Tech Tips Tuesday, Isolation Transformer and Variac Safety

Just a beginner here, but I thought the correct way was to hook up your oscilloscope normally, and to the ground and use an isolation transformer (with no ground) on the device you are testing.

I have had Earth ground running through my isolation transformer for decades and never have had a problem. I never plug my test equipment into my isolation transformer only DUT. Many devices have components referenced chassis ground. Running the Earth ground all the way through to the DUT helps to eliminate noise while testing. That said, Mr Carlson is absolutely correct in his presentation and I am fully aware of how my bench is configured. Thanks Mr Carlson

This was one of the shortest but absolute best videos I've seen of yours. Safety is number one, two, and three. Without proper safety knowledge, us techs can not do our job. Would love to see more videos like this.
-Mr. Carlson's biggest fan.

As others have pointed out. It is important to remember that if you float your scope and then connect probe ground to a hot connection the entire case and terminals of the scope and anything else connected to it are now hot. You only need to touch any of those points and ground and you are fried. That is why you normally never float the scope but rather the DUT.

Thank you Mr. Carlson. If I ever get an isolation transformer like yours I'll be sure to open it up and cut the ground connection to the secondary side.

In my book, any isolation transformer that feeds ground through to the secondary side is NOT an isolation transformer.

Thanks Paul. You explained it very well. People need to be careful with the ground of USB plugs from their laptops and devices also.

Thank you so much for the info about these isolation transformers. I did not know they would connect the separate grounds. I can not believe it is called an isolation transformer. You may have saved some lives with this video. I honestly would assume an isolation transformer is ISOLATED.

Me Carlson, I’ve seen this warning/explanation many times but what I haven’t seen is a proper fix for the problem. I can disconnect the “earth” lead on the output side of my isolation transformer but I don’t think that’s the proper fix. What is?

Hi Mr. Carlson, thank you very much for this informative video!
1. Is it safe to disconnect the oscilloscope's earth wire at its plug, so that it only has a live an neutral connection?
2. Is it safe to disconnect the earth wire running from the ac mains supply to the isolation transformer's output plug, so that there is only a live and neutral connection available?
3. When do you need to use an isolation transformer?
4. Can you please do a video on how to connect an isolation transformer to a DUT, like a TV, amplifier etc. and also to instruments like oscilloscopes, signal generators etc. so that all of them can be used safely together to probe and repair a product.
Thank you very much for your channel. I have learnt so much from your videos!

For starters you would normally use the isolation transformer to isolate the device under repair, not the scope.My isolation transformer the test plug is only connected to the secondary, the ground prong is completely open on the transformer.Mine is a Hammond manufacturing co, made in Canada.

A very interesting video Mr Carlson, it made me look up how houses are wired here in the UK. Once upon a time you either had a ground rod (some rural areas still do) or you had the house ground bonded to the sheath of the mains supply which went back to the substation before grounding out. The single phase domestic supply was one of the three phases of the national grid to live and the ground at the transformer for neutral so the earth and neutral were connected at that point. New builds and I think anything that is re-wired now has a system just like you describe with earth connected to neutral in the company fuse box at the distribution board.
The other thought that comes to mind is that the earth connection on the secondary side of an isolation transformer seems to be absolutely pointless as it doesn't offer the safety that it appears to. The earth connection in an appliance is to provide a route to earth should anything fail internally and ground out the live causing the fuse to blow somewhere - either in the appliance, in the wall plug or at the distribution board. With more sophisticated systems with earth leakage or residual current detection that would trip out first. None of those things will happen if the live and neutral are isolated. But on the other hand you are unlikely to suffer much harm if you touch both the live and earth. When mine arrives I must test what potentials are there.

I made this exact mistake 2 days ago on my oscope. After the bright flash I started thinking about it and then realized -of course the ground clip is grounded - duh. Then I started looking into prices of variacs that have an isolated transformer and then found this video. BTW, my Oscope does not measure correctly anymore - both the voltages and wave forms are incorrect now. i have not yet tried to replace the probe so hopefully that will be the only issue. Just wanted to say I made this exact mistake and your video helped me understand and verify why. Totally makes sense now. I did not realized that the barrel was connected to earth ground and was treating it like a multimeter. Thanks for the Video!

I think this is a very under rated topic . I don't believe it has been addressed fully here which is understandable because this video highlights the difference between filter conditioning transformers and isolation transformer. We need to highlight links or create videos on practical techniques to isolate techs and equipment . More discussion is needed to increase safety when working on mains . There seems to be two topics a) human safety techniques while working on electrical equip and b) safely using test gear on high voltage without destroying equipment . Equipment requiring mentioning : isolation clothing , isolation transformers , differential probes.

