boomerdude,
Glad to hear you were able to solve the problem!
🙂Also, kudos to you for posting your solution to your problem so that if someone else has a similar problem, your thread can help them diagnose their problem.
As a side note, if any of you are either Electricians or have a DMM which is designed for being used by Electricians, a common feature is a "Low-Z Voltage" function in addition to the normal voltage function. "Low-Z" means that it presents a much lower resistance when placed in a circuit to measure voltage. A typical DMM voltage input has an impedance (resistance) of about 10 million ohms! Meaning that when you put it across a 12V source, the current which flows is 1.2 MILLIONTHS of an ampere (1.2 micro-amps), from Ohm's Law. In most cases, this won't cause a noticeable voltage drop in other devices/connections on the circuit, so it appears to indicate that all of the voltage is there. Just like you observed.
But the "Low-Z" function usually has a resistance of just a few thousand ohms, meaning that the current which flows will be in the THOUSANDTHS of an amp range (probably around 4 milli-amps with a 12 Volt battery). This is over three thousand times as much current as on the Hi-Z voltage scale and will often indicate faults similar to what you observed. For electrical circuits, it's not uncommon for "phantom" or "ghost" voltages to sometime appear at a point in circuit. This could be due to parallel lines running next to each other, one powered, the other not. A variety of other reasons, but the point being, if you measure such a point with a normal DMM voltage input, it will indicate that a voltage is present. Put the meter on Lo-Z and the voltage usually "disappears", hence the "ghost" and "phantom" nomenclature. The added resistive load of the meter causes the voltage to be "dropped" by other components in the circuit, and thereby tells the technician that what they are measuring IS NOT a live voltage source. In your case, it would probably have shown something like 0-10 volts, depending upon the resistance of the corrosion at the connection. But it most likely would NOT show you the 12 volts the Hi-Z voltage scale shows.
Here's a Youtube video showing the Lo-Z function in operation on an AC circuit:
How to Determine if a Voltage is real or a "ghost". (NOTE: on the second power strip, the ground has a fault (open) and is therefor NOT connected to true ground. That's why there is a "phantom" voltage showing up from ground to hot, instead of the expected 120V normally seen.)
And this is from Fluke's website on
Dual Impedance Voltmeters.
Ok, probably way too much info, but maybe it was helpful for some of you techies!
~Rick
2005 Georgie Boy Cruise Master 3625 DS on a Workhorse W-22
Rick, Gail, 1 girl (27-Angel since 2008), 1 girl (22), 2 boys (23 & 20).
2001 Honda Odyssey, Demco Aluminator tow bar & tow plate, SMI Silent Partner brake controller.
