Debunking the Pros: Can WAGO Lever Nuts Handle Heavy Electrical Loads?

All My Favorite Tools: geni.us/VYIp51
DISCLAIMER: This video and description contain affiliate links, which means that if you click on one of the product links, I’ll receive a small commission.

The wago lever nuts are tested to European and German standards, and they are good standards for safety. While it may have slightly higher resistance due to the busbar arrangement, it is far less likely to experience user error and a poor connection in a DIY situation. The locations I use these most are for light fixtures, which have low draw. Good demonstration and good data. That was a well designed experiment. Thanks for putting it out there!

I'm a licensed electrician. I've been working for 25 years. I've used Wagos for most of that time. We've used them in residential, commercial and industrial conditions. Lighting retrofits, new home construction, remodels, and pretty much everything including high amp loads. I've been back to some of those jobs months or years later for various reasons and been back inside some of the boxes with the Wagos installed. None were melted. All were perfectly fine. I've never had to go back to a job because of a problem with the Wagos.
They have been used in Europe for decades. They are tested to German standards. They are UL approved. And this test also shows that fears of Wagos being unsafe are unfounded. They are just fine. They are not a problem at all. I understand why some are skeptical but Wagos are perfectly safe. I have them in my home wiring.
Wagos are also clear so you can see how the wires are seated inside the device. You can't do that with wire nuts. You can't see inside to verify the wires are correctly seated. Wagos are also easier for a DIY to get right.

I want to clarify something Scott keeps saying which is a little misleading (and that is Wago's fault): Wago 221 lever nuts are a FAMILY of products with different current ratings and gauges of wire. The ones Scott is using are the 221-41X side of the family which are rated at 20A/300V. The X represents the number of conductors, so 221-415 is a 5-wire Wago. Now the misleading part: there are different Wago 221s for higher current applications up to 30A/300V and supporting conductors from 20-10 AWG. If you need Wagos for higher current circuits then those are what you need, and they are available in 221-612, 613, and 615 sizes. Sadly, no inline splice connector in the higher range yet.

2:41 I have the same IR camera and something you should be aware of is the the surface material you’re measuring will definitely affect the temperature value shown. The factor is called emissivity and needs to be taken into account. Shiny or polished surfaces have very different values than dull or matte ones. You should be aware of this when comparing temperatures. Tables are available and a common trick is to use a piece of electrical tape where you want to measure to ensure each test point has the same emissivity.

I’ve seen some shotty work done on home electrical components. It’s not uncommon to see a wire nut hanging on by a thread. I’d say if you know what you’re doing as an electrician you will get similar results from using either option (some prefer the ease of the WAGOs sure, but I mean in terms of function). But a poorly installed wire nut could actually be a bigger threat posed compared to the higher resistance of the WAGO connections.

I can only say one thing:
If it is UL CSA CCA EU.... approved, you can use it without any worries, as long as it is used as intended.
I have been working with those standards on an industrial base for almost 50 years now and trust me,
you can rely on them. Also, spring terminals have been approved for industrial use for many years now!

I have been replacing my ceiling lights with integrated LED fixtures and exclusively used Wagos since the current draw is so much lower and is so much easier for me to install. No more hoping the stranded and solid wires will twist together.

For the comparative testing, it's simpler to just measure the voltage drop rather than doing all the temperature measuring, because the heat generated is basically that voltage drop times the current. That calculation is the amount of power being dissipated in the box, and easily compared between each other as well as the baseline.

You read my mind. After seeing you recommend Wago numerous times in your videos, I still hesitated when it came to my projects. “But the resistance is higher with the Wago; it’s safer to stick to wire nuts,” I told my self. Well, not any more! Thanks to your well-planned and well-run demonstration, I no longer have any hesitation. This is what I love most about your channel: you don’t just reach conclusions about different methods or parts, you take the time and effort to break them down and test them. Excellent work, yet again.

My experience with wire nuts is that they can be a bit tricky to get right, especially if you mix wire types. The Wago do allow you to transit between just about any wire types without risk of an unreliable connection.