Excellent video! Too many folks don't understand this issue. It was beat into my head by an instructor, who used the example of a grounded scope and testing a component in an energized circuit, for example either to measure a voltage or to see a signal. If an inexperienced tech attempts to put the scope probes directly across a component in an energized circuit, the negative probe will short out all of the circuit "below" the component being tested. Bad things can happen!
Thanks again for a great explanation.

Thanks, I now have a better understanding. But it seems like you didn't finish the topic on Isolation Transformers. It's good to be aware that the secondary might be linked to Earth. But then, how should we setup a proper isolation system? Should we break the secondary connection? I want to be able to use my scope to test the long list of devices I have.

The creativity you have to show your points is simply amazing. So grateful for the way you help us.

Just a couple of comments:
1. You mentioned powering an oscilloscope from an Isolation Transformer (although, admittedly, you didn't actually suggest doing that). That should almost NEVER be done. (The only exception might be if you are actually repairing an oscilloscope, where the scope is the Device Under Test (DUT)) Only the DUT should be connected to an isolation transformer.
2. A standard Isolation Transformer can be converted to a "technician's isolation transformer" by internally disconnecting the transformer's secondary neutral from ground. This maintains the ground path all the way to the DUT (assuming that the DUT has a ground prong). It is much safer than using the cheater plug while also isolating the DUT from the mains. However, even with a "tech" Isolation Transformer, you still need to be careful not to do things like connect the secondary (output) to ground.

I was tought to always use TWO isolation transformers with no ground connection: One for load and the other for measuring device. Floating load can be measured with earthed scope but when ground lead is connected it becomes mains referenced. If you touch the device, you get shocked because it is no longer isolated from mains earth. Having also the scope floated via a second isolation transformer (with no earth), you avoid the problem. With that setup it is safe to touch any single point of a powered device. That is also safer than just isolating the scope from ground because in case anything leaks from "live" to scope chassis, it is isolated "live" ie. will not shock you.
Never ever float only the scope and connect it to a mains connected load. Earth lead connected to eg. live wire makes scope chassis live which is very dangerous.
As a kid I also made the classic mistake of connecting scope earth to live wire with all the sound and light effects assosiated. :) Never repeated that mistake.

learn something new every day, i think a variac is what this gadget is found in an old house is, and the basics of how they work, Big Thumbs Up

I've seen many comments here about only the DUT being isolated from ground, however, when I was a student learning troubleshooting and repair techniques, the instructors at the vocational school cautioned us to never have the test equipment grounded. They sent us out to the rest of the world having been taught the very same thing Mr. Carlson showed in this video. Every piece of test equipment in that shop had all of the ground pins on the power cords removed. Every one of them. Meanwhile in the electronics theory class down the hall, they blew up a brand new 540 series Tektronix scope because of said grounding issue! I don't remember anything else about the incident so I don't know what they were measuring, how it was hooked up or what- just that they mentioned it to one of our instructors and then we were told about that precaution. After that the electronics instructors were removing the ground pins from the power cords or using the adaptors as shown here.
Anyone care to explain why it is bad to float your test equipment? Not looking of arguments or heated discussion, just good explanations.

I knew about the problem with the ground, nice to know the reason why to. Good explanation. That said your demonstration with the bulb and the probe hovering so closely to exposed mains with your bare hands, made me shiver and that in a video about safety........ :)

Best demonstration of potential ground loop hazards re scopes etc on
You Tube, clear and simple.

Thank you Paul, I did not know this you quite possibly saved me from an injury

Balanced isolation transformers, which are sometimes used for audiophile and home theater systems, usually have a center-tap on the secondary which is sometimes connected to the ground connection on the output and chassis. Thus the output is not always isolated.

Excellent explanation for safety.

My understanding was that you should pretty much never float your scope, either through an isolation transformer, or especially from ground. Keep the scope plugged into the wall, and pit the device under test on the isolation transformer.

Hi I have just come across this video I found it interesting as I have just this week been setting up my work bench with isolation transformer . You did a very good demonstration of what the problem is . But I am somewhat concerned about your proposed solution . What seems to be being disregarded is while you make your measurement if you have removed the earth wire from the scope power plug and you have connected the ground probe clip to the hot side At this point the steel case of your scope has become live in relation to anything else that is in your area that is connected to ground if you touched this case while adjusting a knob you would likely get a shock . If you had a data lead from your scope to a pc then you would then be putting high voltage down that lead on the ground into other equipment which you may damage . In the event that you are using as a demonstration I would use a DVM to measure the voltage between the conductor and the ground clip and ensure that it is a very low value possibly a volt or lower before making the connection with the ground clip I would not need to remove the earth from the scope . If one gets used to doing these basic checks before making a connection then it can save a lot of damaged equipment .
I am in the UK so all out power is 240 / ref to earth regards bill

