Honestly this is part of the reason that I selected a 32 amp charger for my EV. All of the hardware is spec’d for 50 amps but I don’t need to charge my vehicle that fast. So I bought a slower charger and I even software de-rated the charger down to 30 amps. Even at that speed my car is typically charged back to 80% in about two hours. For most people a really high powered charger is just not necessary.
Agree. Using a Tesla mobile charger and an industrial NEAM 14-50 outlet is all you need. You don’t need to charge over 32 amps. There is no real benefit.
I set mine up to be 48A ready (60A breaker, 6gauge THHN) but set the charger to limit to 40A. Every once in a while I have wanted that 20% additional charging speed, but it's never impacted my plans.
@@GregMcNamer I too installed the same setup and don't plan on running anywhere near the full 48A (I have 8-10h charging overnight anyway and slower is likely better) but wanted the max in case I add additional chargers in the future and power share with tesla wall charger. Also hard wire 2+1 6 awg was actually cheaper than running 3+1 8AWG and spending 100+ on a good NEAM plug. and now futur proof so I never had to crawl under the house again...
I had a new garage built and specified a 50 amp circuit, Hubbell NEMA 1450 outlet and appropriate copper wire be used. I am using a Clipper Creek EVSE designed for portable charging which draws 12 amps at 240 volts. I am fine with that for now because I always have enough charge for the amount I drive. If my situation changes and I drive more, I will remove the outlet and get a hard wired 32 amp charger. Charging the battery slowly at 12 amps probably helps the battery last longer because it doesn’t get as hot while it charges.
Daang, what a great video. When I had my chargers installed I did my research for installers in the area. I figured, if I’m gonna pull 12,000 watts, the people who put this in better know what they’re doing. My house is 30 years old, so it was expensive, but my system is now completely bomb proof and we charge three EVs nightly.
No, I have two Tesla walk chargers that are connected. So they know which car needs how much and deliver it according to a schedule I set up. All in, my EVSEs run about 3.5 hours a night and deliver around 16kW.
Please do a series on this. I work for a utility in the Caribbean where I see the slow but inevitable acceptance of home charging, and a lot of home owners are not aware of these simple but saline points that they and their electricians need to know. A video series like this will give me ammunition to share with colleagues , local influences and policy makers.
The aluminum wire as a feeder is not a problem . Most homes and even commercial buildings are fed with aluminum feeders from the electrical utility . The pull out disconnect is used for AC high draw condensing units and with acs running all day in hot climates I don't see any more demand with an EV but I tend to agree even for a ac condenser they are not the best option . What we see here is improper connection on the terminals . Probably to loose . Same in the other panels . Unusual to see from multiple contact points . I think they should develope a combination arc and ground fault dual function breaker for EV charging at the source in the electrical panel . Normal breakers do not trip on arc . I believe the largest arc fault breaker is a 2 pole 20 . This maybe the only solution to protect your home from burning down while asleep from faulty installs as EVs ramp up and charging becomes more common
My thoughts exactly. As they kept talking about the problem with AL wire, I’m thinking “What about the service feed?” If AL wire is a problem, then nearly every house has that problem. Properly sized and terminated, aluminum feeders are perfectly acceptable.
@@sigcrazy7 The funny thing most times the service wire from the electrical utility is undersized and quite substantial . They don't need to follow the code and self inspect their installations
Completely agree. Modern aluminum wiring is fine provided that they are terminated properly. The pull out disconnect is not the issue. It’s the excess heat caused by the improper termination and resulting arcing that caused the issue.
@@stevencole7331 The utility company does follow code, but the code they follow is usually the NESC (National Electric Service Code). The NEC has nothing to do with the POCO. See article 90.2(A)&(B). Service drops can seem very undersized to us NEC folks, but the service drop is exposed in the air, so can be much smaller per their code. Rule of thumb is their side of the meter, their problem.
I learned early in my career from two electrical engineers, to torque the terminals and then at the end of the job, check the torque again. They said because the ductile aluminum keeps compressing. I usually found a loss of torque. So the The torque back-check has prevented problems. Also, the nature of the "scissors" type disconnect , {it is called a blade by the way} is the same as the stab type that failed. Square inches of contact and retention force is the same. Amp rating is amp rating regardless of duration of load.
EXCELLENT VIDEO!!! When I got my Tesla, I talked to several long-time Tesla owner friends about installation, they all used the same company, so I went with them too. And so did my neighbor and a guy down the street. EV charging isn't something to cheap out on, experienced EV electricians may cost more, but it's worth it. And IF the person hasn't installed many others, I'd find another. Qmerit does this, which is why I'm happy they partnered with Tom, who I trust. Thanks guys for the great work!
Love this series idea. When I put in my wiring for a 14-50 outlet years ago I got help from a retired electrician friend. Based on State of Charge's continued insistence on safety, when I replaced my Volt with a Tesla that pulls 32A instead of just 16A, I hired a licensed electrician I found through Tesla's website that had experience with EV charging. He verified everything was done safely which helps me sleep easier. Thanks Tom
I installed my son's EV charger myself because I know that the average licensed electrician is not as skilled as most people think. I'm lucky to have a lifetime of experience and despite not being "licensed" I did the installation exactly as shown in this video. Thanks, I enjoyed your video.
This. I've had a few people ask why I didn't hire a "professional." Answer is that they will do the bare code minimum right up until they don't have the right thing in the truck. The dollars I save by doing it myself can go right back into better copper.
@@wileecoyoti 100% this. You had a good comment as well and that's exactly why I did it myself. I too know my way around residential electrical work and have referenced the code myself because at the end of the day, this is my home and I want it done correctly with quality components. My concern was definitely on the sustained heavy draw of charging a car.
What a great video. I've been trying to spread the word about EV chargers and their continuous load on the electrical system. I don't think people understand and this video drives the message home.
Excellent work Tom! I have been telling people this for years. This is not an area where you want to try to save a few dollars. Spend a few extra dollars and do it right. I am glad to see folks like you covering this and bring attention to the issue.
Yes, please start a series on this, this is VERY needed! No one else is doing anything like this or shining a light on these issues. So important for all of us to know. It really is life or death and nothing like anything else in the residential setting. Definitely worth the attention. Thank you for taking this on and helping educate us!
I have 2 50A NEMA 14-50 outlets charging our Model Y and R1S. I charge the Y at 25A and R1S at 40A which is more than enough instead of higher amperage. Most of us don’t need to charge at 48A or even higher. Glad Tom went to the rescue and hope a lot of people will watch this video and learn from him.
@@johnpoldo8817 I have a 50amp breaker and was charging at 40amps and lowered to 30 amps. It charged just fine overnight and added 199 miles to my charging limit.
Not mentioned is the electrical definition of “continuous “; any electrical unit in use for more than “3 hours” is then considered continuous use. An air conditioner usually turns on/ off for 10-15 minute cycles, so the AC breaker box never heats up enough to melt the insulated connections. Always use copper wire and copper-rated connectors ( electrical panels at big box stores usually sell ALUMIMUN BUSS BAR PANELS; get a COPPER BUSS BAR PANEL, about 25% more). In my area, the parts brand would be HUBBLE; it isn't cheap, usually 2-3 times more, rated at 100% continuous duty. An INDUSTRIAL electrician would understand this as they perform this type of application every day.
You nailed it, Tom! Great and highly informative video. I'm not an electrician but I don't think normal residential electrical designs have ever seen 4-8 hours of continuous 40+ amp 220v current demand. I applaud your efforts to get electrical codes modernized. Keep making more "fix it" videos that shine a light on this issue.
As a Licensed electrician who does primarily service, I recommend to all my customers to direct wire their Level 2 chargers. I have replaced numerous receptacles ( both Leviton and Hubbell ) that were burned up. I have found several times the plug has not been pushed in all the way. This is also the issue with pull out disconnects both EV charger and HVAC.
I know someone who uses a plug for his EV charger. But it is a twist lock style so you know it is properly plugged in. He and I are both from the IT world have a lot of data center exp with these. If someone wants a plug in for their charger it's best to use a twist lock not a dryer plug. For precisely the reasons you mentioned. The problem is they cost real money and a dryer plug is basically just another outlet.
What a great video. Qmerit and Riverside are both close to us, so in addition to you gaining a subscriber, I'll definitely be contacting them if we decide to move our charger to another location in our garage. Thank you all!
I am glad for this video. Well done. You make people aware of some of the problems electricians face. Many homeowners are not aware of the cost to hook up one of these EVSEs. Dealers are telling potential EV buyers that it should cost $650. to $750 . It is more like $1,200 and up, which does not include any panel work. Soon we are going to switch to bolt on circuit breakers.
Great story! I would assume any electrician will do, but it makes sense that electric cars are a whole different animal. I hope you do more of these stories.
Yes, but it helps if the electrician is familiar with EVSE loads. Most electricians think of these circuits as dryer or oven circuits, not continuous-duty circuits. You have to make sure they realize the EVSE might be pulling 40A+ for 12 hours straight.