What is attractive about the Wago product is its' ability to handle stranded wires as well as solid in a very straightforward and fuss-free manner. My house is done in wire nuts for the most part but any time work on a lighting fixture everything gets changed to Wago...

Well done, I suspected the WAGO would be slightly more resistive (heat) however, it still works quite well and makes the jobs much easier. Cheers

Great information.
What was the best, is when you trued up your graph. Using statistics and graphs to mislead is almost the oldest profession.
In your graph using 5 degree increments, you get a much different message, deceiving message.
Then you added the approved upper limit and the data dictates 20 degree increments and the truth really comes into focus.
As several have mentioned, getting wire nuts "right" is a learned skill. I have seen experienced electricians get it wrong sometimes.
For ease of use and very high probability of making the best connection, I say the safest choice is the WAGO lever nut.

As a HVAC tech I've been using WAGO for years. Wire nuts work fine and yes, you have to install them correctly. But I will tell you contrary to what all the WAGO naysayer "ELECTRICIANS" are trying to claim, the touting the supposed superiority of wirenuts. I can say, over decades of years of service, many times I have come across weak connections by "ELECTRICIANS" losing connections, particularly in multiple neutrals bundled. Also many older wire nuts I've seen with a hole burnt right through the end by heat.Usually caused by "ELECTRICIANS" poor connection technique or wrong size wire nut selection. So they are not with out their faults. I find the WAGO are fantastic for control wiring work, because you can join hard copper and stranded wires without the worry of a weak joint. Plus up to 5 wires joined together without worry of poor twisting technique. And they are removable Both work great BUT BOTH need to be installed correctly, and like all tools, each have their strength in a particular installation. The Naysayers seem to be the closed minded types.

As someone that uses these in the HVAC trade for making connections to fans, compressors and solenoids, I have a high respect for them in their uses. I have found using wire nuts in high moisture environments like the cooled boxes of walk-in coolers/freezers and reach-in boxes they perform better. The wire nuts have rusted on me and I have to cut wire back and re-terminate with a new device VS the WAGO I can lift the lever pull the old device out and connect the new one without having a rust issue and loosing wire length. I still have my questions about them in high vibration environments and therefor will use either a wire nut or a termination block. Thank you for the insight into the temperature issues that people voice and prove they are still a better option for DIYers to use since strand to solid wire is not easy for the novice to do. I do use them at home in automotive too but in low current applications.

I am glad that you put in the max temp on the graph. It really put into perspective.

First, thank you for taking the time to run this test and create this content. Very original and to the point. I REALLY appreciate it. I'll add, no one on any electrical channel or reddit ever seems to have an appreciation for how over-designed everything actually is. That means, you should use the approved connector, per it's instructions, that personally gives you the highest confidence. I can sweat copper and connect PEX. Both have good applications. But on a daily basis, I'm using PEX. However, on a DYI electrical, I use wire nuts because I think they are cheap and fine. I'd have zero problem with a wago too, if it came with a device.

Very informative! Maybe, do another video measuring voltage drop under load comparing 10 wire nuts in series to 10 Wagos in series. I suggest comparing using both a heat gun, then a typical load, like an HDTV, fridge, or fan.

Awesome experiment. I started using the WAGOs after watching Everyday Home Repairs. I'm 70 years old and cannot put as much strength into wire twisting as I used to. I'm a home DIYer and really appreciate you and your channel. You are my "go to" electrical UA-cam channel. Thanks for all you do. BTW, I know that wiring outlets in parallel has been done by many UA-cam electrical folks, but I'd love to see your teaching on how-to for those circuits. Have a happy Thanksgiving and God Bless You!

I rewiring my basement with these (no choice, there was cloth wire and no grounds in original wiring). The first J-box on the largest circuit goes 5 ways with a Wago 221.
That circuit hits 10-12A quite a bit (Yes, I'm going to split that up after I get the fuse panel replaced)(Yes,, Fuse.. Not breaker)
I was feeling for heat when I put in the Wago, and it barely gets above room temperature when at full load for that circuit for several hours.
Wago's are awesome.