Thank you Paul for bringing to our attention the need to consider the nature of the supply coming to,our "Isolation" transformer, and the way that itself is connected internally.You certainly made me reappraise my modelling activities wherein I replicate different types of supply and their earthing arrangements -Tierra-Tierra TT, Tierra y Neutro Separado TNS , Tierra y Neutro Combinado [Separado] TNC[S].I work mainly from a step-down transformer (240 V 50 Hz. Input to 110 V centre tapped output). This type of transformer is commonly empoyed on building sites to afford a measure of safety and are often referred to as isolation transformers when in fact, because of the earthed centre tap of the secondary winding are in fact in metallic connection with a current carrying conductor. The term Protective Extra Low Voltage is more appropriate, as for it to be a Safety Extra Low Voltage transformer, as according to the On Site Guide to BS 7671 Section 3.4.3,/ 414.3 " ... have no live part connected to earth or protective conductor of another system."This clearly means a double wound transformer with no part of the secondary circuit connected to earth.A common example found here in the UK would be the shaver socket outlet supplies for deployment in bath/shower rooms.Saludos.

You have so much experience and knowledge in this field, and I trust you, so had to ask you about my next project: I'm thinking to make an a adjustable AC bench power supply. My concern is to have the AC stable, when something using it draws more than 1A (or more) of current. When I needed for my project AC, I just used 2 resistors, wired like voltage divider and also used 2 potentiometers - wire-wound style. It did the trick, but since I'm gonna play with more AC projects, I would like to make a nicer power supply that is stable. I do not need anything more than 10A (that would be at the most I can imagine for now). I have several transformers 120V to 30V, 16V, 12V outputs. One has both 12V and 30V in one. They came from a large UPS (Uninterruptible Power Supplies from 1200W and 1500W respectively). I'm not very experienced in electronics, just a new hobby after a 50+ years of other hobbies. I'm trying to rekindle something that started when I was a teenager. I do have 100Mgz Oscilloscope, 50Mgz Function Generator, several meters, 3D printer and lots of parts I salvaged from printers, UPSes ... I love to recycle and fix everything. So I'm not looking to make something that would require lots of knowledge that I lack of right now. I do play with Arduino's and simple projects..... I have several pictures of the transformers with their parts numbers and I know what voltage they produce. I could not find much about them on the Internet, not even how to connect the mains, but I figured it out - I think. What I like is a simple schema how to build the adjustable power supply and some protection for it; also what should I do to stabilize the output voltage.... I have these inexpensive meters from Harbor Freight that I can use to measure the output, so I don't have to even have a circuit for that. But if it has that, and it is simple and few parts, I am open to the idea also. You, or anyone else reading this, can contact me on my Gmail: czecht@gmail.com (Yes, I was born in Czech Republic), but I live here in the best country in the world! since 1981. Thank you Mr Carlson and thanks everyone else who would like to help me out!

An excellent explanation of something I was aware of (35 + years in semiconductor testing) but as you mentioned newer and less experienced techs may miss. I also want to commend you about the danger of just randomly defeating grounds as well. They serve a critical safety issue AND also a key point in shielding extraneous noise and signals in sensitive measurements.
I'll share a story about a time in trying to measure picoamp level input bias currents on an op-amp and having massive 60Hz noise problems. I discovered(after a lot of time I need to add) the problem was on our very expensive computerized tester. A maintenance technician was tired of disconnecting and then reconnecting an elaborate bonding wire system to make sure all metal parts of the chassis were grounded and shielded every time service was required. So he decided not to reconnect the bonding wires..leading to large parts of the chassis acting like antenna and radiating 60Hz into sensitive measurement modules.
Again enjoy your channel a great deal. I'm not too proud to say that even after years of experience in electronics, there is still plenty too learn. I'm now retired and starting to get into restoring some old tube powered radios, a new universe for me!

The isolation transformer I inherited from my uncle did not have a grounded outlet. As I recall, it had a 2 prong, non-polarized socket. Not sure when it was built, but I would guess in the 1950s, as most of the equipment I got from him seems to be from that era. Thanks for the great video!

You are always the best teacher to learn electronics

Hi. George from Bulgaria here.
Just wanted to show my appreciation.
Your channel is THE MOST enjoyable content, regarding electronics and stuff on UA-cam.
So calm and peaceful and in the meantime always super sharp and right on the topic.
Not to mention your outstanding knowledge.
Not everybody can achieve this.
Respect.
And, of course, im a subscriber right from the very first video. :)

Mr. Carlson,
I have a power filter for my equipment, an isolation Transformer ( fixed after watching your video👍) A variac. I also have a current limited lightbulb when needed .
My question is ,...Where is the best location to place my isolation Transformer?
At the beginning of it all. In the middle or at the very end???

