@@AnotherMaker This will be the right experiment. One electrode (positive) is connected to the metal part of the tool and the second electrode (negative) is connected to a container of water. Immerse the insulated handles of the tool into the water and measure the resistance. If there is damage (cracks) in the insulation, then the megohmmeter will show low resistance. This is a fairly accurate way. Naturally, be careful when working with high voltage. Good Luck,sincerely.
I don't understand the difference in the "Multiple points of failure" test. Both multimeter and insulation tester detect continuity. What is the difference?
it is possible that a "normal" continuity test will tell you if something is shorted because it doesn't have enough current or a high enough voltage to detect the short.
Your multimeter tests continuity with a few volts and pretty much no current which won't reveal any issues you might experience under actual live conditions (where your voltage might be anything from 110V up to 400V depending on your country and grid).
How would you replicate the water tray experiment in the real world, say an outdoors cable has snagged and ends up surround by moisture collected in the conduit. Would you stick the ground probe on a nearby ground terminal of straight into the soil? Would you then expect to get way less than 5.5 GOhm?
Connect it to the conduit, if metal and then one of the cable leads. Or the ground lead in the cable run, or between the neutral and line with the devices disconnected. Anything less than 2M Ohm may cause problems. Anything much lower than that will cause problems.
An ignition circuit on your car produces between 30-40KV. It’s annoying when you’re zapped by one, but not that bad. A zap from static electricity is usually around 5KV. It’s not the voltage that does the damage. It’s current.
@@AnotherMaker Well I'm not fully sure how they function, my fear is that a megger made for more robust wires, 230V AC here in Europe maybe would damage wires in the 12V system?
I testing diesel (piezo, etc ) injectors in automotive diagnostics because specially with misfire and if u use multimeter resistance is ok but when I use this 501 insulation tester LOL shorted not fully injector .@@MaN2Mega
You test the meter is working correctly by pressing the test button test leads apart you should get a zero reading short the lead together press test you should get full scale deflection. This tells you the meter is working correctly .
@@AnotherMaker those UNI-T test are fantastic for learners and apprentices. Just starting out . Once they have experience they can upgrade to one of the big brands like fluke
The uni-t 501 reads megger ohms on the 250v and 500v range , not gig ohms, the minimum acceptable value for insulation resistance is >1 magohm ie greater than 1 Megohm the maximum that tester can display is ol = over limit or l = over limit ie full scale deflection. On new installations we expect to see full scale deflection .
dont know how you are supposed to test isolation in your country, but in france, isolation tests are never done between live and neutral wires. Tests are only done between neutral and earth, live and earth and finally between live wires in industrial electrical setup.
@@AnotherMaker in "real world" you have terminal components plugged between live and neutral (computer, light bulb...). it's not advisable to inject 500+vdc even with low current. Only revelent test that should be done between live and neutral is a short circuit test with ohm multimeter.
Are these not common for electricians to use in the US when she went installation certificate? Certify? It’s good or not? Because the way these comments are peoples seem to think it’s revolutionary to check an electrical installation is safe
Thanks for those examples! Seeing these with my own eyes was very educational!
Ahh. Thanks for watching. Glad it was helpful. TBH, I learned a lot making it.
It's not "zero" L, it's "O"L for "Open Loop" in continuity & "Over Limit" when in range.
Yes you can use it with out the other
If you get the UT526 it has continuity built in, and also tests rcds. It's a bit more money but a much more complete and useful meter.
Awesome. Good to know. Thank you.
8:36 Таким методом,с помощью ванны с водой можно измерять сопротивление изоляции рабочего инструмента- кусачек,пассатижей и отвёрток. Хороший способ.
That sounds like a fun experiment.
@@AnotherMaker This will be the right experiment. One electrode (positive) is connected to the metal part of the tool and the second electrode (negative) is connected to a container of water. Immerse the insulated handles of the tool into the water and measure the resistance. If there is damage (cracks) in the insulation, then the megohmmeter will show low resistance. This is a fairly accurate way. Naturally, be careful when working with high voltage. Good Luck,sincerely.