I'm neither a teacher nor an electrician, but I'd show this to middle school kids as a demonstration of the scientific method in a real world scenario. You get a solid A for experiment design. Scottish-Canadian electrician W. P Marr patented the wire nut we know today in the 1930s. I'll betcha a hot pastrami and swiss on rye, a big-ass kosher dill pickle, and a cold beer that, if UA-cam had been around then, the guys who were married to solder-&-tape connections were making these same arguments.
I'll add that I find it 'way easier to get Wagu 211s to lay flat in a box that even the smallest wire nut.

Great perspective against the design max temperature. That view puts the Wago in clear perspective. I’m staying with my Wagos. Thanks.

I am a DIYer, not an electrician. I have used Wago connectors and will continue to do so. After seeing your test, I feel more confident using them. Great test! I have learned so much watching your videos. Keep up the GREAT work.

For my own projects, saving room in the right junction box I have used the Wago 221, I would agree to keep it for 15 amp circuits, so many lighting applications are led using much less current! German standards for electrical engineering appear to be very well tested!

I’d like to see this done with the Wago “Wall Nuts” and Ideal “In-Sure” push-in style connectors. I’ve used the Ideal version for a few years now, and just discovered Wago has a similar product. Never had a problem with them. They’re also half the price of the lever nuts, so that’s a big plus. UL approved, by the looks of it too.

I think the question is how they will hold up over time. Will the spring lose tension with heating and cooling cycles and gradually increase the resistance of the connection? I installed some on a well pump circuit for a stress test and so far after almost 6 months they are holding up quite well. I've been waiting to do a review video until the results are in but I tend to agree that they may be a good option especially for the DIYer. I'm an electrician by the way with 38 years of experience. I don't like the quick connects connections on devices because of the high failure rate and I though that the WAGO's may have a similar long term result but now I'm not so sure I was correct.

Don't forget to consider the insulation on the conductors. Table 310.16 shows that the temperature rating of TW conductors is 60 degrees Celcius (140 Fahrenheit). I'm sure that many DIY'ers in your audience will encounter Romex using conductors with this temperature rating that was in use before the 1984 NEC required upgrade to 90 degree C for this cable, without realizing its lower temperature rating. Your video title "Debunking the Pros", in my opinion, actually VALIDATES the pros, because you've demonstrated that the lever connectors that you tested are significantly hotter. The pros also know that having hot connections leads to problems. One example of this is that the insulation on the conductors becomes brittle. UA-camr GreatScott! also tested, and found that the resistance of your Wago 221 connectors was 14 times higher than wire nuts (2.2mo vs 0.15mo). So, yeah, you validated the pros. They know that what meets minimum legal requirements and what is advisable can be different things. The number of comments speaks to the fact that we really appreciate actual performance tests - please keep up the great work!!

Excellent demonstration! This was under extreme conditions (i.e. higher than rated for the circuit being protected by a breaker) which tells me that under normal household use, you likely would not see those temps even with that slightly higher resistance. I'm not an electrician, but I do understand wire gauge, resistance, loads, etc.
Really, the only limiting factor for the WAGO's is the price compared to traditional wire nuts or your baseline installation.

This is the best way to describe wagos. Good for DIYers.
If I'm building a house, or hiring contractors to do so - Then I am 100% expecting wire nuts at minimum.
If I'm paying for anything more, then I'll opt in for those ideal screw set connectors any day.
Even dor a DIY-er though, you cannot actually see or inspect the wire connection after it is made. The same way with wire nuts, however in a solid wire situation - you twist the wires w/ pliers before, inspect for connection & then cap with the nut. The way wagos work don't allow an inspection of the wire connector - they are like the equivalent of those crimp terminals with nylon insulation, can't actually inspect the crimp.

I believe the interior temperatures between the Wago and the wire nut are similar. I believe difference in the temperature readings are the insulated outer materials covering the conducted connections.

For solid core copper wires, the Wago 221 are not the best choice. Wago 2273 are the best to use. 221s if you need to add stranded wire to the connection.

