turbo,
Man this is a hard way to have a conversation!
Ok, We have chosen some poor words and picked some poor ways to get across our thoughts. Sheesh, what a can of worms I opened!
Let me say that I have never used and do not plan on using a GFCI anytime soon for my tanks. Kitchens & bathrooms, yes because code requires it.
Again, my statement that started all of this was as I had be told be an electrical contractor (several years ago) also I red it a couple of years ago in an article: <BLOCKQUOTE><font size="1" face="Verdana, Arial">quote:</font><HR>Some hobbyists with engineering knowledge have correctly pointed out that grounding the aquarium may create a hazard for the aquarist, irrespective of any beneficial effect on the tankââ"šÂ¬Ã¢"žÂ¢s inhabitants. The wire leading from the water to a ground on a nearby electrical circuit provides a path for current to flow in the event of an accident, such as a heater breaking or a light fixture falling into the water.
Further, the ability of a ground fault circuit interrupter (GFCI) circuit breaker to interrupt the power flow in such an accident situation is thwarted by grounding the tank. Either problem is clearly a good reason not to ground the tank or to make absolutely certain all power sources are disconnected before putting oneââ"šÂ¬Ã¢"žÂ¢s hand into the water.<HR></BLOCKQUOTE> Like I said, it seemed to make sense to me. Furthermore, since I do not use a GFCI around my tanks I did not pursue it any further. All of this and my recent research makes me question that, at least a bit. A simple test would answer that question though!
OK on to some of the confusion. You said; <BLOCKQUOTE><font size="1" face="Verdana, Arial">quote:</font><HR>The GFCI wants to see 120v on the hot & 120v on the neutral, if it doesn't see that it will trip.<HR></BLOCKQUOTE> I still disagree with this as it is written. In home AC wiring the black (line) wire carries voltage and that is it. The white (neutral) wire (sometimes called return) is just that, "Neutral" it carries no voltage, so to speak, it completes the circuit. In a home with a grounding rod driven into the ground, the neutral and the ground from the grounding rod are connected together inside the breaker box. I know this for a fact as I just did it on Dec 15 when my meter box burned out. Per electrical code and the scrutinizing inspections of the city inspector, to meet code on the new 200amp service feed I had to drive a ground rod (this is a very old house) and run it to my breaker box, tie it into the common (neutral) bar there and also run it up into the meter box and tie it directly into the common line that ties to the city power feed lines from the pole. Yes I did this, I did not pay someone else to do it, so I know exactly what and how it was done.
So my point is, is that there is no 120volts in the neutral line for the GFCI to compare to.
As for AC Voltage. It gets to me every time that someone says "it goes both way" That and I figured you were using this to substantiate the fact that there was voltage coming back from the neutral wire, made me grab at something real quick on the way out the door to get you to do some thinking and hopefully digging. And it did.
AC voltage alternates, its charge from positive to negative 60 time a second here in the US, ie: 60 cycles or 60 hertz. However, the actual flow of the electricity that does what we need it to do is in one direction. It enters our house via Line (black wire) and flows through our load (light, motor or whatever) where the voltage is used and the circuit current (not voltage) flows out the neutral wire.
Now (after digging into it) I understand the basic principle that the GFCI works on. It compares current (not voltage) on the line and load sides. What needs to be understood here (and this is why I disputed most of what you have said) is that voltage drops at the load source. So, 120volt into a light bulb, the light bulb burns and, zero voltage out. (well actually it is < 0.5 volts if I remember correctly) in other words all the voltage is used. However, Current stays the same throughout the circuit. Before, at and after the load current is the same for the given circuit. The GFCI compares the current before and after the load and looks for a variance. If that current variance is more than 5mA, then it trips. That makes me Q what I have been told and read about GFCI's and grounding probes in tanks, but I will still investigate that further.
Now on a couple side notes. hehehehehe
You said: <BLOCKQUOTE><font size="1" face="Verdana, Arial">quote:</font><HR>Due to the natural high resistance of the human body, it's going to take some amps to push that voltage through.<HR></BLOCKQUOTE> Actually the human body has very low resistance and it a very good conductor.
Take a look at ohms law:
E = I x R
E --- volts
I --- current in amperes
R --- resistance in ohms
To find voltage: E = IR
To find amperage: I = E/R
To find ohms: R = E/I
If voltage remains constant, the current flow goes down if the resistance goes up.
That is why insulators and non-conductors do not flow electricity, they have high resistance. However, we have very low resistance, that is why we can get electrocuted so easily. If we had high resistance, electricity would not flow through our body. We are very good conductors, all things considered. Also, remember, Current (amperage) is what hurts us, not voltage. Ever been shocked by a spark plug wire on a car?? The old ones had at least 30,000 volts in them, the new ones are up to 80,000 volts, but there is no amperage.
BTW, in your quote of the GFCI page you omitted a word. I;m sure thinking it was a typo on their part. In all actuality that word you omitted is very important and when I read the actual page It made sense and went back and re-read your quote of it and noticed that you omitted a word that helped me understand the whole thing.
You quoted: <BLOCKQUOTE><font size="1" face="Verdana, Arial">quote:</font><HR>"A GFCI is a ``ground-fault circuit interrupter''. It measures the current flowing through the hot wire and the neutral wire. <HR></BLOCKQUOTE> The actual page said: <BLOCKQUOTE><font size="1" face="Verdana, Arial">quote:</font><HR>A GFCI is a ``ground-fault circuit interrupter''. It measures the current current flowing through the hot wire and the neutral wire.<HR></BLOCKQUOTE> It doesn't just measure current, but monitors and measures current at that particular moment. ie current current.
Here is one of the reasons I do not use a GFCI on my tanks: <BLOCKQUOTE><font size="1" face="Verdana, Arial">quote:</font><HR>Subject: Where shouldn't I use a GFCI?
GFCIs are generally not used on circuits that (a) don't pose a
safety risk, and (b) are used to power equipment that must run
unattended for long periods of time. Refrigerators, freezers,
and sump pumps are good examples. The rationale is that GFCIs
are sometimes prone to nuisance trips. Some people claim that
the inductive delay in motor windings can cause a momentary
current imbalance, tripping the GFCI.<HR></BLOCKQUOTE>
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Happy Reefing,
Michael
Aquaria Central
Learn from the mistakes of others, Life is too short to make them all for yourself!
An ounce of prevention is worth a pound of cures.