EV charging loads are nothing special. The problem is that they are a sustained heavy load for a long period of time. This causes shoddy work and components to show up, unlike with short duration loads that can cool off after a short time. ***This is the real problem*** Shoddy work that is much more common than many would like to admit: - undersized wire for the load - improper termination of wire (Loose wires, screws not torqued (BIG ONE), no anti-oxidants used on aluminum (NUAL) wire, terminals used with NUAL that are NOT rated fir aluminum...) - cheap, knockoff, poor quality components (Disconnects, high power receptacles, etc)
I’m glad you and the Qmerit expert talked about over torquing. I watched my Qmerit installer tighten the wires at both the charger and at breaker lugs with a regular screwdriver as tight as he could. He did NOT use a torque wrench. The system will be inspected on Tuesday and I will be contacting the contractor and Qmerit the same day. The moral is that using a Qmerit installer is not a guarantee the installation was done correctly. Know how it should be done and watch the installation yourself! UPDATE: Spoke with the field supervisor of the contractor today. He said that there are no questions on ‘the test’ (I’m assuming that he means the Qmerit qualification test) so he does not deal with that in training his techs🙀. He volunteered to come out to redo the connections and invited me to watch him retorque them. I did and he found two connections were over-torqued and two that were loose. All four connections were not to spec and obviously Qmerit’s standards. I called Qmerit and asked to speak with a tech or supervisor. There was no one available, but said they would have someone call. That was at 09:00 and it is now 16:15 and no call. I’ll try again tomorrow. I’m pleased with the great customer service of the contractor, but very concerned regarding the mismatch between what Qmerit says their contractors will do and their certification & training requirements. UPDATE #2 The Qmerit EV Concierge contacted me my email and I explained my issues and that the Field Supervisor had already completed the job to QMerit standards. Today he both contacted me by email and by telephone to assure I was ultimately satisfied. He also said that they would be examining their training materials and oversight of their contractors based on my feedback. I am fully satisfied that my system is as safe as possible and that Qmerit is willing to listen to concerns and make their referral service worth their premium price. Still, you never know the quality of the work unless you know how it should be done and watch the installation to assure that it was performed correctly.
Qmerit has hundreds of local contractors in its network. Some are better than others, it's that simple. But Qmerit does tell them they must use torque drivers/wrenches. They do want to hear feedback from customers so I would advise you to let Qmerit know the contractor didn't do it properly. If they get enough complaints about any one contractor, they will remove them from the network.
@@StateOfChargeWithTomMoloughney I understand what you are saying, Tom. I will work with the contractor to get another installer out to correct the work and let Qmerit know what occurred. My point in posting was to let your viewers know that even highly rated companies can do sloppy work and so that you can emphasize to your viewers that they should know how the installation is supposed to be done AND watch it being done so they know it was done correctly. As you often say, this is your life that is potentially at risk so you need to know the work was done to the highest possible standard.
@@fdeguilla I would not say he was “bad” or lazy. It was he was not properly trained because of some omissions in Qmerit’s training materials, testing and contractor auditing. Qmerit thanked me for the feedback and said it would be addressing the shortcomings. Still, my original point is still important and true - know how the installation should be done and watch the installer do the work. Your life and those of your family may depend upon it.
You are absolutely correct. I am very knowledgeable about that area, and I had it done in my home new home in California and then when I moved here, I had a gun again and the electrician put the cheap quality, Chinese plug and I had it removed and put the best American brand Hubbard. I believe it was. It was like 10 times more instead of $10. It was a $100 and we removed it. We put that thing the electrician came back. He removed it and put the Hubbell brand and he ended up paying for that. Thank you for this video. You're awesome.
So happy to see attention brought to this problem. I recently purchased a Chevy Bolt and had my charger installed through Qmerit for free. They contracted a local company that specializes in EV charging but installed a breaker that was not rated for my panel because they could not source a GFCI in the correct brand. I questioned the installer about it but they insisted that it was safe. Seeing all these charging malfunction videos made me uneasy about it so I contacted Qmerit who confirmed my fears of the incorrect breaker and they sent the installer back out to correct the problem. They ended up putting a standard breaker in my panel that met the certifications and moved the GFCI out to a sub panel they installed next to my charger so I guess in this case the installer tried to save a penny but probably lost money on my install with the additional equipment and labor.
Interesting, most EVSE install instructions say not to use a GFCI breaker. It's in bold text in the Tesla HPWC instructions. All ground fault protection is built into the unit.
Once again Tom - great video! I got as much information as I could over the year + I waited for my lightning to arrive. Also made sure to use the highest grade materials, such as copper wiring and commercial grade 1450 connector as appropriate. Haven't had any problems in the year that I've been connecting my vehicle at night. Your video this is great information, especially for folks who are new to this technology. One thing I would add though is I would probably vet any vendor that is going to do the work. I have experienced several electric vendors (including Qmerit partner electricians) out there that are taking advantage of customers "lack of knowledge" and fear by jacking up the price of the quote! It's really important for folks to read their quotes very carefully... Cheick it line by line item and do your research to determine if what's being quoted is actually required. Also get at 3 three quotes from various electricians to use for comparison.
Great job on the diagnosis and repair, the owner had a dangerous situation going on there through no fault of his own. Personally I would have had a scissor type disconnect installed near the charger to kill power in case of an emergency. Great job Tom!
I've seen several AC disconnects installed, and melted from using them with a wall charger. The places that require a disconect for EV chargers need to specify a knife switch or something with similar metal construction.
20:27 this video is great! I used Qmerit for my installation. The electrician that did the work was very good. I found Qmerits free estimate was very low compared to my actual cost, not sure why. Another thing Qmerit did was make me aware of the IRS $1000 tax credit available, I got mine. After watching this, I confident that my install is safe. Make more of these so people get it right.
Love your talks. I had exactly the same trouble with my installation. Two quick disconnects have burned out and the local electrician suggested I use the knife type disconnect instead. I did the installation myself and had it inspected by the local electrical safety board. They thoroughly checked everything and passed it. In my case it was definitely a case of undertorquing the connections in the pull-out disconnect box.
They didn't show it. But while torquing it down. One needs to pull and wiggle the wires around a bit. It can make the wire strands shift around. I watched a couple of videos and after they did that it was obvious that they were tightening the screw down a bit more. Even though they had just used the torque wrench at the correct setting. The shifting wires create a under torque condition.
Kinda wish you would've addressed the 6/2 romex question Dylan had in his initial post. 6/2 romex is actually what is recommended by Tesla with a short enough run and as long as it stays within drywall.
I was also hoping Tom and the master electrician would address that question. IIRC it was about 4 AWG vs 6 AWG for 60 A circuit to 48 A wall connector. IIRC the answer is that 6 AWG is OK if using individual THHN wires in conduit, but NM/B (Romex) can’t dissipate heat as well, so 4 AWG must be used.
@@georgepelton5645 Yep, for copper. Tesla does not allow Alu wire for the branch circuit, so they do not specifically call out for Cu wire in their sizing recommendations. I *think* that this case is a bit unusual in that an (uncecessary) disconnect was installed, and that Tesla would only require that the load side of the disconnect be Cu
6/2 Romex is not actually what is recommended in the Tesla wall connector installation manual. On page 6 it says "Use minimum 6 AWG, 90C rated copper wire". The 90C is key here because romex is only 60C rated so 6AWG Romex is not acceptable. 6AWG THHN or THWN within conduit is to code for 48A continuous operation. 4AWG Romex is also to code. I personally have two Tesla chargers each using 4AWG copper. One is inside a metal clad sheath and the other inside steel conduit. This is more that required but I know that I will never have the sort of issues seen in this video.
I never do anything to minimum code. I always go above code in everything I do because minimum code usually leads to headaches. I don't get call backs but I do check in with my customers down the road to make sure no problems have cropped up from the work I performed. Word of mouth is the best advertising.
YES PLEASE DO A SERIES ON THIS!!! I will be purchasing a Tesla Model Y this summer and will be building a new home next year. This type of series will DEFINITELY help me ensure that my new electrical system will be installed correctly from the start!! This is EXCELLENT!!!
I set my charger up to 32amp Max output until I get the funds together to have a Pro run a dedicated line from my Main panel on the other side of the house. I also just set my car to charge at 20amp overnight which is usually more than enough current for my 70% battery level. It is videos like this and Sandy Munro’s that make me cautious about my charging level.
My electrician (who was on the Tesla list of electricians), put my TWC on a GFCI breaker which caused it to occasionally trip. The TWC manual says it has built in GFCI and not to put on GFCI breaker so the electrician came out, swapped it and been fine. Also, unless you are an Uber driver and charge multiple times a day, 60 amp (48 amp continuous to car) is overkill really. On my 50A breaker, I could run 40amp but I set mine to 30A as it gives me about 10% per hour for my Tesla MYLR. I usually have it start at 1am and usually done by 4am which is still well before I leave and is off peak for the grid.
Similar thoughts on our charger installation, but in my case, I also have solar on the roof, so I adjust my charger's output to use up the solar production for the entire house plus the charger. At the peak solar production, usually 10 a.m. to 2 p.m., my 48 amp charger is lowered to 20 amps, and I'm charging my car plus providing solar energy to the house with a little overflow to the grid. Now I need some AI in the system to keep an eye on what the solar is producing and dynamically adjust the charger's output.
Also consider that a larger current is useful for certain cars such as the CT, lightening, rivian or hummer that have much larger batteries and/or range.
I ended up buying a second Tesla so now we have power sharing going on one 60 amp breaker at the main that goes to a sub panel in the garage. Now I'm glad I have 60 amps available, so 24 amps to both cars when we're charging both at the same time. That can take a long time. It's nice to plan for the future. Having some extra power available gives you options.
I agree with others that 40 or 48 amps is overkill. I am home for 10-12 hours at night. Is it essential that the charger be finished by midnight? What is the rush? Lower amperage is plenty, and puts less stress on all the components. This eagerness for "maximal possible amps" may be counterproductive.
Adding an EV to your house, you may want to talk to your electricity distribution provider. Out in our rural area, where our electric cooperative often has a separate transformer for each house, the transformer may not be sized to handle the EV. Transformers are sized based on average expected loads, and are able to handle higher than rating, provided the loads aren’t continuous. When we got our first EV, I was on the board of our electric coop. The engineering folks at the coop initially thought the 10KVA transformer for our house was sufficient. I did the math and emailed the VP of that part of the coop with the numbers. My calculations pointed toward a transformer fire given the 4 or 5 hours of charging. The coop replaced the 10KVA transformer with a 25KVA at their expense.
All I see starting at 23:54 is more preaching and virtue signaling. Am trying to find anything other than "aluminum wire!", "continuous draw", torque torque torque, and, "It broke."
