Home Charging Installation Risks and Advice

I am an electrical engineer(retired) who wrked in design of building services. The problem with all of the burned plugs, breakers, and boxes was that the wires used in all of the failures shown was that they all used aluminum wire. This is a known issue with high load applications ( electrical heating is another one) where the load is intermittent. The constant cycling causes the aluminum to flow when hot and then when it cools the connection pressure is reduced.
don't use aluminum wire- copper only, and you should not have problems!

Munro should have a look at tearing down some chargers that are used in homes and commercially to see the standards they have.

You have probably saved homes and possibly lives with this video. Thank you, I am about to check my entire charging system.

I've been living the 120 V lifestyle so far, have a Tesla home charger, and now I am thinking about getting a second box just for the EV and make sure it's a lot safer than that burnt out one. Thank you for this!!

Great info , as always, thanks again for your efforts informing us in the cheap seats

We had our 75 year old home’s panel replaced, updated, and upgraded just prior to deciding to buy two EVs. I got my Model 3 in March 2021, my wife got her VW ID.4 in July of ‘21.
I had our electrician install a Tesla Wall Charger off a sub panel just a foot from the charger. For the VW, it has a new 14-50 outlet off a different sub panel with all new wiring.
We also use TOU charging (between midnight and 6 AM), when other electrical appliances are not in heavy use. Except, during the summer, the a/c will run overnight to keep the house cool.
For well over a year, no problem with either set up. However, I am now going to have our electrician come out and give the setup he installed a good inspection and have him upgrade anything that he deems necessary. I’ll
share this video with him, too.
Thanks for the great work on this!

Can’t overstate the value of the information you gentlemen gave! We live in a world where we look for fast answers. We hear, “Move fast & break things, we can fix it later”. I’m not thinking that about setting my garage or house on fire. The Cheap, Fast, Good triangle demands Brains. You folks brought some thinking to the table. Well Done!

A couple tips that might help that anyone can do as a EV owner since 2019:
1) If your car charges fully really early overnight, reduce your charging amps with your car / charger settings. For example I can do 32 amps with my home mobile charger, but I have it set to 22 amps because my car finishes charging fully well before I wake up in the morning, no need to charge at max amps.
2) If you use the mobile charger and never unplug it from your socket, it might be a good idea to unplug it and re-plug it every 4-6 weeks just so that it keeps a nice clean contact. My mobile unit has complained about overheating once and after re-inserting it into the socket, the overheating stopped.

Thanks guys. Public understanding of EVSE is crucial.

Great video. I have a permanent installation for my EV at 48 amps. I limited my charging speed to 28 amps as give plenty of time for my car to charge overnight. I am happy I have done this after watching your video. We should always charge at the slowest speed that convenient for the model of car we have and the usage we are making.

This video came out at the right time for me. I hired an electrician 4 years ago to install a NEMA 14/50 port in my garage and have been using the Tesla mobile charger since with no problems. However a few months ago I bought the Tesla wall connector since I'm now charging two EVs (one at a time) and needed a longer cable. I was tempted to install it my self but will now hire an electrician and mention the problems covered in this video. THANKS!

Great points!
A typical 240v dryer pulls 10-30 amps…..but usually with duty-cycle and only 60-90 minutes run time.

Wow what an eye opener. I for one am going and checking out my installation. I used an RV box bought at one of the big box hardware stores that contained a NEMA 1450. Probably of the $15.00 variety considering I only paid $56.00 for the whole assembly. I did it myself, now I think I better hire an electrician . Thanks you probably just saved my house, maybe my car, and most importantly my family.

*Passed this along to my electrician.* Many thanks! I will have my electrician install a separate EVSE breaker and panel with voltage management. Glad I went with the decicated TESLA wall charger with no junction boxes used. Not a fan of using 60A just because "i can". Best to give wide berth to the minimum code requirements.

What a very good show and warning! We are probably a year or so away from getting our first EV- but this show may be the most important one to consider in that process of an EV purchase. Well done, and tell Mr. Shaw 'thank you,' for me!

What typically happens in these failures is that the plug gets dirty, the connection isn't tight enough, or the conductors get a little bit oxidized. This causes the resistance to go up slightly. An additional 0.1 ohm on a 30A system is 90W of heat in the connection (360W in a 60A system). As the temperature rises the conductivity gets worse (causing more heat) and eventually the whole thing melts down. Plug materials changes can contain the blast but they won't solve the root problem.

