
I wouldn't call the licence similar to any other electrical work,the course to acquire a open cabling licence(phones) can be done in 2 weeks. Add maybe 1 week for some endorsements like structured cabling(data), overheads and undergrounds.
The course to acquire an A grade Electrical licence is 4 years.
Hahahaha, ozzy still using copper for telecommunications.
In this video: The UA-cam's most beloved pedant tells people to stop being pedantic.
This might be my favorite techcon comment ever
UA-cam's most beloved pedant is, as usual, incorrect.
That's because it's his job. He gaciously does it for us so we don't have to. :-)
He is deliberately incorrect to make it intelligible to people.
I think he's being stupid about the sarcasm about plugs. US plugs are actually fecking LETHAL
And he's wrong about the 240 vs 120 shocks. Both are equally lethal.
So of I want 240 for a welder I just need to put in a double breaker and run that to the welder?? I assumed it was more complicated than that.
Just wanted to say thanks for explaining the difference between 3 phase and split phase service. I’ve watched a number of videos and your 30 seconds of this video summed it up for me quickly. Thanks!
"Like a lil' furnace. But tumbly". This entire video is fantastic
Jeez, that strong roast at the end was harsh, I love it.
The thing is about the switches on sockets: wall warts, phone chargers, laptop chargers, etc. consume a not insignificant amount of power even when not charging/powering anything, and yer just unplug it, but wasn’t already covered that plugging in/unplugging can be a danger (before you get to wear and tear)? Yer I know the standard was created before wall warts were a thing (and actually you can buy sockets without switches here too).
It wasn't a roast, it was whining in the face of a clearly superior solution. Switches on outlets FTW.
Not a roast. Envy and jealousy at our clearly superior electrical system. Enjoy those sparking cables in the street too when the storm blows over the poles that carry it to your home. Ours; underground unless on pylons for long distance.
I was genuinely concerned when I heard that buzz. Wired a few houses and I've never heard anything like that from a properly functioning panel. Closest thing I've heard to it in a residence is a stuck fan relay
Glad you didn't run down the rabbit hole of the different types of 3 phase transformers (Y, Delta, corner grounded Delta)
Comming from country where pretty much every house has 3-Phase 400V, and mandatory RCDs (GFCI) in the Panel. Murica is still weird.
We’re getting there. We have AFCI breakers required on pretty much every 120v circuits in the house now, as well as GFIs required on more circuits every time the code gets updated. Seems like soon many 240v devices will be getting GFI protection added in the next couple years. Only issues I have with it is the cost of building a house has gone up quite a bit. I mean a standard breaker costs like $6. An afci or gfi (or dual function) breaker costs $45-60. Not exactly budget friendly...
I'm not understanding the pissing contest about 400V stove power, when we (the US) have natural gas for our heating. The 120V power source is only the ignition, and powers the electronics.
Yes, give my EV 3p 400v.
Wait, you forgot the line that every comment from a German leaves on UA-cam videos... "That is forbidden in Germany." It's always that same line. "Forbidden."
@@1mrhamel the video was about "we haz big voltage too" so ppl are just havin fun :)
Afaik most electrical stoves don't even use the 400V but 3x 230V for seperate areas. For me the 400V are mostly about powerful tools or car-charging.
Dude. I've been going to school for electrical engineering for some time and you've condensed all that information so well! You're doing God's work sir.
@@User0000000000000004 he's just joking/kidding/it's only an expression
@@aydenrice9463 I don't know, he could actually be serious.
Oh dear. Don't do the "no God" thing here! Go find a preacher to argue with. Please?
@@User0000000000000004 It's an expression. A colloquialism, an exaggeration. The inclusion of God into such a technical topic may have clued you to the use of sarcasm. Now, I know that making out with your mother isn't technically in-breeding, but I'll be damned if that, along with your comment, doesn't point to the challenges faced by the inbred mind.... Marty McFly. Why don't you just go ahead and keep leaving the science to the Doc's of the world.
@@User0000000000000004 There's always one of you sticks in the mud, isn't there?
