You can bet that as soon as we can get our hands on a 277V NACS EVSE, we're going to install one! Also: If you want to go deeper down the rabbit hole, 120/240V split phase AC is 120V RMS (root mean square), not peak. The peak voltage is actually 170/340V, but for reasons that I'll let you google, we use the RMS value colloquially and act like that's actually the peak. An earlier cut of this video took a deep drive down that long road but our editing staff fell asleep so we decided to leave that on the cutting room floor.

Thanks! I never quite understood how we got 208 volts from 3 phase until this video. Also I love that you have a vintage macintosh on your desk!

THIS is why I watch Alex on autos. No other car journalist would think about, let alone make a 14 minute video about a topic that (while somewhat niche for this platform) is such a big deal in the real world. Love the detail you go into as well

Was not expecting an electrical engineering crash course in this video. Nice job!

Excellent. I'm a mechanical engineer, work for hydroelectric power and just bought a new Ford Lightning. Its interesting to learn the background of why how EV charging works and how our grid works (at residential level). Anyway, great video!

I now understand why 3 phase provides 208v instead of 240v. It’s been explained to me before but now I finally understand. Thanks

Love the use of a Mac SE/30 to demonstrate what uses a 120v plug 👍😆. I loved this video, thought it was really helpful as someone who understands EVs and the basics of charging but am by no means an electrician

I actually hadn’t considered how big of a deal this is. 277 is so similar to 240 in effectiveness for the user - but 277 is so much simpler and cheaper to install for commercial or industrial sites.

I rarely post comments, but I really wish you were my Circuits professor when I took that class all those years ago, Alex. This was great, thank you for this explanation.

Very useful. I've been peripherally involved with electrical service in my work for years and this was a good explanation of how American electrical service works and the differences between residential and electrical service. I don't think it was too deep into the weeds at all.

I can’t believe I have a degree in Computer Engineering, took classes in power transmission, but learned way more in this video.

Highlight of my day is Alex validating my nerd credentials by sticking with the video. Very informative and useful, thanks!

You remain the best at razor sharp accurate facts. Thank you for being such a power nerd.

As a recently retired Electrical Power Generation Engineer who worked for Square D, Leviton, Cummins Power Generation, and T&B this was well explained. There is one issue that I ran across in Denver at a police/emergency station where they designed a step-down xfmr off one phase of the 480/277-volt panel to feed one charger. After the installation, they wanted six chargers. Sometimes a dedicated 480V delta to 120/240V delta EV charging xfmr is easier to balance from the main 480/277 volt panel which has a lot of 277 volt lighting loads.

This was fun. I am an Electronics Technician and spent 20 years working on very low power DC devices used in potentially explosive environments like oil and gas facilities. Now I work for a company that does a lot of electrical safety testing so I am in the world of AC and anything from single phase 120 VAC to 3 Phase 480. It's been a (safe mentored) learning experience and interesting wrapping my brain around power delivery. Great video.

Excellent presentation, very educational and definitely not too deep. As someone who has cross shopped home and restaurant cooking appliances for my kitchen I've encountered the 208/240V conundrum. Glad to have the power differences explained so clearly.

Excellent video. As a European viewer I’ve just learned a lot about US power grid standards.

Great info, thanks! 277V will be important in the near future. Interestingly, Tesla originally supported 277V charging, but when they switched On-Board Chargers on the model S/X, they became less reliable so they officially removed support from all documentation. I think the refresh S/X are now using the same OBC as the 3/Y? I don't know now. Since the introduction of 3/Y, their onboard chargers can handle 300V max and many users on the forums have shown it working, as the Tesla wall connector also (unofficially) works on 277V. The OBC is power limited though, so most were only seeing 45-46A.

This is what I really appreciate about your channels, lots of "deep" facts and backgrounds, not just opinions.