As an architect, this is so important. Thank you Sandy

Good discussion. Long time coming. Too many Tesla owners pay $70,000+ for car but cheap out on appropriate home charging equipment. Four years ago I purchased the Tesla connector and had it installed by a Tesla certified master electrician. And yeah, a separate line was installed to a dedicated junction box with a blade cut off. Cost $1400. No issues.

This is also a serious problem for 110v mobile chargers that come with the car. After moving to a new home I discovered I could run my Model 3 on a 110v charge. Unfortunately, the outlet convenient to the car was the 5th outlet daisy chained from the breaker. While the mobile charger automatically derates to a 12 amp draw, after almost a year I had a smoke event and found a completely fried outlet in the middle of the outlet chain and outlets on either side having been overheated. Using the end of a chain like that is bad enough, these outlet were installed using the push in connections on the back of many outlets. Any electrician will tell you those suck and to never use them.
Every EV owner needs to have an an EV experienced electrician like JW evaluate their charging installation.

Lack of certification for intended use is beyond frustrating, but sadly nothing unexpected. You guys are doing a great job with this PSA, hopefully it gets further though. Thanks.

Well done Sandy. I just called my electrician to educate him and get him to change out the breaker and plug. JW's recommendations are very necessary given the loads of these weak points and fire potential.

Sandy and his friends and compatriots are great teachers. Regulation of the quality and performance of EV charging infrastructure clearly requires government regulation. Because, as Sandy has so aptly put it…, ..” some people don’t like it when their house burns down.” Well said!

I hope the reverence and respect that folks hold for Sandy Munro translates into this getting traction. Thank you for Sandy for allowing your platform to be used to get this out there.

Thanks Sandy! I recently a NEMA 14-50 installed for.a Chargepoint Home Flex - by certified electrician. However, I never knew any of this information that you and your team shared... Now I'm going back and reviewing this insulation, to see if all possible safety precautions have been to observed! Many thanks!

It's a good idea to check for high joints by feeling cables, connectors and breakers and/or use IR Temp sensor periodically. connections can go bad over time plus under high load. I had my Tesla wall connector direct wired to a dedicated sub-panel with other receptacles including a 40-50 for other EV's to use four years ago and set the car to charge at a max. 25A to80% 90% of the time. Adding a line monitor to limit current when driers, air conditioning and other loads are all on at the same time is a good idea, too. Thanks for bringing up the issue. I used to install high current xray machines 480VAC 3phase in an earlier life and were always cognoscente of proper connections and grounding.

This level of concern and information is why I follow Munro

I should be noted that having a thermal camera is a great tool to help find these issues. Some businesses regularly scan electrical panels for hot spots. Hot spots and indicate poor connections, underrated wiring, or breaker issues. Moving forward it might be another important tool to have at home.

Thanks for this safety related video. One thing I noticed on the failed components was that they appeared to have aluminum wiring. For heavy, extended loads I would definitely prefer maximum gauge copper wiring even though it costs quite a bit more.

Thanks for sharing! This is huge! Now people will listen!!!

Steve, you are absolutely correct. This electrical installer did the home owner a big disservice. He made extra money by installing aluminum service cable instead of copper which is 50% more expensive in addition to installing the connection improperly. Electrical contractors have known the dangers of aluminum cable being improperly installed for 50 years.

I've been home charging since 2014. I've installed 5 or more EVSEs. Never any problem. Recently I went to a direct wired EVSE to support the 11.2kw the MME can draw. My house has 2 x 200amp main service panels. I have no doubt there are lots of people, even licensed people, that don't do a job correctly, but I have not seen or even heard of any problem with home EV charging in my area. Not sure about that box, but it looks like an A/C disconnect, which may only be rated for 30amp.

Thank you for telling us. I had no idea, and I'm guessing most of the general public knew about the nature of this. We all think a dryer outlet is simply a dryer outlet. Never knew to factor in duty cycle or the other things mentioned. Great public service making this video!

excellent on point video Sandy, here in the uk the max home car chargers as far as i am aware are 22kw unless you have a 3 phase install, also a lot of chargers have seperate dedicated earths, all as far as i am aware have to be fitted with a fast cut off fuse, home chargers here in the uk are tested to the max before they can even going on sale, the uk is not generally a user of slow granny chargers(slow) plugged into the mains unlike the usa and plug into the dryer sockets,but then for us its 240v ac single phase is the norm, although newer houses are being built capable of future upgrading to a 3 phase incoming supply, the stickers on my incoming electrical supply is 400v 100 amp, then fused down to 240v 100 amp max load for my house to my fuse box, our ev chargers are also equipped with rcd trips as well, different countries different electrical standards

I spent $1,000 to install the Tesla Wall Connector by an Electrician (did not include the Tesla unit) Don’t go cheap. It always amazes me how many UA-camrs are promoting DIY for only a few hundred dollars! Stop the insanity! Good job Sandy and Team! Giving the whole story!