What I think about Wago is that a 5 deg difference means nothing and that they are safe to use in any situation when installed per manufacture recommendations and within specs of the device and connector. I also think they are so much easier and faster to use AND a big selling point is that they make adding a new device or swapping out an existing device super-fast and easy. Also, I would say that for a homeowner with limited experience, you probably get a better connection. Wago are much easier to do right than wire nuts and they support a wider range of AWG. I have seen many professional electricians us the wrong wire nut because of not looking at the capacity chart on the wire nut package (if they even have the package to refer to.

Excellent test! Pretty much what I expected from the resistance tests I have seen other UA-camrs do- Wago runs slightly hotter, but not much. I'd personally still use wire nuts with pre twisted connections for high amperage circuits such as part of a pigtail on a receptacle circuit, but I'd have no problem at all using Wago connectors for loads of a few amps or less like a ceiling fan or light fixture. That's just my preference though, obviously both are completely viable choices.

Retired career Navy electrician. We never use wire nuts in the Navy, but none of our wiring is solid core. All shipboard wiring is multi-stranded. So all wiring connections must have crimped connectors, from tiny valve position indicator light wires up to massive main distribution switchboard cable connectors. I've marveled at experienced construction electricians working with them, their hands a flurry of motion stripping, twisting, cutting twisted wires to same length and then twisting on a wire nut. But I never got proficient with wire nuts and I hate them. In addition, I've found too many connections done by somebody before me in two different houses where wire nuts either FELL OFF or were very loose.
So I've been using Wagos for renovation work in my house since I first discovered Wagos three years ago. I especially LOVE them for for things like connecting a new bathroom exhaust fan where you have to juggle making the connection and then fit a fan box electrical connection cover plate tab in slot and then secure with a screw...
But I've been using Wagos and Ideal equivalents exclusively instead of wire nuts.
My only comment/suggestion is that you wrap a layer or two electrical tape around the levers to ensure they don't get knocked loose while folding wires into and stuffing electrical or connection or junction boxes. This is just from my own experience where I noticed it's very easy to unlock the levers while placing the connected wires inside.

I've seen other videos of testing the 221 lever nuts. They don't begin to melt until around the 80 Amp mark.

🇨🇦/🇺🇸... A couple things. 1/ I would automatically tend toward using mechanically simpler mechanisms. 2/ Traditional wire nuts have some size overlap and so you can often ADD a circuit without changing to... hunting through your parts drawer... a new size. (not an issue for the pro who keeps an inventory on hand but sometimes an issue for the homeowner/handyman) 3/ Are a package of WAGO more expensive. (some people won't care... some will)

Form most circuits, Wago is the best solution. For a really high amp circuit ( 30+ ) I prefer split bolt connectors. But they take up a lot of space and need insulation. LED lights have really helped to cut down circuit loads, so Wago is great.

Good job! The bottom line for most DIY'ers, are they competent enough to even follow the well-laid-out instructions to complete the job and have it function 100% for 50 years. With the professional thought in mind, I moved into a home that a Journeyman Electrician owned and lived in, and found extremely shoddy work, or should I say re-work. He made changes and modifications that I have had to repair and or tear out. A TWISTED connection in a good wire-nut, is still a great connection.

Great video. I have switch to wago, like stated from others I have seen twist type come off or loosen over time. Like you stated the breaker will trip well before wago tolerance is meet.

120 degrees Fahrenheit is, coincidentally, the same maximum temperature recommended for electronics and domestic hot water. Very warm, but not uncomfortable on your skin. I can live with that. Thank you very much for your work here.

All of these devices are listed (usually by UL here in the USA). As such they go through LOTS of testing to make sure they aren't hazardous, or are prone to do nasty things (like start fires!). Also note that the NEC is a FIRE code (sponsored by the NFPA!), so their main concern is making sure things don't start fires. So, these items are all safe when used "properly" (follow the instructions!).

Good morning Scott,
That was an EXCELLENT test you did.
That just really proves just how good these 221 Wago`s are. I just love these little things.
You have wonderful and helpful videos. Keep up the great work.