Best advice -- set the charging power limit to optimum power for whole night charge, not maximum -- especially when you're not sure of in quality of the installation and the house system itself.
Yep. I AGREE 1,000 %. And to Educate the new and current Electricians and Electrical Building Inspectors too. But Who should be 1st? The STANDARDS and Building/Electrical Inspectors? Then the Electricians?
The EV Technologies will improve and demand higher amps/voltages/speed of charging at higher rates. So should we wait till its all settled on the Accepted Norm or Expect these chargers will need higher charging speeds and flow of ELECTRICITY?
@@robertlee8805 I believe individual states will have to mandate new codes for EV installation that local / municipal building codes will have to follow . It will be customers driving change by complaints against bad installations.
Tom, this is an important series and I hope you will do more. Another area you might want to cover is long term inspection / maintenance of these installations. I have a 40 AMP dedicated EV circuit with a NEMA 6-50 outlet that was put in in 2013. Your video makes me wonder if it should be checked / retorqued, even though 11 years later it still looks brand new. It was installed under the Department of Energy EV evaluation program so seems like they did a good job.
Thanks to guys like you on RUclips I realized these problems before we connected our level 2 charger for our beautiful Tesla! Thanks for the great video!!
Great explanation, of course. One contribution to margin that I find useful is to set my Tesla charger well below capacity. On my 50 amp circuit, I set the charger to 30 amps and don't worry about needing a bit more time to "fill up" the MYP battery. The cable from the Tesla unit to the car runs sensibly cooler, always a good sign.
Thanks for this. One thing I learned is to question if you really really need one of those high amperage chargers. Typical homes have a 30 amp breaker for the clothes dryer and a 50 for the oven. Limit yourself to a 40 amp chargers on a dedicated 50 amp circuit and you eliminate a lot of potential problems.
@@swatkin3 - That’s great, but if your equipment pulls more than 24A continuous, it’s not to code, and arguably should be fixed. In the vast majority of non-code-compliant situations, nothing ever happens, because there are multiple safety factors in other areas of the design. It’s on purpose, and is why there are really very few electrical system related injuries.
Nice video. All true. As a sparky I’d like to say you’re right about the 60 amp pullout disconnects as not being up to continuous duty as RV chargers must be rated for I had one with properly torqued connections at my house fail just like the one in the video. Guage was proper and wire was fine. Disconnect pullout was loose. Don’t use them for EV chargers. Nice job on fixing the route problems. Great advice, bang on. It might cost you a little more but how much is a fire? Do it right the first time and you won’t have that problem.
Qmerit is a marketing middle-man. Local electricians sign up to be 'Qmerit installers,' hoping for more work. These local electricians vary in quality, just like the local electricians who are not part of Qmerit marketing. I honestly do not know a fool-proof way to hire a competent electrician but I do know that Qmerit is no panacea and they are expensive. Someone has to pay for the marketing costs and extra layer of profit. --- As an aside, I wish the Qmerit show had told us more wire details about the run from the sub-panel (turned into J-box) to the disconnect. Was the EVSE the only load on that feeder turned BC circuit ? Was the wire run to the disconnect in conduit ? What AWG Alu wire was used ? If the run to the disconnect was Alu not in conduit, #3 AWG was required to prevent overload. Moreover, an EVSE requires a dedicated circuit. Any additional loads that were wire-spliced in the demo-d subpanel are a violation of an important safety code and added to the overload. The same considerations apply for the run from the main panel to sub-panel cum J-box. So even before invoking poor workmanship (an easy target to be sure), the wire choice is highly suspect. For those casually following along, the electrician who installed the EVSE may have been able to save a lot of grief by simply setting the Tesla EVSE for a 50A circuit. But it seems like s/he did not know how to look up wire ampacity, a very core competency for anyone doing wiring.
Thanks for this videos, I have learned a lot, I'm here in San Antonio Texas as well, I'm a handy man that do all kind of work in homes, I also own a tesla model 3, and know electrical because of taking some clases in high school but here local aluminum wire is very common and use now mains and most 220v loads in homes, copper is use only in 110v wall outlets and switches, obviously copper is used in 220s but been more expensive is not the the first choice, I had this melting issue in a ac disconnect in my parents house like 5 years ago, they have a 15kw heating system in the central system and one did I notice a melting insulation in the main wire coming from the overhead city pole and called the CPS out local electric provider and the techs will fixing or actually replacing the main wires coming in from the city the guy asked me if I had any knowledge of electricity and asked my to check all the 220v connections in the house while there was no power for any lose connections and found a melted disconnect on the inside unit and realized that it is not rated for that much power and I installed a small sub panel rated for 100amps with 4 spaces 2 breakers 220v and feeded with aluminum wire, and seperad the load into 2 separate loads one for a 5kw and the second four the 10kw elements and have not good any issues after, and I did a ev nema 50 installed for a ev few years ago and had a melted outlet after about a year and learned from your videos to only use the industrial one from Bryan and hubbell and will not use any thing other than dose one bought a torque screw driver to make sure every connection is properly torqued not only in the charger but also in the breaker and learned also that thhn wire had a higher amp than Rome wire even been the same gauge
Indeed, handling high amperage electrical systems, such as a 50 Amp single-phase system, requires some careful considerations, high-quality equipment, and adherence to a couple of safety standards. The duty cycle indeed adds a factor of complexity in designing and operating such systems. In contrast, the European approach to managing high power demands, especially for applications like electric vehicle (EV) charging, home appliances, and industrial equipment, often involves using a three-phase power supply. The standard three-phase voltage in many European countries is 400V (often referred to as 380V or 400V, depending on the country), with a common configuration providing 230V between any one phase and neutral. This setup allows for more efficient power distribution and reduced current per phase, leading to several benefits: Efficiency, reduced load per phase, safety and infrastructure including the use of 16A circuits for up to 11kW of power. This setup is quite common for residential and commercial applications, including EV charging stations, which can safely and efficiently provide a high level of power without overloading the system. And the overall practicality for EV charging... For electric vehicle charging in a residential setting, an 11kW three-phase charger is a popular choice in Europe. It strikes a balance between charging speed and the capacity of most residential electrical systems.
@@alaind831 A lower voltage should in theory reduce the number/percent of fatal shocks. Death is primarily caused by exceeding the current threshold in the heart. Everything being the same, increased voltage leads to higher current so at 240V more fatal shocks occur. So, in the US we run most things at 120V and have the option of split phase at 240 for appliances that need it, such as a dryer, stove, air conditioning or EV. Having 120V for most things (think of a child putting a paperclip into an outlet) and 240V when needed is safer.
@@TrendyStone ironically I got zapped many times as a kid in France while tickering with electronic circuits (before I became an Electrical Engineer in the US). Granted I wasn't standing in water and stickign my tongue into a plug :)
110V is not safer then 220V if you have 50or 60Hz AC. But the current is doubled at 110 V for the same electrical power. So there you have higher current and resolving heat in wiring ( and additional higher percentage of voltage loss in wire resistant. So 3 phase 230V = 400V system with copper cable specified to DIN results to a saver feeling.
The aluminum wire issues are interesting. The conventional wisdom is that it's fine for large wire, let's say #4 or bigger, connected to terminals that are rated for it. In addition, it is required to be torqued to spec and I would advise anti oxide goop even when it's not required by code, after cleaning the surface of the wire. For ev charging, I would also want the ampacity to be a little more than 125% of the charging load, maybe 140 or 150%. I doubt the problems with aluminum are in cases where all that was done right. You might say it's safer to just avoid aluminum, but your service conductors are almost surely Al. Fortunately, it can be safe for big stuff when done right.
Yeah, the aluminum phobia seemed a bit exaggerated. I wonder if the original guys undersized the aluminum wire between the main panel and subpanel. I can definitely understand the rest of the thinner wiring being copper that went from the subpanel to the EVSE.
I love this video, tom! I would really like to see more of these types of videos. I know it is a cost to you not only monetarily, but also your time. But I feel these are very valuable.
One of the reasons I appreciated Chevy paying for my home charger install with their promotion last year was that they worked through Qmerit, and Qmerit themselves picked the installer who would have EV charging experience - made the experience smoother than if I went out to try and find a local electrician myself.
When I remodeled my house I changed to 200 amp service and pre wired for a car charger. I hired the electrician who does all the work at a wood shop where I work. Well experienced crew that is very experienced with heavy duty, constant draw equipment.
I've just experienced this last weekend with my JuiceBox EnelX Level 2 charger 240v plug in. Now I need to get this resolved. I just thank God my house didn't catch fire or burn down.
I had initially used Leviton R14-50 outlets (Home Depot) with half-height lugs. These overheated. I replaced those with Eaton/Cooper outlets that cost 50% more, but have not overheated since, for a year+.
As your video shows there is a difference between doing it right (cheap but legal) and doing it right (don't burn your garage down). We installed our Tesla charger and we used with 60 amp 4 awg copper and it wasn't even a discussion. As a one time cost, do it really right.
That is interesting that it was all to code. Although in Australia can only use copper wire illegal to use aluminum wiring from my understanding. So good to see the house is still standing and no one was injured.
I honestly don't think the original house wiring was up to code. The main breaker box should not have taken that sort of damage under any circumstances if it was. Either the breakers were counterfit or the aluminum wiring was not protected from oxidation.
The aluminum wires were ok. Aluminum wiring is great. Multiple times cheaper, uses a much more common metal, and is MUCH easier to work with (much lighter, and bends much easier). BUT must be terminated correctly. This failed from poor termination (shoddy original install) and probably a cheap disconnect, that went into thermal runaway. Aluminum wire (NUAL) must be terminated correctly, using anti-oxidant grease, properly rated terminals for aluminum, and must be torqued with a torque wrench
Tom - had this same exact failure last year. I was lucky enough to be walking by and smelled the plastic melting. It appeared to me that it was torqued OK but the blades on the pullout disconnect module were spread out slightly and caused a serious heat buildup. I gutted the enclosure, replaced the damaged wiring and used some Polaris blocks to splice inside the enclosure. Thankfully the main panel was OK. But was scary - another hour or two and it would’ve been a busy day for Parsippany PD.