I really appreciate that final point about why a “Global” connector is not only never going to happen, it’s just a bad idea. We have totally different power systems in the US vs Europe, and what works best for the US would be awful in EU. A “universal” charging connector would be massive and wasteful.

I appreciate the deep dive. Not that I understood it all, but I now understand just a little bit more about single- and triple-phase power -- and have a "high-level" understanding of how /why it changes things. Thanks. Keep 'em coming.

Great explanation! The downside of electrification starting in the US was starting to build out the grid before they knew what made the most sense. Europe's system is definitely superior. Glad to see EVs are making the best of it!

Great explanation! Coming from Europe I now understand more about the system in America. Thanks a lot!

In the UK most home supplies are single phase and max out at 32A so charge at 7.4kW on 230V. In some Scandinavian countries their house stock is newer and therefore have 3 phase as standard, giving them up to 22kW charging.

Most excellent deep dive!!! Never even thought 277v would be option (or even consideration) for level 2 commercial! Nice...

This is WONDERFUL. One of the best simple-but-deep explanations I've heard about all of this stuff. 277V at a parking lot means the most popular EVs (Tesla 3 & Y) get a FULL charge on their long range packs in about 6-6.5 hours. Note how unlikely that will be. Most users charge to 80% and most don't drive in on 0%. In a typical scenario a 2-4 hr visit may be enough to cover a whole week's worth of driving. Those extra volts do count an awful lot. For those without at-home charging, getting this J3400 standard in is more impactful than many realize. An hour in either of those Teslas is 36-50 miles worth of driving. You have earned a new subscriber immediately!

I always wondered why commercial L2 chargers were at 208V but never bothered to google it. Thanks for answering that and also helping me understand why allowing 277V is a big deal! Can’t wait for everyone to switch to NACS.

This was awesome! I’ve had so much difficulty finding explanations on these topics that aren’t “dumbed down” to the point of not offering useful information. I get it that not everyone has the background to follow what you just presented but it’s frustrating when deeper dives are not posted by anyone.

Oh, what a lovely SE/30 and IIci! The most beautiful classic Macintoshes ever.

Great job explaining that. I think most people will completely understand this.

I’ve been advocating this for years 277v is one leg of a 480v transformer. So a one 3 pole 480v 20A would have very little voltage drop, an inexpensive L1 N G to a EVSE would be 20A x 277v = 5.5kW Vs the less efficient 3p 208, so you need L1 and L2 plus G and with volt drop it’s around 201v. 20A x 201v = 4kW. So you your EV is charging at 37% faster with less loss and the transformer doesn’t have to deal with wacky L1 L2 and L2 L3 and L3 L1 balancing For cars with 32A max it's even better 32A x 201v = 6.4kW 32A x 277v = 8.9kW Or 48S Or 48A x 201v = 9.6kW 48A x 277v = 13.2kW Residential is 240v. So it's still a big improvement at 277v and no phase balance issues Saves SO much money on copper and transformers and line loss, while boosting charging time ~20% to 40% Large parking lots, like malls, apt, condos, and airports could deploy super inexpensive 20A NACS stalls at 277v and be close to the speed of their 208v 30A at dramatically lower deployment cost

More deeper dives. I’ve definitely witnessed this Split1Phase 240 vs 3Phase 480 explanation before but it never stuck. In one ear and out the other leaving me confused. You’ve got a clear, concise, effective teaching style that worked for me this time. Thank you so much.😊

Thank you for this. Basically no one is talking about this.

5:04 I assume you simplified this to make it easier to understand, but technically the 120 volts refers to the RMS voltage. The peak voltage as drawn on your graph would be √2 times higher, or 170 volts. In terms of the power delivered, 120V RMS AC delivers the same power as 120V DC (for a given current), which is why we use the RMS voltage. However, because the peak voltage is actually higher, things like wire insulation and capacitors need to be designed for the higher peak voltage.

It's nice to watch a video on something you already understand to see if the author actually knows what he's talking about and as an electrician I can confirm, he got everything correct!