Thanks for the reminder! Safety is #1. As a 45+ year HVAC/R service tech, I’ve been “poked” by 24v, 120v, 575v, and even lightning (100’ underground behind Niagara Falls)-and I wouldn’t wish the experience on my worst enemy.
Is the methodology of using “balanced input” (where you use 2 probes, with their ground leads clipped together and not connected to anything else, and their signal probes connected to the AC line) a safe alternative?

As a note, in the UK our supply typically includes a separate earth that is handled way back at the generator, so earth and neutral have no connection within our premises.

Modern isolation transformers often have the neutral and ground tied together at the outlet on the secondary side of the transformer. It is a clip that can usually be removed.

This video should be viewed in electronics schools today. I knew of this problem 20 years ago and didn't know how to get around without floating the scope. I think the should be followed up with a GFCI video.

Hi Paul, wow I don't understand why that transformer is officially out in the market as certified isolation transformer. In Europe this would never ever get the declaration of confirmatory to be sold as isolation transformer. Following VDE/ EN norm the secondary side never is attached to protective ground/ earth. But anyway what ever norms are telling at all it doesn't make any sense...., or is there is something so much substantially different in Canada''s power distribution compared to Europa I don't know?? Anyway very interesting video ! Thank you. 73 Peter

Hi if I understand your diagram correctly. By connecting my equipment under test in the isolation transformer. I'm safe. Because there is no low ohm connection between neutral or hot on secondary of the isolation transformer and mains. And your videos are great.

I had recently bought a small "isolated transformer" for safety reasons per advise here (UA-cam) and in books on testing circuits with scopes and other earthed equipment. Concerned, I tested and was surprised and confused to discover the ground line connection on the IT.
Thanks to your video and the "EEVblog #279 - How NOT To Blow Up Your Oscilloscope!", I now understand. VERY VALUABLE! Thx!!
Using the light bulb also provided a safety check method. +Thx.
Now, I need to understand why AC circuits/devices don't blow up since hot and ground (via neutral) are connected 60-times a second (USA). ;-)

This is one of the most complex and complicated issues in electronics (for me). I've heard so many do's and don'ts and now I'm more confused than ever. So, HOW DO YOU HOOKUP YOUR WORKBENCH? Do you ONLY plug the DUT (Device Under Test) to the isolation transformer? I think that's what they recommend for working on old Ham radios that don't have a power transformer - that have a "live" or "hot" chassis. Or, do you ONLY plug your test instruments into the isolation transformer and have the DUT plugged into house power? Or, do you plug everything into the isolation transformer? I think I've read that that can be dangerous, too. In any case, I guess it's a good idea to have a GFCI (Ground Fault Circuit Interrupter) (like used in bathrooms) multiple outlet bar to have the fastest shutdown of power if an imbalance in circuit power is detected. Another question I have is - do I need (would it be useful to have) one of those Siglent SDS1202X-E scopes to troubleshoot a bunch of old Tektronix 465 oscilloscopes I have? I think I'm looking for an excuse to buy one. I just checked out your Tektronix TDS 340A scope, too. I can get one of those on eBay for about the same price as the Siglent. The advantage being that the face-plate is arranged in a more familiar pattern like other Tek scopes whereas the Siglent is somewhat confusing to my eye. My rationale is that I don't know how functional or accurate any of those old 465's are and the Siglent or the TDS 340A would be new(er) and better able to give me more accurate readings, to troubleshoot those old 465's, wouldn't it? Maybe? Or would I be better off spending my money on other things?

i think im gonna always use a battery operated scope even if its wimpy. you can get some good longevity out of a stack of 18650 batteries and its clean too :)

I worked at a very small electronics store that had been around for 50 years. The hardest thing to get, vacuum tubes. None are make in the US. Some made in China, Russia, Poland. Some surplus found and tested. I've used a tube tester in my younger years. My local store was the same family that started it. Government surplus was its first product stock.

Thank you. I needed the reminder about isolation transformers with a common ground, and hence common neutrals. Glen

Thank you so much for this and for all your videos.
I understand that, when you restore old test gears, you usually prefer to avoid connecting a cable with ground pin.
I understand the concern expressed in this video, but I wonder if there are other situations in which the ground connection could be counterproductive (or very dangerous).
Thank you for your attention.