Tom - Please do more of these videos! I bought a home level 2 charger (in anticipation of buying an EV) and I want it installed right! I live on Long Island and will use QMerit when I'm ready for an install!!
Glad I did it myself more then ever. I hardwired right to the breaker box, torqued the screws in my tesla charger as well as on the breaker. After a year of service I checked the torque again. No issue ever.
Exactly! The guide specifically says direct wire; no plugs, no disconnects, no GFCI. Half these so called electricians are jokes. I have a EVSE I installed myself 12 years ago. Not a single problem.
From what I gather here in the UK we stopped using aluminum wiring in the 70s due to increased fire risk. I had not realized aluminum was a thing. I know that in the UK we use 240 volts against the US 110 volts. but I also have seen you can have 220 volts. Apparently, we do use aluminum for transmission lines. A very interesting video thankyou.
For residential structures in the US, we typically use copper up to 10 or 8 gauge, but anything larger is usually aluminum. Also, our 240V power comes as two opposing phases with the neutral in the middle, so still 120v to ground.
Typical US residential voltage delivery is 120/240V ac single phase. Aluminum is perfectly okay to use (I have used it for service panels supplies as long as it is sized and terminated properly and the terminated equipment is rated for AL.
@@StateOfChargeWithTomMoloughneyTom. Please cover these topics in more detail. Like the gauge of the cables/wires from the power lines from the utilities all the way to the charging stations. For single EV Charger to multiple Chargers covering future ELECTRICITY DEMAND and Speed of charging. For instance GM EV HUMMER charging demands, FORD Lightening, Hyundai/Kia, Porsche Taycan, all the way down to those small EVs. I should've started with the small EVs t Up to the Large High Powered EVs. Now mentioning that how about those Construction Vehicles too: Large Dump Trucks, Excavation Vehicals, to the small Bobcats? Where I live (just north of you) there's LOTS of Construction going on just in my small city and surrounding towns too. And I live in front of 3 gas stations and NONE if them are I stalling any charging stations. 1 said that "No one would buy gasoline." Kind of mentality. But it's getting NOISEIER and MORE POLLUTED AIR.
We need more videos like this. We need more education in this space so that way we don’t have anymore future accidents and more fear of the electric future.
Thanks for this video. It helped us decide to use Qmerit to facilitate a Tesla Wall Connector installation in Trenton, NJ. The installation competently completed by Corbin Electrical Services, Inc.
Love your videos man keep up the great work. But I have a question for you. So I have a Town house and have a small electrical panel. With all 18 slots already taken. I am no electrician and don’t know anything about it. I am currently using the portable charger for my Tesla and I get 5 miles per hour of charge. I can’t go much longer with charging this way. What do you guys think is the best route to go with because I’ve see that u can split the power but I don’t know if it’s the best of idea after seeing this video. Please need help any suggestions guys.
As an electrician in the past and my dad now a retired electrician and then became an electrical engineer - I am sitting here with my head in my hands looking at this. This could have easily led to the house burning down and the insurance would not pay out blaming whoever installed the charger
Judging by what I have seen, these cheap Chinese parts are not made to code, they just say they are. Buy american made parts, or know what looks right. The plastic is not made to withstand the heat generated by the weak connections, so you have two problems. If it is fused properly, it is not likely to set the house on fire, that would be an extreme case. I used equipment that can take the proper amount of strain and used a infrared camera to check under load. No heat, no problem. Same with A/C disconnects, but the duty cycle is much smaller.
Total FUD response! The Insurer may subrogate against the professional electrician to obtain reimbursement to the insurance company, but the HO Insurance policy will absolutely respond to the claim and will pay whatever the policy requires (Actual Cash Value, Replacement Cost or Enhanced Replacement Cost).
I'm an electrician and an engineer working for a switchgear manufacturer. Even though I prefer copper there's nothing wrong with aluminum as long as it's wired correctly. Most industrial applications like data centers with large current requirements will use aluminum 9 out of 10 times.
You did not mention which gauge THHN wire to run from the electric panel to the EV charger? Please let us know. We don't want to make the same mistake. Thanks. Wire gauge for 48 amp and 80 amp which one do you recommend?
What a Great video. Please do more of these problem installations as this will need to be addressed as more people install charging infrastructure in their homes. If not made clearer, it will be just a matter of time to when substandard installations costs someone their house or even worse.
i was disappointed that you didn't answer the 6 awg vs 4 awg question that was originally asked. good video tho. you covered a lot. but what's the answer to the guage wire?
Just installed my Gen3 Wall connector. Torque driver is a must & remember to move around the wires and torque again. Repeat several times. Bonus tip: use an IR thermometer to check around the connections and breaker when charging to make sure it isn't getting too hot. Also, charge at slower speed if you have the time (24A vs 32A vs 48A). You should see the charging voltage go up and get closer to 240V, which means less loss and less heat.
@@JosephGreenleaf Torque Driver (50 lbf . in, 5.6 Nm) for the Gen3 Wall Connector. For the breaker, it should be printed or embossed on the breaker itself. I have QO breakers that were 45 lb - in (5 N - m).
Questions? I am planning on using my dryer outlet with a NeoCharge EV Dryer Smart Splitter so i don't have to unplug too many times. The original plug seems ok IMO but not sure. The breaker is what i am not to sure about it. It has a 20, 30, 30, 20. Breakers on it. I asume is two 50 amp breakers? On the panel reads dryer breaker 8 and 10 with those breaker mentioned above.
Great topic Tom! I would also be concerned with galvanic compatibility, going with all copper from start to end with increasing payloads generated by EVs , as a future proofing solution. High cost today, but out of mind for tomorrow w/AWG4 or bigger.
Totally nauseating how many times I have seen friends and also on Tesla Owners websites praise the cheap 14-50 "plugs" and use the stupid mobile cord and only doing the bare minimum on the most important step in EV ownership. Aluminum wire sucks and I will not have it in my house. I had my electrician run THN COPPER 4 gauge wire directly from my garage sub-panel 8 foot over to my Tesla Wall connector in conduit to "future proof" the install. I watched the Munroe video on the 14-50 crazies and knew I had chosen the right path.
I'm wondering since the question isn't found anywhere I can find, since virtually all sub panel boxes are feed Aluminum wire, is Tesla cool feeding the charger from a Aluminum feed sub panel box using copper THNN wire to charger???
Got a Model Y coming soon and I was planning to just charge on 120 Volt 20 Amp circuit and later install a 14-50 plug. I have successfully wired compressors , machines, and welders but now I see I know nothing at all when it comes to installing an outlet for EV charging. Glad I saw your videos.
Honestly this is part of the reason that I selected a 32 amp charger for my EV. All of the hardware is spec’d for 50 amps but I don’t need to charge my vehicle that fast. So I bought a slower charger and I even software de-rated the charger down to 30 amps. Even at that speed my car is typically charged back to 80% in about two hours.
For most people a really high powered charger is just not necessary.
Agree. Using a Tesla mobile charger and an industrial NEAM 14-50 outlet is all you need. You don’t need to charge over 32 amps. There is no real benefit.
I set mine up to be 48A ready (60A breaker, 6gauge THHN) but set the charger to limit to 40A. Every once in a while I have wanted that 20% additional charging speed, but it's never impacted my plans.
@@GregMcNamer I too installed the same setup and don't plan on running anywhere near the full 48A (I have 8-10h charging overnight anyway and slower is likely better) but wanted the max in case I add additional chargers in the future and power share with tesla wall charger.
Also hard wire 2+1 6 awg was actually cheaper than running 3+1 8AWG and spending 100+ on a good NEAM plug. and now futur proof so I never had to crawl under the house again...
I had a new garage built and specified a 50 amp circuit, Hubbell NEMA 1450 outlet and appropriate copper wire be used. I am using a Clipper Creek EVSE designed for portable charging which draws 12 amps at 240 volts. I am fine with that for now because I always have enough charge for the amount I drive. If my situation changes and I drive more, I will remove the outlet and get a hard wired 32 amp charger. Charging the battery slowly at 12 amps probably helps the battery last longer because it doesn’t get as hot while it charges.
@@wtmayhewLow amperage charging is less efficient. Wastes electricity.
Daang, what a great video. When I had my chargers installed I did my research for installers in the area. I figured, if I’m gonna pull 12,000 watts, the people who put this in better know what they’re doing. My house is 30 years old, so it was expensive, but my system is now completely bomb proof and we charge three EVs nightly.
No, I have two Tesla walk chargers that are connected. So they know which car needs how much and deliver it according to a schedule I set up. All in, my EVSEs run about 3.5 hours a night and deliver around 16kW.
@@rrkumar78 Excellent!
You said 3 EVs nightly that only accounts for two cars not three?
Please do a series on this. I work for a utility in the Caribbean where I see the slow but inevitable acceptance of home charging, and a lot of home owners are not aware of these simple but saline points that they and their electricians need to know.
A video series like this will give me ammunition to share with colleagues , local influences and policy makers.
How is the EV adoption rate out there?
Saline gave me a chuckle. I think you meant salient.
Definitely need a repair series. STATE OF DISREPAIR.
agreed, but more showcasing work and less talking heads.
The aluminum wire as a feeder is not a problem . Most homes and even commercial buildings are fed with aluminum feeders from the electrical utility . The pull out disconnect is used for AC high draw condensing units and with acs running all day in hot climates I don't see any more demand with an EV but I tend to agree even for a ac condenser they are not the best option . What we see here is improper connection on the terminals . Probably to loose . Same in the other panels . Unusual to see from multiple contact points .