Fantastic video. Very educational indeed. I would love to see more of these deep dives. As EE grad, I love this pivot to some nerd stuff. I had wondered about why 240V & 208V were explicitly called out on my EVSE. But never bothered to think more about it. Now I know. Thanks guys.

Great, simple explanation of the voltage spreads and the benefits of operating "pre-transformer" on 3-phase power! Another reason to be excited about the move to NACS!

Super informative and also interesting to see where manufacturers will go in terms of vehicle and charging equipment.

Thank you for the education. You are a standouts in your field. And I still have my SE/30 and NeXT Cube!

this was excellent. great work. agree, hope it can help expand lvl 2 which is sorely needed literally everywhere!

Around here 120/208V three phase is available to smaller commercial buildings, apartments, and what not and is pretty common. 480V is mainly industrial and larger businesses that draw too much power to be serviced by a lower voltage. In other words 277V charging isn't going to be available at too many places unless they add another transformer to provide it.

One easy way also to think of it is that a 480/3 vs a 208/3 has over double the power for the same amperage so you can cut you service size in at least half

Really great overview on the potential of new standards. Great job, Alex!

That was a fantastic deep dive, I’ve installed 240V charger at home and required a lot of other stuff and I thought I understood North American electrical circuits now. But oh man commercial US power is very different, couldn’t take my eyes off your drawings. Good job mate!

Brilliant, definitely not too deep. The big take-away is the ability to tap into a commerical 480V AC box, without needing any additional electrical transformers. I thought I was up to speed on the NACS connector and this video would rehash the stuff I already knew, but I was pleasantly surprised to be naive! Thank you

When will we start seeing NEMA 7-15, 7-20, 7-30, & 7-50 adapters for our Tesla mobile connectors? Thanks for your peak vs RMS disclaimer, as a power nerd I was vibrating watching your presentation. The adoption of 277 charging will make large level 2 sites much cheeper and more efficient. Thanks for getting this issue into the public eye.

This was great. We are rewiring our building and parking for EV's and I wasnt aware of this difference!

Super clear and informative! Kudos!

LOVED the detail. Getting into the weeds is my kink.

You broke it down really well Alex. Great primer on why 277V is needed for the commercial side on EV charging.

I love this explanation! Please do more of these!

Model 3/Y and refreshed S/X can do up to 300VAC charging, even if it's not advertised. I would expect that the OBC's on most other EV's are capable of it too, but the software almost certainly doesn't support it considering the limit of J1772. But that does make me wonder if J1772 could be amended to support it. I can't imagine there's any physical limitation preventing it from handling a small increase in voltage.

One of the reasons 277V will take a bit longer is the safety factor. Heat specifically the incident energy is a squared variable. So that relatively small increase in voltage means there's a lot more heat in case of a fault. The equipment, wires, everything has to be able to safely handle the added stress.

Great explanation, really ticked all the curiosity boxes.

This was awesome! Just as the detail started to make my eyes glass over, you brought it all home and made perfect sense to me. Great information!

Very well done. Thank you for the thorough explanation. 👍 As the owner of a BMW i4. Information like this makes it easier to understand charging speed differences. Thanks again.

i loved this deep dive, Alex! I'm a bit of an electrical tech nerd too! used to work on emergency backup generators and transfer switches/paralleling gear.

Knowing more is usually better and it is in this case. Still don’t fully understand everything, but learned a lot in this video. TY

It seems no one working on SAE J3400 talked to Canada, they use 600/347V for commercial 3-phase. Why not use the same voltage range as J3068?

I had to rewind in a couple of spots cause I was like "wait, what?", but super interesting!

Electrical engineer here who designs power systems for buildings. Nice video, but it does have one major issue. Most apartment buildings (even very large ones) and small to medium sized retail buildings do not have 480V delivered to them. The power comes in at 208V from the utility. I will have to look into whether this would make it economical to start bringing 480V in for apartment buildings with a lot of EV chargers. 277V will make fleet charging significantly more cost effective though, which I don't think you mentioned.

