Almost all analog meters on the market are in the oder of 10's of Kohms / Volt. My Triplett 630, a very typically rated industry standard analog meter for example is 10-20K/V on DC and 5-10K/V on AC volts. The most sensitive analog meter I've ever owned (and from memory, saw) was rated at 100Kohms/V.
Those that are higher are FET input meters and they are NOT rated in ohms/volts, as the impedance is no longer based on the meter movement. My Tandy FET analog meter is 10Mohms fixed on DC volts, and non-FET input on AC, rated once again in 10's of K per volt.
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Only if you don't know how to interpret the better meter. Its a dumbed down toy for wire pullers. I've seen too many over the years that couldn't find an open neutral, or bad connection unless it was on fire.
If you are reading 83 volts, either it is a phantom voltage, or you have a 40 volt drop in a 120 volt circuit, or 160 volt drop in a 240 volt circuit, which is damn unlikely. If you can't see this, you don't know what you're doing.
The appropriate tools start with a well trained brain. Otherwise, you are a monkey throwing crap at the problem.
If is working with what you described, it certainly won't be 'low impedance', because the the current flow required, times the voltage being read would be so high that the meter would need to be in a 55 gallon drum of transformer oil, and able to dissipater several kilowatts. All this would weigh several hundred pounds.
My experience is a broadcast engineer, (The largest was at a 5 MW UHF TV site.) industrial electrical work, and specialized electronics that you'll never see, without going to the International Space Station.
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So, you don't use current transformers or clamp on AC ammeters?
If you are working in dangerous locations without the proper training you are likely to die. If you are properly trained, the company supplies the proper equipment needed to do the work. If you work for some fly by night schlock outfit without proper training an safety equipment OSHA won't collect a cent, because the owners will flee the scene before they arrive, and have nothing worth seizing, anyway. the last time I heard of someone working with HV dying, it was a nine bucket that was working in Florida to help restore service after hurricanes, when some idiot hit it when the crew was on its way home, and cause it to roll off I-75 in North Florida.
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You weren't discussing, you are posting old wive's tales. Power generation has nothing to do with portable meters. Current transformers and voltmeters are permanently installed at each generator so the can monitor and balance the load on each alternator.
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"Michael A. Terrell" wrote in news:rOWdnQ1TB4W1kOHUnZ2dnUVZ snipped-for-privacy@earthlink.com:
And both extremly impressive too, yet apparently in disagreement.
I don't think that high an experience is needed to understand this anyway, I learned it at 14 when an aging friend of the family taught me how to build my own (and first) multimeter.
Ohm's law.
And a bit of awareness of insulation strength when high volts are involved.
If you're using a low resistance input you might have to take it into account for accurate measurements but on mains, the error is small, so it's worth keeping inputs resistance low for meters dedicated to such systems, for reasons plenty of posts have explained, so I won't flog that horse now.
If you have strong insulation, you can probe an HV circuit without trouble, just make sure you understand what the meter says. If a meter designed to tax the system as lightly as possible says 83V it means 83V, the problem isn't the meter, you just have to know enough to interpret the truth it tell you. (Mike Terrell got this one right). If you also need to know current through the same meter, you could do it by measuring small voltage across a part of one conductor, then measuring resistance of that part after removing power. Most current meters just do this internally anyway, but they 'know' the resistance of their shunts so they calculate correctly anyway.
So the question isn't who is the most experienced, it's who is right? And take care, because if two people with real experience start arguing over something as basic as Ohm's law, they'll do each other's reputation harm, as well as making it hard for newcomers to trust what they read here.
It should be clear the discussion is about high available fault current - the current you get when the source is short circuited. This is a really basic concept in design and protection of high current AC power circuits. (But it may not be something you have run across.)
High available fault current can result in arc flash. Arc flash can result in major injury and death in addition to major equipment destruction. Arc-flash is estimated to kill 200-300 people a year. OSHA has made arc-flash an issue. Safety protection may require wearing an arc-flash suit.
One of the smartest electricians I know was seriously injured by arc flash. And it was through an equipment failure - he made no mistake.
The issue I raised is appropriate meters. As I wrote above, the IEC has measurement Categories I-IV. If working in high energy locations, like panel boards and services, the appropriate meters are Cat III and IV. These meters are designed for the riskier environment and have better transient withstand and fusing.
My analog Triplett 310 has a glass fuse. I have a Beckman digital that has a similar fuse. They might be safe in Cat I. My Fluke is rated Cat III and IV. That includes transient withstand well above the nominal voltage rating and high interrupt capacity fuses.
OSHA might be real displeased if the wrong meter was used. And when OSHA is unhappy you might be unhappy.
If you didn=92t assume everyone else was an idiot you might actually learn something. (But probably not Archimedes.)
How about high harmonics on the neutral of a three phase service in an office or server room? Do you know why the neutral has to be larger than the supply lines? This has been well documented for over 25 years. Buildings wired to earlier NEC codes have had major electrical fires.
All easy to troubleshoot, if you have common sense and a true understanding of electricity. Try working in a 'zero downtime' job sometime, where you may only have seconds to find a problem to avoid costly repairs, or expensive damage to the entire facility rather than simple monkey work where you can spend hours or days tracking down a problem. Places where preventative maintenance can save lives.
So can I. I've done it for over 40+ years.
Sure you are. Yet you can't figure out how to do it without a dumbed down tool.
I followed the thread, even though it loops in multiple, ridiculous circles. Either you can work with available tools, or you need your hand held, and your mommy to wipe both ends for you.
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There are two kinds of people on this earth:
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The problem is with transient voltage. I have seen event logs with transients of over 3KV. That will blow that homemade heathkit meter to hell. If you are holding it you will continue life with a pair of stumps.
You do not know anything about working with mains power...stick with your radio shack electronics kit.
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