I think they should develope a combination arc and ground fault dual function breaker for EV charging at the source in the electrical panel . Normal breakers do not trip on arc . I believe the largest arc fault breaker is a 2 pole 20 . This maybe the only solution to protect your home from burning down while asleep from faulty installs as EVs ramp up and charging becomes more common
My thoughts exactly. As they kept talking about the problem with AL wire, I’m thinking “What about the service feed?” If AL wire is a problem, then nearly every house has that problem. Properly sized and terminated, aluminum feeders are perfectly acceptable.
@@sigcrazy7 The funny thing most times the service wire from the electrical utility is undersized and quite substantial . They don't need to follow the code and self inspect their installations
Completely agree. Modern aluminum wiring is fine provided that they are terminated properly. The pull out disconnect is not the issue. It’s the excess heat caused by the improper termination and resulting arcing that caused the issue.
@@stevencole7331 The utility company does follow code, but the code they follow is usually the NESC (National Electric Service Code). The NEC has nothing to do with the POCO. See article 90.2(A)&(B). Service drops can seem very undersized to us NEC folks, but the service drop is exposed in the air, so can be much smaller per their code. Rule of thumb is their side of the meter, their problem.
I learned early in my career from two electrical engineers, to torque the terminals and then at the end of the job, check the torque again. They said because the ductile aluminum keeps compressing. I usually found a loss of torque. So the The torque back-check has prevented problems.
Also, the nature of the "scissors" type disconnect , {it is called a blade by the way} is the same as the stab type that failed. Square inches of contact and retention force is the same. Amp rating is amp rating regardless of duration of load.
EXCELLENT VIDEO!!! When I got my Tesla, I talked to several long-time Tesla owner friends about installation, they all used the same company, so I went with them too. And so did my neighbor and a guy down the street. EV charging isn't something to cheap out on, experienced EV electricians may cost more, but it's worth it. And IF the person hasn't installed many others, I'd find another.
Qmerit does this, which is why I'm happy they partnered with Tom, who I trust. Thanks guys for the great work!
Geez, just do it yourself. google it. Hi quality robust components are the way to go. Not cheap junk with a 30% duty cycle. And not aluminum wire.
Love this series idea. When I put in my wiring for a 14-50 outlet years ago I got help from a retired electrician friend. Based on State of Charge's continued insistence on safety, when I replaced my Volt with a Tesla that pulls 32A instead of just 16A, I hired a licensed electrician I found through Tesla's website that had experience with EV charging. He verified everything was done safely which helps me sleep easier. Thanks Tom
Absolutely have someone double check everything, you don't know what you don't know.
I installed my son's EV charger myself because I know that the average licensed electrician is not as skilled as most people think. I'm lucky to have a lifetime of experience and despite not being "licensed" I did the installation exactly as shown in this video. Thanks, I enjoyed your video.
This. I've had a few people ask why I didn't hire a "professional." Answer is that they will do the bare code minimum right up until they don't have the right thing in the truck. The dollars I save by doing it myself can go right back into better copper.
Stay safe with your install... And add a chargehanger...
did it myself as well. Its not that complicated, just make sure you get quality components and torqe all connections nice and tight.
@@wileecoyoti 100% this. You had a good comment as well and that's exactly why I did it myself. I too know my way around residential electrical work and have referenced the code myself because at the end of the day, this is my home and I want it done correctly with quality components. My concern was definitely on the sustained heavy draw of charging a car.
Probably non union rat contractor who is licensed but he sends out his "helpers" to do these jobs unsupervised.
Tom and Qmerit, well done to both of you! You went above and beyond.
What a great video. I've been trying to spread the word about EV chargers and their continuous load on the electrical system. I don't think people understand and this video drives the message home.
Excellent work Tom! I have been telling people this for years. This is not an area where you want to try to save a few dollars. Spend a few extra dollars and do it right. I am glad to see folks like you covering this and bring attention to the issue.
Heck. Your call name suits you perfectly on these subjects.
Please continue this series Tom. This is part of the education of EV charging.
This is amazingly scary and amazingly cool that you did this!
Ily daddy
Yes, please start a series on this, this is VERY needed! No one else is doing anything like this or shining a light on these issues. So important for all of us to know. It really is life or death and nothing like anything else in the residential setting. Definitely worth the attention. Thank you for taking this on and helping educate us!
It is similar to installing a hi power welder but with 100% duty cycle.
This is a really good video. This should be required watching for any electrician who is going to install EVSE's.
I have 2 50A NEMA 14-50 outlets charging our Model Y and R1S. I charge the Y at 25A and R1S at 40A which is more than enough instead of higher amperage. Most of us don’t need to charge at 48A or even higher. Glad Tom went to the rescue and hope a lot of people will watch this video and learn from him.
I feel ya on that. We charge our model 3 at 25 amps. More than enough for us and its fully charged in the morning to 75%.
I lowered my amperage to 60% from 80% after seeing this video. I can charge all night!
Did you mean to say from 80 amps to 60 amps? If percent, 80 & 60% of what? If the breaker rating, then drawing up to 36 A from a 60 A breaker circuit?
@@johnpoldo8817 I have a 50amp breaker and was charging at 40amps and lowered to 30 amps. It charged just fine overnight and added 199 miles to my charging limit.
Not mentioned is the electrical definition of “continuous “; any electrical unit in use for more than “3 hours” is then considered continuous use. An air conditioner usually turns on/ off for 10-15 minute cycles, so the AC breaker box never heats up enough to melt the insulated connections.
Always use copper wire and copper-rated connectors ( electrical panels at big box stores usually sell ALUMIMUN BUSS BAR PANELS; get a COPPER BUSS BAR PANEL, about 25% more). In my area, the parts brand would be HUBBLE; it isn't cheap, usually 2-3 times more, rated at 100% continuous duty. An INDUSTRIAL electrician would understand this as they perform this type of application every day.
You nailed it, Tom! Great and highly informative video. I'm not an electrician but I don't think normal residential electrical designs have ever seen 4-8 hours of continuous 40+ amp 220v current demand. I applaud your efforts to get electrical codes modernized. Keep making more "fix it" videos that shine a light on this issue.
As a Licensed electrician who does primarily service, I recommend to all my customers to direct wire their Level 2 chargers. I have replaced numerous receptacles ( both Leviton and Hubbell ) that were burned up. I have found several times the plug has not been pushed in all the way. This is also the issue with pull out disconnects both EV charger and HVAC.
I know someone who uses a plug for his EV charger. But it is a twist lock style so you know it is properly plugged in. He and I are both from the IT world have a lot of data center exp with these. If someone wants a plug in for their charger it's best to use a twist lock not a dryer plug. For precisely the reasons you mentioned. The problem is they cost real money and a dryer plug is basically just another outlet.
What a great video. Qmerit and Riverside are both close to us, so in addition to you gaining a subscriber, I'll definitely be contacting them if we decide to move our charger to another location in our garage. Thank you all!
I am glad for this video. Well done. You make people aware of some of the problems electricians face. Many homeowners are not aware of the cost to hook up one of these EVSEs. Dealers are telling potential EV buyers that it should cost $650. to $750 . It is more like $1,200 and up, which does not include any panel work. Soon we are going to switch to bolt on circuit breakers.
Excellent content. Thank you for saving people's house and possibly their lives!
Please do many more of these. Good engineering practice will go much farther than talk.
Great story! I would assume any electrician will do, but it makes sense that electric cars are a whole different animal. I hope you do more of these stories.
Yes, but it helps if the electrician is familiar with EVSE loads. Most electricians think of these circuits as dryer or oven circuits, not continuous-duty circuits. You have to make sure they realize the EVSE might be pulling 40A+ for 12 hours straight.
EV charging loads are nothing special.
The problem is that they are a sustained heavy load for a long period of time.
This causes shoddy work and components to show up, unlike with short duration loads that can cool off after a short time.
***This is the real problem***
Shoddy work that is much more common than many would like to admit:
- undersized wire for the load
- improper termination of wire
(Loose wires, screws not torqued (BIG ONE), no anti-oxidants used on aluminum (NUAL) wire, terminals used with NUAL that are NOT rated fir aluminum...)
- cheap, knockoff, poor quality components
(Disconnects, high power receptacles, etc)
I’m glad you and the Qmerit expert talked about over torquing. I watched my Qmerit installer tighten the wires at both the charger and at breaker lugs with a regular screwdriver as tight as he could. He did NOT use a torque wrench.
The system will be inspected on Tuesday and I will be contacting the contractor and Qmerit the same day.
The moral is that using a Qmerit installer is not a guarantee the installation was done correctly. Know how it should be done and watch the installation yourself!
UPDATE: Spoke with the field supervisor of the contractor today. He said that there are no questions on ‘the test’ (I’m assuming that he means the Qmerit qualification test) so he does not deal with that in training his techs🙀.
He volunteered to come out to redo the connections and invited me to watch him retorque them. I did and he found two connections were over-torqued and two that were loose. All four connections were not to spec and obviously Qmerit’s standards.
I called Qmerit and asked to speak with a tech or supervisor. There was no one available, but said they would have someone call. That was at 09:00 and it is now 16:15 and no call. I’ll try again tomorrow.
I’m pleased with the great customer service of the contractor, but very concerned regarding the mismatch between what Qmerit says their contractors will do and their certification & training requirements.
UPDATE #2
The Qmerit EV Concierge contacted me my email and I explained my issues and that the Field Supervisor had already completed the job to QMerit standards. Today he both contacted me by email and by telephone to assure I was ultimately satisfied. He also said that they would be examining their training materials and oversight of their contractors based on my feedback.
I am fully satisfied that my system is as safe as possible and that Qmerit is willing to listen to concerns and make their referral service worth their premium price.
Still, you never know the quality of the work unless you know how it should be done and watch the installation to assure that it was performed correctly.