I'd really love to see a deep dive into the toyota/lexus hybrid systems. the theory of operation if you will. how both mechanical and electrical power flow etc. I saw a deep dive into the honda systems a while ago and i enjoyed that a lot.

Thanks for covering this Alex, Power Geek here.

I love nerding out! 😇 Especially with a Mac SE/30 w/a Motorola 030 processor... that SE/30 was like a killer Mac IIci in a lil' box back then. 🤓 Oh wait there was a Mac IIci next to it!!! ha ha I LOVE it!!!

Learned a lot in the time of a coffee break. Thanks!

For what I've heard, the j3400 standard for ac charging will make the eu style bring your own cable charging as an option. It also specifies the same male mennekes connector for the evse side. Since it has more pins you could put 277v on the L1 pin, neutral on the neutral pin and 120v split phase on L2 and L3 pins. It would be a wiring nightmare, but you can support all vehicles needing 120v 240/208 and 277v.

What really makes it cool about J3400 is that even older Tesla onboard chargers natively supports 277 volts single phase since they were also used in the v2 Supercharger power cabinets. By ganging a bunch of them together in a 277/480 3-phase configuration to streamline costs and rapid deployment by using what they already have in current production. J1772 standard is limited to 240 volts if my memory serves me correctly and their onboard chargers are probably the same. So, if someone decides to plug in to a Tesla Wall Connector (EVSE/charger) using an adapter at a commercial site that is being supplied with 277 volts might end up letting the preinstalled smoke out of their onboard charger. The conundrum begins...

In europe, single phase AC chargers go up to 32 amps, about 7.2kw. The plug in granny chargers are usually limited to 16 amps (3.6kw).

Some of the Teslas here in Europe that were early builds or imported have NACS and with that I've even seen some Superchargers that have both NACS and CCS.

32A at 208V, (ergo 3Ø) seems to be most popular at low power L2 charging stations. 277V is quite exciting since we would get 33% more pixies!

Most people will understand what you are explaining, but the sinewaves explaining 120 and 240 volts are not correct. The peak as you point to is around 170 volts - the RMS of the curve is 120 volts.

I love this! No one else talks about 277V being in spec now!

Wow this was a fantastic explanation! I've driven an EV for the past 8 years and know a lot of nitty-gritty details but this is new to me

I am not someone in the market but I like to stay informed. your explanation was concise. I know you talked about the fact that PHEVs are a more optimized use of battery technology for carbon emission reduction in the US market but now that some major auto manufactures are easing off of BEVs (finally) I would love more deep dives on PHEVs. (any facet)

1:47 excited to see working Macintosh

Thanks!

Greately appreciated as the house I am buying has 3 phase, and Tesla is my next vehicle brand. I never knew exactly why 208 and 480 were or their relationship. Very interesting and informative as well as lucid.

Great idea for a video and very well done! Homrun!

In India standard voltage is about 240 volts and peak loads above 6 kilowatts is compulsory three phase even to households. I use an EV myself but limit my home charging to 3.3 kilowatt charge, but all commercial fast DC chargers are supplied three phase from the grid and max out at 60 kilowatt fast dc charging.Edit: we don't use any transformer after the meter, it's illegal to install a transformer after the meter unless you are using a large industry where separate and approved installation are provided for.

I have heard there are a lot of cities code restrictions against using a single leg of three phase power. The Tesla Gen 2 wall adapter and the mobile connector already support 277 volts as well as all model 3s Ys and most model S/X cars. There is a great thread on 277 volt support at Tesla motor club forum. It seems code restrictions are likely to hold back deployment in the near term.

Thank you for the explanation of how to get how many Kw an hour you can charge at. I was curious how that worked and had wondered how you figured that number out and now I know.