Good video, but what was the Voltage drop across the Wago vs the Screw nut at that High currents? That will also give a good idea whats happening too

Excellent presentation. I know space heaters running on high generally cause their plugs to be too hot to touch so I only run them on high for a short period of time. If I need more heat, I use multiple heaters on low or medium.

IMO the Wagos give me more confidence that my connections will stay together, especially when connecting 3+ wires, and in many cases make tidying boxes easier. I'll never go back to wirenuts where I can help it.

Hey Scott, great video and great test. I’ve been a bit concerned with the lower contact area in the Wagos and stopped using them after reading some reviews. Your test is a good way to debunk the myths. I’m going to start using the Wagos after seeing this test. Thanks.

These are great. UL Listed safe and millions are in use right now.

Hi Scott,
I always appreciate seeing people testing devices to see how they perform in real life situations. It is not like every breaker always will trip at the rated capacity... there have certainly been some that have been tested that were considerably over their stated trip point, which lends to the credibility of your testing above the rated limits.
Wouldn't it be a disappointment if these created a dangerous situation after being certified by multiple regulatory authorities? One of the benefits of the Wago is it will be much harder for a non-professional to install them incorrectly. When my sister asked me to help her with a few things at her relatively new house I opened a light up and a wire pulled right out of the wire nut with next to no force on it. Very shoddy workmanship on the part of the professionals who installed it. I doubt the inspectors would check every single connection in a new build but more likely rely on randomly inspecting a certain number of connections and believe they are representative of the remaining work. Lucky for her this was a light that saw short runs rather than constant use.

I recently switched from wire nuts to Wago 221. The Wago is much easier to use and reuse. I feel more confident in the Wago than the wire nut. Two thumbs up for Wago.

I am a long time DIYer and I have felt from the first time that I saw Wagos that they were expensive gimicky junk. Expensive is pretty much self explanitory, These will cost you much more per connection than wire nuts. To me gimicky refers to something that is supposed to fix a problem that dosn't really exist, maybe looks kinda cool at first glance and is supposed to allow someone who is incompetant at a task be able to do that task. As for the junk part, this video pretty much sums that up.

Best most comprehensive test I've seen yet. And, yes.... I do agree with other commenters on the pitfalls of wire nuts. It really doesn't take much giggling around for them to come loose if not done properlty (continue the twist 3 or 4 turns on the wires coming out on the wire nuts). Great job. I too was skeptical but certainly that was conclusive enough for me.)

Good info, thanks. I was recently talking to another and he said he didn't like the WAGO because they score/cut into the wire. I said, other devices certainly do that, but the WAGO was a pinch/squeeze. That changed his mind. I like the WAGO's because of its easy install and clean.

A very useful video. I would say balancing out the slightly higher temps encountered with the Wago, you have a greater assurance the connection was made in an approved manner with the Wago. I would suspect there are more wire nuts where the workmanship of the connection is sub-standard, resulting in a hotter connection when in use. I would suggest to the Wago people that they consider coming out with an "industrial" line where they make the part out of heavier materials and maybe they could match or even improve on the performance of the wire nut.
Again, great job!

Very convincing test for me, I'm sold to the use of Wago lever nuts anyway. I wish that you could redo the same demonstration using the mix of rigid and stranded wires together because this is where the wire nuts fail the most often and the Wago seems to offer a safer contact. Situation we encounter with electronic thermostats and heating baseboards for higher current than the lighting fixtures.

Awesome Test. WAGO will be my go to for now.

What happens to the WAGO spring pressure after it has been heating for a few years under heavy current draw? I believe the spring will weaken and resistance will go up creating even more heat. I believe copper conductors well-twisted first with pliers, and then capped with a wire nut, is a superior connection.

Since I used WAGO connectors on my daughter's old house (vintage 1930's with an updated 100Amp panel), I very much appreciate your demonstration. I'm not concerned about the outlet temp readings in her house as she would not put a circuit under the loads you used.

I am regularly using WAGO 221 and have not had any problems so far. Takes less space and makes me more confident about the connection.