Hi, Mr. Carlson. I am a fan of your videos and you are doing a great job with sharing your experiences. By the way, I am really surprised about the connection of the earth and the neutral at the breaker panel. In Turkey, it is strictly forbidden to connect these two lines. Instead of this method, every apartment or house have their ground line connected to the soil via a copper plate covered with galvanize.

Hey Paul, maybe it's worth mentioning, that also many variacs exist, that ARE insulation transformers. Toroidal transformers with primary winding and a secondary winding, that comes with the brush... I do have one of those transformers in use in my lab since about 10 years now, and it works great.
Also, beside the risk of accidently connecting ground level to your DUT via a scope, it could also easily happen via other units, e.g. sine generators etc... For testing my guitar amps, I selected all my necessary units to be NOT ground connected - which is an oscilloscope, a sine wave generator, a loop station with an instrument signal, a dummyload that includes a wattmeter and that has an insulated output that is connected to my recording studio (for recording the result of 1 - 1,5 hrs test-runs of amps that I repaired, to confirm that they are working 100% correctly).

I made my own box with an isolation transformer, some bulbs which can be individually engaged and disengaged and a volt/current meter.
However, I have a question. The upside of the isolation transformer is that if you touch the live coming out of it, you don't get electrocuted.
However if you touch both live and neutral, you do and the RCD won't cut power as it's located before the transformer. At least this is my understanding.
Do we feel that the main advantage of having an isolation transformer is worth giving up the RCD protection? I am honestly asking, not questioning.

I bought a 1000 watts hospital grade Isolation transformer and opened it up to find it was grounded !! I removed the ground wire inside . works awesome ! its parked up and under my bench .

Great Saftey Video. Comment on Isolation Transformers, the older ones came with a non-grounded plug and outlet. One did not have to worry about grounding saftey issue.
Keep em comming, Greg

I'm always surprised that people, (trades people I'm talking about) that work with mains/supply wiring, do not realize that neutral is referenced to ground. There are many issues that can creep up, especially with circuit boards/ICs, with this problem.
Great video

Thank-you for another great lesson. I have a concern regarding your presentation of the autotransformer variac. Autotransformer by definition has a primary and a secondary except that the primary and secondary are connected together in an electrically common manner. That is what prevents isolation. Many autotransformer variacs allow for a secondary voltage above the line voltage 140 to 150 volts. That being accomplished by additional turns ratio on the secondary.
Regarding the illustration you showed I believe I may have some 40 volt variable transformers like that. I haven't given much thought to this until your video. I'll have to inspect them again.

I just received a Jameco isolation transformer this morning. It has 2 isolated outlets and 2 non isolated outlets and the standard 1 to 1 transformer. The primary is earth grounded to the ground lug on the chassis along with the power cord ground. However the 4 outlets are grounded to the the chassis lug and they are all tied together at the ground terminals with a non insulated .026" fuse wire. I cut the fuse wire between the isolated and non isolated outlets so the non isolated outlets are still connected to earth ground. This is what I have always had with older isolation transformers. I connected the non isolated outlet grounds with 16 gauge insulated wire. The only danger is that now when using 2 scope probes they must always be connected to the same point since placing the reference lead on any point in the DUT is causing it to be grounded. So it is still possible to short through the scope, making smoke and sparks. You must always be aware when probing in a powered up device. I am not an engineer so I do not recommend anyone to do this.

I'm only new to this stuff and this is something that scares me because (although I've not had to use one yet) I know it's going to bite me in the ass some day... God I'm glad I watched this video I was going to go to bed but desided to watch one last video. Thank you Mr Carlson.🙏👏

It's disputable whether the output socket of an isolating transformer should have an earth pin. Some say yes, some no. I am inclined to prefer no, but not everyone agrees.
However, (In the UK anyway) there is a far worse gotcha to beware of, in that there are transformers sold for building site tools which used to be called 'isolating transforners' but which are actually autotransformers. I believe the practice of calling them this has now been banned, but you may still see some old hands in the building trade referring to them as isolating transformers.
If one of these finds its way onto the electronics testbench it's an accident waiting to happen.
On any unknown transformer, do a resistance check between the live and neutral output and all three input pins, especially the earth. If there is a low resistance to earth OR to the the input supply, it is NOT an isolating transformer, and could cause an accident on the bench.

I suggest you check whether your isolation transformer and\or variac (my "variac" is isolating) have fuses. One of mine did not have a fuse, so I had to install one. I blew it often since. The other even had two fuses, one on each primary lead, but they were 3.15A good to keep the office powered but too much to limit the damage to the DUT.