I don't understand the difference in the "Multiple points of failure" test. Both multimeter and insulation tester detect continuity. What is the difference?
it is possible that a "normal" continuity test will tell you if something is shorted because it doesn't have enough current or a high enough voltage to detect the short.
Your multimeter tests continuity with a few volts and pretty much no current which won't reveal any issues you might experience under actual live conditions (where your voltage might be anything from 110V up to 400V depending on your country and grid).
do you have a copy of calibration certicate, can i get a copy?
Thank you!!
Es normal ese ruido a chispa que larga el megohmetro?
How would you replicate the water tray experiment in the real world, say an outdoors cable has snagged and ends up surround by moisture collected in the conduit. Would you stick the ground probe on a nearby ground terminal of straight into the soil? Would you then expect to get way less than 5.5 GOhm?
Connect it to the conduit, if metal and then one of the cable leads. Or the ground lead in the cable run, or between the neutral and line with the devices disconnected. Anything less than 2M Ohm may cause problems. Anything much lower than that will cause problems.
Would it be ok to use it on fire alarm circuits to find a ground fault? Power 12-24 vdc and data 6-20 vdc. Thank you.
An ignition circuit on your car produces between 30-40KV. It’s annoying when you’re zapped by one, but not that bad. A zap from static electricity is usually around 5KV. It’s not the voltage that does the damage. It’s current.
Absolutely.
Is this megger appropriate for the automotive 12V system ?
Yes, I don't see why not.
@@AnotherMaker Well I'm not fully sure how they function, my fear is that a megger made for more robust wires, 230V AC here in Europe maybe would damage wires in the 12V system?
Its' fine for testing wiring but be careful nothing is connected first.
I testing diesel (piezo, etc ) injectors in automotive diagnostics because specially with misfire and if u use multimeter resistance is ok but when I use this 501 insulation tester LOL shorted not fully injector .@@MaN2Mega
Good stuff men
I ONLY JUST learned about this...
And it just may be what I need because I have a 3 phase motor that may have an insulation leak.
5:04 It says >5.50G ohms
Good call :)
Is the Insulation Resistance tester emitting DC or AC voltage?
I believe it can do both
The 500v test is performed I DC.
You test the meter is working correctly by pressing the test button test leads apart you should get a zero reading short the lead together press test you should get full scale deflection. This tells you the meter is working correctly .
Good tip. Thank you!
@@AnotherMaker those UNI-T test are fantastic for learners and apprentices. Just starting out . Once they have experience they can upgrade to one of the big brands like fluke
you mean the opoosite??
The uni-t 501 reads megger ohms on the 250v and 500v range , not gig ohms, the minimum acceptable value for insulation resistance is >1 magohm ie greater than 1 Megohm the maximum that tester can display is ol = over limit or l = over limit ie full scale deflection. On new installations we expect to see full scale deflection .
You seem to know a lot about this. I really appreciate the tips.
@@AnotherMaker yes I have been an electrician for a little over thirty years . I am in UK 🇬🇧
dont know how you are supposed to test isolation in your country, but in france, isolation tests are never done between live and neutral wires. Tests are only done between neutral and earth, live and earth and finally between live wires in industrial electrical setup.
What's the downside of testing between live and neutral?
@@AnotherMaker in "real world" you have terminal components plugged between live and neutral (computer, light bulb...). it's not advisable to inject 500+vdc even with low current. Only revelent test that should be done between live and neutral is a short circuit test with ohm multimeter.
Does that little device really can produce 1000V? isn't that dangerous? What would it do if you connect a varistor in there? :)
I think it really does 1000v. The varistor sounds like an interesting experiment.
Even the much cheaper BM500A will do 1000V; "TheHWCave" has a review/safety discussion of that one.
It's 1000v at about 1mA of current. So very little energy, but enought to give you a surprise shock.
It's 1000v DC not AC so it makes a difference.
Are these not common for electricians to use in the US when she went installation certificate? Certify? It’s good or not? Because the way these comments are peoples seem to think it’s revolutionary to check an electrical installation is safe