I’m in Australia and we don’t use wire nuts. It’s a screwed connector. Twist the wire first and put it in the connector and do up the screw. These work with all types of wires and I think they are safer than a wire nut. Since I found the Wago connectors I’ve been using them a lot of the time. Awesome for fault finding. It does have limitations if you want to put a few wires into one connector and have limited space. Most of my work is with fire alarm systems and the Wago are the best as the current and voltages are low and unless you do a really crap job of the install there wouldn’t be many connections along the circuit to cause an issue

Like others that have commented, I was skeptical about the wago lever nuts. The test you just performed eased all of my concerns. Thanks for all the useful content you create. As a DIYer, it great to have a video or two to fall back on when I have a question.

I am not a pro but a DIYer and sometimes with 3 or more conductors I have trouble with wire nuts. I think in that case I will try the WAGO lever nuts next time. Thanks for the unbiased test!

This like when plumbers were confronted with PEX and shark bites. “The world is going to come to an end”. I have used the stab ins for years and now the lever types and they work great.

Excellent idea for a test. Yeah the manufacture of the wire nut just says just a twist it on but that's only making an electrical connection it's not making a mechanical connection, that little extra twist helps hold the bundle together and then the wire nut locks them in. I think the biggest issue we're having with the Wago connectors in the US is so many people have seen and had bad experience with backstabs on outlets which were of very poor design using only a friction fit. I've probably pulled the part 2 wire nuts that were a little toasty whereas Backstab outlets are probably closer to 5 or 10.

Great move plotting the limit temp to scale the three connection options properly. I may be a mechanical engineer, not an EE, but a good experiment is a good experiment. I go Wago from here on out. I'll take a few degrees delta T at max load over an non-robust connection any day of the week.

I salute you for actually doing the experiment. It would be interesting to see a fourth group, with the wire nut with a pre-twist.

It would be interesting to see this test at 20A since that’s a real-world max (or breaker would trip). Would the relative temps remain similar to the test at the higher amperage? Also I’m curious what this would look like at high ambient temps, like a 100F summer day… what was the ambient temp during your test?

Still worry about age and moisture over time and the connection surface. Pre twisted and wire nuts just have a good feel

The difference between 105 degrees and 115 degrees is not enough to worry about. More importantly, that 10 degree difference was in a circuit that was overloaded with unrealistic current flows. It would be interesting to see how the Wago connector performs in a 15-amp circuit.

I concur his first statement is correct they cannot handle any amperage load over 3 to 4 amps I think they're great for LED light, for connecting wall plugs they are absolute know no, just like when they're okay to push the wires in back of the wall plug not a great I've seen wires turn blue and purple the newer connectors.

Did you test with a properly twisted wire (as you've shown in other videos) covered by a wire nut? If so, what results?

in my 20+ years as an electrician, i have made 10 times more repairs on melted wagos than melted wire nuts...especially the 4 port wagos...terrible idea...wagos and back stabbed receptacles.what a great combination for a fire

An electric heater in the style you are using is a great device to use for creating heat in the wire run. I would like to see this test replicated on a 30 amp outlet with a wire welder or some higher amperage device. Just to see if the higher amperage changes the variance in this test and what percentage increase in temperature occurs in the wire nut vs WAGO. Keep up the good work!

I started using Wago terminals in the early 90's. After thousands of terminations (if not over a million at this point) not a single failure attributed to design. A handful of failures due to damaged or improper use only. Wago is one of the brands I place full confidence in. When they went residential, i couldn't have been happier as now i use them in my home. If your scared to use them, stay home and lock your doors, you are too afraid of everything.

Excellent test! I think more temperature testing videos would be great content. Maybe try different connectors like the Ideal push in or test the difference in temperature between things like pre twisting wire nut connections or screw terminals vs back stab terminals. Measuring the voltage drop across the connectors while loaded would give us another great data point too.

Great video! Thank you! I thought the only reason folks didn't use more wago's was cost. But I did always wonder about this issue.