Qmerit has hundreds of local contractors in its network. Some are better than others, it's that simple. But Qmerit does tell them they must use torque drivers/wrenches. They do want to hear feedback from customers so I would advise you to let Qmerit know the contractor didn't do it properly. If they get enough complaints about any one contractor, they will remove them from the network.
@@StateOfChargeWithTomMoloughney I understand what you are saying, Tom. I will work with the contractor to get another installer out to correct the work and let Qmerit know what occurred.
My point in posting was to let your viewers know that even highly rated companies can do sloppy work and so that you can emphasize to your viewers that they should know how the installation is supposed to be done AND watch it being done so they know it was done correctly.
As you often say, this is your life that is potentially at risk so you need to know the work was done to the highest possible standard.
@@StateOfChargeWithTomMoloughney "But Qmerit does tell them they must use torque drivers/wrenches." That's nice.
The NEC says the same
You know the saying, there’s always a bad apple in every bunch, your installer could have been a bad apple.
@@fdeguilla I would not say he was “bad” or lazy. It was he was not properly trained because of some omissions in Qmerit’s training materials, testing and contractor auditing. Qmerit thanked me for the feedback and said it would be addressing the shortcomings. Still, my original point is still important and true - know how the installation should be done and watch the installer do the work. Your life and those of your family may depend upon it.
You are absolutely correct. I am very knowledgeable about that area, and I had it done in my home new home in California and then when I moved here, I had a gun again and the electrician put the cheap quality, Chinese plug and I had it removed and put the best American brand Hubbard. I believe it was. It was like 10 times more instead of $10. It was a $100 and we removed it. We put that thing the electrician came back. He removed it and put the Hubbell brand and he ended up paying for that. Thank you for this video. You're awesome.
Hubbell, not Hubbard.
So happy to see attention brought to this problem. I recently purchased a Chevy Bolt and had my charger installed through Qmerit for free. They contracted a local company that specializes in EV charging but installed a breaker that was not rated for my panel because they could not source a GFCI in the correct brand. I questioned the installer about it but they insisted that it was safe. Seeing all these charging malfunction videos made me uneasy about it so I contacted Qmerit who confirmed my fears of the incorrect breaker and they sent the installer back out to correct the problem. They ended up putting a standard breaker in my panel that met the certifications and moved the GFCI out to a sub panel they installed next to my charger so I guess in this case the installer tried to save a penny but probably lost money on my install with the additional equipment and labor.
Interesting, most EVSE install instructions say not to use a GFCI breaker. It's in bold text in the Tesla HPWC instructions. All ground fault protection is built into the unit.
@@tazeat it was a 14-50 outlet installation
Once again Tom - great video! I got as much information as I could over the year + I waited for my lightning to arrive. Also made sure to use the highest grade materials, such as copper wiring and commercial grade 1450 connector as appropriate. Haven't had any problems in the year that I've been connecting my vehicle at night. Your video this is great information, especially for folks who are new to this technology. One thing I would add though is I would probably vet any vendor that is going to do the work. I have experienced several electric vendors (including Qmerit partner electricians) out there that are taking advantage of customers "lack of knowledge" and fear by jacking up the price of the quote! It's really important for folks to read their quotes very carefully... Cheick it line by line item and do your research to determine if what's being quoted is actually required. Also get at 3 three quotes from various electricians to use for comparison.
Great job on the diagnosis and repair, the owner had a dangerous situation going on there through no fault of his own. Personally I would have had a scissor type disconnect installed near the charger to kill power in case of an emergency. Great job Tom!
Thank you. This was very helpful to see the problems. I would appreciate more videos like this. As long as it's profitable to you.
I've seen several AC disconnects installed, and melted from using them with a wall charger. The places that require a disconect for EV chargers need to specify a knife switch or something with similar metal construction.
20:27 this video is great! I used Qmerit for my installation. The electrician that did the work was very good. I found Qmerits free estimate was very low compared to my actual cost, not sure why. Another thing Qmerit did was make me aware of the IRS $1000 tax credit available, I got mine.
After watching this, I confident that my install is safe. Make more of these so people get it right.
Love your talks. I had exactly the same trouble with my installation. Two quick disconnects have burned out and the local electrician suggested I use the knife type disconnect instead. I did the installation myself and had it inspected by the local electrical safety board. They thoroughly checked everything and passed it. In my case it was definitely a case of undertorquing the connections in the pull-out disconnect box.
They didn't show it. But while torquing it down. One needs to pull and wiggle the wires around a bit. It can make the wire strands shift around. I watched a couple of videos and after they did that it was obvious that they were tightening the screw down a bit more. Even though they had just used the torque wrench at the correct setting. The shifting wires create a under torque condition.
Yes, would love to see a series on this. Thank you for the knowledge
Kinda wish you would've addressed the 6/2 romex question Dylan had in his initial post. 6/2 romex is actually what is recommended by Tesla with a short enough run and as long as it stays within drywall.
I was also hoping Tom and the master electrician would address that question. IIRC it was about 4 AWG vs 6 AWG for 60 A circuit to 48 A wall connector. IIRC the answer is that 6 AWG is OK if using individual THHN wires in conduit, but NM/B (Romex) can’t dissipate heat as well, so 4 AWG must be used.
@@georgepelton5645 Yep, for copper. Tesla does not allow Alu wire for the branch circuit, so they do not specifically call out for Cu wire in their sizing recommendations. I *think* that this case is a bit unusual in that an (uncecessary) disconnect was installed, and that Tesla would only require that the load side of the disconnect be Cu
6/2 romex does not meet code for a 60 amp circuit. It is only rated for 55amps.
6/2 Romex is not actually what is recommended in the Tesla wall connector installation manual. On page 6 it says
"Use minimum 6 AWG, 90C rated copper wire".
The 90C is key here because romex is only 60C rated so 6AWG Romex is not acceptable.
6AWG THHN or THWN within conduit is to code for 48A continuous operation. 4AWG Romex is also to code.
I personally have two Tesla chargers each using 4AWG copper. One is inside a metal clad sheath and the other inside steel conduit.
This is more that required but I know that I will never have the sort of issues seen in this video.
Great video. Please do more of these videos. Best way to educate home owners.
I never do anything to minimum code. I always go above code in everything I do because minimum code usually leads to headaches. I don't get call backs but I do check in with my customers down the road to make sure no problems have cropped up from the work I performed. Word of mouth is the best advertising.
YES PLEASE DO A SERIES ON THIS!!! I will be purchasing a Tesla Model Y this summer and will be building a new home next year. This type of series will DEFINITELY help me ensure that my new electrical system will be installed correctly from the start!! This is EXCELLENT!!!
I set my charger up to 32amp Max output until I get the funds together to have a Pro run a dedicated line from my Main panel on the other side of the house. I also just set my car to charge at 20amp overnight which is usually more than enough current for my 70% battery level. It is videos like this and Sandy Munro’s that make me cautious about my charging level.
Honestly you don't need more than 32A anyway, and it will reduce the stress on the vehicle's built-in AC charger to run lower currents.
My electrician (who was on the Tesla list of electricians), put my TWC on a GFCI breaker which caused it to occasionally trip. The TWC manual says it has built in GFCI and not to put on GFCI breaker so the electrician came out, swapped it and been fine. Also, unless you are an Uber driver and charge multiple times a day, 60 amp (48 amp continuous to car) is overkill really. On my 50A breaker, I could run 40amp but I set mine to 30A as it gives me about 10% per hour for my Tesla MYLR. I usually have it start at 1am and usually done by 4am which is still well before I leave and is off peak for the grid.
Similar thoughts on our charger installation, but in my case, I also have solar on the roof, so I adjust my charger's output to use up the solar production for the entire house plus the charger. At the peak solar production, usually 10 a.m. to 2 p.m., my 48 amp charger is lowered to 20 amps, and I'm charging my car plus providing solar energy to the house with a little overflow to the grid. Now I need some AI in the system to keep an eye on what the solar is producing and dynamically adjust the charger's output.
Also consider that a larger current is useful for certain cars such as the CT, lightening, rivian or hummer that have much larger batteries and/or range.
I ended up buying a second Tesla so now we have power sharing going on one 60 amp breaker at the main that goes to a sub panel in the garage. Now I'm glad I have 60 amps available, so 24 amps to both cars when we're charging both at the same time. That can take a long time. It's nice to plan for the future. Having some extra power available gives you options.
I agree with others that 40 or 48 amps is overkill. I am home for 10-12 hours at night. Is it essential that the charger be finished by midnight? What is the rush?
Lower amperage is plenty, and puts less stress on all the components.
This eagerness for "maximal possible amps" may be counterproductive.
@@ralstm1 1) Future proof, you might buy a second EV. 2) In an emergency you might wish you could charge faster.
Adding an EV to your house, you may want to talk to your electricity distribution provider. Out in our rural area, where our electric cooperative often has a separate transformer for each house, the transformer may not be sized to handle the EV. Transformers are sized based on average expected loads, and are able to handle higher than rating, provided the loads aren’t continuous.
When we got our first EV, I was on the board of our electric coop. The engineering folks at the coop initially thought the 10KVA transformer for our house was sufficient. I did the math and emailed the VP of that part of the coop with the numbers. My calculations pointed toward a transformer fire given the 4 or 5 hours of charging. The coop replaced the 10KVA transformer with a 25KVA at their expense.
Wait, since when does Tom do house calls? Lol😂
🤔 LOL😂😂
He needed a break from his old lady😂 That’s always my excuse
Thanks, Tom. Good summary starting @time 23:54, And yes, if possible, it'd be good to do more videos of real world "inadequate" installs.
All I see starting at 23:54 is more preaching and virtue signaling.
Am trying to find anything other than "aluminum wire!", "continuous draw", torque torque torque, and, "It broke."
Best advice -- set the charging power limit to optimum power for whole night charge, not maximum -- especially when you're not sure of in quality of the installation and the house system itself.
slower charging can also be more efficient. check out the charging voltage - could easily drop 3-5% (240V vs 230v) at 48A vs 24A.