This guy’s aesthetic is those “I Spy” books
That's why we love him.
His head could be photoshopped on to a 50's superman picture and you wouldn't notice.
Tyler lol I love that but don’t diss my man!
First off your presentation is informing and entertaining. It did cover a lot I missed or forgot. We are not only coping, but improving in the plug/socket area. Plugs now have that rim to keep the fingers away from the prongs. Appliances are double-insulated and wall adapters by design won't let you anywhere near the prongs. Then again accidentally coming in contact with 120V is the best safety teacher if you live through it.😊
120V best teacher? I had them at home and a few times they hooked me up as a receiver and I didn't feel any respect. now I have 230v (because I live in Poland) and after nothing else I started to care about not becoming a consumer
The switches on our UK outlets goes back to before we had shielded conductors on the plugs.
By switching the switch off the conductors were disconnected from the supply in order to prevent fingers from contacting the unshielded conductors of the plug.
Unshielded conductors were outlawed a few years ago and the switch is in reality no longer really necessary. The design of the 3 pin UK plug ensures that the "HOT" wire is always "on the right terminal" so that the switching occurs on the "HOT" side .
Most homes in UK are supplied by a single phase from a 3 phase supply at the local substation.
The voltage between phases on a UK 3 phase system measures a nominal 415 v.
The same methodology applies in Australia and New Zealand except our type J plugs are pathetic.
The British Plugs Type G (of which I have some) and used in quite a few countries, for example, Some African countries, Jordan, Iran and Hong Kong among others are the best-designed Plugs and sockets in the world. The German version of the European design comes second. (China uses the AU/NZ type I as does Argentina and a few others.
It can barely handle 10 amps 2300 Watts . I have seen them heat-stressed and starting to melt.
Really dreadful design. U.S. plugs and sockets are just as bad and perhaps worse than AU/NZ
The switch is very handy when you have something like a phone charger and it means flipping the switch stops it charging, so you don't have to keep unpluging it. Also when dealing with a high current inductive load - fan heater - to turn it off in case of a malfunction and avoid the blue/green flash of the back EMF across the plug pins. Every UK socket should be switched, then it could save the country a fortune with devices that are never really OFF and only go into STANDBY, that way we might have a cat-in-Hell's chance in meeting the carbon reduction promise that idiot PM Blair signed us up for...
Because you have 240V on each wire in the UK.
The switch was always an optional part of BS1363 from the beginning. It was never required, even before sleeved L & N pins.
@@jonathanpalmer155 Wait, am I understanding the order of operations here?
You (charging phone):
1) Plug phone into charging cable.
2) Turn on outlet so that phone starts charging.
You (stopping phone charging):
1) Turn off outlet.
2) Unplug phone from charging cable.
Me (US; charging phone):
1) Plug phone into charging cable so that phone starts charging.
Me (US; stopping phone charging):
1) Unplug phone from charging cable.
-the purring dork
Never stop the snark. It’s become a lifeblood of mine.
I'd like a Technology Connections on the European/British panels.
Keep in mind the substantial differences between Great Britan, Ireland and Malta vs continental Europe!
@@Bright2Shine True that, big differences
British pannels ar as far from sensible European panels as they can get :D
We'd have to crowdfund a trip to Britain/Europe, and find two Brits/Europeans willing to let an American into their homes to disassemble their service panels and rant to camera about how weird they are, but that's far from impossible
John Ward makes videos about British panels, including historical ones.
Awesome video, I knew about the 240v service and how you wire a 240v circuit but it never dawned on me that the two busses were 180 degrees apart, thus 240v potential.
The system is single phase. The 120V is both on the same phase since it’s on the same coil. It’s jist a center tap off one side. Think of it like stacking 2 batteries of 120V each and using the center point as the neutral. There is no phase shift like a 3 phase system in which the hot lines are on separate coils. If you measure on an oscilloscope, you will see they are on the same phase. The amplitude on the sine wave just adds up when you measure from hot to hot. It’s similar to a potentiometer with a center tap, the resistance changes from 0 to max resistance depending where the center is adjusted.