This is a really great test! Could you do another video comparing heat from cheap receptacle backstabs vs. screw terminals? Also, I think you should repeat your Wago vs. Wirenut test with multiple splices in series to see if there are compounding effects from increased Wago resistance over the course of an entire electrical circuit. The difference was only a few degrees F with one splice, but does it get dangerous with 6 or 12?

I use wago for low power/amp applications all the time. Your demo puts me much more at ease for additional uses.

I saw a test where someone ran so much current the insulation on the wire melted off, and the Wago nuts were still okay. In fact, the wire nuts melted, leaving just the steel helix around the wires. But the Wago plastic was still intact (although I'm sure it was hot).

Wagos seem great for switches, lights and fans, mixing single strand & multistrand wires etc. I started looking at them for wiring multiple switches in a box where your having to put multiple wires in a wire nut (more than 3), creating pigtails. Less time consuming than twisting wires together with wire nuts and finding one slipped back and then having to put the wires thru doing it over. Thanks for the video!

Great job giving real world test results. I feel that the Wago is superior. Your channel is presenting info for DIY users. For those of us who have done a lot of wiring over the years, a common failure point is using a standard wire nut incorrectly. The Wago is so difficult to use improperly that it greatly lowers any issues with connecting wires inside of boxes. There is still a gigantic safety margin in using Wago connectors and they are faster to install.
For being totally very old school, I would have liked to see the temp comparison for joining the wires by twisting, soldering, and taping. I think it would be an even better result. For those who say wire nuts are safer so I am using them, then why aren’t they soldering them. Yes, way too slow.
I feel that after making 500 joints, the number of poor joints with wire nuts will be much higher than joints made with Wagos. Wagos cost more but I feel are worth it.

In all of the discussions that have been going on about electrical connections there is one extremely important factor that no one has addressed and that is a gas-tight joint. In order to prevent degradation of the connection over time the contacting surfaces must not admit 'air' or oxidation will occur and the resistance will increase. Yes, copper oxidizes! Less than aluminum or brass but it does. A gas tight joint means: clean surfaces, enough joint pressure to maintain the tight fit, and enough compliance in the joint to keep the pressure when temperatures change. On crimped terminals the terminal barrel and the conductor must be squeezed so tightly that they essentially become one piece and no gas can penetrate the contacting surfaces. This is easily done with screw terminals and crimping. But point contacts and pressures insufficient to cold form the contacts into gas tight joints cannot make gas tight joints. The components just can't deliver the needed pressure over the required area, over time, to make and maintain a gas tight joint. The connection will run hotter and oxidize faster than a large area gas tight joint.
If conductors are twisted tightly at least two whole turns then 'clamped' with a proper wire nut, then the joint will have enough area and pressure to not present an increased joint resistance. Same with screw clamped terminals with lots of contact area and pressure to maintain a copper-crushing tight joint.
All this applies whether large conductors are involved or small, solid or stranded. Industry has for decades worked to create the hardware and methods and tools to create gas tight joints that are reliable for high and low voltages and currents. Look at all the wiring in aircraft. It's gas tight. NASA certifies components, tools and operators to assure this reliability.
Why would anyone use any device that can't make or maintain such a connection? Cheap and easy and good enough is why. But for reliability that's not good enough. Push-in connections have shown this problem and many devices have failed with some causing fires. Why the heck would one want to use a device that truly isn't fit for use!!!
I want zero possibility of such a joint failing with the resulting damage.
Pete

Great video. Yeah the WAGO is a bit hotter, but it is still well within design parameters, and perfectly safe. And the ease of use is amazing on the connectors, helping get a better connection and setup.

Well done video. I've used Wago and am confident they are quality. I generally don't listen to guys who say "I've been doing it this way for 30 years and not going to change." Many of those guys have been doing it wrong for 30 years and don't even know it.

I am a fan of them over the last five years.. I like how I can disconnect the load without messing with the Hot conductor. They can be a bit pricey, but I use them in certain applications for convenience, such as light fixtures, certain motors pieces of equipment I may have to revisit. General pipe and wire I stick to wire nuts and yes, there should be a class on wire nuts because they’re quite often miss used.