A series on this would be great.
Yep. I AGREE 1,000 %. And to Educate the new and current Electricians and Electrical Building Inspectors too. But Who should be 1st? The STANDARDS and Building/Electrical Inspectors? Then the Electricians?
Also what's going to push these standards to be instituted? The EV Auto manufacturers, charging infrastructure, The Standards institutes?
The EV Technologies will improve and demand higher amps/voltages/speed of charging at higher rates. So should we wait till its all settled on the Accepted Norm or Expect these chargers will need higher charging speeds and flow of ELECTRICITY?
@@robertlee8805 I believe individual states will have to mandate new codes for EV installation that local / municipal building codes will have to follow . It will be customers driving change by complaints against bad installations.
Excellent Video! Should be required watching for every State Regulatory Department in charge of Code for electrical installations/upgrades.
Nice of your sponsor to pick up the bill for this . Its easily in excess of $3000.00 for that scope of work.
Yes!! Series starter!! Keep them coming. Im in SA too.
Great Video Tom. I just installed my Tesla Wall Connector. Always use the top of the line products. That are properly rated for EV’s.
Tom, this is an important series and I hope you will do more. Another area you might want to cover is long term inspection / maintenance of these installations. I have a 40 AMP dedicated EV circuit with a NEMA 6-50 outlet that was put in in 2013. Your video makes me wonder if it should be checked / retorqued, even though 11 years later it still looks brand new. It was installed under the Department of Energy EV evaluation program so seems like they did a good job.
Awesome video Tom!
Please continue the good job, we'd love to see more videos like this
Thanks to guys like you on RUclips I realized these problems before we connected our level 2 charger for our beautiful Tesla! Thanks for the great video!!
Great explanation, of course. One contribution to margin that I find useful is to set my Tesla charger well below capacity. On my 50 amp circuit, I set the charger to 30 amps and don't worry about needing a bit more time to "fill up" the MYP battery. The cable from the Tesla unit to the car runs sensibly cooler, always a good sign.
I learned a lot from this video. Thanks. Just about to buy my first EV
Thanks for this. One thing I learned is to question if you really really need one of those high amperage chargers. Typical homes have a 30 amp breaker for the clothes dryer and a 50 for the oven. Limit yourself to a 40 amp chargers on a dedicated 50 amp circuit and you eliminate a lot of potential problems.
Yep, 50A circuits are only good for 40A continuous.
@@altosack I have Ben perfectly fine for the last 2 years on a 30A splitvolt circuit shared with my dryer.
@@swatkin3 - That’s great, but if your equipment pulls more than 24A continuous, it’s not to code, and arguably should be fixed.
In the vast majority of non-code-compliant situations, nothing ever happens, because there are multiple safety factors in other areas of the design. It’s on purpose, and is why there are really very few electrical system related injuries.
@@altosack it doesn’t. My equipment pulls 24a and the splitvolt has a separate 24a breaker.
@@swatkin324A breakers do not exist. What are you talking about??
So what size wire did you install? For how many feet? The client asked about 4 vs 6 gauge, nice video just left some things out.
Nice video. All true. As a sparky I’d like to say you’re right about the 60 amp pullout disconnects as not being up to continuous duty as RV chargers must be rated for I had one with properly torqued connections at my house fail just like the one in the video. Guage was proper and wire was fine. Disconnect pullout was loose. Don’t use them for EV chargers. Nice job on fixing the route problems. Great advice, bang on. It might cost you a little more but how much is a fire? Do it right the first time and you won’t have that problem.
Hi Jonathan. How do you know that the wire and AWG were fine ? I didn't hear the details needed to make that determination.
I’m convinced. I will definitely call QMerrit when I purchase my first EV.
Qmerit is a marketing middle-man. Local electricians sign up to be 'Qmerit installers,' hoping for more work. These local electricians vary in quality, just like the local electricians who are not part of Qmerit marketing.
I honestly do not know a fool-proof way to hire a competent electrician but I do know that Qmerit is no panacea and they are expensive. Someone has to pay for the marketing costs and extra layer of profit.
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As an aside, I wish the Qmerit show had told us more wire details about the run from the sub-panel (turned into J-box) to the disconnect.
Was the EVSE the only load on that feeder turned BC circuit ?
Was the wire run to the disconnect in conduit ?
What AWG Alu wire was used ?
If the run to the disconnect was Alu not in conduit, #3 AWG was required to prevent overload. Moreover, an EVSE requires a dedicated circuit. Any additional loads that were wire-spliced in the demo-d subpanel are a violation of an important safety code and added to the overload. The same considerations apply for the run from the main panel to sub-panel cum J-box. So even before invoking poor workmanship (an easy target to be sure), the wire choice is highly suspect.
For those casually following along, the electrician who installed the EVSE may have been able to save a lot of grief by simply setting the Tesla EVSE for a 50A circuit. But it seems like s/he did not know how to look up wire ampacity, a very core competency for anyone doing wiring.
Thanks for this videos, I have learned a lot, I'm here in San Antonio Texas as well, I'm a handy man that do all kind of work in homes, I also own a tesla model 3, and know electrical because of taking some clases in high school but here local aluminum wire is very common and use now mains and most 220v loads in homes, copper is use only in 110v wall outlets and switches, obviously copper is used in 220s but been more expensive is not the the first choice, I had this melting issue in a ac disconnect in my parents house like 5 years ago, they have a 15kw heating system in the central system and one did I notice a melting insulation in the main wire coming from the overhead city pole and called the CPS out local electric provider and the techs will fixing or actually replacing the main wires coming in from the city the guy asked me if I had any knowledge of electricity and asked my to check all the 220v connections in the house while there was no power for any lose connections and found a melted disconnect on the inside unit and realized that it is not rated for that much power and I installed a small sub panel rated for 100amps with 4 spaces 2 breakers 220v and feeded with aluminum wire, and seperad the load into 2 separate loads one for a 5kw and the second four the 10kw elements and have not good any issues after, and I did a ev nema 50 installed for a ev few years ago and had a melted outlet after about a year and learned from your videos to only use the industrial one from Bryan and hubbell and will not use any thing other than dose one bought a torque screw driver to make sure every connection is properly torqued not only in the charger but also in the breaker and learned also that thhn wire had a higher amp than Rome wire even been the same gauge
Indeed, handling high amperage electrical systems, such as a 50 Amp single-phase system, requires some careful considerations, high-quality equipment, and adherence to a couple of safety standards. The duty cycle indeed adds a factor of complexity in designing and operating such systems.
In contrast, the European approach to managing high power demands, especially for applications like electric vehicle (EV) charging, home appliances, and industrial equipment, often involves using a three-phase power supply. The standard three-phase voltage in many European countries is 400V (often referred to as 380V or 400V, depending on the country), with a common configuration providing 230V between any one phase and neutral. This setup allows for more efficient power distribution and reduced current per phase, leading to several benefits:
Efficiency, reduced load per phase, safety and infrastructure including the use of 16A circuits for up to 11kW of power. This setup is quite common for residential and commercial applications, including EV charging stations, which can safely and efficiently provide a high level of power without overloading the system. And the overall practicality for EV charging... For electric vehicle charging in a residential setting, an 11kW three-phase charger is a popular choice in Europe. It strikes a balance between charging speed and the capacity of most residential electrical systems.
Three-phase is common in the US, just not in residential homes. One isn't better than the other; they both have advantages and disadvantages.
good to know. I grew up with 220v (france) and always sought odd to only have 120 x 2 in the US. Higher V makes a lot more sense...
@@alaind831 A lower voltage should in theory reduce the number/percent of fatal shocks. Death is primarily caused by exceeding the current threshold in the heart. Everything being the same, increased voltage leads to higher current so at 240V more fatal shocks occur. So, in the US we run most things at 120V and have the option of split phase at 240 for appliances that need it, such as a dryer, stove, air conditioning or EV. Having 120V for most things (think of a child putting a paperclip into an outlet) and 240V when needed is safer.
@@TrendyStone ironically I got zapped many times as a kid in France while tickering with electronic circuits (before I became an Electrical Engineer in the US). Granted I wasn't standing in water and stickign my tongue into a plug :)
110V is not safer then 220V if you have 50or 60Hz AC.
But the current is doubled at 110 V
for the same electrical power.
So there you have higher current and resolving heat in wiring ( and additional higher percentage of voltage loss in wire resistant.
So 3 phase 230V = 400V system with copper cable specified to DIN
results to a saver feeling.
The aluminum wire issues are interesting. The conventional wisdom is that it's fine for large wire, let's say #4 or bigger, connected to terminals that are rated for it. In addition, it is required to be torqued to spec and I would advise anti oxide goop even when it's not required by code, after cleaning the surface of the wire. For ev charging, I would also want the ampacity to be a little more than 125% of the charging load, maybe 140 or 150%. I doubt the problems with aluminum are in cases where all that was done right. You might say it's safer to just avoid aluminum, but your service conductors are almost surely Al. Fortunately, it can be safe for big stuff when done right.
Yeah, the aluminum phobia seemed a bit exaggerated. I wonder if the original guys undersized the aluminum wire between the main panel and subpanel. I can definitely understand the rest of the thinner wiring being copper that went from the subpanel to the EVSE.
Great one Tom! Thank you for doing this!
I love this video, tom! I would really like to see more of these types of videos. I know it is a cost to you not only monetarily, but also your time. But I feel these are very valuable.
One of the reasons I appreciated Chevy paying for my home charger install with their promotion last year was that they worked through Qmerit, and Qmerit themselves picked the installer who would have EV charging experience - made the experience smoother than if I went out to try and find a local electrician myself.
When I remodeled my house I changed to 200 amp service and pre wired for a car charger. I hired the electrician who does all the work at a wood shop where I work. Well experienced crew that is very experienced with heavy duty, constant draw equipment.