Sandy - God Bless you! You just saves many, many lives and property.

This is right on time. I planned on installing my home charger this weekend.

My brother in law is a commercial Electrician, and he did a nice job with my charger install :-)

Thank you guys so much for this. I too experienced a similar event. An upgraded connector will help, but I learned that Europe is forcing the use of wire ferrules to keep the strands of wire in place at the connection points. It fixed my problems completely. I also used a 100A splice point to avoid any heat buildup. Simply clamping the wire and mashing doesn't work.

For those of us that can’t get the box, circuit breaker and plug changed out will dropping the max amps the EV will pull to 20-25 amps rather then 40+ amps relieve the problem enough to be safe. I use RV park 50 amp plugs a lot at many different parks. Going overnight the time isn’t so much an issue, but at times they are the only power source available.

this is really the most important video of all EV videos of this channel

Thank you all for the great information. I am currently in the process of upgrading our whole home/ garage electrical system to better accommodate 2 EVs. I hadn’t even considered the bus bar thermal management from the breaker to breaker perspective, and will also be bypassing a wall plug for the 2nd charger in favor or direct wiring!

This is an important conversation both for home owners, electricians, and those who write our electrical codes. I've installed two Tesla wall chargers, both direct wired to the panel with quality wire and components. Yet based on this video, I will be inspecting those installations and closely monitoring their condition going forward. Thanks!

Well I’m scared now, living in a house of seven people my Washer and dryer run 24 seven. Also everything in my house with electrical equipment made 45 years ago in America for better or worse. This is a great video! Your doing Gods work Sandy!

Very important topic. Thank you for using your channel to bring it to light.

This topic is so timely. I just got my Tesla 3 RWD last month, and I am getting estimates from electricians to install a 240V outlet in my garage. I am using the mobile charger in a 120V outlet. The third electrician I interviewed was trained by Tesla, and he pointed out two major violations when I had solar panels installed on my house. The installer tied the wiring into the CommEd box instead of adding a breaker to my electrical panel. The panel is in a closet, and he told me I should not store clothing in it (I have lived here for 40 years; he was the first person give me this information.) Thank you, Sandy, for this valuable information. Now I plan to order a Tesla charger rather than a 240V outlet. In addition, I learned the outlets in the garage are not grounded, so I stopped using them immediately. I use SuperChargers now.

THANK YOU. I just bought a Hubble NEMA-14 50amp receptacle. Worth $80 to get my amps back up. According to the Tesla alerts, it was overheating, causing undervolts.

I use a mobile charger but, since I have overnight to charge I limit the charge current to 25 amperes on a 50-amp circuit. The continuous rating for a 50-ampere circuit is 40-amperes. Since resistive losses are proportional to the square of the current, this reduces those losses by ~60%. Similarly, a 30-amp dryer circuit is rated for 24 amperes continuous, so charging at 19 amperes provide a proportionate reduction in heating losses on that circuit.
Even if I were to install directly-wired charger (Electric Vehicle Supply Equipment, or EVSE) I would follow a similar practice as the main panel breaker for the circuit is also subject to the heat stress.
It has been too many years (decades?) since I've studied NEC, UL, ETL or other requirements for these types of interconnection components so I cannot comment on the expected lifetime of a properly applied (torqued) component operated at its continuous rating. I only know that operating comfortably away from the continuous rating of any component will greatly extend its lifetime. Since I like my equipment to have good lifetime I am generally conservative in how I use it.
I am a little disappointed that, other than selecting "bakelite" vs. other materials for temperature withstand, no other guidance is provided for selecting a more robust version of a NEMA 14-50 receptacle, for example. Both styles would have passed UL, ETL CSA-US or other certification for 50-amp intermittent, 40-amp continuous rating. This may be what the commentators are getting to when advocating for a tougher set of EVSE standards.
A follow-up demonstration of an "acceptable" NEMA 14-50 receptacle and a lower cost "unacceptable" NEMA 14-50 receptacle, properly installed and applied at the 40-amp continuous rating. I would be interested in any difference in temperature rise between the two devices. A second comparison with a terminal improperly torqued on each would reveal a difference in safety margins between the two components, particularly the temperature at which the housing starts degrading. This would better inform the decision to install the more expensive component.