Great video. I work on a lot of tube guitar amps and I use a variac and isolation transformer. Do you recommend plugging the unit/amp under test AND the O-scope into the isolated (and earth/ground lifted) power source or only the unit / amp under test? I realize this could be a tricky question because when the scope is earth grounded and the probe clip is on the chassis, the chassis is once again grounded to earth as if the test unit was earthed at the receptacle, even though the mains AC voltage is "isolated." Thanks for any response you can offer. I'm in Mission and I refurbished a cabinet for a vintage amp you later did a video on the electronics rebuild.

So far loving the Tech tips Tuesdays. The Tektronix manuals discuss this now in the warnings. I had a run in once with thinking I was isolated and being told I was isolated but actually wasn't due to this same condition. My experiment didn't match your nice light bulb example. No, I had the blue flash once I got the alligator near the DUT. Lucky for me I wasn't hurt and I was holding the rubber shell. I now double check with a voltmeter first for any potential difference. The probe and scope were saved by a semiconductor going into escape velocity.

Good video!
Even some test equipment containing a built-in isolation transformer and variac has the ground pin in the receptacles bonded to the ground in the line cord. My VectorViz ISO-V-AC II WP-30 is set up this way.
The other option besides using a 3 to 2 prong adapter is to use a high voltage differential probe such as the Caltest CT2593-1. I use one of these when working on offline switching power supplies. The chassis will still be hot, and you will need to be careful, but you won't blow your scope or probes up as the differential probe is good to 1000V common mode.

We don't have those problems in New Zealand... The case of the isolating transformer is grounded along with the laminations and that is all. There is no wire going to the earth pin of the output socket unless there are two output sockets and only then are the earth pins of the sockets connected to each other. This we call bonding, not earthing. It is to protect the users from two "earthed" appliances with a neutral to ground and a phase to ground fault being used at the same time. There is a fuse inside the case of the transformer in series with the secondary winding; sometimes there are two fuses... one in series with each end of the secondary winding. In case of the dual output variety, you are not allowed to to have a fuse in series with each phase pin of the output sockets as it can create a false ground.
We only plug the device to be tested into the isolating transformer, not the oscilloscope. That is connected to a grounded supply unless there is a medical device on test when special equipment is used to monitor for any leakage currents. Most electronic techs will never come across this situation in NZ as that work is done in special workshops with all the safety features built in. There are very few isolating transformers in use around NZ these days as the "earth leakage circuit breakers" or ELCBs and "residual current devices" or RCDs have replaced isolating transformers. It's good to know that problems can exist in non-New Zealand made equipment... thank you.

Great video.
I have a variac and isolation transformer (no ground pin on the secondary of the isolation transformer) but most of the time I use my Sencore PR-57.

I enjoy your videos and you are very knowledgeable. I was very surprised however to see this video on safety and then your demonstration using the light bulb and the exposed line voltage of 120 volts. I only hope new people (hobbyist) to the field don't follow that example. Maybe at least a warning like: "Don't try this at home kids". Again I do enjoy most of your videos.

Many years ago we did some testing on the Variac (or Powerstat) ramp-up / power-up method. The sample DUTs were 5U4 and 5Y3 and 80 rectifiers. What we determined is that continued "ramp-up" turn-ons can lead to cathode striping. Apparently what's happening is that as the filaments are gradually being brought up to temperature, while the B+ is also being applied. With the high potential of the plate voltage and the Cathodes not at proper operating temperature, that cathode damage eventually occurs. This was from many repeated cycles to prove a theory. Obviously, if this condition is only done once (or a few times) during the repair process, then the damage would probably be non-existent. Anyhow, I just thought I'd share that info.

Lots to learn here, important stuff. Your doing a fine job.

Ok, I get all that, but how would you scope your power outlet?

I have that exact same model of variac. I also own a device called a one-AC line viewer, which is a transformer you plug in the wall and has isolated BNC outputs to hook to your scope to view Hot, Neutral, and Ground. More recently I purchased a fluke scope meter, model 99B I believe, but mostly because I needed a portable and battery operated scope but the isolation is icing on the cake as I work on high power broadcast transmitters.
Anyway thanks for the informative videos, nothing here I didn't already know but many others don't and it could save a life, or a scope at least...

Very informative video, thank you for posting it. I have an old Variac that has an input and output, each has only two prongs of the same width, and no ground pin. The diagram you drew of your Variac shows the "hot" side connected to the Variac transformer windings and the "neutral" going straight through. Since both prongs of my Variac are the same width, is there a potential functional problem or safety hazard if the prong connected to the Variac windings is plugged into the
"neutral" of my wall outlet?

I just got a topaz isolation transformer. Heavy! I'm considering installing this in my van conversion as I am running audio gear. This video is eye opening. Thanks!