Wow, very interesting. I originally come from Australia and normally there a home will have single phase 240 V. However, if you install a Tesla wall connector, as you pointed out, you have to wire it three phase because of the phase load balancing requirements. The electrical system in the United States has always bamboozled me somewhat because I am so used to having a three phase environment for heavy electrical loads in a household. Great explanation Alex I learned a lot, particularly that the onboard chargers are current limited, not power limited and the difference between US Mains power delivery at a residential home as compared to a commercial property. I personally would very much like to see that in the near future on board EV chargers are all rated for at least 80 Amps, vs the current 40/48Amp, as with batteries the size of the Silverado they are not simply adequate enough to take advantage of super off peak rate time periods..

Thanks a lot for the deep dive, Jason....oh, wait

Great explanation! the MAIN point is cheaper Level 2 installations but as you rightly pointed out, what will happen to existing J1772 vehicles...? For the good of the EV future, they need to start handing out these J3400 Level 2 277V EVSEs like candy. So many commercial building owners are very reluctant to install the Level 2 chargers due to cost.

I had never realised what a mess the US electrical supply is. In the UK it’s much simpler - we have either 230V single phase or 400V 3 phase (230V x 3). In the UK we get three phase in some domestic properties (I have a 3 phase 75kW into my home) but the majority are single phase. New properties are now being installed with 3 phase due to the strategic aim to move to EVs and heat pumps for home heating. European EVs typically can charge at 3.7kW, 7.2kW (16A/32A single phase), 11kW or 22kW (16/32A three phase). Not all EVs support 32A three phase so a lot of cars only support up to 11kW. I have a dual 3 phase charging post in my driveway which can handle two cars either at 3.7kW or 11kW.

No, it wasn’t too deep, of course I was an electrician in the Navy, so it makes sense to me. Very informative, thank you.

Great discussion. Could add delta vs. wye transformers in US related to EV charging another video.

I wonder if the 277v will be labeled. Right now with a J3400-J1772 adapter I can charge a non-tesla at a tesla brand destination charger. However what would happen if I plugged in to a 277v destination charger with a system that can only handle 240? Sparks / Fire / Nothing? All are less than ideal outcomes.

This was brilliant! Answered a lot of questions I had about single vs 3 phase power. Thank you!

Great description, however suspect the onboard vehicle charger immediately rectifies any AC power into DC, where it can use a low cost switching tranisitors (IBGTs) to control the charging. 3 phase is better for rectifing to DC since it doesn't create as ugly DC pulses. It only requires six (6) inexpensive diodes in the wall connector for an NACS (SAE J3400) to work. I've suspected the lower voltage DC support might have been planned for 3 phase and home direct DC solar charging solutions.

Awesome explanation, Alex!

That was fantastic. It explained a lot for me.

Nice rundown..thanks

GREAT LECTURE. Love it! I think you might be implying that we should wait 3-5 years for the new charging standard to get implemented in vehicles.

3 phase charging in Europe is a game changer. Being able to charge at 22kw instead of 7kw makes plugging in at shops actually worth it. If you live in an apartment and can’t charge, then with 22kw you can get enough juice during your 1-2 hour shop each week to last you all week. I wish Tesla has a 22kw onboard AC charger :/

Excellent video. Electricity is still a mystery but this made some sense out of it. I love the deep dive stuff.

Alex, really curious how this is going to play out in the Retail space as charging your car may become a perk of Walmart+ etc. Right now, the LOE (level of effort) is burdened on the on premise transformer / end user-- however, with that potentially changing, that could be the ticket to higher speed charging and widely available compatible charging stations independent of the car you drove. As for the standards themselves, are they governed by an IEEE like board for all geographical countries? Seems like a no brainer to help with moving standards forward. Great video btw! 😎

That was excellent. I LOVE stuff like this.

Great explanation!

Alex, are you telling me on top of everything else you have a vintage Macintosh collection? If so I'd love to see a video on that!