Wow! This was really eye opening! I thought I could just tell my electrician to install a plug for my wall charger and that was it, but now I need to rethink the whole installation. Thank you.

If I recall correctly, NEC requires that anything that runs continuously over 2-3 hours must be rated for 125% of calculated continuous current. So if you are drawing 60A, you need to rate everything for 75A or greater. Also, many breakers, outlets, cut-off switches, etc. are not rated for high temperatures. You might need to increase wire size to decrease temperature to match breaker and plug ratings. Most cheap NESC 14-50 plug outlets are not rated for continuous current and are only rated 60C. (They're rated for 1 maybe 2 hours at most.) If you are assuming that your 90C conductor can save you money, you're wrong. The lowest rated temperature is deciding factor. The conductor must derated (must increase conductor size) to compensate for the lowest temperature rated device. The heat from the conductor, as well as any poor connections, will heat the associated equipment. And lastly, don't forget about voltage drop. Having an EV circuit ran from a breaker panel located on the other side of a building/house will probably cause a voltage drop, which will also heat up the conductor. Branch circuit should be limited to a maximum of 3% voltage drop. Don't go cheap while wiring you EV receptacle.

Wow, thank you so much for this heads up.:) I've recently bought a Model Y and am using a NEMA 6-50 extension plug for charging. I'm going out as we speak and checking my outlet and sub-panel.:) Thanks again.:)

This is a great start. It exposes one of the barriers to adoption. You need to be able to charge at home, for most cases. Complex installations cost money, can additional amps be increased into the service, choosing the right installer and more. Lots of things to test for Sandy and crew. Come to my town home as a case study of a cluster fk. Get me hooked up and film it!
BTW, several close friends had significant fires at home. I'm totally aware of fires! Great vid Sandy. Thanks.

Great information thank you all for taking the time to share this information 👍🙏😊

Industrial grade outlets and proper torquing probably will help most situations. Of course, properly gauged wiring and breakers is assumed. There's nothing wrong with moblie connectors - I use two for five years now with no issues.

Thanks a lot for this Dr. Munro!

I think the real problem here is people installing charging systems who are incompetent, unknowledgeable or careless. They should understand the difference between continuous and intermittent loads. They should know that a $10 14-50 socket is not going to be up to par, although it also apparent that UL Listing alone is not sufficient for verifying that the parts meet their specs. That said, based on what I've seen in recent years, most of the problems are due to careless or incompetent workmanship. I don't see much point to passing more laws and regulations that will just be ignored. If current laws and regulations were followed properly, these problems wouldn't be occurring.

Thanks guys for the heads up ! Much appreciated. 👍🏻

Great information. Can we get JW's recommendations in document format so I can pass that on to electricians quoting a job for an installation to follow. Thank you.

thank you for the heads up!

Great topic.
Here in Australia we have double the voltage compared to many American houses, so typically half the current.
HOWEVER when installing my Tesla wall charger I made sure EVERYTHING was over size and even so I still use less than max charge current unless absolutely necessary.
ie: I very rarely use the full rate of charge, just don’t need to, and also occasionally check everything visually, check terminal tightness and condition, and even check temperatures with a thermal camera after the charger has been on for some time.
You can’t be too careful.
It’s very wise to be conservative.

I have a 10-30 dryer outlet with a 10-30 to 15-40 adapter. I then have a 35ft 15-40 extention cord plugged into the charger. The panel has a 30amp breaker but I have the have the currently draw set to 20amps max. No issues so far. This is a temporary solution until a dedicated 15-40 EV charging station is installed outside.
The reason I use a 10-30 to 15-40 adapter is I want to be able to use the modern 15-40 cable on the new 15-40 charging station in the future.