I've just experienced this last weekend with my JuiceBox EnelX Level 2 charger 240v plug in. Now I need to get this resolved. I just thank God my house didn't catch fire or burn down.
Tom, you are doing God's work here! LOL. Hopping on planes and fixing problems!
Thanks!
I had initially used Leviton R14-50 outlets (Home Depot) with half-height lugs. These overheated. I replaced those with Eaton/Cooper outlets that cost 50% more, but have not overheated since, for a year+.
Eaton / Cutler Hammer is one of my go to's! You get what you pay for...
Tom you totally hooked this dude up
Not an electrician but spent many years in construction. Installed my own charger the same way this video described.
As your video shows there is a difference between doing it right (cheap but legal) and doing it right (don't burn your garage down). We installed our Tesla charger and we used with 60 amp 4 awg copper and it wasn't even a discussion. As a one time cost, do it really right.
My building department told me components could only carry 80% of rated load if it was to be used continuously.
DIY! 6 awg romex and i use only 32 amps. 8 hours to fill up TMY long range. Wire is just a bit warm to touch.
That is interesting that it was all to code. Although in Australia can only use copper wire illegal to use aluminum wiring from my understanding. So good to see the house is still standing and no one was injured.
I honestly don't think the original house wiring was up to code. The main breaker box should not have taken that sort of damage under any circumstances if it was. Either the breakers were counterfit or the aluminum wiring was not protected from oxidation.
re: "Although in Australia can only use copper wire illegal to use aluminum wiring from my understanding."
The aluminum wires were ok.
Aluminum wiring is great. Multiple times cheaper, uses a much more common metal, and is MUCH easier to work with (much lighter, and bends much easier). BUT must be terminated correctly.
This failed from poor termination (shoddy original install) and probably a cheap disconnect, that went into thermal runaway.
Aluminum wire (NUAL) must be terminated correctly, using anti-oxidant grease, properly rated terminals for aluminum, and must be torqued with a torque wrench
Tom - had this same exact failure last year. I was lucky enough to be walking by and smelled the plastic melting.
It appeared to me that it was torqued OK but the blades on the pullout disconnect module were spread out slightly and caused a serious heat buildup.
I gutted the enclosure, replaced the damaged wiring and used some Polaris blocks to splice inside the enclosure.
Thankfully the main panel was OK. But was scary - another hour or two and it would’ve been a busy day for Parsippany PD.
ChargePro is a top-notch electrical contractor with extensive experience installing EV chargers!!
Why do the rating agencies inflate specs that are NOT FOR continous service. That is flat out dishonest.
Tom - Please do more of these videos! I bought a home level 2 charger (in anticipation of buying an EV) and I want it installed right! I live on Long Island and will use QMerit when I'm ready for an install!!
Great series idea. Make more please.
Glad I did it myself more then ever. I hardwired right to the breaker box, torqued the screws in my tesla charger as well as on the breaker. After a year of service I checked the torque again. No issue ever.
Exactly! The guide specifically says direct wire; no plugs, no disconnects, no GFCI. Half these so called electricians are jokes. I have a EVSE I installed myself 12 years ago. Not a single problem.
From what I gather here in the UK we stopped using aluminum wiring in the 70s due to increased fire risk. I had not realized aluminum was a thing. I know that in the UK we use 240 volts against the US 110 volts. but I also have seen you can have 220 volts. Apparently, we do use aluminum for transmission lines. A very interesting video thankyou.
For residential structures in the US, we typically use copper up to 10 or 8 gauge, but anything larger is usually aluminum.
Also, our 240V power comes as two opposing phases with the neutral in the middle, so still 120v to ground.
Typical US residential voltage delivery is 120/240V ac single phase. Aluminum is perfectly okay to use (I have used it for service panels supplies as long as it is sized and terminated properly and the terminated equipment is rated for AL.
Check you main delivery wire (the one coming from utility): it is most probably not copper.
Thanks for sharing this information. Wonderful video.
Lucky it didn’t cause a wider problem in the house! Well done for fixing it!
Yeah, he is very lucky
@@StateOfChargeWithTomMoloughneyTom. Please cover these topics in more detail. Like the gauge of the cables/wires from the power lines from the utilities all the way to the charging stations. For single EV Charger to multiple Chargers covering future ELECTRICITY DEMAND and Speed of charging. For instance GM EV HUMMER charging demands, FORD Lightening, Hyundai/Kia, Porsche Taycan, all the way down to those small EVs. I should've started with the small EVs t
Up to the Large High Powered EVs.
Now mentioning that how about those Construction Vehicles too: Large Dump Trucks, Excavation Vehicals, to the small Bobcats? Where I live (just north of you) there's LOTS of Construction going on just in my small city and surrounding towns too. And I live in front of 3 gas stations and NONE if them are I stalling any charging stations. 1 said that "No one would buy gasoline." Kind of mentality. But it's getting NOISEIER and MORE POLLUTED AIR.
We need more videos like this. We need more education in this space so that way we don’t have anymore future accidents and more fear of the electric future.
On the Tesla installation manual said very clear "Cooper wire only and no disconnect or GFCI Breaker need.
Thanks for this video. It helped us decide to use Qmerit to facilitate a Tesla Wall Connector installation in Trenton, NJ. The installation competently completed by Corbin Electrical Services, Inc.
I went with 4 gage Romex Cu wire for my Tesla charger installation.
Love your videos man keep up the great work. But I have a question for you. So I have a Town house and have a small electrical panel. With all 18 slots already taken. I am no electrician and don’t know anything about it. I am currently using the portable charger for my Tesla and I get 5 miles per hour of charge. I can’t go much longer with charging this way. What do you guys think is the best route to go with because I’ve see that u can split the power but I don’t know if it’s the best of idea after seeing this video. Please need help any suggestions guys.
As an electrician in the past and my dad now a retired electrician and then became an electrical engineer - I am sitting here with my head in my hands looking at this.
This could have easily led to the house burning down and the insurance would not pay out blaming whoever installed the charger
If it was a permitted install (as this seems to have been) the insurance would almost certainly pay out in such a case.
@@raitchisonYes correct. Insurance would have to pay then sue the contractor to recover.
Judging by what I have seen, these cheap Chinese parts are not made to code, they just say they are. Buy american made parts, or know what looks right. The plastic is not made to withstand the heat generated by the weak connections, so you have two problems. If it is fused properly, it is not likely to set the house on fire, that would be an extreme case. I used equipment that can take the proper amount of strain and used a infrared camera to check under load. No heat, no problem. Same with A/C disconnects, but the duty cycle is much smaller.
Total FUD response! The Insurer may subrogate against the professional electrician to obtain reimbursement to the insurance company, but the HO Insurance policy will absolutely respond to the claim and will pay whatever the policy requires (Actual Cash Value, Replacement Cost or Enhanced Replacement Cost).
I'm an electrician and an engineer working for a switchgear manufacturer. Even though I prefer copper there's nothing wrong with aluminum as long as it's wired correctly. Most industrial applications like data centers with large current requirements will use aluminum 9 out of 10 times.
You did not mention which gauge THHN wire to run from the electric panel to the EV charger? Please let us know. We don't want to make the same mistake. Thanks. Wire gauge for 48 amp and 80 amp which one do you recommend?
What a Great video. Please do more of these problem installations as this will need to be addressed as more people install charging infrastructure in their homes. If not made clearer, it will be just a matter of time to when substandard installations costs someone their house or even worse.
i was disappointed that you didn't answer the 6 awg vs 4 awg question that was originally asked. good video tho. you covered a lot. but what's the answer to the guage wire?
Just installed my Gen3 Wall connector. Torque driver is a must & remember to move around the wires and torque again. Repeat several times. Bonus tip: use an IR thermometer to check around the connections and breaker when charging to make sure it isn't getting too hot. Also, charge at slower speed if you have the time (24A vs 32A vs 48A). You should see the charging voltage go up and get closer to 240V, which means less loss and less heat.
What is the torque setting?
@@JosephGreenleaf Torque Driver (50 lbf . in, 5.6 Nm) for the Gen3 Wall Connector. For the breaker, it should be printed or embossed on the breaker itself. I have QO breakers that were 45 lb - in (5 N - m).
Questions? I am planning on using my dryer outlet with a NeoCharge EV Dryer Smart Splitter so i don't have to unplug too many times. The original plug seems ok IMO but not sure. The breaker is what i am not to sure about it. It has a 20, 30, 30, 20. Breakers on it. I asume is two 50 amp breakers? On the panel reads dryer breaker 8 and 10 with those breaker mentioned above.
Great job !! Thanks for your coverage.
Great topic Tom! I would also be concerned with galvanic compatibility, going with all copper from start to end with increasing payloads generated by EVs , as a future proofing solution. High cost today, but out of mind for tomorrow w/AWG4 or bigger.
Totally nauseating how many times I have seen friends and also on Tesla Owners websites praise the cheap 14-50 "plugs" and use the stupid mobile cord and only doing the bare minimum on the most important step in EV ownership. Aluminum wire sucks and I will not have it in my house. I had my electrician run THN COPPER 4 gauge wire directly from my garage sub-panel 8 foot over to my Tesla Wall connector in conduit to "future proof" the install. I watched the Munroe video on the 14-50 crazies and knew I had chosen the right path.
I'm wondering since the question isn't found anywhere I can find, since virtually all sub panel boxes are feed Aluminum wire, is Tesla cool feeding the charger from a Aluminum feed sub panel box using copper THNN wire to charger???
What size wire did they end up pulling it didn’t look like 6 AWG but THHN is hard to tell at a distance.
Got a Model Y coming soon and I was planning to just charge on 120 Volt 20 Amp circuit and later install a 14-50 plug. I have successfully wired compressors , machines, and welders but now I see I know nothing at all when it comes to installing an outlet for EV charging. Glad I saw your videos.