This is pretty interesting and thank you for going the extra mile and using a high amperage load and examining it with an IR camera. You make really good points with regards the heat capacity. I have seen plenty of failures from loose lugs, bug nuts, stab in outlets, improper use of outlets as splice points, and you make a good argument for a way to splice wires easily, consistently and reliably.

WAGO seems safe enough for me. I won't be using them under extreme conditions anyway, but it's good to know they can take it if I ever need to. Thanks, Scott. You tell 'em, brother. 👍

Pre-twisting wires before applying the wire nut is not required nor recommended by the wire nut manufacturers. The manufacturer recommends using the wire nut itself to do the twist by tightening the nut until the wires are twisted. There is absolutely no difference in the finished connection when you remove the wire nut and visually inspect and test for mechanical connection. Also, it is much easier to get all the wires fully inserted into the wire nut if you do NOT pre-twist. Professionals do it, for no good reason. It is not necessary, nor is it recommended.

I would like to see a test done like this with wire nuts and wago’s that have been in service for 5 or so years to see if either of them lose spring tension

Great work and thanks for the video. I'll use WAGOs for lighting connections (connecting stranded wire to solid), but that's it. In my opinion, they are just another version of 'backstab' connections.

I switched to Wagos a couple of years ago and haven't looked back. They're better than wire nuts for many applications. like connecting stranded and solid wires, or connecting more than three conductors. You can visually check that all wires are fully inserted and it is easier to get everything in the box. Five 12 AWG wires in a blue wire nut with two full twists outside the nut (per code) is very difficult to stuff in a double gang or 4 square box. Wagos just make life easier.

I have a wall outlet which shorted out after changing the plug receptacle. The insulation apparently cracked and blew off the neutral and ground wires. What's left is very short. I've been looking for a way to fix it without hiring an Electric Contractor and running new wires in the wall. I believe the WAGO would be most helpful in my situation. I never exceed the 20 AMP rating, which the short did trip the breaker when it happened. It looks like the WAGO would allow more room in the box for the new pigtail wires and the connector than the wire nut since my wires are so darn short. Your video helped me see the WAGO does it's job. That's what I'm looking for. The most I will run off this plug is a Window AC unit and maybe a couple of pieces of stereo equipment of low wattage. The AC unit will never be run when we're not home. I'm not that crazy.

Couldn't you test the WAGO more easily and more quickly by measuring its resistance? Or by measuring the voltage drop across it? Perhaps using a simple DC circuit, and perhaps at a current much less than the rated maximum current.

We have several large towable heaters in the rental fleet that shipped with the Wago connectors inside the panels. These heaters run 24/7 on jobsites unattended. The wiring and connectors used are right at what the rating limits are.
They’ve all experienced failures due to heat. Site repairs done with wire nuts and pretwisting of the conductors have had no such failures.
This is a more “extreme” scenario certainly, but the facts remain.

It would be interesting to test this with a continuous load. Like hook up an EV charger pulling 16 amps on the 20 amp outlet (max amp draw for 20 amp outlet for a continuous load) and see how hot a wago gets after 4 hours of continuous load. And then again at 8 or 10 hours. I'm sure it'll be well below the 105 degrees C that they are rated.

Also, while the lever nut bus bars may not seem like a lot of surface area contact, one should keep in mind the cross-section of a wire, even 12 or 10 gauge, isn't that huge either. Yeah, the wire is solid (or stranded) copper, while the levernut is pressed physical contact, but if the bus bar is long enough, that shouldn't be a problem.

The ONLY disadvantage of Wago is the price of the device. They are in any other respect a far superior splicing device. Also, many have made very sound arguments justifying the price of Wago with their efficiency of installation which saves on labor costs.

Thanks for the update!
I have no problems using the Wago product but would not use the off brand lever nuts from China.

Any issue with that limited contact area being more susceptible to failure over time due to heat cycling? What about the plastic lever becoming brittle from that heat? Old dog new tricks guy here is a little concerned.

7:48 mark. When you mention how it creates more heat. To me that also means more amperage draw. I would put an amp probe on the circuit at the breaker to see if there is an actual difference in amperage being drawn.