The best video on isolation transformer

Hi Paul. Great video. Do you think you can do a video specifically on best practices for slowly bringing up some old tube based electronics with a Variac/isolation transformer? What do you check for (other than things going up in smoke)? How quickly do you bring it up, etc? I know for amps you often remove all the tubes except for the rectifier tube. I know every situation is unique but maybe there are some general procedures to follow?

My neutral rail is earthed with a screw into the concrete wall in my fusebox. When my house was built only the cooker and the fridge were even attatched to that earth and the wall sockets had no earth panel in them.

Should I always use a isolation transformer with a variac? If so, which comes first? Wall- isolation-variac?

Thanks Paul for a very clear explanation on this very serious matter.

Thanks for this great video. I worked in the TV repair field in the 70's and then eventually went into the electronics field in the 80's to early 90's but I can't remember what we did back then to prevent this issue with scopes. Did scopes change in recent years regarding grounding? I used primarily Tektronix scopes. Maybe I just automatically used a ground adapter and never put much thought to it. Thanks for all you do to educate us.

I (and probably lots of other people) would love to see you demonstrate the USE of a variac. People often talk about powering up vintage gear with a variac, bringing up the AC power to the vintage gear slowly (how slowly?) I'd like to see a demonstration of this, along with an explanation of why it is being done (allowing capacitors to reform?) I have been told that doing this helps to keep from damaging the vintage gear. Could you demonstrate this process and shed some light on what precisely is going on?

And that is why seasoned service people install ground rods and ground halo, and separate neutral and earth in their mains drop. It also adheres to electrical code, which is good. Well maybe not in California, but, hey..... seasons greetings to you mr. Carlson!

Nice Video!
I've a B&K 1655 isolation supply. It also shows running a ground from chassis of the device under test back to the Isolation Supply. The manual of this unit also gives a lot of info on the dos & don'ts and specifically warns of many of the concerns shown here and not to run the test equipment thru the isolation supply. You can d/l the manual is one wishes to print a hard copy. If you go to the B&K precision site you can download the manual for the 16655A. For some reason I am not able to paste the link here. -Bob

Man, i´m always impressed by that opener in total view....:)

I use a Sencore PR570 that incorporates an isolation transformer a variable control and a current limiting adjustment from 0 to 4 amps. The device that I work on is only connected to the isolation system not my test equipment. However, your video prompted me to test my very expensive Sencore SC3100 scope, that to my amazement is grounded to the chassis like most scopes you discussed. It never occurred to me that mine would be one of them considering the fact that it can measure 2000 volts peak to peak with the specialty probe that must be isolated because I have measured the RF voltages directly from the horizontal output transistors and analyze the waveform that average 1500 volts peak to peak from the older sets. Still, I am not impressed since they claimed it was safe to measure where most scopes would blow apart under that type of stress load.

Paul, I want to first thank you, for all of your informative videos. Thank you, so much , for explaining about modern day ISOs. I own a VIZ isotap model WP-26A 400va. This was a gift, from an older tech. I seem to be unable to find any literature or manual, for the ISO. If by chance, you or your subscribers have any information, I would be rather grateful. If you have one of these older ISOs, maybe you could do a tutorial... Thank you, so very much and Happy New Years.. Cheers!

Can you explain why in an arcade cabinet running a monitor that requires an isolation transformer still had the earth ground connected on both sides of the transformer? I have other people telling me that you have to have earth ground connected on both sides. They tell me I should have my isolation transformer connected to earth ground when I am working on a monitor outside of the cabinet. I am 99% sure they are wrong.

Good tip with the isolation transformer, I've never seen one with the ground connected through!** I also don't like seeing a double outlet on there. One ground on one piece of equipment, and the isolation to the other outlet is removed.
**well not with test type isolation transformers. Construction site ones are different

How good the connection is between earth and neutral depends on the earthing system used. In my country there is three systems in use, those are IT, TT and TN-C-S. Thank you for an informative video. I just restored the grounding on my second hand Tektronix 475A, the previous owner had just broken of the grounding prong.

paul,
I completely agree with commentator TRX Bench.
A transformer like the one you are showing is a deathtrap. Here (not often) this sort of transformer is used for the lighting and plugs in bathrooms and such. Our electric code specifically states that NO EARTH connections can be in the secondary circuit (for obvious reasons)
Of course if your country uses that 'split phase' system, this adds to the confusion, so much so, that one ends up with polarised leads on AC!
The mind boggles!
Cuddles!!
Paddy

Hey Paul, I saw your build of a line share/isolations project and it inspired me to build yet another piece of test equipment for my lab, Looks like it will go on the wall like yours did just to meet roon-issues. QUESTION: Would you comment on my plan to use the primary windings back-to-back from two MOTs? I would be the only tech in my lab but, looking ahead, I would enclose my build in plexi-glas for safety sake. I would like to know what you think. It's all limited to 120v even though MOTs make it all sound over-the-top.