I'm a master electrician and most of the issues like this are caused by the installer not tightening the the lugs or alternatively stripping the threads. Look for where the hot spot begins. Finally, he mentions torque, not many people use torque wrenches! We are not going to get people to change out panels to bolt in breakers. Do they really think that someone has never had a dryer or range running for an entire Saturday or Thanksgiving????

very valuable video---a must watch

The problem is these 50A plugs are designed for stoves, and other "non-continuous loads" The electrical code is well aware of the issue of "continuous loads".
Where we could get away undersizing wiring slightly for a range or dryer, you can't get away with undersizing when the load runs for 4+ hours. Thats why the electric code calls out for conductors being sized at 80% for continuous loads. (circuit can handle 50A, but your car charges at 40A)
Electricians aren't paying attention to "continuous" vs "non-continuous" load classifications because there aren't many "continuous load" devices in the home... thus they follow non-continuous practices, creating fire hazards.
That 50A plug is probably designed to deal with real-world (non-continuous) loads of 40A with 50A being "peak". Now you take 80% of 40A and get a maximum "continuous load" of 32A. 32A is pretty standard for older generations of EV's.. however as vehicles start pushing up towards the limits of 50A, we start seeing these failures.
tldr; hard wire your EVSE if it does over 32A real world. Make sure you wiring it sized for 50A.

First thank you for the video and the information and thank you the making and taking the time to put it out there. I am a master electrician in New York City and only this morning as I unplugged my electric car I realized that the prongs were hot and started looking for a new receptacle to replace that one because I know it's at the end of it life. Not everyone is aware of this sign and I'm happy to see that it is coming to light

I've seen this kind of thing before. It seems very likely that what's happening is that the series resistance is rising at the contact interface(s). It's not much of a change, but when pushing 32 or 48 amps through a contact (of some sort), even a quarter ohm of resistance across the contact results in 256W of power generated at the contact interface (when pulling 32amps). It is a lot of power being dissipated in a small volume resulting in very high temperatures! The trick seems to be to make sure you have good contacts! In the back of receptacle, proper torque is important here (as you've discussed). A few other steps that might help.
1. After installing a receptacle and properly torqueing down the screws, after a day or two of service, retorque them again. Sometimes the heating "relaxes" the metal a bit resulting in a poor contact. Retorqueing the screws can remedy this.
2. It might be difficult for folks to do this, but monitoring the voltage "seen" at the car can help identify a problem. In the above example of a quarter ohm increase in the interface resistance would result in an 8 volt drop in the voltage as seen at the car. This can be a little difficult to determine since the line voltage itself can vary a bit, but 8 Volts is large enough to observe (generally). What would really be nice is two voltage measurements. One at the service panel, and one as seen at the car. This difference between these two voltages, divided by the current, is a measure of the total resistance between the panel and the car. If this changes (rises) over time, it indicates a problem. it would be time to check your wiring/connections. Maybe retorque some screw, maybe reseat the plug into the receptacle? Maybe replace a receptacle? Hope this helps!

I’m a retired master electrician and was an electrical specialist where I did all sorts of new installation checkouts and commissioning in a large chemical plant as well as power distribution maintenance. I’ve seen many many failures like that and much worse. You are right on track with your suspicions. Proper wire size, insulation type, wire type, compatibility of the lugs where the terminations are made, proper circuit ampacity, environment, quality of materials, and yes yes yes proper torquing of the terminals. Aluminum wire will be more prone to failure due to thermal expansion and lower mass to dissipate heat and it requires the right terminals. Larger gauge wire should be torqued properly and then rechecked later due to cold flow of copper and aluminum under pressure, terminations that are over torqued are just as likely to overheat due to distortion and reduced surface area. Proper strip length of the wire can make a difference too. Cheap receptacles, switches, and breakers are always a problem also. NEMA rated devices are far superior and more durable than IEC rated equipment that is the norm in Canada and Europe. One possible cause for all this though could be a harmonics problem. All of these solid state chargers have what is called a switching power supply just like what is inside of a computer to change the high voltage AC input to a lower voltage DC only much larger. These power supplies cause harmonic distortion primarily in the 3rd harmonic and reflect it back into the supply side system. This can be checked using a power quality meter such as the ones Fluke makes. In our plant we installed a vibrating conveyor that was fed from a 200A 3 phase disconnect, every time they tried to start it the fuses in the 1200A main disconnect for the switchgear room would blow and it would take down the entire building. It took us and our power distribution engineer a day or so to figure out what was happening and required more test equipment than any residential electrician is going to have at his disposal. We had to do a lot of upgrades to our system to accommodate all these types of equipment but it can be done, it just takes money and engineering. The reality is that no residential power system in any neighborhood in America is built to handle more than one or two high rate EV chargers in the same neighborhood operating at the same time and many neighborhoods likely couldn’t handle even one. The push to EV’s will soon hit a brick wall in the form of an electrical energy grid that was not built to support them.