"An interesting possible fact" [or some variant thereof] needs to be on a t-shirt
''Damn, that's fascinating thing, which is quite true and has a high probability of being feasible, bro.''
Ok.. maybe not the variant you're looking for...
It's almost, but not quite a Hitchhiker's Guide quote too.
In EU we have 400V 3-phase at our homes..phases are split into several 230V circuits to balance overall load. Btw AC rating voltage is in RMS so, 230V peak to peak is 325V! ;p
In the UK most properties are single phase, with a third of the properties on each phase. Blocks of flats (apartments) have 3 phase running up the stair.
Ireland here, single phase 63A or 80A is standard for a typical house. 200A or three-phase is pure opulence!
US Houses built in the early part of the 20th century generally only had 60 amp services.
Modern German Single family houses have 400V 3phase 63A. But as most houses se are heated with Oil or Gas this is often not used and the Main Circuit breakers are rated at 25A per phase
@@AaronSmart.online 2 phase's are common in larger houses
What Transformers Do: “They’re more than meets the eye”
🤣 Came here for this, started typing the same and saw you did
Goodness when he is about to open the panel, I think this is one reason I watch all of these all the way through
I hope no transformer meets my eye. EVER
More than meets the I (current)
So I'm not the only one that thought he missed a opportunity to wear a Autobot shirt..lol
He is so smug about the 240V in US households^^ cute
In all german houses we have 400V in 3 phases plus neutral.
They are used for things like boilers, electric heaters and the stove.
The normal outlets have one of the 3 phases and neutral (plus ground sometimes) at 400V/sqrt(3)=230V
We usually also have a 3 phase 400V outlet somewhere in the cellar or garage which can be used for industrial tools but not many people use them.
But it's quite cool that we can just buy any industrial machine and plug them in. Often people get old stuff from work like big robot arms, welders, CNC machines and they can just plug them in in their garage.
"But first, a quick reminder of what transformers do. They're more than meets the eye."
GOD DAMMIT! XD I love you and hate you for that joke lmao
Can't believe I missed that. Fucking love this guy
I didn't even catch it until I saw it written out. I facepalmed SO hard... :P
@Francis Hubert neither do I. Slap the nerds
@Francis Hubert It's part of the transformers, cartoon theme song
@Francis Hubert ua-cam.com/video/nLS2N9mHWaw/v-deo.html
I'd like to say how much I appreciate your humor. Seriously. Do you know how hard it is to talk about electricity w/o putting to people to sleep? Yes! So my hat's off to you for explaining anything & everything electric so simply and FUN! Well, maybe not as much fun as mini golf, but it ranks right up there! /cheer
Since he doesn't know what he's talking about maybe he should take his comedy show on the road? People who seek an engineering degree find electricity fascinating. I was never bored.
"Stop being pedantic about it," he says, pedantically.
In seriousness though, great video! Learned a lot I didn't know. The whole "it's the current that kills you not voltage" thing is really only applicable to high voltages built on small capacitors (e.g. static discharge from shaking hands won't kill you despite the high voltages involved) but people misapply it to everything.
I went radio and tv repair school ,some body would always charge up a capacitor and leave it laying around waiting for some dummy to pick it up and get zapped. Not funny
We have 3-phase at work and 208 on most of our equipment but there's a few that distinctly don't like it. They are large capacitor-start motors that will occasionally trip their internal breaker if the motor fails to rotate properly at startup.
I’ve had more problems with 208V. Would a small step-up 208 to 240 transformer help you? That’s what we used for a high end laser system.
@@amadeo262 Perhaps. We actually do have 480v transformer in the facility with extra capacity on it, it's just on the other side of the building and would take a lot of wire to re-route. However it's on the list of things we're going to do when we have down time.
My question is why is that electric motor not a 3-phase motor. If you have a 3-phase supply and you're not using 3-phase motors than then you're just being incredibly dumb (when I say you on talking to whoever decided that two-faced motors are the best for that application)