That looks like a medical grade isolation transformer Paul. That is typical wiring for these I believe.
I use a Sencore PR-57 isolation/variac for my bench work. I bought it on ebay years ago and had to open it up to repair the switch bank for the different display modes. I honestly didn't even look to see how the thing was electrically wired for the output. I think I'll do that now. But I don't see why Sencore would wire their unit as your example is. But who knows...
Thanks for the heads up and Merry Christmas to you and your family!
Love your videos.
Tom

Can a Powervar ABCEG251-11 UPS with 10 volts normal let through and less than 0.5 volts neutral-To-ground be considered an isolation transformer? Or, can it be disassembled and the parts be used to create one? Do you have a video on building one?

Great safety video, and as always, very understandable. Hope you and your family have a fantastic Christmas and New Year. Regards Bob (UK)

Paul, thanks for yet another informative and well-presented video. Maybe you can help me, either with my thinking or with my technique. I recently came into two identical transformers scrounged from backup UPSs and experimented with wiring the two 24VAC secondaries back-to-back, thus creating, at least in my mind, a 1:1 transformer. I grounded the receptacle ground lug and the metal cabinet to the line cord ground conductor. So far, so good: 120VAC input, 118VAC output at the receptacle. In my mind I now have "floating" 120VAC at the receptacle and continuous earth ground back to the breaker panel, but the voltmeter says otherwise.
When I measure from the "hot" receptacle lug I read 41VAC to ground, and 19VAC from the "neutral" lug to ground. I don't quite understand how a supposedly "isolated" transformer secondary is referencing to ground. All this is predicated on my assumption that by wiring the two secondaries back-to-back, I created a 1:1 transformer. Here's hoping my explanation is clear enough and you or your readers can shed some light. Thanks again.

Thanks for the informative video.
Here's a thought for you:
You have an oscilloscope and a function generator plugged into a power strip and you routinely check your wave form by directly plugging one into the other with a bnc. we all do it, no problem...
Now you change out your fancy new generator for an older tube based one that has a non polarized plug, the transformer is center tapped to chassis ground.You are about to plug it into the power strip...
You''ve got one question to ask yourself punk. Are you feeling lucky? Well, are you?
The greatest piece of safety equipment in the shop is resting on top of your shoulders.
Be safe you all.

Life saving (probably) information. Thank you.

I've been learning about isolating for safety.
I understand that in using a 'scope, many times you connect both the tip and the ground of the probe to each side of a component to see the effect of the component. In that case, you are connecting the ground to the hot side of the circuit, which of course, causes the safety problem.
So... if I'm going to be "safe" about this, I have to eliminate the ground from the test unit, or the oscilloscope.
It makes sense to eliminate the ground from the guitar amp that I am working on, and keep the 'scope grounded.
"If" I am understanding the situation correctly, couldn't I simply use a common power strip with the ground pin removed to achieve the desired effect? As opposed to buying, or building, an isolation box? A box that, as you show here, still references ground.
Thanks for your awesome videos!
Jeff

The only way that light bulb lit up at 8:28 is if there is a direct connection on the secondary between the neutral and ground. Current path is from secondary "hot" to bulb to scope ground to service panel to secondary ground and then through secondary coil to "hot" to bulb.

I build an isolation transformer from two UPS transformers. But still, my voltmeter shows a voltage between secondary and ground in primary ~80V. Also voltage indicator lights up when I probe secondary. There is no resistance between primary and secondary windings transformers looks good. Maybe it is parasitic capacitance? If so how to get rid of it?

I use a Variac to control the motor speed of a motorized impeller and it works well (zero speed to full speed).
Would it make any difference how the motor start/run capacitor is wired into the Variac? One side of the capacitor could be wired to the input hot lead on the Variac, or it could also be wired to the output tap on the Variac. Not sure if it would make any difference.
I am also thinking about using an isolation transformer in conjunction with the Variac. Thanks.

I have used that short cut with both isolation trans formers and vairacts. OK then what is the proper way to protect your self? Isolate the whole bench from ground? ie suspended ground in the fuse box or junction box?

This a great subject and I can relate to it. I was working on a project in the military and was using a variac and a scope. I blow up the ground and I should have know better.

I used to work with an old guy who always came to work with one rubber glove........he used to put the DUT on the Variac and always wore one rubber glove and stand one the rubber floor mat under his bench.........he lived to a ripe old age.