A secondary problem is the vehicle and connection design. For example, Tesla has thermal cutout in i's connector in case the outlet was not wired properly and overheats. In addition, Tesla monitors the voltage and if the voltage sags (due to bad wiring or installation), it shuts off. I suspect other manufaturers don't offer these safety systems yet.

Great topic! Thanks for making more people aware!

I think the first thing to consider is how many KW of power are you typically going to need to put into your car per charge cycle. If you don’t need to charge at 32A enter a lower current in the charge app that will give you an acceptable charge time. This will also cut down on your line loss heating up wires and circuit breakers. I am using a NEMA 6-20. for charging my model Y. I noticed a little heating on the short run of 12 AWG wire and on the 20A breaker, so I increased the wire to 10 AWG primarily to cut down on line loss (had some 105C 10 AWG). I usually charge from 40-50% up to 85% two times a week it is usually an 8+ hour charge time which is fine for my normal use. It also looked to me like all the failures you had were aluminum wiring. Was antioxidant used on the connections? I think the best bet is to use copper whenever possible.

Great information thanks for bringing it to our attention! 🙏🏼

GUYS... The NEMA 14-50 interface you were holding is rated for a *40 Amp* charging rate ... which is the maximum allowed by the NEC for charging using a 50 Amp circuit. Yeah, and the Tesla wall connector charger is 48 amp. See the issue now? the 1450 connector isn't designed to handle 48 amps for more than a few seconds

Thank you for the edu. Using the Mfr EVSE, that was me. Using an existing circuit (120v), that was me. New, full-memory respect for the hazards. That’s me now. Again, thank you to Munro LIVE!!

Was that Aluminum Wiring and did this event begin at an Aluminum / Copper junction point?

One of the most important and informative videos I have ever seen on the new EV technology gentlemen!!! This needs to be investigated MUCH FURTHER by the "Electrical Industry" as we move toward EV charging infrastructure both on the road and especially at home and in apartment/condo complexes!

Looks like both melted situations use aluminum wire. While using cheap aluminum wire can be made to work, but it's far tricker, and every component attached must be rated for alumium. Really better to use copper with proper components, such as industrual rated outlets, not consumer grade.

You're asking great questions - Thanks! I hope these questions are addressed with Vehicle to Grid usage demand requirements coming soon.
I believe the conditions in this discussion are all due to load demand.
Something that we've done on our own for the last six years, is installing a load rated Fusible Disconnect with Fast Acting Fuses between the EV Charger outlet and Power Source (this design has saved bigger problems). Consider this is the most direct method, such as with Air Conditioning Units (HACR rated Circuit Breakers only) on the Panel Supply to handle continuous demand issues . All these Electrical Standards are part of NFPA 70 for A/C equipment currently. Also, any Aluminum on the Panel Buss, Circuit Breakers, and Wiring is a low standard to handle the heat without upsizing for demand, at best for heavy demand products. Commercial Systems are Copper for good reason.
Another option is using a Smart EV Charger outlet that can be set to power transfer of 60 to 80% based on Existing Panel load calculations. Be Safe

Interesting, I had similar problems: 1. my breaker was making noises (was extremely hot) and it tripped every time my charger went over 4A. 2nd problem I experienced - was my plug melted, as showed in the video

I would like to add my personal experience.
I've been driving a plug in hybrid for about 10 years and of course you can charge overnight from a regular 120 volt outlet. And the EVSE is set up for 12 amps by default because if you plug into a 120 it's typically a 15 amp outlet. But I had some burn marks so I decided to change the outlet and had one that melted one day when it was extra hot during the summer.
So I repaired the repair with a nice I think. Levitron brand outlet and have it any problems since then. I even bought another EVSE and set it to lower amps. Since it's over in our charging, it doesn't matter if it takes 5 or 10 hours.
And I set it up so I don't have to unplug or plug the EVSE in from the wall. And there's no stress on the cord. It's been at least a year or two and had no problems.

I alway dial back the amps to around 10 or 12 amps. . I have a 40 amp breaker and can charge at up to 32 Amps but would only do that for the last few hours before a trip. Charge every day at low amps is my safety tip.

Melted a 30 amp twist lock. Replaced with 14-30. No problems now. Avcon EV1 converted to J1772. Just melted the one plug and socket since 2015 when I converted three Avcon to J1772. I did didn't think much of it till your video. I do check for warm cords from time to time.

As an EE, I immediately see a red flag and "Uh Oh" in that cut-off junction box. Aluminum (Aluminium) wiring! It's still coded and allowed in the USA as a cost-cutting measure. But I would avoid it due to potential overheating and fires. It is very specific as to what type of aluminum compatible interfaces you can use, and specific steps to safeguard against galvanic corrosion. Many electricians, and homebuilders don't hire the certified and knowledgeable 'apprentices' to be aware of the physics behind this. Many homes have old aluminum wiring mixed with cheap replacement switches and outlets meant for copper wiring.

Excellent quality control argument that needs/must to go forward!

Sandy, I want to thank you and your guests for sharing this great information! I won’t be getting into the EV market until 2024, but I’ll definitely be trying to contact JW’s firm when I get closer to decision time.

I went from hardwired 40A to a cheap NEMA 14-50 plug and a whip for my 32A EVSE. Probably okay for now but in light of this very good info I will replace the socket with a Hubble industrial socket when upgrading the breaker to 50A (already have replaced the 8-2 wire with 6-3 when I had the garage remodeled with a wall system)

A good recommendation: If you torque down a connector onto copper wire, go back on it ten minutes later... you'll find you can tighten it more to get to that previous torque setting. Why? Copper is a soft metal; it will compress over those ten minutes to where you can re-tighten the connector. And try it a third time... you'll be surprised. Heat occurs from a high resistance connection. Keep connections tight, and you reduce the risk of over-heating from high load circuits like EV chargers. But since time is money, electricians don't like to spend the time to do this procedure.

I am so impressed - I could not agree more

I’ve set my charging to a lower amperage because my gut told me the higher temps were not a great idea. I’ve got no experience with this level of expertise, but I feel safer charging at lower amps and late at night when there is less chance of an oven or other high amperage units running at the same time.

Wow Thanks Sandy. Checking my setup right now and lowering 48a to 30a.

Sandy, thank you all so much for putting this video out. Obviously it's far outside of the norm for what you probably want this channel to be, but it's an important PSA for anyone considering an EV charging installation at home. Hopefully this gets sent up the ladder to the regulating bodies and some serious action is taken. Thanks again!

Thank you so much for that video… I really appreciated you doing that video. I installed one of those $15 plugs in my house and now I’m going to order the one they recommended.. by the way it is $77 on Amazon. Thank you Sandy great video for our safety….

26:00 Use a heat imaging camera. It will show you dramatically where you need to pay special attention to points of heat generation. And it's almost always right at the connections...not in the wires themselves.

Thank You great information

This is great info. I would love to see official ratings and code updates around this. In the mean time it would be great if someone put together a parts list of "better choices" (even if not perfect) for people who are looking at this sort of work in the near future. What do I ask my electrocution for or how do I interview an electrician to make sure they are on top of this?

A different but good video!
Thank you!

This explains an over temp warning I got from my Tesla charger. Having this looked at asap!

13:40 I have this box outside my house. There's sort of a "key" for the user and if you plug it in right side up, we'll call that "A", it is connected. If you unplug the "key" or put it back into the box upside down in orientation "B", it is OFF. Plugging in using the "A" orientation (upright), it is easy to fail to seat the key fully. You really have to PUSH it in to fully engage the contacts.Not-fully-engaged contacts could be the problem, not the electrician as Sandy suggested.

Are these connections using aluminum wire? Makes a big difference.

I'm glad you made this video. I see, in the EV groups on facebook and youtube people saying to "use the dryer outlet, the EVSE will adjust for your circuits capacity" and other dangerous advice.

You definitely need to adhere to the 80% rule as a minimum. I do have the 14-50 dryer plug as my receptacle, but it is on a 30amp circuit breaker and the charger is set to 20amp load. Most wall chargers allow you to set the charge rate, just be wise and not select the highest one you can! 😉

thanks for looking into this. Those recepticles are commonly used for welders. I have 40 amp breakers which is correct and I've had several plugs and recepticles fail (melt) both the hard mount and the cord mounts in the last couple of years. From what I seen the manufacturer has made these things too thin of metal contacts lately. this causes excessive heat and bad melts. contacts are too weak because of too cheap of material. Never had a problem before. Products are made too cheap now. Even for welders that are properly connected. this need to be looked into....